* LTC.LIB 01/08/2007
* RELEASE 01.08.07
* A library of Linear Technology SPICE subcircuit definitions
*
* This library of macromodels is being supplied to LTC users as an
* aid to circuit design. While the models reflect reasonably
* close similarity to corresponding devices in performance terms,
* their use is not suggested as a replacement for breadboarding.
* Simulation should be used as a forerunner or a supplement to
* traditional lab testing.
*
* Users should very carefully note the following factors regarding
* these models: Model performance in general will reflect typical
* baseline specs for a given device, and certain aspects of per-
* formance may not be modeled fully. While reasonable care has
* been taken in their preparation, we cannot be responsible for
* correct application on any and all computer systems. Model users
* are hereby notified that these models are supplied "as is", with
* no direct or implied responsibility on the part of LTC for their
* operation within a customer circuit or system. Further, Linear
* Technology Corporation reserves the right to change these models
* without prior notice.
*
* In all cases, the current data sheet information for a given real
* device is your final design guideline, and is the only actual
* performance guarantee. For further technical information, refer
* to individual device data sheets. Your feedback and suggestions
* on these models is appreciated!
*
* Linear Technology Corporation
* 1630 McCarthy Blvd.
* Milpitas, CA 95035-7417
* voice: (408) 432-1900
* fax: (408) 324-1026
*
* Model updates are immediately posted to our website at:
*
* www.linear.com
*
* This file contains the following models:
*
* Name connections
*
* LT1001A 3 2 7 4 6
* LT1001S8 3 2 7 4 6
* LT1001 3 2 7 4 6
* LT1002 3 2 7 4 6
* LT1002A 3 2 7 4 6
* LT1006 1 2 3 4 5
* LT1006A 1 2 3 4 5
* LT1006S8 1 2 3 4 5
* LT1007 3 2 7 4 6
* LT1007A 3 2 7 4 6
* LT1007CS 3 2 7 4 6
* LT1008 3 2 7 4 6 1 8
* LT1009 1 2 3
* LT1010 1 2 3 4 5
* MD1010 1 3 4 5 6
* LT1011 1 2 3 4 5 6 7 8
* LT1012 3 2 7 4 6
* LT1012A 3 2 7 4 6
* LT1012D 3 2 7 4 6
* LT1012S8 3 2 7 4 6
* LT1013 1 2 3 4 5
* LT1013A 1 2 3 4 5
* LT1013D 1 2 3 4 5
* LT1014 1 2 3 4 5
* LT1014A 1 2 3 4 5
* LT1014D 1 2 3 4 5
* LT1015 1 2 3 4 5 6 7 8
* COMP1016 1 2 101 102 200 300 400 500
* LT1016 1 2 3 4 5 6 7 8
* LT1017 3 2 7 4 6
* LT1018 3 2 7 4 6
* LT1021-5 1 2 3 4
* LT1021-7 1 2 3
* LT1021-10 1 2 3 4
* LT1022 3 2 7 4 6
* LT1022A 3 2 7 4 6
* LT1024 3 2 7 4 6
* LT1024A 3 2 7 4 6
* LT1028 3 2 7 4 6 1 8
* LT1037 3 2 7 4 6
* LT1037A 3 2 7 4 6
* LT1037CS 3 2 7 4 6
* LTC1043 7 8 11 13 14 12 16 4 17
* LTC1047 3 2 7 4 6
* LTC1049 3 2 7 4 6
* LTC1050 3 2 7 4 6
* LTC1050A 3 2 7 4 6
* LTC1051 3 2 7 4 6
* LTC1051A 3 2 7 4 6
* LTC1052 3 2 7 4 6
* LTC1052CS 3 2 7 4 6
* LTC1053 3 2 7 4 6
* LT1055 3 2 7 4 6
* LT1055A 3 2 7 4 6
* LT1055S8 3 2 7 4 6
* LT1056 3 2 7 4 6
* LT1056A 3 2 7 4 6
* LT1056S8 3 2 7 4 6
* LT1057 3 2 7 4 6
* LT1057A 3 2 7 4 6
* LT1057S 3 2 7 4 6
* LT1058 3 2 7 4 6
* LT1058A 3 2 7 4 6
* LT1077 3 2 7 4 6
* LT1077A 3 2 7 4 6
* LT1078 3 2 7 4 6
* LT1078A 3 2 7 4 6
* LT1079 3 2 7 4 6
* LT1079A 3 2 7 4 6
* LT1083 1 2 3
* LT1084 1 2 3
* LT1085 1 2 3
* LT1097 3 2 7 4 6
* LTC1100 1 2 3 4 5 6 7 8
* LTC1100A 1 2 3 4 5 6 7 8
* LT1101 1 2 3 4 5 6 7 8
* LT1101A 1 2 3 4 5 6 7 8
* LT1102 1 2 3 4 5 6 7 8
* LT1102A 1 2 3 4 5 6 7 8
* LT1112 3 2 7 4 6
* LT1113 1 2 3 4 5
* LT1114 3 2 7 4 6
* LT1115 3 2 7 4 6
* COMP1116 1 2 101 102 200 300 400 500
* LT1116 1 2 3 4 5 6 7 8
* LT1121 1 2 3 5 8
* MD1121 1 2 3 4 5
* LT1122 3 2 7 4 6
* LT1124 3 2 7 4 6
* LT1125 3 2 7 4 6
* LT1126 3 2 7 4 6
* LT1127 3 2 7 4 6
* LT1128 3 2 7 4 6 1 8
* LT1129 1 2 3 4 5
* LTC1150 3 2 7 4 6
* LTC1151 3 2 7 4 6
* LTC1152 1 2 3 4 5 6 8 9
* LT1167 1 2 3 4 5 6 7 8
* LT1167_IN1 1 2 3 4 5
* LT1167_IN2 1 2 3 4 5
* LT1167_OUT 1 2 3 4 5
* LT1168 1 2 3 4 5 6 7 8
* LT1169 3 2 7 4 6
* LT1178 3 2 7 4 6
* LT1178A 3 2 7 4 6
* LT1179 3 2 7 4 6
* LT1179A 3 2 7 4 6
* LT1187 3 2 7 4 6 REF FB
* LT1189 3 2 7 4 6 REF FB
* LT1190 3 2 7 4 6
* LT1191 3 2 7 4 6
* LT1192 3 2 7 4 6
* LT1193 3 2 7 4 6 REF FB
* LT1194 3 2 7 4 6 REF VOS1 VOS2
* LT1195 3 2 7 4 6
* LT1206 3 2 7 4 6 8
* LT1207 3 2 7 4 6 8
* LT1208 3 2 7 4 6
* LT1209 3 2 7 4 6
* LT1210 3 2 7 4 6 8
* LT1211 3 2 7 4 6
* LT1212 3 2 7 4 6
* LT1213 3 2 7 4 6
* LT1214 3 2 7 4 6
* LT1215 3 2 7 4 6
* LT1216 3 2 7 4 6
* LT1217 3 2 7 4 6
* LT1218 3 2 7 4 6
* LT1219 1 2 3 4 5 8
* LT1220 3 2 7 4 6
* LT1221 3 2 7 4 6
* LT1222 3 2 7 4 6 8
* LT1223 3 2 7 4 6
* LT1224 3 2 7 4 6
* LT1225 3 2 7 4 6
* LT1226 3 2 7 4 6
* LT1227 3 2 7 4 6
* LT1228 1 2 3 4 5 6 7 8
* LT1229 3 2 7 4 6
* LT1230 3 2 7 4 6
* LTC1250 1 2 3 4 5
* LT1251 1 2 3 4 5 6 7 8 9 10 11 12 13 14
* LT1252 3 2 7 4 6
* LT1253 3 2 7 4 6
* LT1254 3 2 7 4 6
* LT1256 1 2 3 4 5 6 7 8 9 10 11 12 13 14
* LT1259 3 2 7 4 6
* LT1260 3 2 7 4 6
* LT1328 IN FILTER FSW GND DATA VCC MODE VBIAS
* LT1328PD A K L
* LT1351 3 2 7 4 6
* LT1352 3 2 7 4 6
* LT1353 3 2 7 4 6
* LT1354 3 2 7 4 6
* LT1355 3 2 7 4 6
* LT1356 3 2 7 4 6
* LT1357 3 2 7 4 6
* LT1358 3 2 7 4 6
* LT1359 3 2 7 4 6
* LT1360 3 2 7 4 6
* LT1361 3 2 7 4 6
* LT1362 3 2 7 4 6
* LT1363 3 2 7 4 6
* LT1364 3 2 7 4 6
* LT1365 3 2 7 4 6
* LT1366 3 2 7 4 6
* LT1367 3 2 7 4 6
* LT1368 1 2 3 4 5
* LT1369 3 2 7 4 6
* LT1394 1 2 3 4 5 6 7 8
* LT1394_MD 1 2 101 102 200 300 400 600
* LT1395 1 2 3 4 5
* LT1396 3 2 7 4 6
* LT1397 3 2 7 4 6
* LT1398 2 1 14 11 15 16
* LT1398_MD 1 2 3 4 5 6
* LT1399 2 1 14 11 15 16
* LT1399_MD 1 2 3 4 5 6
* LT1413 1 2 3 4 5
* LT1413A 1 2 3 4 5
* LT1431 1 2 3 4 5 6 7 8
* LTC1440 1 2 200 300 101 400 420 350
* LTC1441 1 2 3 4 7
* LTC1441MD 1 2 101 200 300
* COMP1442 1 2 101 200 300 350 420
* LTC1442 1 2 3 4 5 6 7 8
* REF1442 420 300
* COMP1443 1 2 101 200 300 400
* LTC1443 2 3 4 5 8 9 14
* REF1443 420 300
* COMP1444 1 2 101 200 300 360
* HYST1444 350 360 101 200 300 420
* LTC1444 2 3 4 5 8 9 14
* REF1444 420 300
* COMP1445 1 2 101 200 300 360
* HYST1445 350 360 101 200 300 420
* LTC1445 2 3 4 5 8 9 14
* REF1445 420 300
* LT1457 3 2 7 4 6
* LT1461-25 104 103 6 118
* LT1461-3 104 103 6 118
* LT1461-33 104 103 6 118
* LT1461-4 104 103 6 118
* LT1461-5 104 103 6 118
* LT1462 1 2 3 4 5
* LT1463 3 2 7 4 6
* LT1464 1 2 3 4 5
* LT1465 3 2 7 4 6
* LT1466 1 2 3 4 5
* LT1466L 3 2 7 4 6
* LT1467 3 2 7 4 6
* LT1467L 3 2 7 4 6
* LT1468 3 2 7 4 6
* LT1468N 1 2 3 4 5 (this version includes noise)
* LT1469 3 2 7 4 6
* LT1490 1 2 3 4 5
* LT1491 3 2 7 4 6
* LT1492 1 2 3 4 5
* LT1493 3 2 7 4 6
* LT1494 3 2 7 4 6
* LT1495 1 2 3 4 5
* LT1496 3 2 7 4 6
* LT1497 3 2 7 4 6
* LT1498 3 2 7 4 6
* LT1499 3 2 7 4 6
* LT1521 1 2 3 5 8
* MD1521 1 2 3 4 5
* LT1529 1 2 3 4 5
* COMP1540 1 2 101 200 300 350 400 420
* LTC1540 1 2 3 4 5 6 7 8
* REF1540 420 300
* LTC1541 1 2 3 4 5 6 7 8
* LTC1541_COMP 1 2 101 200 300
* LTC1541_OP 1 2 3 4 5
* LTC1541_REF 420 200 300
* LTC1542 1 2 3 4 5 6 7 8
* LTC1542_COMP 1 2 101 200 300
* LTC1542_OP 1 2 3 4 5
* LTC1563-2 100 2 4 6 7 8 9 11 13 15 16 ****Needs subcircuits at end of this listing ****
* LTC1563-3 100 2 4 6 7 8 9 11 13 15 16 ****Needs subcircuits at end of this listing ****
* LT1568 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116
* LT1630 3 2 8 4 1
* LT1630_MD 1 2 3 4 5
* LT1631 3 2 4 11 1
* LT1631_MD 1 2 3 4 5
* LT1632 3 2 8 4 1
* LT1632_MD 1 2 3 4 5
* LT1633 3 2 4 11 1
* LT1633_MD 1 2 3 4 5
* LT1635 3 2 7 4 6 1 8
* OP1635 1 2 3 4 5
* REF1635 1 4 7 8
* LT1636 3 2 7 4 6 5
* LT1636_MD 1 2 3 4 5 8
* LT1637 3 2 7 4 6 5
* LT1638 3 2 8 4 1
* LT1638_MD 1 2 3 4 5
* LT1639 3 2 4 11 1
* LT1639_MD 1 2 3 4 5
* LT1671 1 2 3 4 5 6 7 8
* LT1671_MD 1 2 101 102 200 300 400 600
* LT1672 3 2 7 4 6
* LT1673 3 2 7 4 6
* LT1674 3 2 7 4 6
* LT1677 1 2 3 4 5
* LT1678 3 2 7 4 6
* LT1679 3 2 7 4 6
* LT1711 3 2 7 4 101 6 133 107
* LT1712 3 2 7 4 101 6 133 107
* LT1713 3 2 7 4 101 6 133 107
* LT1714 3 2 7 4 101 6 133 107
* LT1715 3 2 7 4 144 101 6
* LT1716 3 2 7 4 6
* LT1719 1 2 3 4 5 6 7 8
* LT1720 1 2 8 5 7
* LT1720_MD 1 2 101 200 300
* LT1721 1 2 8 5 7
* LT1722 3 2 7 4 6
* LT1722_MD 1 2 3 4 5
* LT1723 3 2 7 4 6
* LT1724 3 2 7 4 6
* LT1739 4 3 17 20 18 5 6
* LT1761_18 5 4 2 3 1
* LT1761_2 5 4 2 3 1
* LT1761_25 5 4 2 3 1
* LT1761_3 5 4 2 3 1
* LT1761_33 5 4 2 3 1
* LT1761_5 5 4 2 3 1
* LT1761BYP 5 4 3 2 1
* LT1761SD 5 4 3 2 1
* LT1762 1 2 3 4 5 8
* LT1762_15 1 2 3 4 5 8
* LT1762_18 1 2 3 4 5 8
* LT1762_25 1 2 3 4 5 8
* LT1762_3 1 2 3 4 5 8
* LT1762_33 1 2 3 4 5 8
* LT1762_5 1 2 3 4 5 8
* LT1763 1 2 3 4 5 8
* LT1763_15 1 2 3 4 5 8
* LT1763_18 1 2 3 4 5 8
* LT1763_25 1 2 3 4 5 8
* LT1763_3 1 2 3 4 5 8
* LT1763_33 1 2 3 4 5 8
* LT1763_5 1 2 3 4 5 8
* LT1764 4 5 3 1 2
* LT1764_15 4 5 3 1 2
* LT1764_18 4 5 3 1 2
* LT1764_25 4 5 3 1 2
* LT1764_33 4 5 3 1 2
* LT1782 3 4 6 2 1 5
* LT1783 3 4 6 2 1 5
* LT1784 3 2 7 4 6 8
* LT1787 1 2 4 5 6 7 8
* LT1789-1 1 2 3 4 5 6 7 8
* LT1789-10 1 2 3 4 5 6 7 8
* LT1790-125 104 103 6
* LT1790-2048 104 103 6
* LT1790-25 104 103 6
* LT1790-3 104 103 6
* LT1790-33 104 103 6
* LT1790-4096 104 103 6
* LT1790-5 104 103 6
* LT1792 3 2 7 4 6
* LT1793 3 2 7 4 6
* LT1794 4 3 17 20 18 5 6
* LT1794_MD 1 2 3 4 5 8 9
* LT1795 1 2 3 4 5 6 120 130
* LT1797 3 4 5 2 1
* LT1797_MD 1 2 3 4 5
* LTC1798 104 103 6 102
* LTC1798-25 104 103 6
* LTC1798-3 104 103 6
* LTC1798-41 104 103 6
* LTC1798-5 104 103 6
* LT1800 3 2 7 4 6
* LT1800_MD 1 2 3 4 5
* LT1801 3 2 7 4 6
* LT1802 3 2 7 4 6
* LT1803 3 2 7 4 6
* LT1804 3 2 7 4 6
* LT1805 3 2 7 4 6
* LT1806 3 2 7 4 6 1
* LT1807 3 2 8 4 1
* LT1809 3 2 7 4 6 1
* LT1810 3 2 8 4 1
* LT1812 1 2 3 4 5
* LT1813 1 2 3 4 5
* LT1814 3 2 7 4 6
* LT1815 3 2 7 4 6
* LT1816 3 2 7 4 6
* LT1817 3 2 7 4 6
* LT1818 3 2 7 4 6
* LT1819 3 2 7 4 6
* LTC1841 3 2 7 4 6
* LTC1842 1 2 3 4 5 6 7 8
* LTC1843 1 2 3 4 5 6 7 8
* LT1880 3 2 7 4 6
* LT1881 1 2 3 4 5
* LT1882 3 2 6 4 7
* LT1884 1 2 3 4 5
* LT1885 3 2 7 4 6
* LT1886 1 2 3 4 5
* LT1920 1 2 3 4 5 6 7 8
* LT1920_IN1 1 2 3 4 5
* LT1920_IN2 1 2 3 4 5
* LT1920_OUT 1 2 3 4 5
* LT1962 1 2 3 4 5 8
* LT1962_15 1 2 3 4 5 8
* LT1962_18 1 2 3 4 5 8
* LT1962_25 1 2 3 4 5 8
* LT1962_3 1 2 3 4 5 8
* LT1962_33 1 2 3 4 5 8
* LT1962_5 1 2 3 4 5 8
* LT1963 1 2 3 5 8
* LT1963_15 1 2 3 5 8
* LT1963_18 1 2 3 5 8
* LT1963_25 1 2 3 5 8
* LT1963_33 1 2 3 5 8
* LTC1966 1 2 3 5 6 7
* LTC1967 1 2 3 5 6 7
* LTC1968 1 2 3 5 6 7
* LT1970 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
* LT1990 11 12 13 4 15 6 7 18
* LT1991 1 2 3 4 5 6 7 8 9 10
* LT1993-2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT1993-4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT1993-10 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT1994 1 2 3 4 5 6 7 8
* LT1995 1 2 3 4 5 6 7 8 9 10
* LT1996 1 2 3 4 5 6 7 8 9 10
* LTC2050 1 2 3 4 5 8
* LTC2051 3 2 7 4 6 8
* LTC2052 3 2 7 4 6
* LTC2053 1 2 3 4 5 6 7 8
* LTC2054 3 2 7 4 6
* LTC2055 3 2 7 4 6
* LT2078 3 2 7 4 6
* LT2078A 3 2 7 4 6
* LT2079 3 2 7 4 6
* LT2079A 3 2 7 4 6
* LT2178 3 2 7 4 6
* LT2178A 3 2 7 4 6
* LT2179 3 2 7 4 6
* LT2179A 3 2 7 4 6
* LT6000 3 2 7 4 6 8
* LT6001 3 2 7 4 6 8
* LT6002 3 2 7 4 6
* LT6003 3 2 7 4 6
* LT6004 3 2 7 4 6
* LT6005 3 2 7 4 6
* LT6010 3 2 7 4 6 8
* LT6011 3 2 7 4 6
* LT6012 3 2 7 4 6
* LTC6078 3 2 7 4 6
* LTC6079 3 2 7 4 6
* LT6100 1 2 3 4 5 6 7 8
* LTC6101 1 2 3 4 5
* LT6200 3 2 7 4 6 8
* LT6200-10 3 2 7 4 6 8
* LT6200-5 3 2 7 4 6 8
* LT6201 3 2 7 4 6
* LT6202 3 2 7 4 6
* LT6203 3 2 7 4 6
* LT6204 3 2 7 4 6
* LT6205 3 2 7 4 6
* LT6206 3 2 7 4 6
* LT6207 3 2 7 4 6
* LT6220 3 2 7 4 6
* LT6221 3 2 7 4 6
* LT6222 3 2 7 4 6
* LT6230 3 2 7 4 6 8
* LT6230-10 3 2 7 4 6 8
* LT6231 3 2 7 4 6
* LT6232 3 2 7 4 6
* LT6233 3 2 7 4 6 8
* LT6233-10 3 2 7 4 6 8
* LT6234 3 2 7 4 6
* LT6235 3 2 7 4 6
* LTC6240 3 2 7 4 6
* LTC6241 3 2 7 4 6
* LTC6242 3 2 7 4 6
* LTC6244 3 2 7 4 6
* LT6402-6 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT6402-12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT6402-20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT6411 1 5 6 8 11 12 13 14 15 16
* LT6552 1 2 3 4 5 6 7 8
* LT6553 1 2 3 4 5 6 7 8 10 11 12 14
* LT6557 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT6558 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
* LT6559 2 1 14 11 15 16
* LT6600-25 101 188 7 148 147 4 184 108
* LT6600-5 101 188 7 148 147 4 184 108
* LT6600-10 101 188 7 148 147 4 184 108
* LT6600-20 101 188 7 148 147 4 184 108
* LT6650 104 103 6 102
* LT6700_BASE 3 2 7 4 6 131
* LT6700-1 1 2 3 4 5 6
* LT6700-2 1 2 3 4 5 6
* LT6700-3 1 2 3 4 5 6
* LTC6800 2 3 4 5 6 7 8
* LTC6910-1 OUT AGND IN 27 G0 G1 G2 VPLUS ****Needs subcircuits at end of this listing ****
* LTC6910-2 OUT AGND IN 27 G0 G1 G2 VPLUS ****Needs subcircuits at end of this listing ****
* LTC6910-3 OUT AGND IN 27 G0 G1 G2 VPLUS ****Needs subcircuits at end of this listing ****
* LTC6911-1 INA AGND INB GO G1 G2 VPLUS OUTB 27 OUTA ****Needs subcircuits at end of this listing ****
* LTC6911-2 INA AGND INB GO G1 G2 VPLUS OUTB 27 OUTA ****Needs subcircuits at end of this listing ****
* LTC7652 3 2 7 4 6
* LF155 3 2 7 4 6
* LF155A 3 2 7 4 6
* LF156 3 2 7 4 6
* LF156A 3 2 7 4 6
* LF356 3 2 7 4 6
* LF356A 3 2 7 4 6
* LF412 3 2 7 4 6
* LF412A 3 2 7 4 6
* LH2108 3 2 7 4 6 1 8
* LH2108A 3 2 7 4 6 1 8
* LM101A 3 2 7 4 6 1 8
* LM107 3 2 7 4 6
* LM108 3 2 7 4 6 1 8
* LM108A 3 2 7 4 6 1 8
* LM10C 3 2 7 4 6 1 8
* LM308 3 2 7 4 6 1 8
* LM308A 3 2 7 4 6 1 8
* LM318 3 2 7 4 6
* LM318S8 3 2 7 4 6
* LT118A 3 2 7 4 6
* LT318A 3 2 7 4 6
*
* Each model is written as a subcircuit using the .SUBCKT statement, and ends
* with a .ENDS statement. There are also comment line asterisks "*" and a
* triple asterisk "***" separating each file as shown below:
*
* .ENDS LT1078
* *
* ***
* *
* .SUBCKT LT1079
*
* You can copy models and paste them into your own customized library files,
* but make sure you get everything between the * *** * separators. In most cases, it is
* simpler and more efficient to simply include the entire LTC.LIB file in your simulation
* using the .LIB command (see below).
*
* Some of our models, such as the duals and quads of a single op amp, call
* the .SUBCKT of the single, thereby nesting .SUBCKT calls. Where this
* occurs, you'll have to copy not only the .SUBCKT for the device you're
* after, but also the nested .SUBCKT. For example, if you want to copy the
* LT1101 instrumentation amplifier, you'll have to also copy the LT1078
* subcircuit from which the LT1101 is constructed. Presently, maximum nesting
* is one deep, simplifying this task, but some top-level models combine
* several subcircuits.
*
* Calls from a SPICE circuit file to a model .SUBCKT file are accomplished as
* follows:
*
* XANYNAME 3 2 7 4 6 LT1078
* .LIB LTC.LIB
*
* The device XANYNAME must start with the letter X, and can be followed
* with a name of your choice. X1, X2, X3, XOA1 XOA2, XPREAMP, XFILTER,
* XBUFFER, XGAIN10 are examples of names you can use for subcircuit calls.
*
* The node numbers DO NOT have to match those used by LTC in the .SUBCKT
* file. Only the ORDER and QUANTITY of node numbers are important. You can
* just as easily use the following pin numbering scheme:
*
* XANYNAME POS NEG 7 0 385 LT1078
*
* When SPICE calls the LT1078, nodes POS NEG 7 0 385 from your circuit file
* will be paired with 3 2 7 4 6 from the .SUBCKT in that order. You can
* pick your own names, but you can't change the order of the connections.
* For example, you can't use
*
* XANYNAME 7 4 3 2 6 LT1078
*
* and expect node 7 to be the positive supply connection. SPICE will connect
* node 7 to the first .SUBCKT node entry, the non-inverting input.
*
* The last item in a subcircuit call is the name of the subcircuit, shown
* in the examples above as LT1078.
*
* Don't forget the .LIB statement. The circuit file will use this to
* look for your subcircuit calls. In the example above, SPICE will search
* the file LTC.LIB until it finds a statement .SUBCKT LT1078. Next it extracts
* all lines that follow until it finds .ENDS LT1078. This becomes the XANYNAME
* subcircuit definition for your circuit file.
*
* If you have a complicated circuit with 2 or more different op amps, only one
* .LIB statement is necessary. For example:
*
* XPREAMP 3 2 7 4 6 LT2078
* XDRIVE 13 12 7 4 16 LT1413
* XCOMP 16 22 7 4 26 LT1413
* .LIB LTC.LIB
*
* Note that on the website and CDROM our library file now carries the version
* number (e.g. LTC36.LIB for version 3.6). This should eliminate previous
* confusion surrounding the revision number of a particular .LIB file.
*
* Macromodel connections:
*
* The LTC model library has one basic connection type.
* Almost all of the op amp models use a conventional 8-pin, single op amp
* pinout. This means the connection node numbers match the pin numbers
* on an actual "standard" 8-pin, single op amp package:
*
* CONNECTIONS: + - V+ V- O
*.SUBCKT LT1078A 3 2 7 4 6
*
* Even if the op amp is a dual, quad, or has a non-"standard" pinout
* or package, we still try to adhere to this node order and numbering system
* to denote the five pins/nodes essential to any amplifier.
*
* Some amplifiers have compensation pins, and nodes 1 and 8 are used for
* this purpose. Compensation nodes are listed after the first 5 connections:
*
* CONNECTIONS: + - V+ V- O CA CB
*.SUBCKT LM101A 3 2 7 4 6 1 8
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
*
* A few devices have other features, such as the reference on the LM10C. For
* this model nodes 1 and 8 match the pins: 1=ref out, 8=ref feedback. In
* other cases node numbers 1 and 8 may not match the physical pinout
* of the actual device, but are still used by the subcircuit to designate
* connections to the extra features. There are several cases where, to avoid
* confusion, nodes connecting to the extra features carry the pin name,
* instead of the pin number, such as REF, FB, etc.
*
* The 1006, 1413, 1014, and 1490 node connections are in the + - V+ V- O
* order, but the nodes are named 1-2-3-4-5.
*
* Several devices have unusual features or functions and do not follow the
* 3-2-7-4-6 connection convention. For these special cases the node
* connections are explained at the beginning of the model. Examples include:
*
* LT1251 video fader
* LT1256 video fader
* LT1228 OTA/CFA
* LT1100 instrumentation amplifier
* LT1101 instrumentation amplifier
* LT1102 instrumentation amplifier
*
* The whole purpose for following the 3-2-7-4-6 convention is to simplify
* swapping models within a circuit file, making it easy to compare the
* response of various amplifiers. It is important to note that when a
* model is called within a circuit file, you are allowed to name the nodes
* as you see fit; only the ORDER and QUANTITY of the connections is
* important.
*
*
* Macromodels follow:
*
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF155 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00028
GOSIT 7 12 90 80 0.00014
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.124
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1403
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1403
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00172
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=3.9655E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=3.9655E-04 VTO=-0.998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF155
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF155A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 2122.1
RD2 40 90 2122.1
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00028
GOSIT 7 12 90 80 0.00014
* INTERMEDIATE
GCM 0 8 12 0 4.7124e-9
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 42.768
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.124
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1403
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1403
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00172
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=3.9655E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=3.9655E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF155A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF156 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF156
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF156A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF156A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF356 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF356
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF356A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 28.609
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.69
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00452
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.15e-11 BETA=9.2528E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.85e-11 BETA=9.2528E-04 VTO=-0.999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF356A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF412 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 964.58
RD2 40 90 964.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.0367e-8
GA 8 0 80 90 0.0010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 24.474
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00138
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=2.75e-11 BETA=0.0010335 VTO=-1)
.MODEL JM2 PJF(IS=1.25e-11 BETA=0.0010335 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF412
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
.SUBCKT LF412A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 930.73
RD2 40 90 930.73
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.0006
GOSIT 7 12 90 80 0.0003
* INTERMEDIATE
GCM 0 8 12 0 1.0744e-8
GA 8 0 80 90 0.0010744
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 29.73
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.925
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1615
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1615
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.0012
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=2e-11 BETA=9.6199E-04 VTO=-1)
.MODEL JM2 PJF(IS=1e-11 BETA=9.6199E-04 VTO=-0.9997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LF412A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LH2108A    3 2 7 4 6 1 8 
XLH2108A 3 2 7 4 6 1 8 LM108A
.ENDS LH2108A
*
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LM108A 3 2 7 4 6 1 8 ; IN+ IN- VCC VEE OUT COMP1 COMP2
*
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8.842E+03
RC2 7 90 8.842E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
DDM1 2 3 DM2 
DDM2 3 2 DM2 
C1 80 90 5.460E-12
RE1 10 12 2.246E+02
RE2 11 12 2.246E+02
IEE 12 4 6.001E-06
RE 12 0 3.333E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 3.576E-10
GA 8 0 80 90 1.131E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 3.146E+01
* OUTPUT 
RO1 1 6 1.111E+02
RO2 1 0 8.889E+02
RC 17 0 3.533E-04
GC 0 17 6 0 2.830E+03
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.766E+00
VE 14 4 1.766E+00
IP 7 4 2.940E-04
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=5.714E+03)
.MODEL QM2 NPN (IS=8.093E-16 BF=6.316E+03)
.MODEL DM1 D (IS=1.192E-10)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM108A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LH2108     3 2 7 4 6 1 8 
XLH2108 3 2 7 4 6 1 8 LM108
.ENDS LH2108
*
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LM108 3 2 7 4 6 1 8 ; IN+ IN- VCC VEE OUT COMP1 COMP2
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8.842E+03
RC2 7 90 8.842E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
DDM1 2 3 DM2 
DDM2 3 2 DM2 
C1 80 90 5.460E-12
RE1 10 12 2.246E+02
RE2 11 12 2.246E+02
IEE 12 4 6.001E-06
RE 12 0 3.333E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 1.131E-09
GA 8 0 80 90 1.131E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 3.146E+01
* OUTPUT 
RO1 1 6 1.111E+02
RO2 1 0 8.889E+02
RC 17 0 3.533E-04
GC 0 17 6 0 2.830E+03
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.766E+00
VE 14 4 1.766E+00
IP 7 4 2.940E-04
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=5.714E+03)
.MODEL QM2 NPN (IS=8.220E-16 BF=6.316E+03)
.MODEL DM1 D (IS=1.192E-10)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM108
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LM101A 3 2 7 4 6 1 8 ; IN+ IN- VCC VEE OUT COMP1 COMP2
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 5.895E+03
RC2 7 90 5.895E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
C1 80 90 5.460E-12
RE1 10 12 2.438E+03
RE2 11 12 2.438E+03
IEE 12 4 1.506E-05
RE 12 0 1.328E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 2.689E-09
GA 8 0 80 90 1.696E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 1.401E+02
* OUTPUT 
RO1 1 6 3.333E+01
RO2 1 0 6.667E+01
RC 17 0 4.758E-05
GC 0 17 6 0 2.102E+04
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.808E+00
VE 14 4 1.808E+00
IP 7 4 1.785E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=2.439E+02)
.MODEL QM2 NPN (IS=8.220E-16 BF=2.564E+02)
.MODEL DM1 D (IS=3.337E-15)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM101A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
.SUBCKT LM107      3 2 7 4 6    ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 5.895E+03
RC2 7 90 5.895E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
C1 80 90 5.460E-12
RE1 10 12 2.438E+03
RE2 11 12 2.438E+03
IEE 12 4 1.506E-05
RE 12 0 1.328E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 2.689E-09
GA 8 0 80 90 1.696E-04
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 1.401E+02
* OUTPUT 
RO1 1 6 3.333E+01
RO2 1 0 6.667E+01
RC 17 0 4.758E-05
GC 0 17 6 0 2.102E+04
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.808E+00
VE 14 4 1.808E+00
IP 7 4 1.785E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=2.439E+02)
.MODEL QM2 NPN (IS=8.220E-16 BF=2.564E+02)
.MODEL DM1 D (IS=3.337E-15)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM107
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
* OP AMP SECTION FOLLOWS 3-2-7-4-6 CONVENTION
* 8=REFERENCE FEEDBACK
* 1=REFERENCE OUTPUT
*
.SUBCKT LM10C 3 2 7 4 6 1 8 ; IN+ IN- V+ V- OUT REFFB REFOUT
RC1 4 80 5.305E+04
RC2 4 90 5.305E+04
Q1 80 102 10 QM1 
Q2 90 103 11 QM2 
RB1 2 102 4.000E+03
RB2 3 103 4.000E+03
DCM1 105 102 DM2 
DCM2 105 103 DM2 
VCMC 105 4 4.000E-01
C1 80 90 2.598E-11
RE1 10 12 4.134E+04
RE2 11 12 4.134E+04
IEE 7 12 4.524E-06
RE 12 0 4.421E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 85 12 0 1.497E-10
GA 85 0 80 90 1.885E-05
R2 85 0 1.000E+05
C2 15 85 3.000E-11
GB 15 0 85 0 2.455E+02
* OUTPUT 
RO1 15 110 1.000E+02
RO2A 15 0 1.083E+03
RO2B 6 110 8.170E+02
EC 17 0 110 0 1
D1 15 17 DM1
D2 17 15 DM1
D3 110 13 DM2 
D4 14 110 DM2 
D5 6 110 DM2 
D6 110 6 DM2 
VC 7 13 8.075E-01
VE 14 4 8.075E-01
IP 7 4 2.955E-04
DSUB 4 7 DM2 
* REFERENCE
ER 1 4 8 200 70E3
VR 200 4 0.200
RRIN 200 4 1E9
IBR 8 4 22E-9
* MODELS 
.MODEL QM1 PNP (IS=8.000E-16 BF=1.844E+02)
.MODEL QM2 PNP (IS=8.156E-16 BF=1.907E+02)
.MODEL DM1 D (IS=2.784E-32)
.MODEL DM2 D (IS=8.000E-16 BV=4.9500E+01)
*
.ENDS LM10C
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LM308 3 2 7 4 6 1 8 
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8.842E+03
RC2 7 90 8.842E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
DDM1 2 3 DM2 
DDM2 3 2 DM2 
C1 80 90 5.460E-12
RE1 10 12 2.245E+02
RE2 11 12 2.245E+02
IEE 12 4 6.003E-06
RE 12 0 3.332E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 1.131E-09
GA 8 0 80 90 1.131E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 3.146E+01
* OUTPUT 
RO1 1 6 1.111E+02
RO2 1 0 8.889E+02
RC 17 0 3.533E-04
GC 0 17 6 0 2.830E+03
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.766E+00
VE 14 4 1.766E+00
IP 7 4 2.940E-04
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=1.875E+03)
.MODEL QM2 NPN (IS=8.643E-16 BF=2.143E+03)
.MODEL DM1 D (IS=1.192E-10)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM308
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LM308A 3 2 7 4 6 1 8 
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8.842E+03
RC2 7 90 8.842E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
DDM1 2 3 DM2 
DDM2 3 2 DM2 
C1 80 90 5.460E-12
RE1 10 12 2.245E+02
RE2 11 12 2.245E+02
IEE 12 4 6.003E-06
RE 12 0 3.332E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 3.576E-10
GA 8 0 80 90 1.131E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 3.146E+01
* OUTPUT 
RO1 1 6 1.111E+02
RO2 1 0 8.889E+02
RC 17 0 3.533E-04
GC 0 17 6 0 2.830E+03
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.766E+00
VE 14 4 1.766E+00
IP 7 4 2.940E-04
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=1.875E+03)
.MODEL QM2 NPN (IS=8.093E-16 BF=2.143E+03)
.MODEL DM1 D (IS=1.192E-10)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LM308A
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LM318S8    3 2 7 4 6   ;(+IN -IN V+ V- OUT)
XLM318S8 3 2 7 4 6 LM318
.ENDS LM318S8
*
*
.SUBCKT LM318 3 2 7 4 6
* INPUT
RC1 7 80 707.4
RC2 7 90 707.4
Q1 80 2 10 QM1
Q2 90 3 11 QM1
*
C1 80 91 300E-12
RXC1 91 90 1E3
CXC1 91 90 15E-12
C2 1 8 5e-12
*
RB1 2 102 1
RB2 3 103 1
DDM1 102 104 DM2
VZ1 104 103 5.5
DDM2 103 105 DM2
VZ2 105 102 5.5
RE1 10 12 620.9
RE2 11 12 620.9
IEE 12 4 0.0006
RE 12 0 333200
CE 12 0 2.632E-13
*
GCM 0 8 12 0 1.414e-8
GA 8 0 80 90 0.001414
R2 8 0 100000
GB 1 0 8 0 53.18
RO2 1 0 74
*
RS 1 6 1
ECL 18 0 1 6 31.72
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6473
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.6473
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 0.0044
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=1818)
.MODEL QM2 NPN(IS=9.347E-16 BF=2222)
*
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LM318
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
.SUBCKT LT1002 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1002 3 2 7 4 6 LT1001
.ENDS LT1002
*
.SUBCKT LT1001S8 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1001S8 3 2 7 4 6 LT1001
.ENDS LT1001S8
*
.SUBCKT LT1001  3 2 7 4 6    ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 6.631E+03
RC2 7 90 6.631E+03
Q1 80 102 10 QM1 
Q2 90 103 11 QM2 
RB1 2 102 5.000E+02
RB2 3 103 5.000E+02
DDM1 102 104 DM2 
DDM3 104 103 DM2 
DDM2 103 105 DM2 
DDM4 105 102 DM2 
C1 80 90 8.660E-12
RE1 10 12 1.409E+03
RE2 11 12 1.409E+03
IEE 12 4 9.901E-06
RE 12 0 2.020E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 7.558E-11
GA 8 0 80 90 1.508E-04
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 1.538E+03
* OUTPUT 
RO1 1 6 2.575E+01
RO2 1 0 3.425E+01
RC 17 0 4.228E-06
GC 0 17 6 0 2.365E+05
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.803E+00
VE 14 4 1.803E+00
IP 7 4 1.590E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=5.500E+03)
.MODEL QM2 NPN (IS=8.006E-16 BF=9.900E+03)
.MODEL DM1 D (IS=2.331E-08)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1001
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1002A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1002A 3 2 7 4 6 LT1001A
.ENDS LT1002A
*
.SUBCKT LT1001A    3 2 7 4 6   ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 6.631E+03
RC2 7 90 6.631E+03
Q1 80 102 10 QM1 
Q2 90 103 11 QM2 
RB1 2 102 5.000E+02
RB2 3 103 5.000E+02
DDM1 102 104 DM2 
DDM3 104 103 DM2 
DDM2 103 105 DM2 
DDM4 105 102 DM2 
C1 80 90 8.660E-12
RE1 10 12 1.409E+03
RE2 11 12 1.409E+03
IEE 12 4 9.901E-06
RE 12 0 2.020E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 7.558E-11
GA 8 0 80 90 1.508E-04
R2 8 0 1.000E+05
C2 1 8 3.000E-11
GB 1 0 8 0 1.538E+03
* OUTPUT 
RO1 1 6 2.575E+01
RO2 1 0 3.425E+01
RC 17 0 4.228E-06
GC 0 17 6 0 2.365E+05
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.803E+00
VE 14 4 1.803E+00
IP 7 4 1.590E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=7.692E+03)
.MODEL QM2 NPN (IS=8.003E-16 BF=1.429E+04)
.MODEL DM1 D (IS=2.331E-08)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1001A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1006     1 2 3 4 5   ;(+IN -IN V+ V- OUT)
*
C1 11 12 8.661E-12
C2 6 7 30.00E-12
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100.0E3
RC1 4 11 8.841E3
RC2 4 12 8.841E3
RE1 13 10 4.519E3
RE2 14 10 4.519E3
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL QM1 PNP (IS=8.000E-16 BF=5.955E+02)
.MODEL QM2 PNP (IS=8.009E-16 BF=6.045E+02)
.ENDS LT1006
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1006A    1 2 3 4 5   ;(+IN -IN V+ V- OUT)
* INPUT
C1 11 12 8.661E-12
C2 6 7 30.00E-12
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100.0E3
RC1 4 11 8.841E3
RC2 4 12 8.841E3
RE1 13 10 4.519E3
RE2 14 10 4.519E3
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL QM1 PNP (IS=8.000E-16 BF=6.623E+02)
.MODEL QM2 PNP (IS=8.006E-16 BF=6.711E+02)
.ENDS LT1006A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1006S8   1 2 3 4 5   ;(+IN -IN V+ V- OUT)
*
C1 11 12 8.661E-12
C2 6 7 30.00E-12
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100.0E3
RC1 4 11 8.841E3
RC2 4 12 8.841E3
RE1 13 10 4.519E3
RE2 14 10 4.519E3
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=800.0E-18)
.MODEL QM1 PNP (IS=8.000E-16 BF=5.955E+02)
.MODEL QM2 PNP (IS=8.025E-16 BF=6.045E+02)
.ENDS LT1006S8
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1007CS   3 2 7 4 6   ;(+IN -IN V+ V- OUT)
XLT1007CS 3 2 7 4 6 LT1007
.ENDS LT1007CS
*
*
.SUBCKT LT1007 3 2 7 4 6
RC1 7 80 663.15
RC2 7 90 663.15
Q1 80 2 10 QM1
Q2 90 3 11 QM2
*
C1 80 91 200E-12
RXC1 91 90 50
CXC1 91 90 500E-12
C2 8 98 4e-12
RXC2 8 98 4.00K
CXC2 1 98 2.7e-11
*
CIN 3 2 5E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
RE1 10 12 -26.233
RE2 11 12 -26.233
IEE 12 4 7.503e-5
RE 12 0 2666000
CE 12 0 1.579E-12
GCM 0 8 12 0 7.558E-10
GA 8 0 80 90 0.001508
R2 8 0 100000
GB 1 0 8 0 1917.6
RO2 1 0 69
*
RS 1 6 1
ECL 18 0 1 6 28.28
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.0909
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.0909
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 0.002625
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=1785.7)
.MODEL QM2 NPN(IS=8.0062E-16 BF=4166.7)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LT1007
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1007A    3 2 7 4 6   ;(+IN -IN V+ V- OUT)
RC1 7 80 6.6315E+02 
RC2 7 90 6.6315E+02
Q1 80 2 10 QM1
Q2 90 3 11 QM2
*
C1 80 91 200E-12
RXC1 91 90 50
CXC1 91 90 500E-12
C2 8 98 4.000E-12
RXC2 8 98 4.00K
CXC2 1 98 27.000E-12
*
CIN 3 2 5E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
RE1 10 12 -2.6233E+01
RE2 11 12 -2.6233E+01
IEE 12 4 7.5030E-05
RE 12 0 2.666E+06
CE 12 0 1.579E-12
GCM 0 8 12 0 7.558E-10
GA 8 0 80 90 1.5080E-03
R2 8 0 1.000E+05
GB 1 0 8 0 1.9176E+03
RO2 1 0 6.900E+01
*
RS 1 6 1
ECL 18 0 1 6 2.828E+01
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.0909
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.0909
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 2.625E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=2.778E+03)
.MODEL QM2 NPN (IS=8.003E-16 BF=5.769E+03)
.MODEL DM1 D (IS=1.000E-19)
.MODEL DM2 D (IS=8.000E-16)
.MODEL DM3 D (IS=1.000E-20)
.ENDS LT1007A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* NODES 1 AND 8 = COMPENSATION PINS
*
.SUBCKT LT1008  3 2 7 4 6 1 8
*
* USE C=30 PF IN MAIN CIRCUIT (CA TO CB).
* INPUT
RC1 7 80 8.842E+03
RC2 7 90 8.842E+03
Q1 80 2 10 QM1 
Q2 90 3 11 QM2 
DDM1 2 3 DM2 
DDM2 3 2 DM2 
C1 80 90 8.660E-12
RE1 10 12 2.246E+02
RE2 11 12 2.246E+02
IEE 12 4 6.000E-06
RE 12 0 3.333E+07
CE 12 0 1.579E-12
* INTERMEDIATE 
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 1.000E+05
* EXTERNAL COMP CAP USED FOR C2 (SEE NOTE ABOVE).
GB 1 0 8 0 1.960E+02
* OUTPUT 
RO1 1 6 1.000E+02
RO2 1 0 9.000E+02
RC 17 0 6.802E-05
GC 0 17 6 0 1.470E+04
D1 1 17 DM1 
D2 17 1 DM1 
D3 6 13 DM2 
D4 14 6 DM2 
VC 7 13 1.774E+00
VE 14 4 1.774E+00
IP 7 4 3.740E-04
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=6.667E+04)
.MODEL QM2 NPN (IS=8.009E-16 BF=2.000E+05)
.MODEL DM1 D (IS=4.276E-12)
.MODEL DM2 D (IS=8.000E-16)
.ENDS LT1008
*
***
*
* Copyright © Linear Technology Corp. 11/14/2005. All rights reserved.
* Pinout: POS NEG ADJ
.SUBCKT LT1009 1 2 3
RBIAS 0 12 1
IBG 0 12 1.249
ECOMP1 11 0 1 2 0.5
GTEMP 0 12 21 22 1E-3
R3 0 21 100 TC2=-4E-6
VDUM1 22 0 100
ITEMP 0 21 1
GLOAD 0 12 31 32 1.25E-3
QOUT 32 15 34 0 NPNOUT
DOUT2 34 2 DIN
ROS 31 32 100
DOUT1 1 31 DIN
RADJ2 12 13 1.57k
GGAIN 102 15 11 13 100
RGAIN 15 102 100
EVEE 102 0 2 0 1
DZ 2 1 DZ
RDUM1 2 3 1E8
CC2 1 2 4E-12
RADJ1 3 13 30k
CGAIN 15 102 1E-11
.MODEL NPNOUT NPN(BF=500)
.MODEL DIN D(IS=1E-8 RS=0 KF=0)
.MODEL DZ D(IS=1E-13 RS=0 KF=0)
.ENDS LT1009
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*LT1010CT PINOUT IN V+ V- BIAS OUTPUT
.SUBCKT LT1010 1 2 3 4 5
XBUF 1 2 3 5 4 MD1010
.ENDS LT1010
*
***
*
.SUBCKT MD1010 1 3 4 5 6
* input stage
CIN 1 99 1.4139e-12
RIN 1 99 86124000
Q1 11 2 13 Q1
Q2 12 1 14 Q2
RC1 444 11 273.59
RC2 444 12 273.59
VCMIR 444 4 DC -1.0
RE1 10 13 91.059
RE2 10 14 91.059
C1 11 12 1.2437e-12
RFB 2 16 100
EFB 16 99 50 99 1.003
IEE 3 10 DC 0.0074602
*GSR 3 10 11 12 1.2286e-003
GSR 3 10 POLY(2) 11 12 121 0 0 0 0 0 0.0012286
D1 10 3 DX
GA 60 99 11 12 0.0036551
* bias and SR control
RBIAS1 6 3 1.0E12
VBIAS1 6 120 DC 0
IBIAS1 120 3 DC 0.605
RBIAS2 3 120 1.33
FBIAS1 3 4 VBIAS1 1.0
FSR1 0 121 POLY(1) VBIAS1 1.0E-3 -0.0265
RSR1 121 0 1.0E3
FSR2 3 10 VBIAS1 0.0737
* noise voltage
GR 99 60 605 606 8.6534
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
* output stage
R2 60 99 1000000
C2 60 99 6.2599e-11
DC 53 3 DX
DE 4 54 DX
VC 53 60 DC 0.86
VE 60 54 DC 1.7324
GB 70 99 60 99 0.14286
R01 70 99 7
R02 70 50 0.1
R03 50 5 7.5
R04 5 99 1.0000e+012
ELIM1 91 0 70 50 25.906
ELIM2 92 0 70 50 21.823
DLP 91 90 DX
DLN 90 92 DX
VLIM 90 0 DC 0
FB 70 99 VLIM 20.655
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC -0.0024602
RP 3 4 150000
GV 31 0 70 50 10
DP1 3 31 DX
DP2 32 4 DX
RGV 32 33 10.0
EGV 31 33 POLY(1) 3 4 -0.8 1.0
.MODEL Q1 PNP IS=3.7926e-15 BF=48.7 XTB=-1.3209
+ XTI=5.50008
.MODEL Q2 PNP IS=2.6367e-16 BF=48.7 XTB=-1.3209
+ XTI=0.499918
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL DR D IS=8e-16 KF=8.0939e-17 RS=0 XTI=0
.ENDS MD1010
**
***
*
* Copyright (C) Linear Technology 09/13/2006. All rights reserved.
* Pinout (same as IC): GND IN+ IN- V- BAL STROBE OUT V+
.SUBCKT LT1011 1 2 3 4 5 6 7 8
DIN3 4 2 DIN
DIN4 4 3 DIN
RG1 23 0 4.5E6
GTRFOC 0 24 VALUE={MAX(0,5*tanh(V(23)))}
RTRFOC 24 0 1
CTRFOC 24 0 1E-8
ITYP 8 4 1.5E-3
DV1 56 23 DVLIM
DV2 56 0 DVLIM
GIN 0 23 VALUE={11*tanh(V(3,2)+3E-4)+1.78E-6*((((V(2)+V(3))/2)-V(4)))}
IB1 0 2 15.2E-9
IB2 0 3 15E-9
ROUT 8 7 1E9
GSTR 23 0 VALUE={10+10*TANH(100*(V(55,6)-0.05))}
CG1 0 23 2E-9
RB1 55 5 300
RB2 0 55 100
GBAL 0 23 VALUE={-10*V(5,6)}
RB3 6 55 300
GB3 0 55 VALUE={0.01*(V(8)-0.125)-4.4E-6*V(24,1)}
MOUT 11 24 1 1 NOUT
GNO 0 24 1 0 1
CEM 1 4 1E-10
CIN1 2 8 3E-12
CIN2 2 4 3E-12
CIN3 3 8 3E-12
CIN4 3 4 3E-12
COUT 7 1 5E-11
GVESAT 24 0 VALUE={10+10*TANH(5*(V(1,8)+2))}
GILIM 7 11 VALUE={MIN(5E-2,10*V(7,11))}
RDUM1 7 11 1E11
.MODEL NOUT NMOS(KF=0 KP=0.02 VTO=0.1 RD=7)
.MODEL DVLIM D(BV=3 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DIN D(KF=0 RS=0)
.ENDS LT1011
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1024 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1024 3 2 7 4 6 LT1012
.ENDS LT1024
*
.SUBCKT LT1012 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=75000)
.MODEL QM2 NPN(IS=8.003E-16 BF=150000)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1012
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1024A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1024A 3 2 7 4 6 LT1012A
.ENDS LT1024A
*
.SUBCKT LT1012A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=92310)
.MODEL QM2 NPN(IS=8.002E-16 BF=171400)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1012A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1012D 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=75000)
.MODEL QM2 NPN(IS=8.004E-16 BF=150000)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1012D
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1012S8 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=28570)
.MODEL QM2 NPN(IS=8.005E-16 BF=54550)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1012S8
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1013 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
XLT1013 1 2 3 4 5 LT1413
.ENDS LT1013
*
.SUBCKT LT1014 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
XLT1014 1 2 3 4 5 LT1413
.ENDS LT1014
*
.SUBCKT LT1413 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
C1 11 12 8.661E-12
C2 6 7 3e-11
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100000
RC1 4 11 8841
RC2 4 12 8841
RE1 13 10 4519
RE2 14 10 4519
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=8e-16)
.MODEL QM1 PNP(IS=8e-16 BF=397.4)
.MODEL QM2 PNP(IS=8.019E-16 BF=402.7)
.ENDS LT1413
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1013A 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
XLT1013A 1 2 3 4 5 LT1413A
.ENDS LT1013A
*
.SUBCKT LT1014A 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
XLT1014A 1 2 3 4 5 LT1413A
.ENDS LT1014A
*
.SUBCKT LT1413A 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
* INPUT
C1 11 12 8.661E-12
C2 6 7 3e-11
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100000
RC1 4 11 8841
RC2 4 12 8841
RE1 13 10 4519
RE2 14 10 4519
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=8e-16)
.MODEL QM1 PNP(IS=8e-16 BF=496.9)
.MODEL QM2 PNP(IS=8.012E-16 BF=503.1)
.ENDS LT1413A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1014D 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
XLT1014D 1 2 3 4 5 LT1013D
.ENDS LT1014D
*
.SUBCKT LT1013D 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
C1 11 12 8.661E-12
C2 6 7 3e-11
DC 8 53 DX
DE 54 8 DX
DLP 90 91 DX
DLN 92 90 DX
DP 4 3 DX
EGND 99 0 POLY(2) (3,0) (4,0) 0 .5 .5
FB 7 99 POLY(5) VB VC VE VLP VLN 0 2.475E9 -2E9 2E9 2E9 -2E9
GA 6 0 11 12 113.1E-6
GCM 0 6 10 99 225.7E-12
IEE 3 10 DC 12.03E-6
HLIM 90 0 VLIM 1K
Q1 11 102 13 QM1
Q2 12 101 14 QM2
RB1 2 102 400
RB2 1 101 400
DCM1 105 102 DX
DCM2 105 101 DX
VCMC 105 4 DC 0.4
R2 6 9 100000
RC1 4 11 8841
RC2 4 12 8841
RE1 13 10 4519
RE2 14 10 4519
REE 10 99 16.63E6
RO1 8 5 80
RO2 7 99 25
IP 3 4 328E-6
VB 9 0 DC 0
VC 3 53 DC 1.610
VE 54 4 DC .61
VLIM 7 8 DC 0
VLP 91 0 DC 25
VLN 0 92 DC 25
.MODEL DX D(IS=8e-16)
.MODEL QM1 PNP(IS=8e-16 BF=397.4)
.MODEL QM2 PNP(IS=8.062E-16 BF=402.7)
.ENDS LT1013D
*
***
*
*
* Version 1.97 Copyright © Linear Technology Corp. 11/1/04. All rights reserved.
*
* LT1015 is OBSOLETE:  For Information Purposes Only.  Contact Linear Technology 
* for a potential replacement.
*
* Pinout (Same as IC): INA REF INB LATCH OUTB GND OUTA V+
.SUBCKT LT1015 1 2 3 4 5 6 7 8
X1 1 2 8 6 7 4 LT1015_BASE
X2 3 2 8 6 5 4 LT1015_BASE
.ENDS LT1015
*
* Pinout: IN+ IN- VCC VEE OUT LATCH
.SUBCKT LT1015_BASE 3 2 7 4 6 107
ROUT2 6 4 1E8
CDUM1 138 4 0.01p
CDUM2 4 3 0.01p
CIBIAS1 112 0 10p
CIBIAS2 111 0 10p
CLATCH1 140 0 10p
CPROP 135 0 7e-9
CTRF 148 0 3e-9
DHYST1 108 109 DSW
DHYST2 108 136 DSW
DILIM1 114 116 DSW
DILIM2 116 115 DSW
DPROP1 125 0 DIODE
DPROP2 0 125 DIODE
DPWR1 146 126 DSW
DPWR2 127 101 DSW
DVLIM1 142 121 DVLIM
DVLIM2 123 142 DVLIM
DVLIM3 145 121 DVLIM
DVLIM4 123 145 DVLIM
EGND 102 0 101 0 1
EHYST1 109 0 118 0 1E5
EIBIAS1 113 0 3 2 100
EILIM1 117 0 116 0 100
EIN 139 0 118 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELATCH1 120 0 142 143 0.1
ELDO1 121 0 146 122 1
ELDO2 123 0 101 124 1
EOM 144 0 143 0 1
ETRF 128 0 145 0 1
EVCC1 132 0 7 0 1
EVEE1 134 0 4 0 1
EVS 147 0 146 0 1
GCMRR 0 118 137 141 1e-5
GGAIN 0 145 135 0 1
GHYST2 0 125 136 0 1
GIBIAS1 3 0 111 0 1E-6
GIBIAS2 2 0 112 0 1E-6
GILIM1 0 114 142 119 1E4
GILIM2 115 0 119 142 1E4
GILIM3 0 149 148 117 1
GIN 0 118 3 138 1
GOUT 0 142 149 144 2
GPROP 0 125 140 0 2511.89
GPSRRN 0 118 4 141 1e-5
GPSRRP 0 118 7 141 1e-5
GPWRO1 126 0 142 119 10
GPWRO2 127 0 142 119 10
IHYST2 0 108 125.594
IIBIAS 0 110 15
ILIM1 114 0 150
ILIM2 0 115 150
IOS 3 2 1e-7
ITYP1 7 0 0.033
ITYP2 0 4 0.033
IVOS 0 118 0.001
RDUM1 130 119 0.001
RHYST2 108 0 1k
RHYST3 136 0 1
RIBIAS1 112 0 1
RIBIAS2 111 0 1
RIBIAS3 110 112 10k
RILIM 119 142 0.1
RILIM1 116 0 1
RILIM2 114 0 1
RILIM3 115 0 1
RILIM4 149 0 1
RIN 118 0 1
RINCM1 137 105 1
RINCM2 106 137 1
RLATCH 7 107 1E9
RLATCH1 140 0 1
RMID1 141 132 1
RMID2 134 141 1
ROUT 144 142 1
ROX 145 0 1000
RPROP1 125 0 1
RPROP2 135 125 1.307
RPWR1 126 147 1E3
RPWR2 127 102 1E3
RSHD7 130 6 1E-4
RTRF 148 128 0.63662
RVCC 7 146 1E-4
RVEE 4 101 1E-4
RVNOI 138 2 603865
RVOM1 143 147 1
RVOM2 102 143 1
SIBIAS1 111 110 113 0 SWBIAS
SLATCH1 140 139 107 134 SWLATCH
SLATCH2 140 120 107 134 SWLATCHX
VLDO1 122 0 2.9557
VLDO2 0 124 1.8557
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(IS=1E-18 KF=0 XTI=0 RS=1E-8)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT1015_Base
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Pinout: V+ IN+ IN- V- LE GND Q+ Q-
.SUBCKT LT1016 1 2 3 4 5 6 7 8
XCOMP 2 3 7 8 1 4 6 5 COMP1016
.ENDS LT1016
*
.SUBCKT COMP1016 1 2 101 102 200 300 400 500
*
* input stage
CIN 2 1 3.5000e-012
RIN 2 1 1.0000e+005
ROFF1 301 0 1.0008e+000 TC=-4.0000e-006
ROFF2 302 0 1.0000e+000
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 3 1 301 302 1
ROFF 3 1 1.0000e+009
IBP 1 401 DC 5.1500e-006
IBN 2 401 DC 4.8500e-006
* delay stage
G1 401 20 3 2 3.0000e+000
R1 20 401 1.0000e+003
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2.2500e+001
V1N 22 401 DC -2.2500e+001
G2 401 23 20 401 1.0000e-003
R2 23 401 1.0000e+003
CD 23 401 2.8090e-012
* common mode stage
GCM1 401 19 POLY(2) 1 401 2 401 0 5.0000e-004 5.0000e-004
RCM1 18 401 1.000000e+003
RCM2 19 401 1.0000e+006
LCM 19 18 5.6841e-004
GCM2 401 20 19 401 4.7547e-005
* slewrate stage
G3 401 24 23 401 1.0000e-003
R3 24 401 1.0000e+003
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 6.8728e+000
V3N 26 401 DC -4.7326e+000
G41 401 30 24 401 1.0000e-003
R41 30 401 1.0000e+003
CR 30 401 1.0407e-011
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(2) 200 401 300 401 -1.3480e+000 5.0000e-001 0.0000e+000
E4N 401 33 POLY(2) 200 401 300 401 -1.3480e+000 5.0000e-001 0.0000e+000
* phase shifter
G5 401 40 30 401 1.0000e-003
R5 40 401 1.0000e+003
LA 40 41 6.3662e-008
CA 41 401 3.9789e-013
* latch stage
RTTL1 500 200 1.0000e+012
DTTL 501 500 DX
RTTL2 501 502 2.0400e+004
VTTL 503 502 DC 0
ETTL 200 503 200 401 0.35
FLATCH 401 523 POLY(1) VTTL 100E-3 -1.6000e+003
RLATCH1 523 401 1.0000e+003
VL1P 546 401 DC 20
DL1P 523 546 DLATCH
VL1N 401 547 DC 20
DL1N 547 523 DLATCH
EINV 401 548 523 401 1
ELATCH 545 401 41 401 1
CHOLD 549 401 1.0000e-007
RHOLD 542 401 1.0000e+012
RLATCH2 545 401 1.0000e+012
RLATCH3 548 401 1.0000e+012
M1 545 523 542 546 SPMOS L=100U W=100U
M2 542 548 545 547 SNMOS L=100U W=100U
M3 545 523 549 546 SPMOS L=100U W=100U
M4 549 548 545 547 SNMOS L=100U W=100U
M5 549 548 542 546 SPMOS L=100U W=100U
M6 542 523 549 547 SNMOS L=100U W=100U
* output stage
GO11 401 42 542 401 6.2500e-002
RO11 42 401 1.6000e+001
DO1 43 42 DOUT
GO12 401 43 542 401 6.2500e-002
RO12 43 401 1.6000e+001
EOUT1 44 43 33 401 -1.0
VOUT1 101 44 DC 8.080300e-001
ROUT1 101 401 1.0000e+009
GO21 401 46 542 401 -6.2500e-002
RO21 46 401 1.6000e+001
GO22 401 47 542 401 -6.2500e-002
RO22 47 401 1.6000e+001
DO2 47 46 DOUT
EOUT2 48 47 33 401 -1.0
VOUT2 102 48 DC 8.0803e-001
ROUT2 102 401 1.0000e+009
* supply characteristic
IVDD 200 0 DC 2.5000e-002
IVSS 0 300 DC 3.0000e-003
EGND 401 0 400 0 1.0000e+000
RGND 400 0 1.0000e+009
FA1 51 400 VOUT1 -1
FA2 51 400 VOUT2 -1
DAP 200 51 DX
DAN 52 400 DX
EGV 51 52 POLY(1) 200 400 -0.65 1.0
.MODEL DX  D IS=1e-12 RS=0 XTI=0
.MODEL D3P  D IS=1e-12 TT=4.7119e-009 CJO=0.3E-12 RS=0 XTI=0
.MODEL D3N  D IS=1e-12 TT=3.5657e-009 CJO=0.3E-12 RS=0 XTI=0
.MODEL DLATCH D IS=1e-12 TT=5.0000e-009 CJO=0.3E-12 RS=0 XTI=0
.MODEL SPMOS PMOS LEVEL=1 VTO=-3 KP=10
.MODEL SNMOS NMOS LEVEL=1 VTO=3 KP=10
.MODEL DOUT  D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
.ENDS COMP1016
*
***
*
* Copyright © Linear Technology Corp. 09/19/2006. All rights reserved.
* PINOUT: IN+ IN- V+ V- OUT
.SUBCKT LT1017 3 2 7 4 6
DIN3 4 3 DIN
DIN4 4 2 DIN
IOS 3 2 4E-10
RG1 23 0 2.2E3
GIBIAS1 3 0 VALUE={10E-9*(0.5+0.5*tanh(16*V(3,2)))}
GIBIAS2 2 0 VALUE={10E-9*(0.5+0.5*tanh(16*V(2,3)))}
MOUTOC2 46 24 4 4 NOUT
GTRFOC 0 24 VALUE={2.55*tanh(V(23))}
RTRFOC 24 0 1
CTRFOC 24 0 6E-6
IPU1 0 43 2E-6
ITYP 7 4 35E-6
DV1 55 23 DVLIM
DV2 55 0 DVLIM
RPU1 43 4 3E5
GPU2 42 6 VALUE={MAX(-5E-7,V(42,6))}
GPU3 43 6 VALUE={MAX(0,V(43,6))}
MOUTOC1 42 41 7 7 POUT
GIN 0 23 VALUE={tanh(V(2,3)+1.78E-6*(((V(3)+V(2))/2)-V(4))+3.16E-6*V(7,4)+4E-4)}
GVEE 0 24 4 0 1
COUT 46 24 4E-12
COUT2 4 6 2E-11
CPU1 4 43 1E-11
MOUTOC3 41 41 7 7 POUT
GMIR 41 0 VALUE={1.26E-4*V(43,4)*(0.5+0.5*TANH(50*(V(7,42)-0.11)))}
GPU4 6 46 VALUE={MAX(-1E-10,V(6,46))}
CG1 0 23 8E-9
.MODEL NOUT NMOS(KF=0 KP=0.02 VTO=1E-6 RD=40)
.MODEL POUT PMOS(KF=0 KP=1E-4 VTO=-1E-6)
.MODEL DVLIM D(BV=20 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DIN D(KF=0 RS=0)
.ENDS LT1017
*
***
*
* Copyright © Linear Technology Corp. 09/19/2006. All rights reserved.
* PINOUT: IN+ IN- V+ V- OUT
.SUBCKT LT1018 3 2 7 4 6
DIN3 4 3 DIN
DIN4 4 2 DIN
IOS 3 2 1E-9
RG1 23 0 8.8E3
GIBIAS1 3 0 VALUE={30E-9*(0.5+0.5*tanh(16*V(3,2)))}
GIBIAS2 2 0 VALUE={30E-9*(0.5+0.5*tanh(16*V(2,3)))}
MOUTOC2 46 24 4 4 NOUT
GTRFOC 0 24 VALUE={2.65*tanh(V(23))}
RTRFOC 24 0 1
CTRFOC 24 0 5E-6
IPU1 0 43 2E-6
ITYP 7 4 110E-6
DV1 55 23 DVLIM
DV2 55 0 DVLIM
RPU1 43 4 3E5
GPU2 42 6 VALUE={MAX(-5E-7,V(42,6))}
GPU3 43 6 VALUE={MAX(0,V(43,6))}
MOUTOC1 42 41 7 7 POUT
GIN 0 23 VALUE={tanh(V(2,3)+1.78E-6*(((V(3)+V(2))/2)-V(4))+3.16E-6*V(7,4)+4E-4)}
GVEE 0 24 4 0 1
COUT 46 24 4.5E-12
COUT2 4 6 2E-11
CPU1 4 43 1E-11
MOUTOC3 41 41 7 7 POUT
GMIR 41 0 VALUE={4.2E-4*V(43,4)*(0.5+0.5*TANH(50*(V(7,42)-0.11)))}
GPU4 6 46 VALUE={MAX(-1E-10,V(6,46))}
CG1 0 23 6E-10
.MODEL NOUT NMOS(KF=0 KP=0.02 VTO=1E-6 RD=40)
.MODEL POUT PMOS(KF=0 KP=1E-4 VTO=-1E-6)
.MODEL DVLIM D(BV=20 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DIN D(KF=0 RS=0)
.ENDS LT1018
*
***
*
* Copyright © Linear Technology Corp. 03/14/06. All rights reserved.
* Pinout: IN GROUND OUT TRIM
.SUBCKT LT1021-10 1 2 3 4
ITEMP 0 17 1
RNOISE 15 0 650k
IDUM1 0 15 0
EVEE 14 0 2 0 1
G1 14 12 11 3 100
RG1 12 14 100k
CG1 12 14 1u
RREF 11 14 1
RTEMP 17 0 1 TC2=4E-4
MOUT1 20 12 3 3 NOUT
MOUT2 19 12 3 3 POUT
RILIM2 19 2 100
RDUM 1 2 1E10
ITYP 0 2 1.1mA
IDUM2 4 0 0
RTRIM7 112 4 12k
DVL1 21 12 DVLIM
DVL2 21 14 DVLIM
GIN 0 11 VALUE={10+3E-4*(V(17)-1)-1.2E-3*MAX(0,V(18,20))+3.25E-3*V(19,2)+1.25E-5*V(1,2)+V(15)+14.3E-3*V(4,112)}
ETRIM 112 0 VALUE={V(2)+5}
MLIM 1 1 18 18 NLIM
GLIM 18 20 VALUE={MAX(0,0.01*V(18,20))}
.MODEL NLIM NMOS(KP=5 VTO=0.8)
.MODEL NOUT NMOS(KP=5 VTO=200m)
.MODEL POUT PMOS(KP=5 VTO=-200m)
.MODEL DVLIM D(BV=15 RS=0 KF=0)
.ENDS LT1021-10
*
***
*
* Copyright © Linear Technology Corp. 12/07/05. All rights reserved.
* Pinout: IN GROUND OUT TRIM
.SUBCKT LT1021-5 1 2 3 4
ITEMP 0 17 1
RNOISE 15 0 500k
IDUM1 0 15 0
EVEE 14 0 2 0 1
GG1 14 12 11 3 5
RG1 12 14 100k
CG1 12 14 1u
RREF 11 14 1
RTEMP 17 0 1 TC2=4E-4
VDUM1 16 0 1
ELDO 13 0 VALUE={V(1)-1.5}
M1 13 12 20 20 NOUT
M2 2 12 19 19 POUT
RILIM1 18 3 100
RILIM2 3 19 100
GPWR1 1 0 18 3 0.01
RDUM1 1 0 1MEG
ITYP 1 2 737uA
RTRIM 114 4 102k
DOUT1 20 18 DIN
DVL1 21 12 DVLIM
DVL2 21 14 DVLIM
GIN 0 11 VALUE={5+1E-4*V(17,16)-6.25E-4*V(18,3)+3.75E-3*V(3,19)+2.5E-5*V(1,2)+V(15,0)+7.7E-2*V(4,114)}
ETRIM 114 0 VALUE={V(2)+V(115)+3.46}
DTRIM 115 0 DIN
IDUM 4 0 0
ITRIM 0 115 1E-3
.MODEL DVLIM D(BV=15 RS=0 KF=0)
.MODEL DIN D(IS=1E-12 RS=0 KF=0)
.MODEL NOUT NMOS(KP=5 VTO=-10m)
.MODEL POUT PMOS(KP=5 VTO=10m)
.ENDS LT1021-5
*
***
*
* Copyright © Linear Technology Corp. 03/14/06. All rights reserved.
* Pinout: IN GROUND OUT
.SUBCKT LT1021-7 1 2 3
ITEMP 0 17 1
RNOISE 15 0 608k
IDUM1 0 15 0
GG1 14 12 11 3 100
RG1 12 14 200k
CG1 12 14 1u
RREF 11 14 1
RTEMP 17 0 1 TC2=4E-4
MOUT1 20 12 3 3 NOUT
MOUT2 19 12 3 3 POUT
RILIM2 19 2 100
ITYP 0 2 0.7mA
IDUM2 1 0 0
DVL1 21 12 DVLIM
DVL2 21 14 DVLIM
EVEE 14 0 2 0 1
GIN 0 11 VALUE={7+6E-5*(V(17)-1)-8.4E-4*MAX(0,V(13,20))+3.475E-3*V(19,2)+7E-6*V(1,2)+V(15)}
GILIM 13 20 VALUE={MAX(0,1E-2*V(13,20))}
GPWR1 1 0 VALUE={MAX(0,0.01*V(13,20))}
MLIM1 1 1 13 13 NLIM
RDUM 1 2 1E10
.MODEL NLIM NMOS(KP=5 VTO=0.8)
.MODEL NOUT NMOS(KP=5 VTO=200m)
.MODEL POUT PMOS(KP=5 VTO=-200m)
.MODEL DVLIM D(BV=15 RS=0 KF=0)
.ENDS LT1021-7
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1022 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 663.15
RD2 40 90 663.15
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.001
GOSIT 7 12 90 80 0.0005
* INTERMEDIATE
GCM 0 8 12 0 3.7878e-8
GA 8 0 80 90 0.001508
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 53.878
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.891
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9759
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9759
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.0042
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=0.001137 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=0.001137 VTO=-0.9999)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1022
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1022A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 663.15
RD2 40 90 663.15
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.001
GOSIT 7 12 90 80 0.0005
* INTERMEDIATE
GCM 0 8 12 0 3.0088e-8
GA 8 0 80 90 0.001508
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 53.878
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.891
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9759
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9759
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.0042
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=0.001137 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=0.001137 VTO=-0.99992)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1022A
*
***
*
* Copyright © Linear Technology Corp. 12/20/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT NULL(Pin1) NULL(Pin8)
.SUBCKT LT1028 3 2 7 4 6 1 8
IBIASDEF2 0 2 13E-9
IBIASDEF1 0 3 25E-9
RG1 22 0 37240
CG1 22 0 1E-6
GCM2 0 51 50 4 1E-7
RCMRR 51 0 1E3
GPSRR 0 53 7 4 1.78E-8
RPSRR1 53 0 1E3
RVNOI 41 0 2.2E6
DVNF 42 0 DVNOI
IVNF 0 42 1
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 1.5E-6
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 0.267
GG1 0 22 VALUE={22.5*TANH(V(21))}
MOUT1 77 29 6 6 NOUT
MOUT2 44 29 6 6 POUT
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 2.5E-11
RCMRR2 52 51 2k
GIN2 0 21 VALUE={V(101,102)+V(41)+V(42,43)+V(51)+V(53)+1E-5}
GB 0 29 VALUE={3.14*(V(7)+V(4))}
GG2 0 26 25 0 6.2832
RG2 26 0 0.159155
CG2 26 0 1.5E-8
GINOI1 3 0 41 0 1.17E-3
GINOI2 2 0 41 0 1.17E-3
DIN5 2 3 DIN
DIN6 3 2 DIN
GIN1 102 101 3 2 0.035
IIN1 101 4 9E-4
IIN2 102 4 9E-4
RIN1 1 101 3E3
RIN2 8 102 3E3
RIN3 7 1 130
RIN4 7 8 130
GG3 0 27 26 0 0.1
RG3 28 27 10
RG4 0 28 200
LG1 28 0 5E-7
GLIM1 7 77 VALUE={MIN(0.03,(V(7,77)-2))}
GLIM2 44 4 VALUE={MIN(0.03,(V(44,4)-2))}
CIN1 4 3 5E-12
CIN2 2 4 5E-12
GG4 0 29 27 0 6.2832
RG6 29 0 0.159155
CG3 29 0 1.0E-8
ITYP 7 4 5.6E-3
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m RD=0)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m RD=0)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=18 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=2E-10)
.ENDS LT1028
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1037CS 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1037CS 3 2 7 4 6 LT1037
.ENDS LT1037CS
*
.SUBCKT LT1037 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
RC1 7 80 663.15
RC2 7 90 663.15
Q1 80 2 10 QM1
Q2 90 3 11 QM2
*
C1 80 91 200E-12
RXC1 91 90 200
CXC1 91 90 200E-12
C2 8 98 1e-12
RXC2 8 98 10.00K
CXC2 1 98 5e-12
*
CIN 3 2 5E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
RE1 10 12 -26.233
RE2 11 12 -26.233
IEE 12 4 7.503e-5
RE 12 0 2666000
CE 12 0 1.579E-12
GCM 0 8 12 0 7.558E-10
GA 8 0 80 90 0.001508
R2 8 0 100000
GB 1 0 8 0 1917.6
RO2 1 0 69
*
RS 1 6 1
ECL 18 0 1 6 28.28
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.0909
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.0909
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 0.002625
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=1785.7)
.MODEL QM2 NPN(IS=8.0062E-16 BF=4166.7)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LT1037
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1037A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
RC1 7 80 663.15
RC2 7 90 663.15
Q1 80 2 10 QM1
Q2 90 3 11 QM2
*
C1 80 91 200E-12
RXC1 91 90 200
CXC1 91 90 200E-12
C2 8 98 1e-12
RXC2 8 98 10.00K
CXC2 1 98 5e-12
*
CIN 3 2 5E-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
RE1 10 12 -26.233
RE2 11 12 -26.233
IEE 12 4 7.503e-5
RE 12 0 2666000
CE 12 0 1.579E-12
GCM 0 8 12 0 7.558E-10
GA 8 0 80 90 0.001508
R2 8 0 100000
GB 1 0 8 0 1917.6
RO2 1 0 69
*
RS 1 6 1
ECL 18 0 1 6 28.28
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.0909
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.0909
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 0.002625
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=2778)
.MODEL QM2 NPN(IS=8.003E-16 BF=5769)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LT1037A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1055 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1178.9
RD2 40 90 1178.9
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 1.0679e-8
GA 8 0 80 90 8.4823E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 95.783
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.241
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00232
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=7.4947E-04 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=7.4947E-04 VTO=-0.99988)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1055
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1055A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 86.205
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.312
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00228
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=0.0008541 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=0.0008541 VTO=-0.99995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1055A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1055S8 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1178.9
RD2 40 90 1178.9
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00048
GOSIT 7 12 90 80 0.00024
* INTERMEDIATE
GCM 0 8 12 0 1.0679e-8
GA 8 0 80 90 8.4823E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 95.783
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.241
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9552
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9552
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00232
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.25e-11 BETA=7.4947E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.75e-11 BETA=7.4947E-04 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1055S8
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1056 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 964.58
RD2 40 90 964.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00056
GOSIT 7 12 90 80 0.00028
* INTERMEDIATE
GCM 0 8 12 0 1.3052e-8
GA 8 0 80 90 0.0010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 78.368
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.377
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9595
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9595
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00444
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=9.5964E-04 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=9.5964E-04 VTO=-0.99986)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1056
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1056A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 816.18
RD2 40 90 816.18
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00064
GOSIT 7 12 90 80 0.00032
* INTERMEDIATE
GCM 0 8 12 0 1.2252e-8
GA 8 0 80 90 0.0012252
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 66.312
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.495
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9633
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9633
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00436
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.1e-11 BETA=0.0011728 VTO=-1)
.MODEL JM2 PJF(IS=9e-12 BETA=0.0011728 VTO=-0.99995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1056A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1056S8 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 964.58
RD2 40 90 964.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00056
GOSIT 7 12 90 80 0.00028
* INTERMEDIATE
GCM 0 8 12 0 1.3052e-8
GA 8 0 80 90 0.0010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 78.368
RO2 1 0 49
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 17.377
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9595
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9595
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00444
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=3.25e-11 BETA=9.5964E-04 VTO=-1)
.MODEL JM2 PJF(IS=2.75e-11 BETA=9.5964E-04 VTO=-0.9995)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1056S8
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1058 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1058 3 2 7 4 6 LT1057
.ENDS LT1058
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* GND GA IN- VN VP IN+ GB OUT
.SUBCKT LT1102 1 2 3 4 5 6 7 8
*
R90A 1 2 162000
R9A 2 100 16200
RA 100 101 1800
RB 101 102 1800
R9B 102 7 16200
R90B 7 8 162000
*
XA 3 100 5 4 101 LT1057
XB 6 102 5 4 8 LT1057
*
RINA 3 0 1E12
RINB 6 0 1E12
.ENDS LT1102
*
.SUBCKT LT1057 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.1865e-8
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 33.892
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00118
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=9e-12 BETA=0.0008541 VTO=-1)
.MODEL JM2 PJF(IS=5e-12 BETA=0.0008541 VTO=-0.9998)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1057
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1058A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1058A 3 2 7 4 6 LT1057A
.ENDS LT1058A
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* GND GA IN- VN VP IN+ GB GA
.SUBCKT LT1102A 1 2 3 4 5 6 7 8
*
R90A 1 2 162000
R9A 2 100 16200
RA 100 101 1800
RB 101 102 1800
R9B 102 7 16200
R90B 7 8 162000
*
XA 3 100 5 4 101 LT1057A
XB 6 102 5 4 8 LT1057A
*
RINA 3 0 1E12
RINB 6 0 1E12
*
.ENDS LT1102A
*
.SUBCKT LT1057A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00056
GOSIT 7 12 90 80 0.00028
* INTERMEDIATE
GCM 0 8 12 0 9.4248e-9
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 38.027
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.852
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9595
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9595
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00104
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=6.5e-12 BETA=7.9309E-04 VTO=-1)
.MODEL JM2 PJF(IS=3.5e-12 BETA=7.9309E-04 VTO=-0.99985)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1057A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1057S 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
VCM2 40 4 2
RD1 40 80 1061
RD2 40 90 1061
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 4e-12
RG1 2 102 2
RG2 3 103 2
** CM CLAMP
* DCM1 107 103 DM4
* DCM2 105 107 DM4
* VCMC 105 4 4.0E+00
* ECMP 106 4 103 4 1
* RCMP 107 106 1E+04
* DCM3 109 102 DM4
* DCM4 105 109 DM4
* ECMN 108 4 102 4 1
* RCMN 109 108 1E+04
** END CM CLAMP
C1 80 90 1.5e-11
ISS 7 12 0.00052
GOSIT 7 12 90 80 0.00026
* INTERMEDIATE
GCM 0 8 12 0 1.1865e-8
GA 8 0 80 90 9.4248E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 33.892
RO2 1 0 99
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 20.774
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.9575
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.9575
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00118
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=1.25e-11 BETA=0.0008541 VTO=-1)
.MODEL JM2 PJF(IS=7.5e-12 BETA=0.0008541 VTO=-0.9997)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1057S
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1077 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1077 3 2 7 4 6 LT1078
.ENDS LT1077
*
.SUBCKT LT1079 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1079 3 2 7 4 6 LT1078
.ENDS LT1079
*
* LT1101 Model
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* IN+ IN- VP VN OUT GND GA GB
* 6 3 5 4 8 1 2 7
*
.SUBCKT LT1101 1 2 3 4 5 6 7 8
*
R90A 1 2 828E3
R9A 2 100 82800
RA 100 101 9.2E3
RB 101 102 9.2E3
R9B 102 7 82800
R90B 7 8 828E3
*
XA 3 100 5 4 101 LT1078
XB 6 102 5 4 8 LT1078
*
RINA 3 0 7E9
RINB 6 0 7E9
*
.ENDS LT1101
*
.SUBCKT LT2078 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2078 3 2 7 4 6 LT1078
.ENDS LT2078
*
.SUBCKT LT2079 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2079 3 2 7 4 6 LT1078
.ENDS LT2079
*
.SUBCKT LT1078 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 26530
RC2 4 90 26530
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 600
RB2 3 103 600
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 8.66e-12
RE1 10 12 4958
RE2 11 12 4958
IEE 7 12 2.412e-6
RE 12 0 82920000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.501E-10
GA 8 0 80 90 3.77e-5
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 244.9
* OUTPUT
RO1 1 110 100
RO2A 1 0 1083
RO2B 6 110 817
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.49
VE 14 4 0.7911
IP 7 4 4.259e-5
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=199.2)
.MODEL QM2 PNP(IS=8.012E-16 BF=200.8)
.MODEL DM1 D(IS=3.718E-24)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1078
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1077A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1077A 3 2 7 4 6 LT1078A
.ENDS LT1077A
*
.SUBCKT LT1079A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1079A 3 2 7 4 6 LT1078A
.ENDS LT1079A
*
* LT1101A Model
*
* NODE NUMBERS MATCH PIN NUMBERS; SEE DATASHEET FOR DETAILS
* SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10; OTHERWISE GAIN=100
*
* IN+ IN- VP VN OUT GND GA GB
* 6 3 5 4 8 1 2 7
*
.SUBCKT LT1101A 1 2 3 4 5 6 7 8
*
R90A 1 2 828E3
R9A 2 100 82800
RA 100 101 9.2E3
RB 101 102 9.2E3
R9B 102 7 82800
R90B 7 8 828E3
*
XA 3 100 5 4 101 LT1078A
XB 6 102 5 4 8 LT1078A
*
RINA 3 0 7E9
RINB 6 0 7E9
.ENDS LT1101A
*
.SUBCKT LT2078A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2078A 3 2 7 4 6 LT1078A
.ENDS LT2078A
*
.SUBCKT LT2079A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2079A 3 2 7 4 6 LT1078A
.ENDS LT2079A
*
.SUBCKT LT1078A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 26530
RC2 4 90 26530
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 600
RB2 3 103 600
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 8.66e-12
RE1 10 12 4958
RE2 11 12 4958
IEE 7 12 2.412e-6
RE 12 0 82920000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 1.501E-10
GA 8 0 80 90 3.77e-5
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 244.9
* OUTPUT
RO1 1 110 100
RO2A 1 0 1083
RO2B 6 110 817
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.49
VE 14 4 0.7911
IP 7 4 4.259e-5
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=199.2)
.MODEL QM2 PNP(IS=8.009E-16 BF=200.8)
.MODEL DM1 D(IS=3.718E-24)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1078A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*CCM
*
* ADJ OUT IN
.SUBCKT LT1083 1 2 3
*
* power section
* power transistor
QPWR 41 42 43 Q1
RBASE 42 43 1.0E3
RDROP 43 2 0.03 TC=-6.0E-3
VCURR 3 41 DC 0
QDRV 42 44 41 Q2
RDRV 50 44 1.0E5
* current limit with SOA protection
* 9.5A limiter
HCL1 15 0 VCURR 0.0875
DCL1 15 16 DX
VCL1 16 21 DC 0
FCL1 0 50 VCL1 5.0E2
* SOA protection
* P0 of GCL1defines threshold1 / knee voltage1
* RCL2 defines decay factor
GCL1 0 17 POLY(1) 3 2 -6.0E-3 1.0E-3
RCL1 0 17 1.0E3
DCL2 17 18 DX
RCL2 18 0 50E3
* square characteristic
* VCL2 defines lower limit resp. second knee voltage
GCL2 0 19 POLY(1) 18 0 0 0 1.0E-4
RCL3 19 0 1.0E3
DCL3 19 20 DX
VCL2 20 0 DC 17.8
ECL1 21 0 19 0 -4.0E-2
* error amplifier
* amplifier with 80 dB gain
GEA2 0 50 2 7 32.0
REA2 50 0 1.0E3
DEAP 50 51 DX
EEAP 51 0 POLY(1) 3 0 -0.9 1.0
DEAN 52 50 DX
VEAN 52 0 DC 0.9
* feedback for transient response
RF 50 55 10
CF 55 7 14.4E-11
* adjust pin current
GADJ1 0 8 2 1 4.4e-5
RADJ 8 0 1.0E6 TC=0.003
GADJ2 3 1 8 0 -1.0E-6
* voltage reference (1.250V)
* 1.250V reference
* no temperature drift required as curve swings around 1.25V
IREF1 1 7 DC 0.00125
RREF1 7 1 1.0E3
* load regulation (Iload: 10mA -> 7.5A / -60 mV at 10V output)
FLOAD 7 1 VCURR 9.5e-7
* models used
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 NPN IS=1e-14 BF=450 RC=0 RE=0 XTI=0
.MODEL Q2 PNP IS=1e-16 BF=1250 RC=0 RE=0 XTI=0
.ENDS LT1083
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*CCM Fri May 15 11:42:15 1998
*
* ADJ OUT IN
.SUBCKT LT1084 1 2 3
*
* power section
* power transistor
QPWR 41 42 43 Q1
RBASE 42 43 1.0E3
RDROP 43 2 0.055 TC=-6.0E-3
VCURR 3 41 DC 0
QDRV 42 44 41 Q2
RDRV 50 44 5.0E4
* current limit with SOA protection
* 6.5A limiter
HCL1 15 0 VCURR 0.128
DCL1 15 16 DX
VCL1 16 21 DC 0
FCL1 0 50 VCL1 5.0E2
* SOA protection
* P0 of GCL1defines threshold1 / knee voltage1
* RCL2 defines decay factor
GCL1 0 17 POLY(1) 3 2 -6.0E-3 1.0E-3
RCL1 0 17 1.0E3
DCL2 17 18 DX
RCL2 18 0 50E3
* square characteristic
* VCL2 defines lower limit resp. second knee voltage
GCL2 0 19 POLY(1) 18 0 0 0 1.0E-4
RCL3 19 0 1.0E3
DCL3 19 20 DX
VCL2 20 0 DC 17.8
ECL1 21 0 19 0 -0.0406
* error amplifier
* amplifier with 80 dB gain
GEA2 0 50 2 7 32.0
REA2 50 0 1.0E3
DEAP 50 51 DX
EEAP 51 0 POLY(1) 3 0 -0.9 1.0
DEAN 52 50 DX
VEAN 52 0 DC 0.9
* feedback for transient response
RF 50 55 10
CF 55 7 24.4E-11
* adjust pin current
GADJ1 0 8 2 1 4.4e-5
RADJ 8 0 1.0E6 TC=0.003
GADJ2 3 1 8 0 -1.0E-6
* voltage reference (1.250V)
* 1.250V reference
* no temperature drift required as curve swings around 1.25V
IREF1 1 7 DC 0.00125
RREF1 7 1 1.0E3
* load regulation (Iload: 10mA -> 5.0A / -60 mV at 10V output)
FLOAD 7 1 VCURR 1.45E-6
* models used
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 NPN IS=1e-14 BF=450 RC=0 RE=0 XTI=0
.MODEL Q2 PNP IS=1e-16 BF=625 RC=0 RE=0 XTI=0
.ENDS LT1084
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*CCM Tue Feb 17 10:43:15 1998
*
* ADJ OUT IN
.SUBCKT LT1085 1 2 3
*
QPWR 4 55 6 Q1
DDAR 56 55 DQ
RBAS 5 56 100
RDROP 6 2 0.07
VCURR 3 4 DC 0
HCL1 15 0 VCURR 0.216
DCL1 15 16 DX
VCL1 16 21 DC 0
FCL1 5 4 VCL1 5.0E2
GCL1 0 17 POLY(1) 3 2 -6.0E-3 1.0E-3
RCL1 0 17 1.0E3
DCL2 17 18 DX
RCL2 18 0 50E3
GCL2 0 19 POLY(1) 18 0 0 0 1.0E-4
RCL3 19 0 1.0E3
DCL3 19 20 DX
VCL2 20 0 DC 17.8
ECL1 21 0 19 0 -4.1E-2
REA2 5 6 1.0E5
GEA 5 4 2 7 160
REA1 5 4 200
CEAF1 4 5 2e-5
CEAF2 5 6 6.0E-6
DLP 5 11 DX
VLP 11 4 DC -0.95
DLN 12 5 DX
ELN 12 4 POLY(1) 1 3 0.8 1.0
GADJ1 0 8 2 1 4.4e-5
RADJ 8 0 1.0E6 TC=0.003
GADJ2 3 1 8 0 -1.0E-6
IREF1 1 7 DC 0.00125
RREF1 7 1 1.0E3
FLOAD 7 1 VCURR 0.9E-6
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL DQ D IS=8e-10 RS=0 XTI=0
.MODEL Q1 NPN IS=1e-12 BF=4500 RC=0 RE=0 XTI=0
.ENDS LT1085
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1097 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 8842
RC2 7 90 8842
Q1 80 2 10 QM1
Q2 90 3 11 QM2
DDM1 2 3 DM2
DDM2 3 2 DM2
C1 80 90 5.46e-12
RE1 10 12 224.6
RE2 11 12 224.6
IEE 12 4 6e-6
RE 12 0 33330000
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 2.841E-11
GA 8 0 80 90 1.131E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 196
* OUTPUT
RO1 1 6 100
RO2 1 0 900
RC 17 0 1.063E-04
GC 0 17 6 0 9408
D1 1 17 DM1
D2 17 1 DM1
D3 6 13 DM2
D4 14 6 DM2
VC 7 13 1.785
VE 14 4 1.785
IP 7 4 0.000374
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=50000)
.MODEL QM2 NPN(IS=8.003E-16 BF=750000)
.MODEL DM1 D(IS=1.179E-19)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1097
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*CCM
*
.SUBCKT LT1113 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
GRP1 1 111 1 111 0.1
GRP2 2 112 2 112 0.1
DIP1 114 111 DX
DIP2 115 112 DX
DIP3 116 114 DX
DIP4 116 115 DX
VCM 116 4 DC 4.325
RCMP 114 117 10000
ECMP 117 4 111 4 1.0
RCMN 115 118 10000
ECMN 118 4 112 4 1.0
CIN 111 112 1.2711e-11
GRIN 111 112 111 112 1e-11
M1 11 112 10 10 M1 L=100U W=100U
M2 12 113 10 10 M2 L=100U W=100U
RD1 3 11 1904.4 TC=-8.1097e-5
RD2 3 12 1904.4 TC=8.1097e-5
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 5.2232e-12
IEE 10 4 DC 0.0010502
GA 60 99 11 12 0.00052509
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 5.565e-8
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 5.565e-8
RRu 605 0 9.2679
VRu 605 0 DC 0
FRu 99 60 VRu 1
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.01061
ECM 113 111 20 99 1.7783e-5
RP1 601 99 1904.8
CP1 60 601 3.3423e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 14545
LP2 61 611 0.00092599
RP22 61 99 32000
GP2 99 6 61 99 0.0001
R2 6 99 1000
C2 6 7 2.3754e-10
GB 7 99 6 99 6381.2
R01 7 99 70
R02 7 50 0.1
R03 50 5 69.9
R04 5 99 1.0000e+012
VC 53 50 DC 2.1
VE 54 50 DC -1.7
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 500
ECLN 92 0 7 50 500
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 132.59
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0042498
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL M1 NMOS LEVEL=3 KP=0.095221 VTO=1.000258 KF=7.9898e-28
.MODEL M2 NMOS LEVEL=3 KP=0.095221 VTO=0.9997418 KF=7.9898e-28
.MODEL DI1 D IS=3.6931e-10 EG=0.25981 XTI=3
.MODEL DI2 D IS=3.3187e-10 EG=0.26997 XTI=3
.MODEL DRI D IS=8e-16 KF=3.1436e-27 RS=0 XTI=0
.ENDS LT1113
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1115 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
RC1 7 80 70.736
RC2 7 90 70.736
Q1 80 2 10 QM1
Q2 90 3 11 QM2
*
C1 80 91 750E-12
RXC1 91 90 50
CXC1 91 90 400E-12
C2 1 98 3e-11
RXC2 98 8 1K
CXC2 98 8 1e-11
*
CIN 2 3 15E-12
RIN 2 3 2E4
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
RE1 10 12 -44.157
RE2 11 12 -44.157
IEE 12 4 4.5006E-04
RE 12 0 444390
CE 12 0 1.5789E-12
GCM 0 8 12 0 7.0854e-9
GA 8 0 80 90 0.014137
R2 8 0 100000
GB 1 0 8 0 267.31
RO2 1 0 79
*
RS 1 6 1
ECL 18 0 1 6 27.91
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6394
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.6394
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 0.00745
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=3461.5)
.MODEL QM2 NPN(IS=8.0155E-16 BF=6428.6)
.MODEL DM1 D(IS=1e-19)
.MODEL DM2 D(IS=8e-16)
.MODEL DM3 D(IS=1e-20)
.ENDS LT1115
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* V+ IN+ IN- V- LE GND Q+ Q-
.SUBCKT LT1116 1 2 3 4 5 6 7 8
XCOMP 2 3 7 8 1 4 6 5 COMP1116
.ENDS LT1116
*
***
*
.SUBCKT COMP1116 1 2 101 102 200 300 400 500
*
* input stage
CIN 2 1 5e-12
RIN 2 1 5000000
ROFF1 301 0 1.001 TC=-5e-6
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 3 1 301 302 1
ROFF 3 1 1000000000
IBP 303 0 DC 1.025e-5
RBP 303 0 1E6 TC=-0.0014333
GBP 1 401 303 0 1e-6
IBN 304 0 DC 9.75e-6
RBN 304 0 1E6 TC=-0.0012333
GBN 2 401 304 0 1e-6
* delay stage
G1 401 20 3 2 2.7449
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 20.587
V1N 22 401 DC -20.587
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 5000
D2 23 27 DX
CD 23 401 2.1084e-12
* common mode stage
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.00056841
GCM2 401 20 19 401 4.7594e-5
* slewrate stage
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 4.9516
V3N 26 401 DC -6.276
G41 401 30 24 401 0.001
R41 30 401 1000
G42 401 31 24 401 0.0021773
R42 31 401 1000
D5 31 30 DX
CR 30 401 1.7536e-11
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(2) 200 401 300 401 -1.4399 0.5 0
E4N 401 33 POLY(2) 200 401 300 401 -1.4399 0.5 0
* phase shifter
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 4.7746e-8
CA 41 401 2.9842e-13
* latch stage
RTTL1 500 200 1.0000e+012
DTTL 501 500 DX
RTTL2 501 502 20400
VTTL 503 502 DC 0
ETTL 200 503 200 401 0.35
FLATCH 401 523 POLY(1) VTTL 100E-3 -1600
RLATCH1 523 401 1000
VL1P 546 401 DC 20
DL1P 523 546 DLATCH
VL1N 401 547 DC 20
DL1N 547 523 DLATCH
EINV 401 548 523 401 1
ELATCH 545 401 41 401 1
CHOLD 549 401 1e-7
RHOLD 542 401 1.0000e+012
RLATCH2 545 401 1.0000e+012
RLATCH3 548 401 1.0000e+012
M1 545 523 542 546 SPMOS L=100U W=100U
M2 542 548 545 547 SNMOS L=100U W=100U
M3 545 523 549 546 SPMOS L=100U W=100U
M4 549 548 545 547 SNMOS L=100U W=100U
M5 549 548 542 546 SPMOS L=100U W=100U
M6 542 523 549 547 SNMOS L=100U W=100U
* output stage
GO11 401 42 542 401 0.0625
RO11 42 401 16
DO1 43 42 DOUT
GO12 401 43 542 401 0.0625
RO12 43 401 16
EOUT1 44 43 33 401 -1.0
VOUT1 101 44 DC 0.869156
ROUT1 101 401 1000000000
GO21 401 46 542 401 -0.0625
RO21 46 401 16
GO22 401 47 542 401 -0.0625
RO22 47 401 16
DO2 47 46 DOUT
EOUT2 48 47 33 401 -1.0
VOUT2 102 48 DC 0.86916
ROUT2 102 401 1000000000
* supply characteristic
IVDD 200 0 DC 0.027
*IVSS 0 300 DC 1.0000e-003
RVSS 0 300 1000
EGND 401 0 400 0 1
RGND 400 0 1000000000
FA1 51 400 VOUT1 -1
FA2 51 400 VOUT2 -1
DAP 200 51 DX
DAN 52 400 DX
EGV 51 52 POLY(1) 200 400 -0.65 1.0
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=0 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=7.185e-9 CJO=3e-13 RS=0 XTI=0
.MODEL DLATCH D IS=1e-12 TT=5e-9 CJO=3e-13 RS=0 XTI=0
.MODEL SPMOS PMOS LEVEL=1 VTO=-3 KP=10
.MODEL SNMOS NMOS LEVEL=1 VTO=3 KP=10
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
.ENDS COMP1116
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN ADJ GND SDN IN
.SUBCKT LT1121 1 2 3 5 8
XREG 1 2 3 5 8 MD1121
.ENDS LT1121
*
***
*
.SUBCKT MD1121 1 2 3 4 5
*
* power section
* power transistor
* base resistor defines peak in
* quiescent current below Vref
QPWR 51 54 52 Q1
RBASE 54 53 36500
DDARl 53 84 DX
* temperature dependent dropout voltage
RDROP 51 1 1.5 TC=2.6E-3
* quiescent current at Vin > 3.75 V
RQC 1 3 216500
* load dependent ground pin current
VCURR 5 52 DC 0
FGND 5 3 POLY(1) VCURR 8.5E-6 0 0.422
* input dependent current limit
* beta / QPWR defines increase factor
* G / FCL1 defines upper knee current
* G / ECL1 defines increase factor above current limit
FCL1 3 60 VCURR 0.32
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 5 3 3.26E-3
FCL2 90 3 VCL1 1.0
* shutdown section
* bias current
IBSD 5 4 DC 6.0E-6
* input clamp to -0.6 / 7.0 V
DSDP1 4 70 DX
VSDP1 70 3 DC 6.2
DSDN1 71 4 DX
VSDN1 71 3 DC 0.595
* schmitt trigger, trip points 0.8V / 1.2V
GSD1 3 73 72 4 1.0E-1
RSD1 73 3 1.0E4
CSD1 73 3 2.2E-9
GTV1 3 72 POLY(1) 73 3 0.78E-3 1.20E-4
RTV1 72 3 1.0E3
DSDP2 73 74 DX
VSDP2 74 3 DC 2.90
DSDN2 75 73 DX
VSDN2 75 3 DC 0.876
QSD 90 77 3 Q2
RSD3 77 3 1.0E1
GSD3 3 77 73 3 5.3E-2
* error amplifier
* temperature dependent bias current
IBEA 3 80 DC 148.7E-6
REA1 80 3 1.0E3 TC=-4.6E-3
GEA1 2 3 80 3 1.0E-6
* input clamp to -0.6 / 6.0 V
DEAP1 2 81 DX
VEAP1 81 3 DC 5.3
DEAN1 82 2 DX
VEAN1 82 3 DC 0.4
* amplifier with 80 dB gain
GEA2 3 84 2 90 10.0
REA2 84 3 1.0E3
* feedback for transient response
CFEED 84 88 1e-8
RFEED 88 90 300
* reverse input voltage protection
DREV 5 55 DX
RREV 55 3 1.0E9
DEAP2 84 85 DX
EEAP2 85 3 POLY(1) 55 3 -1.0 1.0
DEAN2 86 84 DX
VEAN2 86 3 DC 1.0
* voltage reference (3.75V)
* temperature dependent 3.750V reference
* -40C: 3.726V, 125C: 3.773V
IREF1 3 90 DC 0.00375
RREF1 90 3 1.0E3 TC=7.0E-5
* line regulation (Vin: 4.3V -> 20V / 1.5 mV)
GLINE 3 90 5 3 1.3E-8
* load regulation (Iload: 1mA -> 150mA / -12 mV)
GLOAD 90 3 51 1 54E-6
* models used
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1e-12 BF=11250 XTI=0 NF=1.1
.MODEL Q2 NPN IS=1e-16 BF=1000 XTI=0
.ENDS MD1121
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1122 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
* INPUT
RD1 4 80 353.68
RD2 4 90 353.68
J1 80 2 12 JM1
J2 90 3 12 JM2
CIN 2 3 4e-12
C1 80 90 9.7411E-12
ISS 7 12 0.00225
* INTERMEDIATE
GCM 0 8 12 0 3.5595e-8
GA 8 0 80 90 0.0028274
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 36.103
RO2 1 0 39
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 13.974
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6997
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1997
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00475
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=2.95e-11 BETA=0.0017765 VTO=-2)
.MODEL JM2 PJF(IS=2.45e-11 BETA=0.0017765 VTO=-1.9994)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1122
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1125 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1125 3 2 7 4 6 LT1124
.ENDS LT1125
*
.SUBCKT LT1124 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 80
RC2 7 90 80
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
C1 80 91 10NF
RE1 10 12 -73
RE2 11 12 -73
IEE 12 4 0.00034
RE 12 0 1010000
*
RXC1 91 90 25
CXC1 91 90 400E-12
RXC2 8 98 20K
C2 1 98 29E-12
CXC2 98 8 4e-11
* INTERMEDIATE
GCM 0 8 12 0 3.4887e-9
GA 8 0 80 90 0.0055292
R2 8 0 100000
GB 1 0 8 0 72.964
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 36.43
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.637
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.637
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.002102
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=17800)
.MODEL QM2 NPN(IS=8.0077E-16 BF=37800)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1124
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1127 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1127 3 2 7 4 6 LT1126
.ENDS LT1127
*
.SUBCKT LT1126 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 58
RC2 7 90 58
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
DDM1 2 104 DM2
DDM3 104 3 DM2
DDM2 3 105 DM2
DDM4 105 2 DM2
C1 80 91 10NF
RE1 10 12 -72
RE2 11 12 -72
IEE 12 4 400E-6
RE 12 0 1010000
*
RXC1 91 90 12
CXC1 91 90 2NF
RXC2 8 98 10K
C2 1 98 1.8e-11
CXC2 98 8 1E-12
* INTERMEDIATE
GCM 0 8 12 0 7.136e-9
GA 8 0 80 90 0.01131
R2 8 0 100000
*C2 1 8 1.8000E-11
GB 1 0 8 0 35.671
RO2 1 0 74
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 36.43
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.637
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.637
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.002402
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=20E+03)
.MODEL QM2 NPN(IS=8.0077E-16 BF=50E+03)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=52.8)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1126
*
***
*
* Copyright © Linear Technology Corp. 12/21/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT NULL(Pin1) NULL(Pin8)
.SUBCKT LT1128 3 2 7 4 6 1 8
IBIASDEF2 0 2 13E-9
IBIASDEF1 0 3 25E-9
RG1 22 0 372400
CG1 22 0 1E-6
GCM2 0 51 50 4 1E-7
RCMRR 51 0 1E3
GPSRR 0 53 7 4 1.78E-8
RPSRR1 53 0 1E3
RVNOI 41 0 1.58E6
DVNF 42 0 DVNOI
IVNF 0 42 1
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 1.5E-6
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 0.05675
GG1 0 22 VALUE={9*TANH(V(21))}
MOUT1 77 29 6 6 NOUT
MOUT2 44 29 6 6 POUT
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 2.5E-11
RCMRR2 52 51 2k
GIN2 0 21 VALUE={V(101,102)+V(41)+V(42,43)+V(51)+V(53)+1E-5}
GB 0 29 VALUE={3.14*(V(7)+V(4))}
GINOI1 3 0 41 0 1.17E-3
GINOI2 2 0 41 0 1.17E-3
DIN5 2 3 DIN
DIN6 3 2 DIN
GIN1 102 101 3 2 0.035
IIN1 101 4 9E-4
IIN2 102 4 9E-4
RIN1 1 101 3E3
RIN2 8 102 3E3
RIN3 7 1 130
RIN4 7 8 130
GG3 0 27 25 0 0.1
RG3 28 27 10
RG4 0 28 250
LG1 28 0 5E-7
GLIM1 7 77 VALUE={MIN(0.03,(V(7,77)-2))}
GLIM2 44 4 VALUE={MIN(0.03,(V(44,4)-2))}
CIN1 4 3 5E-12
CIN2 2 4 5E-12
GG4 0 29 27 0 6.2832
RG6 29 0 0.159155
CG3 29 0 1.0E-8
ITYP 7 4 5.6E-3
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m RD=0)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m RD=0)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=18 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=2E-10)
.ENDS LT1128
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM
*
* OUT ADJ GND SHD IN
.SUBCKT LT1129 1 2 3 4 5
QPWR 51 54 52 Q1
RBASE 54 53 16100
DDARl 53 84 DX
RDROP 51 1 0.4 TC=4.0E-3
RQC 1 3 106E3
VCURR 5 52 DC 0
FGND 5 3 POLY(1) VCURR 8.5E-6 0 0.097
FCL1 3 60 VCURR 0.31
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 POLY(1) 5 3 2.75 0.035
FCL2 90 3 VCL1 1.0
IBSD 5 4 DC 6.0E-6
DSDP1 4 70 DX
VSDP1 70 3 DC 6.2
DSDN1 71 4 DX
VSDN1 71 3 DC 0.595
GSD1 3 73 72 4 1.0E-1
RSD1 73 3 1.0E4
CSD1 73 3 2.2E-9
GTV1 3 72 POLY(1) 73 3 0.78E-3 1.20E-4
RTV1 72 3 1.0E3
DSDP2 73 74 DX
VSDP2 74 3 DC 2.90
DSDN2 75 73 DX
VSDN2 75 3 DC 0.85
QSD 90 77 3 Q2
RSD3 77 3 1.0E1
GSD3 3 77 73 3 5.3E-2
IBEA 3 80 DC 148.7E-6
REA1 80 3 1.0E3 TC=-4.6E-3
GEA1 2 3 80 3 1.0E-6
DEAP1 2 81 DX
VEAP1 81 3 DC 5.3
DEAN1 82 2 DX
VEAN1 82 3 DC 0.4
GEA2 3 84 2 90 10.0
REA2 84 3 1.0E3
CFEED 84 88 1e-8
RFEED 88 90 2.0E3
DREV 5 55 DX
RREV 55 3 1.0E9
DEAP2 84 85 DX
EEAP2 85 3 POLY(1) 55 3 -1.0 1.0
DEAN2 86 84 DX
VEAN2 86 3 DC 1.0
IREF1 3 90 DC 3.7502E-3
RREF1 90 3 1.0E3 TC=1.0E-4
GLINE 3 90 5 3 1.3E-8
GLOAD 90 3 51 1 24.6E-6
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1e-12 BF=11400 XTI=0
.MODEL Q2 NPN IS=1e-16 BF=1000 XTI=0
.ENDS LT1129
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* RG1 IN- IN+ V- REF OUT V+ RG2
.SUBCKT LT1167 1 2 3 4 5 6 7 8
*
XIN1 2 1 7 4 10 LT1167_IN1
XIN2 3 8 7 4 11 LT1167_IN2
XOUT 13 12 7 4 6 LT1167_OUT
* input protection
DIP1 2 7 DX
DIP2 3 7 DX
DIP3 4 2 DX
DIP4 4 3 DX
* input capacity
CDIFF 2 3 1.6E-12
CCM1 2 4 1.6E-12
CCM2 3 4 1.6E-12
* feedback network
RF1 1 10 24700
CF1 1 10 2.5E-12
RF2 8 11 24700
CF2 8 11 2.5E-12
RCM1 10 12 10E3
RCM2 6 12 10E3
RCM3 11 13 10E3
RCM4 13 5 10E3
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.ENDS LT1167
*
***
*
.SUBCKT LT1167_IN1 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 1 10 10 M2 L=100U W=100U
RD1 3 11 12575 TC=-2.97e-6
RD2 3 12 12575 TC=2.97e-6
DI1 1 3 DI1
DI2 2 3 DI2
C1 11 12 1.0547e-13
IEE 10 4 DC 0.00015904
GA 60 99 11 12 7.952e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002898
RRu 605 0 3.4435
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.2
VE 54 50 DC -1.2
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 0.00014096
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL M1 NMOS(LEVEL=3 KP=0.56117 VTO=1.00001 KF=7.6298e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56117 VTO=0.99999 KF=7.6298e-28)
.MODEL DI1 D(IS=9.55e-11 EG=0.21274 XTI=3)
.MODEL DI2 D(IS=9.45e-11 EG=0.2144 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1167_IN1
*
***
*
.SUBCKT LT1167_IN2 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 1 10 10 M2 L=100U W=100U
RD1 3 11 12576 TC=-2.9701e-6
RD2 3 12 12576 TC=2.9701e-6
DI1 1 3 DI1
DI2 2 3 DI2
C1 11 12 1.0547e-13
IEE 10 4 DC 0.00015904
GA 60 99 11 12 7.952e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002898
RRu 605 0 3.4435
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.2
VE 54 50 DC -1.2
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 0.00014096
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL M1 NMOS(LEVEL=3 KP=0.56117 VTO=1.00001 KF=7.6298e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56117 VTO=0.99999 KF=7.6298e-28)
.MODEL DI1 D(IS=6.5805e-12 EG=0.7051 XTI=3)
.MODEL DI2 D(IS=5.3995e-12 EG=0.7452 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1167_IN2
*
***
*
.SUBCKT LT1167_OUT 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 12576 TC=-2.9703e-6
RD2 3 12 12576 TC=2.9703e-6
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 1.0546e-13
IEE 10 4 DC 0.00015903
GA 60 99 11 12 7.9514e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002898
RRu 605 0 3.4435
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.53052
*
*140 dB for gain=1000
*ECM 111 1 20 99 0.8E-7
*
* 125 dB for gain=100
ECM 111 1 20 99 5.6234e-7
*
*115 dB for gain=10
*ECM 111 1 20 99 1.778E-6
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.9
VE 54 50 DC -1.6
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 370.37
ECLN 92 0 7 50 370.37
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 10.851
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00014097
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL M1 NMOS(LEVEL=3 KP=0.56121 VTO=1.00001 KF=7.6303e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56121 VTO=0.99999 KF=7.6303e-28)
.MODEL DI1 D(IS=9.55e-11 EG=0.20727 XTI=3)
.MODEL DI2 D(IS=9.45e-11 EG=0.20883 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1167_OUT
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Tue Jun 19 14:12:40 2000
*# RG1 1
*# IN- 2
*# IN+ 3
*# VSS 4
*# REF 5
*# OUT 6
*# VDD 7
*# RG2 8
.SUBCKT LT1168 1 2 3 4 5 6 7 8
*
XIN1 2 1 7 4 10 LT1168_IN
XIN2 3 8 7 4 11 LT1168_IN
XOUT 13 12 7 4 6 LT1168_OUT
*
* input protection
DIP1 2 7 DX
DIP2 3 7 DX
DIP3 4 2 DX
DIP4 4 3 DX
*
* input capacity
CDIFF 2 3 1.6E-12
CCM1 2 4 1.6E-12
CCM2 3 4 1.6E-12
*
* bias current
IBP 0 450 140E-6
RBP 450 0 1.0E3 TC=-0.015
GBP 7 3 450 0 -1.0E-9
IBN 0 451 90E-6
RBN 451 0 1.0E3 TC=-0.015
GBN 7 2 451 0 -1.0E-9
*
* feedback network
RF1 1 10 24700
CF1 1 10 5e-13
RF2 8 11 24700
CF2 8 11 5e-13
RCM1 10 12 30E3
RCM2 6 12 30E3
RCM3 11 13 30E3
RCM4 13 5 30E3
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
*
.ENDS LT1168
*
*********************************************************************
*
.SUBCKT LT1168_IN 1 2 3 4 5
*
* input stage
GRIN 1 2 1 2 1e-9
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 ROVD1 11429
RD2 3 12 ROVD2 11429
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 3.4815e-12
IEE 10 4 DC 0.000175
GA 60 99 11 12 8.75e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.001449
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.001449
RRu 605 0 26.55
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 3.1831
ECM 111 1 20 99 5.6234e-7
*
* frequency shaper
RP1 601 99 3333.3
CP1 60 601 5.9683e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 16667
LP2 61 611 0.0033157
RP22 61 99 25000
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3.5e-10
GB 7 99 6 99 5916.3
R01 7 99 54.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.092
VE 54 50 DC -0.792
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.054164 VTO=1.000004 KF=5.1722e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.054164 VTO=0.999996 KF=5.1722e-28)
.MODEL ROVD1 RES(TC1=-4.7965e-7)
.MODEL ROVD2 RES(TC1=4.7965e-7)
.MODEL DI1 D(IS=1.05e-11 EG=-0.34717 XTI=3)
.MODEL DI2 D(IS=9.5e-12 EG=-0.45612 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.7641e-17 RS=0 XTI=0)
*
.ENDS LT1168_IN
*
*******************************************************************************
*
.SUBCKT LT1168_OUT 1 2 3 4 5
*
* input stage
CIN 1 2 4.2834e-13
GRIN 1 2 1 2 1e-9
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 ROVD1 11429
RD2 3 12 ROVD2 11429
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 3.4815e-12
IEE 10 4 DC 0.000175
GA 60 99 11 12 8.75e-5
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 3.1831
*
* 140 dB for gain=1000
*ECM 111 1 20 99 1.000e-007
*
* 135 dB for gain=100
ECM 111 1 20 99 1.778e-7
*
* 115 dB for gain=10
*ECM 111 1 20 99 1.778e-006
*
* 95 dB for gain=1
*ECM 111 1 20 99 1.778e-005
*
* frequency shaper
RP1 601 99 3333.3
CP1 60 601 5.9683e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 16667
LP2 61 611 0.0033157
RP22 61 99 25000
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3.5e-10
GB 7 99 6 99 5916.3
R01 7 99 54.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.092
VE 54 50 DC -0.792
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 370.37
ECLN 92 0 7 50 370.37
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 19.842
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.000175
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.054164 VTO=1.000004 KF=5.1722e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.054164 VTO=0.999996 KF=5.1722e-28)
.MODEL ROVD1 RES(TC1=-4.7965e-7)
.MODEL ROVD2 RES(TC1=4.7965e-7)
.MODEL DI1 D(IS=1.05e-11 EG=-0.34717 XTI=3)
.MODEL DI2 D(IS=9.5e-12 EG=-0.45612 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.7641e-17 RS=0 XTI=0)
*
.ENDS LT1168_OUT
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1169 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RD1 4 80 600.58
RD2 4 90 600.58
J1 80 102 12 JM1
J2 90 103 12 JM2
CIN 2 3 1.5e-12
RG1 2 102 2
RG2 3 103 2
C1 80 90 5.3139E-12
ISS 7 12 0.00021
* INTERMEDIATE
GCM 0 8 12 0 2.9609e-8
GA 8 0 80 90 0.001665
R2 8 0 100000
C2 1 8 5e-11
GB 1 0 8 0 766.49
RO2 1 0 35
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 16.52
GCL 0 8 20 0 1
RCL 20 0 1000
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.1324
RPLA 7 70 10000
RPLB 7 131 100000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.1324
RNLA 60 4 10000
RNLB 141 4 100000
*
IP 7 4 0.00509
DSUB 4 7 DM2
* MODELS
.MODEL JM1 PJF(IS=5.25e-12 BETA=0.0066009 VTO=-1)
.MODEL JM2 PJF(IS=2.75e-12 BETA=0.0066009 VTO=-0.9994)
.MODEL DM1 D(IS=1e-15)
.MODEL DM2 D(IS=8e-16 BV=48)
.MODEL DM3 D(IS=1e-16)
.MODEL DM4 D(IS=1e-9)
.ENDS LT1169
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1179 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1179 3 2 7 4 6 LT1178
.ENDS LT1179
*
.SUBCKT LT2178 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2178 3 2 7 4 6 LT1178
.ENDS LT2178
*
.SUBCKT LT2179 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2179 3 2 7 4 6 LT1178
.ENDS LT2179
*
.SUBCKT LT1178 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 88420
RC2 4 90 88420
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 600
RB2 3 103 600
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 8.66e-12
RE1 10 12 19330
RE2 11 12 19330
IEE 7 12 7.56e-7
RE 12 0 2.646E+08
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 8.984E-11
GA 8 0 80 90 1.131e-5
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 578
* OUTPUT
RO1 1 110 100
RO2A 1 0 1083
RO2B 6 110 817
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.48
VE 14 4 0.7806
IP 7 4 1.424e-5
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=124)
.MODEL QM2 PNP(IS=8.012E-16 BF=126.1)
.MODEL DM1 D(IS=6.881E-16)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1178
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1179A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1179A 3 2 7 4 6 LT1178A
.ENDS LT1179A
*
.SUBCKT LT2178A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2178A 3 2 7 4 6 LT1178A
.ENDS LT2178A
*
.SUBCKT LT2179A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT2179A 3 2 7 4 6 LT1178A
.ENDS LT2179A
*
.SUBCKT LT1178A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 88420
RC2 4 90 88420
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 600
RB2 3 103 600
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 8.66e-12
RE1 10 12 19330
RE2 11 12 19330
IEE 7 12 7.56e-7
RE 12 0 2.646E+08
CE 12 0 1.579E-12
* INTERMEDIATE
GCM 0 8 12 0 8.984E-11
GA 8 0 80 90 1.131e-5
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 578
* OUTPUT
RO1 1 110 100
RO2A 1 0 1083
RO2B 6 110 817
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.48
VE 14 4 0.7806
IP 7 4 1.424e-5
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=124)
.MODEL QM2 PNP(IS=8.009E-16 BF=126.1)
.MODEL DM1 D(IS=6.881E-16)
.MODEL DM2 D(IS=8e-16)
.ENDS LT1178A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* CONNECTIONS 3-2-7-4-6 FOLLOW STANDARD CONVENTION; SEE DATASHEET FOR
* EXLANATION OF REF AND FB PINS
*
.SUBCKT LT1187 3 2 7 4 6 REF FB
* LT1187 FRONT END
RL1A 7 1A 500
RL2A 7 5A 500
RE1A 9A 10A 1143
RE2A 6A 8A 1150
I1 9A 4 DC 234UA
I2 10A 4 DC 234UA
I3 6A 4 DC 245UA
I4 8A 4 DC 245UA
Q1A 1A 3 9A MOD1
Q2A 5A 2 10A MOD2
Q3A 1A REF 6A MOD1
Q4A 5A FB 8A MOD2
RCM1 9A 0 10MEG
RCM2 6A 0 10MEG
CCM1 9A 0 .4PF
CCM2 6A 0 .4PF
CIN1 2 3 2PF
CIN2 REF FB 2PF
.MODEL MOD1 NPN BF=500 IS=1e-16
.MODEL MOD2 NPN BF 550 IS=1.04E-16
*
* INPUT
RC1 7 80 88.419
RC2 7 90 88.419
Q1 80 1A 10 QM1
Q2 90 5A 11 QM2
CIN 2 3 1e-13
C1 80 90 1.5e-11
RE1 10 12 78.281
RE2 11 12 78.281
IEE 12 4 0.0051
RE 12 0 39216
* INTERMEDIATE
GCM 0 8 12 0 2.2566e-8
GA 8 0 80 90 0.01131
R2 8 0 100000
C2 1 8 1.8e-11
GB 1 0 8 0 0.98244
RO2 1 0 9
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 28.561
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.5416
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.0416
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0069
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=1.7000E+09)
.MODEL QM2 NPN(IS=8.0003E-16 BF=5.1000E+09)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1187
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* CONNECTIONS 3-2-7-4-6 FOLLOW STANDARD CONVENTION; SEE DATASHEET FOR
* EXPLANATION OF REF AND FB PINS
*
.SUBCKT LT1189 3 2 7 4 6 REF FB
* LT1189 FRONT END
RL1A 7 1A 500
RL2A 7 5A 500
RE1A 9A 10A 295
RE2A 6A 8A 300
I1 9A 4 DC 234UA
I2 10A 4 DC 234UA
I3 6A 4 DC 245UA
I4 8A 4 DC 245UA
Q1A 1A 3 9A MOD1
Q2A 5A 2 10A MOD2
Q3A 1A REF 6A MOD1
Q4A 5A FB 8A MOD2
RCM1 9A 0 10MEG
RCM2 6A 0 10MEG
CCM1 9A 0 .2PF
CCM2 6A 0 .2PF
CIN1 2 3 2PF
CIN2 REF FB 2PF
.MODEL MOD1 NPN BF=500 IS=1e-16
.MODEL MOD2 NPN BF=550 IS=1.04E-16
*
* INPUT
RC1 7 80 35.368
RC2 7 90 35.368
Q1 80 1A 10 QM1
Q2 90 5A 11 QM2
CIN 2 3 1e-13
C1 80 90 4.1212E-11
RE1 10 12 31.059
RE2 11 12 31.059
IEE 12 4 0.012
RE 12 0 16667
* INTERMEDIATE
GCM 0 8 12 0 5.6415e-8
GA 8 0 80 90 0.028274
R2 8 0 100000
C2 1 8 2.5e-11
GB 1 0 8 0 0.35024
RO2 1 0 9
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 29.39
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.5822
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.0822
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 1.397e-9
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=4.0000E+09)
.MODEL QM2 NPN(IS=8.0003E-16 BF=1.2000E+10)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1189
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT318A  3 2 7 4 6   ;(+IN -IN V+ V- OUT)
XLT318A 3 2 7 4 6 LT118A
.ENDS LT318A
*
.SUBCKT LT118A 3 2 7 4 6   ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 7.074E+02
RC2 7 90 7.074E+02
Q1 80 2 10 QM1 
Q2 90 3 11 QM1
*
C1 80 91 300E-12
RXC1 91 90 1E3
CXC1 91 90 15E-12
C2 1 8 5.000E-12
*
RB1 2 102 1.0000E+00
RB2 3 103 1.0000E+00
DDM1 102 104 DM2 
VZ1 104 103 5.5 
DDM2 103 105 DM2 
VZ2 105 102 5.5 
RE1 10 12 6.209E+02
RE2 11 12 6.209E+02
IEE 12 4 6.000E-04
RE 12 0 3.332E+05
CE 12 0 2.632E-13
*
GCM 0 8 12 0 1.414E-08
GA 8 0 80 90 1.414E-03
R2 8 0 1.000E+05
GB 1 0 8 0 5.318E+01
RO2 1 0 7.4000E+01
*
RS 1 6 1
ECL 18 0 1 6 3.172E+01
GCL 0 8 20 0 1
RCL 20 0 1E3
D1 18 20 DM1
D2 20 18 DM1
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 3.6473
RPLA 7 70 1E4
RPLB 7 131 1E5
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 3.6473
RNLA 60 4 1E4
RNLB 141 4 1E5
*
IP 7 4 4.400E-03
DSUB 4 7 DM2 
* MODELS 
.MODEL QM1 NPN (IS=8.000E-16 BF=2.439E+03)
.MODEL QM2 NPN (IS=8.157E-16 BF=2.564E+03)
*
.MODEL DM1 D (IS=1.000E-19)
.MODEL DM2 D (IS=8.000E-16)
.MODEL DM3 D (IS=1.000E-20)
.ENDS LT118A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1190 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 96.458
RC2 7 90 96.458
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2.2e-12
C1 80 90 4.0192E-12
*
CXC1 80 80A 10PF
RXR1 80A 90 500
*
RE1 10 12 93.801
RE2 11 12 93.801
IEE 12 4 0.019501
RE 12 0 10256
* INTERMEDIATE
GCM 0 8 12 0 3.2784e-6
GA 8 0 80 90 0.010367
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 6.4305
RO2 1 0 1.5
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 12.338
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0.18507
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.6107
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1107
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.012499
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=16250)
.MODEL QM2 NPN(IS=8.9844E-16 BF=24375)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1190
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1191 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 53.052
RC2 7 90 53.052
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 1.5e-11
*
CXC1 80 80A 10PF
RXR1 80A 90 250
*
RE1 10 12 50.177
RE2 11 12 50.177
IEE 12 4 0.018001
RE 12 0 11110
* INTERMEDIATE
GCM 0 8 12 0 3.352e-6
GA 8 0 80 90 0.01885
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 7.0568
RO2 1 0 1.5
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 12.296
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0.18444
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.6057
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1057
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.013999
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=15000)
.MODEL QM2 NPN(IS=8.3155E-16 BF=22500)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1191
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1192 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 11.789
RC2 7 90 11.789
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 1.8e-12
C1 80 90 5.5981E-11
RE1 10 12 8.6552
RE2 11 12 8.6552
IEE 12 4 0.016501
RE 12 0 12120
* INTERMEDIATE
GCM 0 8 12 0 4.7699e-6
GA 8 0 80 90 0.084823
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 3.1289
RO2 1 0 1.5
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 12.252
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0.18378
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.6003
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1003
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.015499
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=13750)
.MODEL QM2 NPN(IS=8.0621E-16 BF=20625)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1192
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* CONNECTIONS 3-2-7-4-6 FOLLOW STANDARD CONVENTION; SEE DATASHEET FOR
* EXPLANATION OF REF AND FB PINS
*
.SUBCKT LT1193 3 2 7 4 6 REF FB
* LT1193 FRONTEND
RL1A 7 1A 500
RL2A 7 5A 500
RE1A 9A 10A 1K
RE2A 6A 8A 1K
I1 9A 4 DC .0013
I2 10A 4 DC .0013
I3 6A 4 DC .0014
I4 8A 4 DC .0014
Q1A 1A 3 9A MOD1
Q2A 5A 2 10A MOD2
Q3A 1A REF 6A MOD1
Q4A 5A FB 8A MOD2
RCM1 9A 0 2.5MEG
RCM2 6A 0 2.5MEG
CCM1 9A 0 .2PF
CCM2 6A 0 .2PF
CIN1 2 3 2PF
CIN2 REF FB 2PF
.MODEL MOD1 NPN BF=2000 IS=1e-16
.MODEL MOD2 NPN BF 2500 IS=1.04E-16
*
* INPUT
RC1 7 80 96.458
RC2 7 90 96.458
Q1 80 1A 10 QM1
Q2 90 5A 11 QM2
CIN 1A 5A 1e-13
C1 80 90 1.5e-11
RE1 10 12 93.806
RE2 11 12 93.806
IEE 12 4 0.0195
RE 12 0 10256
* INTERMEDIATE
GCM 0 8 12 0 2.0685e-8
GA 8 0 80 90 0.010367
R2 8 0 100000
C2 1 8 2e-11
GB 1 0 8 0 11.435
RO2 1 0 1.5
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 12.338
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0.18507
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.6107
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1107
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0101
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=6.5000E+09)
.MODEL QM2 NPN(IS=8.0003E-16 BF=1.9500E+10)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1193
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* CONNECTIONS 3-2-7-4-6 ARE STANDARD CONVENTION; SEE DATASHEET
* FOR EXPLANATION OF REF, VOS1, AND VOS2 PINS
*
.SUBCKT LT1194 3 2 7 4 6 REF VOS1 VOS2
* LT1194 FRONT END
VBIAS 2A 4 DC 0.975
I1 6A 4 DC .0014
I2 8A 4 DC .0014
RL1A 7 1A 500
RL2A 7 5A 500
RE1A 9A 10A 230
RE2A 6A 8A 230
RFB FB 6 4500
RG FB REF 500
RX1 VOS1 4 150
RX2 VOS2 4 150
RCM1 9A 0 7.5MEG
RCM2 6A 0 7.5MEG
CCM1 9A 0 1PF
CCM2 6A 0 1PF
CIN1 2 3 2PF
Q1A 1A 3 9A MOD1
Q2A 5A 2 10A MOD2
Q3A 1A REF 6A MOD1
Q4A 5A FB 8A MOD2
Q5A 9A 2A VOS1 MOD1
Q6A 10A 2A VOS2 MOD1
.MODEL MOD1 NPN BF=2000 IS=1e-16
.MODEL MOD2 NPN BF=2500 IS=1.04E-16
*
* INPUT
RC1 7 80 58.946
RC2 7 90 58.946
Q1 80 1A 10 QM1
Q2 90 5A 11 QM2
CIN 1A 5A 1e-13
C1 80 90 1.5e-11
RE1 10 12 56.484
RE2 11 12 56.484
IEE 12 4 0.021
RE 12 0 9523.8
* INTERMEDIATE
GCM 0 8 12 0 3.3849e-8
GA 8 0 80 90 0.016965
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 3.1215
RO2 1 0 1.5
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 12.378
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0.18567
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.6155
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.1155
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0085
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=7.0000E+09)
.MODEL QM2 NPN(IS=8.0003E-16 BF=2.1000E+10)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1194
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1195 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* LT1195 FRONT END
RL1A 7 1A 500
RL2A 7 5A 500
CRL 1A 5A 6PF
RE1A 9A 10A 1200
RCM 9A 0 10MEG
I1 9A 4 DC 260UA
I2 10A 4 DC 260UA
Q1A 1A 3 9A MOD1
Q2A 5A 2 10A MOD2
.MODEL MOD1 NPN BF=500 IS=1e-16
.MODEL MOD2 NPN BF=550 IS=1.04E-16
*
* INPUT
RC1 7 80 75.788
RC2 7 90 75.788
Q1 80 1A 10 QM1
Q2 90 5A 11 QM2
CIN 2 3 2e-12
C1 80 90 20.981E-12
RE1 10 12 68.885
RE2 11 12 68.885
IEE 12 4 0.007501
*RE 12 0 2.6663E+04
* INTERMEDIATE
GCM 0 8 12 0 7.4199e-7
GA 8 0 80 90 0.013195
R2 8 0 100000
C2 1 800 2e-11
RXC2 800 8 800
GB 1 0 8 0 0.63148
RO2 1 0 9
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 28.915
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 0
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 2.5586
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 2.0586
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.004499
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=6250)
.MODEL QM2 NPN(IS=8.9844E-16 BF=9375)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=21.6)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1195
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
* PIN 8 IS OUTPUT COMPENSATION
.SUBCKT LT1207 3 2 7 4 6 8;(+IN -IN V+ V- OUT COMP)
XLT1207 3 2 7 4 6 8 LT1206
.ENDS LT1207
*
* PIN 8 IS OUTPUT COMPENSATION
.SUBCKT LT1206 3 2 7 4 6 8 ;(+IN -IN V+ V- OUT COMP)
*
Q2A 4 3 10 QPI
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11A 7 QPI 0.55
Q6A 13 11A 7 QPI
RBC 11 11A 60
Q7A 4 9 12 QPI
Q8A 12 12 13 QPI
Q9A 7 13 14 QNI
Q10A 4 9 14 QPI
Q11A 7 15 16 QNI 24
RSCA 16 6 1.2
RBA 14 15 50
IBA 7 10 DC 750U
ROA 7 10 73K
DIA 10 7 DCC 2
*
Q2B 7 3 110 QNI
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111B 4 QNI 0.55
Q6B 113 111B 4 QNI
RBD 111 111B 60
Q7B 7 9 112 QNI
Q8B 112 112 113 QNI
Q9B 4 113 114 QPI
Q10B 7 9 114 QNI
Q11B 4 115 116 QPI 24
RSCB 6 116 1.2
RBB 114 115 50
IBB 110 4 DC 750U
ROB 110 4 73K
DIB 4 110 DCC 2
*
CM1 7 11 70PF
CM2 111 4 70PF
CM3 9 0 2PF
CM4 9 18 8PF
*
RIB 7 11 75K
RC 2 200 10
R9 9 0 250K
R10 18 8 500
R11 8 17 100
D1 9 6 DCC
D2 6 9 DCC
D3 9 7 DCC 1.4
D4 4 9 DCC 1.4
*
EC 17 0 9 0 1
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN BF=150 TF=400P
.MODEL QPI PNP BF=150 TF=400P
*
.ENDS LT1206
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1208 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 999.09
RC2 7 90 999.09
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 957.17
RE2 11 12 957.17
IEE 12 4 0.001424
RE 12 0 140450
* INTERMEDIATE
GCM 8 0 12 0 1.0009e-8
GA 8 0 90 80 0.0010009
R2 8 0 7350000
C2 8 0 3.11E-12
*POLE AT 300MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 300MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 5.3e-16
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.7909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.1909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.005576
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=174.81)
.MODEL QM2 NPN(IS=8.124e-16 BF=179.24)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1208
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1209 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 999.09
RC2 7 90 999.09
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 957.17
RE2 11 12 957.17
IEE 12 4 0.001424
RE 12 0 140450
* INTERMEDIATE
GCM 8 0 12 0 1.0009e-8
GA 8 0 90 80 0.0010009
R2 8 0 7350000
C2 8 0 3.11E-12
*POLE AT 300MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 300MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 5.3e-16
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.7909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.1909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.005576
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=174.81)
.MODEL QM2 NPN(IS=8.124e-16 BF=179.24)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1209
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*PIN 8 IS OUTPUT COMPENSATION
*
* IN+ IN- V+ V- OUT COMP
.SUBCKT LT1210 3 2 7 4 6 8
*
Q2A 4 3A 10 QPI
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11A 7 QPI 0.55
Q6A 13 11A 7 QPI
RBC 11 11A 60
Q7A 4 9 12 QPI
Q8A 12 12 13 QPI
Q9A 7 13 14 QNI 2
Q10A 4 9 14 QPI 2
Q11A 7 15 16 QNI 48
RSCA 16 6A .3
RBA 14 15 12
IBA 7 10 DC 750U
ROA 7 10 73K
DIA 10 7 DCC 2
*
Q2B 7 3A 110 QNI
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111B 4 QNI 0.55
Q6B 113 111B 4 QNI
RBD 111 111B 60
Q7B 7 9 112 QNI
Q8B 112 112 113 QNI
Q9B 4 113 114 QPI 2
Q10B 7 9 114 QNI 2
Q11B 4 115 116 QPI 48
RSCB 6A 116 .3
RBB 114 115 12
IBB 110 4 DC 750U
ROB 110 4 73K
DIB 4 110 DCC 2
*
CM1 7 11 100PF
CM2 111 4 100PF
CM3 9 0 2PF
CM4 9 18 8PF
*
RIB 7 11 75K
RC 2 200 10
R9 9 0 250K
R10 18 8 500
R11 8 17 100
D1 9 6A DCC
D2 6A 9 DCC
D3 9 7 DCC 1.4
D4 4 9 DCC 1.4
*
EC 17 0 9 0 1
*
LINP 3 3A 5N
LOUT 6A 6 5N
KIO LINP LOUT .7
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN BF=150 TF=400P
.MODEL QPI PNP BF=150 TF=400P
*
.ENDS LT1210
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1211 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 378.9
RC2 4 90 378.9
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 1.788E-11
RE1 10 12 -51.87531280517578
RE2 11 12 -51.87531280517578
IEE 7 12 1.201E-04
RE 12 0 1665000
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 1.4
* INTERMEDIATE
GCM 0 8 12 0 2.096e-8
GA 8 0 80 90 0.002639
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1421
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 110 6 22
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.5
VE 14 4 0.825
IP 7 4 0.00118
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=960)
.MODEL QM2 PNP(IS=8.031E-16 BF=1043)
.MODEL DM1 D(IS=0.1076)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1211
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1212 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 378.9
RC2 4 90 378.9
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 1.788E-11
RE1 10 12 -51.87531280517578
RE2 11 12 -51.87531280517578
IEE 7 12 1.201E-04
RE 12 0 1665000
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 1.4
* INTERMEDIATE
GCM 0 8 12 0 2.096e-8
GA 8 0 80 90 0.002639
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1421
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 110 6 22
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.5
VE 14 4 0.825
IP 7 4 0.00118
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=960)
.MODEL QM2 PNP(IS=8.031E-16 BF=1043)
.MODEL DM1 D(IS=0.1076)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1212
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1213 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 189.5
RC2 4 90 189.5
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 2.142E-11
RE1 10 12 -13.28056335449219
RE2 11 12 -13.28056335449219
IEE 7 12 2.552E-04
RE 12 0 783700
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 1.4
* INTERMEDIATE
GCM 0 8 12 0 2.968e-8
GA 8 0 80 90 0.005278
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1876
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 6 110 23
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.465
VE 14 4 0.8262
IP 7 4 0.002445
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=1244)
.MODEL QM2 PNP(IS=8.031E-16 BF=1308)
.MODEL DM1 D(IS=0.302)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1213
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1214 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 189.5
RC2 4 90 189.5
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 2.142E-11
RE1 10 12 -13.28056335449219
RE2 11 12 -13.28056335449219
IEE 7 12 2.552E-04
RE 12 0 783700
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 1.4
* INTERMEDIATE
GCM 0 8 12 0 2.968e-8
GA 8 0 80 90 0.005278
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1876
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 6 110 23
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.465
VE 14 4 0.8262
IP 7 4 0.002445
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=1244)
.MODEL QM2 PNP(IS=8.031E-16 BF=1308)
.MODEL DM1 D(IS=0.302)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1214
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1215 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 230.7
RC2 4 90 230.7
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 2.142E-11
RE1 10 12 173
RE2 11 12 173
IEE 7 12 9.008E-04
RE 12 0 222000
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 2
* INTERMEDIATE
GCM 0 8 12 0 1.726e-8
GA 8 0 80 90 0.004335
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1617
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 6 110 23
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.421
VE 14 4 0.8272
IP 7 4 0.003849
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=1029)
.MODEL QM2 PNP(IS=8.047E-16 BF=1118)
.MODEL DM1 D(IS=0.9187)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1215
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1216 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 4 80 230.7
RC2 4 90 230.7
Q1 80 102 10 QM1
Q2 90 103 11 QM2
RB1 2 102 100
RB2 3 103 100
DCM1 105 102 DM2
DCM2 105 103 DM2
VCMC 105 4 0.4
C1 80 90 2.142E-11
RE1 10 12 173
RE2 11 12 173
IEE 7 12 9.008E-04
RE 12 0 222000
CE 12 0 1.579E-12
DCMR 12 112 DM2
VCMR 7 112 2
* INTERMEDIATE
GCM 0 8 12 0 1.726e-8
GA 8 0 80 90 0.004335
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 1617
* OUTPUT
RO1 1 110 5
RO2A 1 0 15
RO2B 6 110 23
EC 17 0 110 0 1
D1 1 17 DM1
D2 17 1 DM1
D3 110 13 DM2
D4 14 110 DM2
D5 6 110 DM2
D6 110 6 DM2
VC 7 13 1.421
VE 14 4 0.8272
IP 7 4 0.003849
DSUB 4 7 DM2
* MODELS
.MODEL QM1 PNP(IS=8e-16 BF=1029)
.MODEL QM2 PNP(IS=8.047E-16 BF=1118)
.MODEL DM1 D(IS=0.9187)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.ENDS LT1216
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1217 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 8
IBA 7 10 DC 40U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 8
IBB 110 4 DC 40U
*
RC 2 200 16
R9 9 0 5MEG
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=160E-18 BF=170 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=2.1P VJC=0.62 MJC=0.44
+TF=500P
*
.MODEL QP PNP(IS=165E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=2.1P VJC=0.62 MJC=0.44
+TF=500P
*
.ENDS LT1217
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1218 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1218 3 2 7 4 6 LT1366
.ENDS LT1218
*
.SUBCKT LT1367 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1367 3 2 7 4 6 LT1366
.ENDS LT1367
*
.SUBCKT LT1366 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
Q3 18 10 14 [4] PL1 1
Q4 19 11 14 [4] PL1 1.006
Q3C 19 10 10 [4] PL1 2
Q4C 18 11 11 [4] PL1 2
Q5 16 15 14 [4] PL1 1
Q2 13 10 17 [4] NL1 1
Q1 12 11 17 [4] NL1 1.006
RINP 10 3 500
RINN 11 2 500
R3 4 18 5K
R1 12 7 5K
RCMP 14 7 12MEG
R4 4 19 5K
RI 21 24 8K
R2 13 7 5K
ROUT1 22 6 31.2
ROUT2 22 0 80K
RCMN 4 17 12MEG
RO1 0 20 25MEG
RPS1 4 20 1600MEG
RPS2 20 7 1600MEG
C1 12 13 8.6PF
C2 18 19 8.6PF
CI 24 6 12PF
CCMP 14 7 1.6PF
CCMN 4 17 1.6PF
CF 20 6 71.5PF
CPS2 20 7 0.1PF
CPS1 4 20 0.1PF
VESAT 26 4 0.814
VCSAT 7 25 0.814
VSENSE 16 4 0
F1 17 4 VSENSE 1
VLS 7 15 1.4
GN1 7 20 13 12 400U
GP1 20 4 19 18 400U
GOUT 0 22 0 24 21E-3
I1 7 14 5U
IOS 3 2 1NA
IQ 7 4 345U
E1 21 0 20 0 1.31
EOUT 23 0 6 0 1
DI2 11 7 DM1
DI1 10 7 DM1
DC1 20 0 DMX
DO1 6 25 DM1
DO2 26 6 DM1
DL1 23 22 DMX
DL2 22 23 DMX
DC2 0 20 DMX
DSUB 4 7 DM2
.MODEL PL1 LPNP
+ IS=0.00000000000000057
+ BF=263 BR=0.17 VAF=115
+ TF=42E-9 TR=7.7E-6
+ CJE=0.115PF VJE=0.62 MJE=0.44 FC=0.5
+ CJC=0.948PF VJC=0.62 MJC=0.44
+ CJS=2.695PF VJS=0.60 MJS=0.36
.MODEL NL1 NPN
+ IS=0.00000000000000133
+ BF=240 BR=0.22 VAF=80
+ TF=42E-9 TR=7.7E-6
+ CJE=0.078PF VJE=0.62 MJE=0.44 FC=0.5
+ CJC=0.749PF VJC=0.62 MJC=0.44
+ CJS=0.000PF VJS=0.60 MJS=0.36
.MODEL DM1 D IS=8E-16
.MODEL DMX D IS=3.4E-24
.MODEL DM2 D IS=8E-16 BV=39
.ENDS LT1366
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM
*
* IN+ IN- V+ V- OUT SHUTDOWN
.SUBCKT LT1219 1 2 3 4 5 8
GRP1 1 111 1 111 1
GRP2 119 112 119 112 1
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.49
GSW1 2 119 POLY(2) 803 99 2 119 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1000000000
CIN 111 112 1.2e-11
GRIN 111 112 111 112 1.1244e-7
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 303 11 2409.1
RC2 303 12 2409.1
RE1 10 13 37.722
RE2 10 14 37.722
C1 11 12 3.3032e-11
IEE 10 304 DC 0.00083021
GSHDN 10 304 806 99 0.00016772
D1 304 10 DX
VCMEP 303 3 DC 1.4
VCMEN 4 304 DC 0.6
GA 60 99 11 12 0.00041509
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 7126000
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 7126000
GR 99 60 605 606 15.93
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 1.5915
ECM 113 111 20 99 3.1623e-6
RP1 601 99 1428.6
CP1 60 601 1.3926e-9
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 10870
LP2 61 611 0.021624
RP22 61 99 125000
GP2 99 6 61 99 0.0001
R2 6 99 1000
C2 6 7 9.9472e-9
GB 7 99 6 99 3901.6
R01 7 99 25.631
R02 7 50 0.1
R03 50 51 34.269
GSW2 51 5 POLY(2) 803 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
R04 5 99 1.0000e+012
VC 53 50 DC 1.0738
VE 54 50 DC -1.0748
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 1000
ECLN 92 0 7 50 1000
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 64.086
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 803 1.0072e-5 -9.3043e-5
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
RDIS1 8 3 1.0000e+012
DDIS1 801 8 DX
RDIS2 801 802 1180900
VDIS1 800 802 DC 0
EDIS 3 800 3 99 0.35
FDIS 99 803 POLY(1) VDIS1 -30E-3 16667
RDIS3 803 99 1000
DDIS2 803 804 DON
VDIS2 804 99 DC -0.801
DDIS3 805 803 DOFF
VDIS3 805 99 DC -4.195
CDIS1 803 99 5e-11
EDIS2 806 99 POLY(1) 803 99 -5.0 -1.0
RDIS4 806 99 1000000
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 NPN IS=9.995e-16 BF=20896.9 XTB=-11.07
+ XTI=2.99472 KF=1.6305e-16
.MODEL Q2 NPN IS=1.0005e-15 BF=23778.7 XTB=-9.5221
+ XTI=3.00528 KF=1.6305e-16
.MODEL DR D IS=8e-16 KF=3.2111e-18 RS=0 XTI=0
.MODEL DON D IS=8e-16 TT=0 CJO=3e-13 RS=0 XTI=0
.MODEL DOFF D IS=8e-16 TT=3.6e-5 CJO=3e-13 RS=0 XTI=0
.ENDS LT1219
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1220 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1E+03
RC2 7 90 1E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 848
RE2 11 12 848
IEE 12 4 1E-03
RE 12 0 230000
CE 12 0 .75E-12
* INTERMEDIATE
GCM 8 0 12 0 1.8e-9
GA 8 0 90 80 1.0E-3
R2 8 0 47.7E+06
C2 8 0 3.51E-12
*POLE AT 180MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 8.85e-16
*POLE AT 180MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 8.85e-16
*POLE AT 240MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 6.63e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 360MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 .443E-15
*POLE AT 360MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .443E-15
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 3200
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.4909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.9909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 7E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=10E+03)
.MODEL QM2 NPN(IS=8.19E-16 BF=3330)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1220
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1221 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1E+03
RC2 7 90 1E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 218
RE2 11 12 218
*
IEE 12 4 1E-03
RE 12 0 230000
CE 12 0 2E-12
*CE ADDED TO GIVE ASSYMETRICAL SLEW FOR NON-INVERTING GAINS
* INTERMEDIATE
GCM 8 0 12 0 7.2e-9
GA 8 0 90 80 1.0E-3
R2 8 0 28.4E+06
C2 8 0 3.51E-12
*POLE AT 180MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 8.85e-16
*POLE AT 180MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 8.85e-16
*POLE AT 180MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 8.85e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 360MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 .443E-15
*POLE AT 360MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .443E-15
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 3200
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.4909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.9909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 7E-03
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=10E+03)
.MODEL QM2 NPN(IS=8.1E-16 BF=3330)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1221
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* CONNECTION 8 IS COMPENSATION PIN
*
* IN+ IN- V+ V- OUT COMP
.SUBCKT LT1222 3 2 7 4 6 8
* INPUT
RC1 7 80 1E+03
RC2 7 90 1E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 8.5
RE2 11 12 8.5
*
IEE 12 4 0.0012
RE 12 0 230000
CE 12 0 2E-12
*CE ADDED TO GIVE ASSYMETRICAL SLEW FOR NON-INVERTING GAINS
* INTERMEDIATE
GCM 8 0 12 0 1.98e-8
GA 8 0 90 80 1.0E-3
R2 8 0 10.9E+06
C2 8 0 5.65E-12
*POLE AT 180MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 8.85e-16
*POLE AT 180MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 8.85e-16
*POLE AT 180MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 8.85e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 240MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 .663E-15
*POLE AT 360MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .443E-15
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.4909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.9909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0068
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=12E+03)
.MODEL QM2 NPN(IS=8.033E-16 BF=4E+03)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1222
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1223 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 8
IBA 7 10 DC 350U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 8
IBB 110 4 DC 350U
*
RC 2 200 16
R9 9 0 5MEG
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=160E-18 BF=170 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=500P
*
.MODEL QP PNP(IS=165E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=500P
*
.ENDS LT1223
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1224 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 999.09
RC2 7 90 999.09
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 957.17
RE2 11 12 957.17
IEE 12 4 0.001424
RE 12 0 140450
* INTERMEDIATE
GCM 8 0 12 0 1.0009e-8
GA 8 0 90 80 0.0010009
R2 8 0 7350000
C2 8 0 3.11E-12
*POLE AT 300MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 300MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 5.3e-16
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.7909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.1909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.005576
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=174.81)
.MODEL QM2 NPN(IS=8.124e-16 BF=179.24)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1224
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1225 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 999.09
RC2 7 90 999.09
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 263
RE2 11 12 263
*
IEE 12 4 0.001424
RE 12 0 140450
* INTERMEDIATE
GCM 8 0 12 0 1.0009e-8
GA 8 0 90 80 1.0009E-3
R2 8 0 7.0E+06
C2 8 0 3.11E-12
*POLE AT 180MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 8.85e-16
*POLE AT 180MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 8.85e-16
*POLE AT 180MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 8.85e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 180MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 .885E-15
*POLE AT 180MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .885E-15
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.7909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.1909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.005576
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=174.81)
.MODEL QM2 NPN(IS=8.124e-16 BF=179.24)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1225
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1226 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 999.09
RC2 7 90 999.09
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
C1 80 90 2.65e-13
*INPUT POLE AT 300MHZ
RE1 10 12 7.5
RE2 11 12 7.5
*
IEE 12 4 0.001424
RE 12 0 142050
* INTERMEDIATE
GCM 8 0 12 0 1.60009e-7
GA 8 0 90 80 1.0009E-3
R2 8 0 7.0E+06
C2 8 0 3.21E-12
*POLE AT 180MHZ
GX1 0 28 8 0 1E-06
RX1 28 0 1E+06
CX1 28 0 8.85e-16
*POLE AT 180MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 8.85e-16
*POLE AT 180MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 8.85e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 150MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.06E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
GB 0 1 78 0 0.0204
RO2 1 0 49
RF 8 99 2400
CF 99 6 5E-12
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 23.987
GCL 8 0 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 5.9605e-8
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.7909
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.1909
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.005576
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=174.81)
.MODEL QM2 NPN(IS=8.093e-16 BF=179.24)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1226
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1227 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 325U
RBA 7 10 73K
DIA 10 7 DCC 3
*
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RSCB 6 113 12
IBB 110 4 DC 325U
RBB 110 4 73K
DIB 4 110 DCC 5
*
CM1 7 11 10PF
CM2 111 4 10PF
*
RIB 7 11 75K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC
D4 4 9 DCC
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN TF=225P
.MODEL QPI PNP TF=225P
*
.ENDS LT1227
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* LT1228 OTA and CFA
* SUBCIRCUIT CONNECTIONS MATCH DATASHEET PINOUT FOR 8-PIN DIP
*1=IOUT OTA/+IN CFA
*2=-IN OTA
*3=+IN OTA
*4=V-
*5=ISET CFA
*6=OUTPUT CFA
*7=V+
*8=-IN CFA
*
.SUBCKT LT1228 1 2 3 4 5 6 7 8
*
* THE OTA
Q11 5 5 21 QN 10
Q12 21 21 22 QN 10
VC 22 4 DC 0
F1 26 4 VC 0.375
F2 27 4 VC 0.25
F3 28 4 VC 0.375
F4 7 23 VC 1.6
F5 7 24 VC 1.6
VB 7 25 DC 1.4
CE1 23 7 11PF
CE2 24 7 11PF
RE13 23 32 120
RE14 24 33 120
Q13 29 25 32 QPI
Q14 1 25 33 QPI
Q15 23 3 28 QNI 9
Q16 23 3 27 QNI
Q17 23 3 26 QNI
Q18 24 2 26 QNI 9
Q19 24 2 27 QNI
Q20 24 2 28 QNI
VM 29 4 DC 1.4
FM 1 4 VM 1
DM 29 1 DC
C1 1 7 5PF
*
* THE CFA
Q2A 4 1 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
*
Q2B 7 1 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
*
RC 8 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
.MODEL QNI NPN
.MODEL QN NPN(IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
.MODEL QPI PNP
.MODEL QP PNP(IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
*
.ENDS LT1228
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1229 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
*
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
*
.MODEL QP PNP(IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
*
.ENDS LT1229
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1230 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
*
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=168E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
*
.MODEL QP PNP(IS=230E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
*
.ENDS LT1230
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* LT1251 VIDEO FADER
*
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
*
.SUBCKT LT1251 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*
*GENERATING K
EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0.04,0) (0.1,0.11)
+ (0.9,0.907) (0.95,1.0) (100,1.0)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*
*NULL CIRCUIT
GNULL 7 6A VALUE={I(VOSFS)}
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*
*OUTPUT STAGE
E6 8A 0
+VALUE={1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN))}
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 9 -1.4V
DN 8N 8B D1
VDN 8N 7 1.4V
.MODEL D1 D
GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
*
*SUPPLY CURRENT
GQ 9 7 VALUE={1MA+24*I(VOSFS)+(V(7)-V(9))/20K}
GCC 9 0 TABLE {I(V8)}=(-1,0) (0,0) (1,1)
GEE 7 0 TABLE {I(V8)}=(-1,-1) (0,0) (1,0)
*
.ENDS LT1251
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1252 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 325U
RBA 7 10 73K
DIA 10 7 DCC 3
*
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RSCB 6 113 12
IBB 110 4 DC 325U
RBB 110 4 73K
DIB 4 110 DCC 5
*
CM1 7 11 10PF
CM2 111 4 10PF
*
RIB 4 111 35K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC
D4 4 9 DCC
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN TF=225P
.MODEL QPI PNP TF=225P
*
.ENDS LT1252
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1253 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
RIB 11 7 35K
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
*
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
*
.MODEL QP PNP(IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
*
.ENDS LT1253
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1254 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QP 0.5
Q3A 11 10 200 QN
Q4A 11 11 7 QP
RIB 11 7 35K
Q5A 9 11 7 QP
Q6A 12 11 7 QP
Q7A 4 9 12 QP
Q8A 7 12 13 QN 10
RSCA 13 6 10
IBA 7 10 DC 300U
*
Q2B 7 3 110 QN 0.5
Q3B 111 110 200 QP
Q4B 111 111 4 QN
*
Q5B 9 111 4 QN
Q6B 112 111 4 QN
Q7B 7 9 112 QN
Q8B 4 112 113 QP 10
RSCB 6 113 10
IBB 110 4 DC 300U
*
RC 2 200 20
R9 9 0 201600
D1 9 6 DC
D2 6 9 DC
*
.MODEL DC D
*
.MODEL QN NPN(IS=200E-18 BF=150 ISC=40E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.37P VJE=0.65 MJE=0.33 FC=0.7 CJC=0.8P VJC=0.62 MJC=0.44
+TF=300P
*
*
.MODEL QP PNP(IS=170E-18 BF=150 ISC=113E-18 NC=1 RB=250 RE=8 RC=100
+CJE=0.34P VJE=0.75 MJE=0.40 FC=0.7 CJC=0.8P VJC=0.5 MJC=0.36
+TF=300P
*
.ENDS LT1254
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* LT1256 VIDEO FADER
*
* CONNECTIONS: AS PER DATASHEET PINOUT
*1=FIRST NON-INVERTING INPUT
*2=FIRST INVERTING INPUT
*3=CONTROL VOLTAGE INPUT
*4=CONTROL CURRENT INPUT
*5=CONTROL RESISTOR, RC
*6=NULL INPUT
*7=NEGATIVE SUPPLY
*8=OUTPUT
*9=POSITIVE SUPPLY
*10=FULL SCALE RESISTOR, RFS
*11=FULL SCALE CURRENT INPUT
*12=FULL SCALE VOLTAGE INPUT
*13=SECOND INVERTING INPUT
*14=SECOND NON-INVERTING INPUT
*
.SUBCKT LT1256 1 2 3 4 5 6 7 8 9 10 11 12 13 14
*
*FIRST INPUT STAGE
IB1 1 0 500NA
RI1 1 0 17MEG
C1 1 0 1.5PF
E1 2A 0 VALUE={LIMIT (V(1),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS1 2A 2B 2.5MV
R1 2B 2 27
C2 2 0 1PF
*
*SECOND INPUT STAGE
IB2 14 0 450NA
RI2 14 0 17MEG
C14 14 0 1.5PF
E2 13A 0 VALUE={LIMIT (V(14),V(8N)+0.4,V(8P)-0.4)+V(EN)/30}
VOS2 13A 13B 1.5MV
R2 13B 13 27
C13 13 0 1PF
*
*CONTROL AMP
IBC 3 0 -300NA
RIC 3 0 100MEG
C3 3 0 1PF
R3 3 3A 1600
CBWC 3A 0 10PF
EC 3B 0 3A 0 1.0
VOSC 3B 4 5MV
C4 4 0 1PF
RC 4 5 5K
C5 5 0 1PF
*
*FULL SCALE AMP
IBFS 12 0 -300NA
RIFS 12 0 100MEG
C12 12 0 1PF
R12 12 12A 1600
CBWFS 12A 0 10PF
EFS 12B 0 12A 0 1.0
VOSFS 12B 11 -5MV
C11 11 0 1PF
RFS 11 10 5K
C10 10 0 1PF
*
*GENERATING K
EK K 0 TABLE {I(VOSC)/I(VOSFS)} = (-100,0) (0,0) (0.2,0.21)
+ (0.9,0.9) (1.0,1.0) (100,1.0)
RDUMMY K 0 1MEG
RNOISE1 EN 0 200K
RNOISE2 EN 0 200K
*GENERATES 40.7NV/RTHZ
*
*NULL CIRCUIT
GNULL 7 6A VALUE={I(VOSFS)}
RN1 6A 7 200
VNULL 6A 6B 0.0V
RN2 6B 6 400
C6 6 7 1PF
*
*OUTPUT STAGE
E6 8A 0
+VALUE={1.8MEG*(I(VOS1)*V(K)+I(VOS2)*(1-V(K))-I(VNULL)+0.10UA+0.0007*V(EN))}
RG 8A 8B 1.8MEG
CG 8B 0 3.4PF
E8 8C 0 8B 0 1.0
V8 8C 8D 0.0V
R8 8D 8 11
*
*OUTPUT SWING AND CURRENT LIMIT
DP 8B 8P D1
VDP 8P 7 -1.4V
DN 8N 8B D1
VDN 8N 9 1.4V
.MODEL D1 D
GCL 8B 0 TABLE {I(V8)}=(-1,-1) (-0.04,0) (0.04,0) (1,1)
*
*SUPPLY CURRENT
GQ 9 7 VALUE={1MA+24*I(VOSFS)+(V(7)-V(9))/20K}
GCC 9 0 TABLE {I(V8)}=(-1,0) (0,0) (1,1)
GEE 7 0 TABLE {I(V8)}=(-1,-1) (0,0) (1,0)
*
.ENDS LT1256
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1259 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 50UA
RBA 7 10 73K
DIA 10 7 DCC 2.0
*
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RS 6 113 12
IBB 110 4 DC 50UA
RBB 110 4 73K
DIB 4 110 DCC 2.0
*
CM1 7 11 1PF
CM2 111 4 1PF
*
RIB 7 11 75K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC .55
D4 4 9 DCC .55
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN TF=225PS
.MODEL QPI PNP TF=225PS
*
.ENDS LT1259
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1260 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q2A 4 3 10 QPI 0.5
Q3A 11 10 200 QNI
Q4A 11 11 7 QPI
Q5A 9 11 7 QPI
Q6A 12 11 7 QPI 2
Q7A 4 9 12 QPI
Q8A 7 12 13 QNI 10
RSCA 13 6 12
IBA 7 10 DC 50UA
RBA 7 10 73K
DIA 10 7 DCC 2.0
*
Q2B 7 3 110 QNI 0.5
Q3B 111 110 200 QPI
Q4B 111 111 4 QNI
Q5B 9 111 4 QNI
Q6B 112 111 4 QNI 2
Q7B 7 9 112 QNI
Q8B 4 112 113 QPI 10
RS 6 113 12
IBB 110 4 DC 50UA
RBB 110 4 73K
DIB 4 110 DCC 2.0
*
CM1 7 11 1PF
CM2 111 4 1PF
*
RIB 7 11 75K
RC 2 200 75
R9 9 0 250K
D1 9 6 DC
D2 6 9 DC
D3 9 7 DCC .55
D4 4 9 DCC .55
*
.MODEL DC D
.MODEL DCC D CJO=3PF VJ=0.62 M=0.44
*
.MODEL QNI NPN TF=225PS
.MODEL QPI PNP TF=225PS
*
.ENDS LT1260
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1328 IN FILTER FSW GND DATA VCC MODE VBIAS
* PIN NUMBER 1 2 3 4 5 6 7 8
* PREAMP
GPREAMP 0 VPG NVB IN 7.7E-3
QC1 VPG VPG VC1 NPN
VC1 VC1 GND DC 4
QC2 VC2 VC2 VPG NPN
VC2 VC2 GND DC 1
RPREG VPG 0 200K
CPREG VPG 0 10PF
EPREAMP PREOUT1 0 VPG 0 1
RFB IN PREOUT1 50K
RBPRE PREOUT1 RB 1K
REPRE IN RE 25
QPRE VCC RB RE [GND] NPN 10X
QDPRE IN IN PREOUT1 [GND] NPN
*
* BIAS
VBIAS NVB 0 DC 1.4V
*
* AC LOOP
GAC 0 FILTER PREOUT1 NVB 16.7E-6
EAC NAC 0 FILTER 0 1
RFILTER FILTER 0 10MEG
QC3 FILTER FILTER VC3 NPN
VC3 VC3 GND DC 4
QC4 VC4 VC4 FILTER NPN
VC4 VC4 GND DC 1
RIN IN NAC 2K
*
* THRESHOLD
VT VP1 PREOUT1 DC .7V
RVP VP1 VP 10K
QP VCC VP NEP [GND] NPN
QB VCC PRE VBIAS [GND] NPN
RBQB PRE VP 2K
RTH NEP PREOUT 500
IP PREOUT GND DC 10U
IB VBIAS GND DC 10U
*
* COMPARATOR
GCOMP 0 NCOMP VBIAS PREOUT 2
QC5 NCOMP NCOMP VC5 [GND] NPN
VC5 VC5 GND DC 4.3V
QC6 VC6 VC6 NCOMP [GND] NPN
VC6 VC6 GND DC .7V
*
QC7 NCT NCT NCOMP [GND] NPN
QC8 NCT NCT NCO [GND] NPN
QC9 NCOMP NCOMP NCB [GND] NPN
QC10 NCO NCO NCB [GND] NPN
ICT VCC NCT DC 400UA
ICB NCB GND DC 2MA
CCOMP NCO 0 10PF
QC11 NCO NCO VC11 [GND] NPN
VC11 VC11 GND DC 3.6
QC12 VC12 VC12 NCO [GND] NPN
VC12 VC12 GND DC 1.2
*TCOMP NCO 0 NCOT 0 ZO=100MEG TD=100NS
ECOMP DATA 0 LAPLACE {V(NCO)} = {EXP(-S*200N)} ; 0 1
*
* FILTER SWITCH
RF MODE NSW 10K
QF1 NSW NSW NSWE NPN
RF2 NSWE NSWB 5K
QF2 FSW NSWB GND NPN 50X
ICC VCC 0 DC 1.6mA
IEE 0 GND DC -8.2mA
.MODEL NPN NPN(BF=200 IS=1E-16 NF=1 NE=1.5 NC=2 NK=.5)
*
.ENDS LT1328
*
*HERE IS A PHOTODIODE FOR TESTING THE LT1328, SIMILAR TO SFH-205.
*A=ANODE (COMMON), K=CATHODE (OUTPUT), AND L=LIGHT INPUT.
*DRIVE LIGHT INPUT (L) WITH A CURRENT SOURCE CONNECTED AS FOLLOWS:
*IPD A L; USE PULSE, PWL, ETC. WAVEFORMS. THE 1328PD TAKES CARE OF
*FREQUENCY RESPONSE, SETTLING, AND DIODE CAPACITANCE.
*
.SUBCKT LT1328PD A K L
DPD 0 K DPD
R1 L A 1
C1 L A 18N ;SETTLING TAIL FOR 125NS PULSES
GD K A L A 1.0
ET 2 A L A 0.18
R3 2 3 1
C2 3 A 1U
GT K A 3 A 1
*
.Model DPD D(
+ IS=8.5E-10 XTI=0.5 ; Forward DC operation
+ N=1.35 ; Forward DC operation
+ IKF=390uA TIKF=0 ; Forward DC operation
+ RS=150 TRS1=0.022 TRS2=5u ; Series resistance
+ CJO=72p VJ=0.4 M=0.5 ; Junction Capacitance
+ FC=0.5 ; Junction Capacitance
+ TT=10pS ; Transit Time
+ EG=0.69 ; Bandgap Voltage
+ ISR=100pA NR=2 ; Recombination Current
+ BV=100 IBV=100uA NBV=1 ; Reverse Breakdown
+ IBVL=0 NBVL=1 ; Reverse Breakdown
*+ TVB1=0 TVB2=0 ; Reverse Breakdown
+ KF=0 AF=1 ) ; Noise
*
.ENDS LT1328PD
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1352 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1352 3 2 7 4 6 LT1351
.ENDS LT1352
*
.SUBCKT LT1353 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1353 3 2 7 4 6 LT1351
.ENDS LT1353
*
.SUBCKT LT1351 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1894.7 ;3.7894E+03
RC2 7 90 1894.7 ;3.7894E+03
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 4.5MHZ
C1 80 90 9.34E-12 ;4.67E-12
RE1 10 12 3770.9
RE2 11 12 3770.9
IEE 12 4 0.0028
RE 12 0 71428
* INTERMEDIATE
GCM 8 0 12 0 5.2654e-9
GA 8 0 78 0 2.6389E-04
R2 8 0 255E+06
C2 8 0 12.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 20MHZ
GX1 0 28 90 80 2E-06 ;1E-06
RX1 28 0 1E+06
CX1 28 0 7.69E-15
*POLE AT 45MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 3.54E-15
*POLE AT 45MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 3.54E-15
*ZERO AT 4.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.0354
*POLE AT 9MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 17.7E-15
*POLE AT 300MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 .531E-15
*OUTPUT
EB 1 0 8 0 1
RO2 1 6 160
RF 8 99 20E+03
CF 99 6 7.5E-12
*
* CURRENT LIMIT
ECL 18 1 6 1 .103
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.0182
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.0182
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.00255
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=80000)
.MODEL QM2 NPN(IS=8.0621E-16 BF=112000)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1351
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1354 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1326.3
RC2 7 90 1326.3
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 75MHZ
C1 80 90 8e-13
RE1 10 12 1313.3
RE2 11 12 1313.3
IEE 12 4 0.0040002
RE 12 0 49998
* INTERMEDIATE
GCM 8 0 12 0 1.065e-8
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.0127
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 50
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.003
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=22222)
.MODEL QM2 NPN(IS=8.0847E-16 BF=28571)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1354
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1355 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1326.3
RC2 7 90 1326.3
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 75MHZ
C1 80 90 8e-13
RE1 10 12 1313.3
RE2 11 12 1313.3
IEE 12 4 0.0040002
RE 12 0 49998
* INTERMEDIATE
GCM 8 0 12 0 1.065e-8
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.0127
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 50
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.003
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=22222)
.MODEL QM2 NPN(IS=8.0847E-16 BF=28571)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1355
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1356 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 1326.3
RC2 7 90 1326.3
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 75MHZ
C1 80 90 8e-13
RE1 10 12 1313.3
RE2 11 12 1313.3
IEE 12 4 0.0040002
RE 12 0 49998
* INTERMEDIATE
GCM 8 0 12 0 1.065e-8
GA 8 0 78 0 7.5398E-04
R2 8 0 21.9E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 75MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 2.12E-15
*POLE AT 75MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 2.12E-15
*POLE AT 75MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 2.12E-15
*ZERO AT 12.5MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.0127
*POLE AT 25MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 6.37E-15
*POLE AT 75MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 2.12E-15
*
EB 1 0 8 0 1
RO2 1 6 50
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.375
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.003
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=22222)
.MODEL QM2 NPN(IS=8.0847E-16 BF=28571)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1356
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1357 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 636.62
RC2 7 90 636.62
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 150MHZ
C1 80 90 8.34e-13
RE1 10 12 627.98
RE2 11 12 627.98
IEE 12 4 0.0060002
RE 12 0 33332
* INTERMEDIATE
GCM 8 0 12 0 2.2188e-8
GA 8 0 78 0 0.0015708
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 1.06e-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00531
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2486
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2486
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.004
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=21429)
.MODEL QM2 NPN(IS=8.0463E-16 BF=30000)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1357
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1358 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 636.62
RC2 7 90 636.62
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 150MHZ
C1 80 90 8.34e-13
RE1 10 12 627.98
RE2 11 12 627.98
IEE 12 4 0.0060002
RE 12 0 33332
* INTERMEDIATE
GCM 8 0 12 0 2.2188e-8
GA 8 0 78 0 0.0015708
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 1.06e-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00531
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2486
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2486
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.004
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=21429)
.MODEL QM2 NPN(IS=8.0463E-16 BF=30000)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1358
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1359 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 636.62
RC2 7 90 636.62
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 150MHZ
C1 80 90 8.34e-13
RE1 10 12 627.98
RE2 11 12 627.98
IEE 12 4 0.0060002
RE 12 0 33332
* INTERMEDIATE
GCM 8 0 12 0 2.2188e-8
GA 8 0 78 0 0.0015708
R2 8 0 17.4E+06
C2 8 0 9.6E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 150MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 1.06e-15
*POLE AT 150MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 1.06E-15
*POLE AT 150MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 1.06E-15
*ZERO AT 30MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00531
*POLE AT 60MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 2.65E-15
*POLE AT 150MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 1.06E-15
*
EB 1 0 8 0 1
RO2 1 6 46
RF 8 99 2000
CF 99 6 7.5E-12
* OUTPUT
ECL 18 1 6 1 0.395
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.2486
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.2486
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 -0.004
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=21429)
.MODEL QM2 NPN(IS=8.0463E-16 BF=30000)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1359
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1360 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 795.77
RC2 7 90 795.77
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 3.33e-13
RE1 10 12 779.47
RE2 11 12 779.47
IEE 12 4 0.0032006
RE 12 0 62488
* INTERMEDIATE
GCM 8 0 12 0 3.1565e-8
GA 8 0 78 0 0.0012566
R2 8 0 5470000
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 7.96e-16
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.0231
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.0231
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0007994
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=4705.9)
.MODEL QM2 NPN(IS=8.0934E-16 BF=6153.8)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1360
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1361 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 795.77
RC2 7 90 795.77
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 3.33e-13
RE1 10 12 779.47
RE2 11 12 779.47
IEE 12 4 0.0032006
RE 12 0 62488
* INTERMEDIATE
GCM 8 0 12 0 3.1565e-8
GA 8 0 78 0 0.0012566
R2 8 0 5470000
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 7.96e-16
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.0231
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.0231
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0007994
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=4705.9)
.MODEL QM2 NPN(IS=8.0934E-16 BF=6153.8)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1361
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1362 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 795.77
RC2 7 90 795.77
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 3.33e-13
RE1 10 12 779.47
RE2 11 12 779.47
IEE 12 4 0.0032006
RE 12 0 62488
* INTERMEDIATE
GCM 8 0 12 0 3.1565e-8
GA 8 0 78 0 0.0012566
R2 8 0 5470000
C2 8 0 3.7E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 60MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00265
*POLE AT 120MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 1.33E-15
*POLE AT 200MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 7.96e-16
*
EB 1 0 8 0 1
RO2 1 6 30
RF 8 99 1000
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.46
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 3.0231
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 3.0231
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0007994
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=4705.9)
.MODEL QM2 NPN(IS=8.0934E-16 BF=6153.8)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1362
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1363 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 568.41
RC2 7 90 568.41
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 4.67e-13
RE1 10 12 555.32
RE2 11 12 555.32
IEE 12 4 0.0040012
RE 12 0 49985
* INTERMEDIATE
GCM 8 0 12 0 5.5634e-8
GA 8 0 78 0 0.0017593
R2 8 0 3690000
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00187
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 9.37e-16
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 3.18e-16
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.9317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 2.9317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0019988
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=3030.3)
.MODEL QM2 NPN(IS=8.1562E-16 BF=3703.7)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1363
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1364 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 568.41
RC2 7 90 568.41
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 4.67e-13
RE1 10 12 555.32
RE2 11 12 555.32
IEE 12 4 0.0040012
RE 12 0 49985
* INTERMEDIATE
GCM 8 0 12 0 5.5634e-8
GA 8 0 78 0 0.0017593
R2 8 0 3690000
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00187
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 9.37e-16
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 3.18e-16
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.9317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 2.9317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0019988
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=3030.3)
.MODEL QM2 NPN(IS=8.1562E-16 BF=3703.7)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1364
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1365 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
RC1 7 80 568.41
RC2 7 90 568.41
Q1 80 2 10 QM1
Q2 90 3 11 QM2
CIN 2 3 2e-12
*INPUT POLE AT 300MHZ
C1 80 90 4.67e-13
RE1 10 12 555.32
RE2 11 12 555.32
IEE 12 4 0.0040012
RE 12 0 49985
* INTERMEDIATE
GCM 8 0 12 0 5.5634e-8
GA 8 0 78 0 0.0017593
R2 8 0 3690000
C2 8 0 3.85E-12
DC1 8 7 DM3
DC2 4 8 DM3
*
*POLE AT 300MHZ
GX1 0 28 90 80 1E-06
RX1 28 0 1E+06
CX1 28 0 5.3e-16
*POLE AT 300MHZ
GX2 0 38 28 0 1E-06
RX2 38 0 1E+06
CX2 38 0 5.3e-16
*POLE AT 300MHZ
GX3 0 48 38 0 1E-06
RX3 48 0 1E+06
CX3 48 0 5.3e-16
*ZERO AT 85MHZ
GX4 0 58 48 0 1E-06
RX4 58 59 1E+06
LX4 59 0 0.00187
*POLE AT 170MHZ
GX5 0 68 58 0 1E-06
RX5 68 0 1E+06
CX5 68 0 9.37e-16
*POLE AT 500MHZ
GX6 0 78 68 0 1E-06
RX6 78 0 1E+06
CX6 78 0 3.18e-16
*
EB 1 0 8 0 1
RO2 1 6 20
RF 8 99 800
CF 99 6 6E-12
* OUTPUT
ECL 18 1 6 1 0.36
Q3 7 18 8 QM3
Q4 4 18 8 QM4
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 8 0 70 7 1
VC 13 6 2.9317
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 8 0 60 4 1
VE 6 14 2.9317
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.0019988
DSUB 4 7 DM2
* MODELS
.MODEL QM1 NPN(IS=8e-16 BF=3030.3)
.MODEL QM2 NPN(IS=8.1562E-16 BF=3703.7)
.MODEL QM3 NPN(IS=8e-16 BF=100)
.MODEL QM4 PNP(IS=8e-16 BF=100)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=43.2)
.MODEL DM3 D(IS=1e-16)
.ENDS LT1365
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1369 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1369 3 2 7 4 6 LT1368
.ENDS LT1369
*
*CCM
*
.SUBCKT LT1368 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
GRP1 1 111 1 111 0.1
GRP2 2 112 2 112 0.1
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.49
CIN 111 112 1.2e-11
GRIN 111 112 111 112 1e-12
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 303 11 1059.9
RC2 303 12 1059.9
RE1 10 13 72.602
RE2 10 14 72.602
C1 11 12 9.3854e-12
IEE 10 304 DC 0.0018871
D1 304 10 DX
VCMEP 303 3 DC 1.0
VCMEN 4 304 DC 0.5
GA 60 99 11 12 0.00094352
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 9487000
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 9487000
GR 99 60 605 606 13.987
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 1.5915
ECM 113 111 20 99 3.1623e-5
RP1 601 99 4000
CP1 60 601 5.6841e-10
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 12500
LP2 61 611 0.016579
RP22 61 99 50000
GP2 99 6 61 99 0.0001
R2 6 99 1000
C2 6 7 9.7276e-9
GB 7 99 6 99 5327.7
R01 7 99 37.451
R02 7 50 0.1
R03 50 5 32.449
R04 5 99 1.0000e+012
VC 53 50 DC 1.0976
VE 54 50 DC -1.0987
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 333.33
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 198.91
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0015121
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 NPN IS=9.9665e-16 BF=88709.6 XTB=-3.0485
+ XTI=2.99176 KF=1.5522e-17
.MODEL Q2 NPN IS=1.0034e-15 BF=98601.5 XTB=-2.8408
+ XTI=3.00824 KF=1.5522e-17
.MODEL DR D IS=8e-16 KF=3.2166e-19 RS=0 XTI=0
.ENDS LT1368
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* V+ IN+ IN- V- LATCH GND OUT+ OUT-
.SUBCKT LT1394 1 2 3 4 5 6 7 8
XCOMP 2 3 7 8 1 4 6 5 LT1394_MD
.ENDS LT1394
*
***
*
.SUBCKT LT1394_MD 1 2 101 102 200 300 400 600
*
* input stage
CIN_D 2 1 5e-12
CIN_CM1 1 0 3.5e-12
CIN_CM2 2 0 3.5e-12
RIN 2 1 100000
ROFF1 301 0 1.001 TC=4e-6
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 1 3 POLY(3) 301 302 1 0 2 0 0 1.0 5e-6 5e-6
ROFF 3 1 1000000000
IBP 303 0 DC 2.1222e-6
RBP 303 0 1E6 TC=0.017583
GBP 1 0 303 0 1e-6
IBN 304 0 DC 2.0113e-6
RBN 304 0 1E6 TC=0.01575
GBN 2 0 304 0 1e-6
*
* delay stage
G1 0 20 3 2 1.6
R1 20 0 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 0 DC 12.33
V1N 22 0 DC -12.33
G2 0 23 20 0 0.001
R2 23 0 1000
CD 23 0 4.2135e-13
*
* slewrate stage
G3 0 24 23 0 0.001
R3 24 0 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 0 DC 11.33
V3N 26 0 DC -11.33
G41 0 30 24 0 0.001
R41 30 0 1000
CR 30 0 9.8718e-12
D4P 30 32 DX
D4N 33 30 DX
E4P 32 0 POLY(1) 200 400 -1.6266 0.5
E4N 0 33 POLY(1) 200 400 -1.6266 0.5
*
* phase shifter
G5 0 40 30 0 0.001
R5 40 0 1000
LA 40 41 3.1831e-8
CA 41 0 1.9894e-13
*
* latch stage
RTTL1 600 200 1.0000e+012
DTTL 601 600 DX
RTTL2 601 602 712300
VTTL 603 602 DC 0
ETTL 200 603 200 0 0.35
FLATCH 0 623 POLY(1) VTTL 100E-3 -50000
RLATCH1 623 0 1000
VL1P 646 0 DC 20
DL1P 623 646 DLATCH
VL1N 0 647 DC 20
DL1N 647 623 DLATCH
EINV 0 648 623 0 1
ELATCH 645 0 41 0 1
CHOLD 649 0 1e-7
RHOLD 642 0 1.0000e+012
RLATCH2 645 0 1.0000e+012
RLATCH3 648 0 1.0000e+012
M1 645 623 642 646 SPMOS L=100U W=100U
M2 642 648 645 647 SNMOS L=100U W=100U
M3 645 623 649 646 SPMOS L=100U W=100U
M4 649 648 645 647 SNMOS L=100U W=100U
M5 649 648 642 646 SPMOS L=100U W=100U
M6 642 623 649 647 SNMOS L=100U W=100U
*
* output stage
GO11 401 42 642 0 0.038414
RO11 42 401 26.032
DO1 43 42 DOUT
GO12 401 43 642 0 0.030298
RO12 43 401 33.006
VOUT1 101 43 DC -0.7723019
ROUT1 101 0 1000000000
GO21 401 46 642 0 -0.038414
RO21 46 401 26.032
DO2 47 46 DOUT
GO22 401 47 642 0 -0.030298
RO22 47 401 33.006
VOUT2 102 47 DC -0.7723
ROUT2 102 0 1000000000
*
* supply characteristic
EGND 401 0 200 400 0.5
RGND 400 0 1000000000
IVDD 200 400 DC 0.006
IVSS 400 300 DC 0.0012
FA1 51 0 VOUT1 -1
FA2 51 0 VOUT2 -1
DAP 200 51 DPC
RGV 52 53 9.7531
EGV 51 52 POLY(1) 200 400 -0.8 1.0
DAN 53 400 DPC
*
.MODEL DX D(IS=1e-12 RS=0 XTI=0)
.MODEL DPC D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL D3P D(IS=1e-12 TT=4.2328e-8 CJO=3e-13 RS=0 XTI=0)
.MODEL D3N D(IS=1e-12 TT=4.9518e-8 CJO=3e-13 RS=0 XTI=0)
.MODEL DLATCH D(IS=1e-12 TT=1.2026e-8 CJO=3e-13 RS=0 XTI=0)
.MODEL SPMOS PMOS(LEVEL=1 VTO=-3 KP=10)
.MODEL SNMOS NMOS(LEVEL=1 VTO=3 KP=10)
.MODEL DOUT D(IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1)
.ENDS LT1394_MD
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1396 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1396 3 2 7 4 6 LT1395
.ENDS LT1396
*
.SUBCKT LT1397 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1397 3 2 7 4 6 LT1395
.ENDS LT1397
*
.SUBCKT LT1395 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
* input stage
RINP 1 99 1000000000
CINP 1 99 2e-12
IBP 301 303 DC 1.6364e-5
RBP 301 303 TCRBP 1E5
VBP 303 0 DC 0.63636
GBP 1 99 POLY(2) 301 0 1 0 0 1.0E-5 1e-6
IBN 302 304 DC 1.3818e-5
RBN 302 304 TCRBN 1E5
VBN 304 0 DC 0.38182
GBN 2 99 POLY(2) 302 0 2 0 0 1.0E-5 1e-5
.MODEL TCRBP RES(TC1=-0.0027778)
.MODEL TCRBN RES(TC1=0.0019737)
RINN 2 99 1000000000
CINN 2 99 1e-12
GA1 99 11 1 99 0.02
GA2 11 99 11 99 0.02
VSENS 11 16 DC 0.0
LINN 16 2 2.5e-9
IOFF 501 0 DC 0.001
ROFF 501 0 ROVD 1
.MODEL ROVD RES(TC1=0.015)
GOFF 59 99 501 0 0.02
FA 99 59 VSENS 1.0
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI1
DR2 102 0 DRI1
GR1 99 1 101 102 0.21735
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI2
DR4 104 0 DRI2
GR2 99 2 103 104 0.966
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI3
DR6 602 0 DRI3
GR3 59 99 601 602 4.347
*
* common mode rejection
GCM1 99 11 POLY(2) 2 0 1 0 0 7.079e-6 7.079e-6
*
* frequency shaper
RP0 59 99 1000
CP0 59 99 2.7312e-13
GP0 99 60 59 99 0.001
RR1 660 60 0.001
*
* slew rate limiter
RSR 660 66 0.1
ESRP 96 0 660 66 6227.1
ESRN 97 0 660 66 6226.8
DSRP 96 95 DX
DSRN 95 97 DX
VSR 95 0 DC 0
FSR 660 99 VSR 0.01
*
* transimpedance stage and dominant pole
RTR 66 99 125000
C1 66 99 1.4514e-12
DC 66 53 DVC
DE 54 66 DVC
VC 3 53 DC 0.874
VE 54 4 DC 0.874
*
* output stage
GB 99 7 66 99 0.040161
ROUT 7 99 24.9
FB 7 99 VSCL 0.0016611
VSCL 90 0 DC 0
DLP 91 90 DX
DLN 90 92 DX
ESCLP 91 0 7 5 121.95
ESCLN 92 0 7 5 121.95
R01S 7 5 0.1
R0P 5 0 593790000
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 0.0046
RP 3 4 1000000
GV 31 0 7 5 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-1.3 N=0.1 EG=0.1)
.MODEL DRI1 D(IS= 8.2592e-16 KF= 3.2074e-16 RS=0 XTI=0)
.MODEL DRI2 D(IS= 8.2592e-16 KF= 2.5659e-16 RS=0 XTI=0)
.MODEL DRI3 D(IS= 8.2592e-16 KF= 4.8111e-17 RS=0 XTI=0)
.ENDS LT1395
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT SHDN
.SUBCKT LT1398 2 1 14 11 15 16
XCFA1 2 1 14 11 15 16 LT1398_MD
.ENDS LT1398
*
***
*
.SUBCKT LT1398_MD 1 2 3 4 5 6
*
* input stage
RINP 1 99 1000000000
CINP 1 99 2e-12
IBP 301 303 DC 2.0182e-5
RBP 301 303 1E5 TC=0.0036036
VBP 303 0 DC 1.0182
GBP 1 99 POLY(2) 301 0 1 0 0 1.0E-5 1e-6
IBN 302 304 DC 2.0182e-5
RBN 302 304 1E5 TC=0.0036036
VBN 304 0 DC 1.0182
GBN 2 99 POLY(2) 302 0 2 0 0 1.0E-5 1e-5
RINN 14 99 1000000000
CINN 2 99 1e-12
GA1 99 11 1 99 0.020408
GA2 11 99 11 99 0.020408
VSENS 11 16 DC 0.0
LINN 16 14 2.5e-8
RSW1 2 14 1000000000
GSW1 2 14 POLY(2) 812 99 2 14 0 0 6.3246e-6 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56e-6
GSW2 59 99 POLY(2) 806 99 59 99 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
IOFF 501 0 DC 0.0015
ROFF 501 0 1 TC=0.01
GOFF 59 99 501 0 0.020408
FA 99 59 VSENS 1.0
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI1
DR2 102 0 DRI1
GR1 99 1 101 102 0.2898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI2
DR4 104 0 DRI2
GR2 99 2 103 104 1.2075
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI3
DR6 602 0 DRI3
GR3 59 99 601 602 4.347
*
* common mode rejection
GCM1 99 11 POLY(2) 2 0 1 0 0 1.5621e-5 1.5621e-5
*
* frequency shaper
RP0 59 99 1000
CP0 59 99 3.1553e-13
GP0 99 60 59 99 0.001
RR1 660 60 0.001
*
* slew rate limiter
RSR 660 66 0.1
ESRP 96 0 660 66 5315.5
ESRN 97 0 660 66 5315.5
DSRP 96 95 DX
DSRN 95 97 DX
VSR 95 0 DC 0
FSR 660 99 VSR 0.01
*
* transimpedance stage and dominant pole
RTR 66 99 125000
C1 66 99 1.6461e-12
DC 66 53 DX
DE 54 66 DX
VC 3 53 DC 1.54
VE 54 4 DC 1.54
*
* output stage
GB 99 7 66 99 0.041841
ROUT 7 99 23.9
FB 7 99 VSCL 0.0018347
VSCL 90 0 DC 0
DLP 91 90 DX
DLN 90 92 DX
ESCLP 91 0 7 51 125
ESCLN 92 0 7 51 125
R01S 7 51 0.1
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
CGSW3 51 5 8.5e-12
R0P 5 0 593790000
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 803 3.8482e-5 0.00089
RP 3 4 1000000
GV 31 0 7 51 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
* shutdown stage
RDIS1 3 6 166670
CDIS1 6 99 3e-12
GREF 99 801 POLY(2) 3 4 803 99 0.0 0.0002 0.0 0.0 -8e-6
RREF 801 99 1000
GDIS 99 803 6 801 0.001
RDIS3 803 99 100000
VDIS2 804 99 DC -0.756
VDIS3 805 99 DC -4.245
DDIS2 803 804 DX
DDIS3 805 803 DX
CDIS2 803 99 3e-12
EDIS 810 99 803 99 1
RDIS5 810 812 31.614
RDIS6 812 811 55.233
DDIS4 811 810 DX
CDIS3 812 99 1e-9
GDIS2 99 806 POLY(1) 812 99 -5.0E-3 -1.0E-3
RDIS4 806 99 1000
CDIS4 806 99 1.0053e-12
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DRI1 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.MODEL DRI2 D(IS= 8.2592e-16 KF= 1.283e-14 RS=0 XTI=0)
.MODEL DRI3 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.ENDS LT1398_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT SHDN
.SUBCKT LT1399 2 1 14 11 15 16
XCFA1 2 1 14 11 15 16 LT1399_MD
.ENDS LT1399
*
***
*
.SUBCKT LT1399_MD 1 2 3 4 5 6
*
* input stage
RINP 1 99 1000000000
CINP 1 99 2e-12
IBP 301 303 DC 2.0182e-5
RBP 301 303 1E5 TC=0.0036036
VBP 303 0 DC 1.0182
GBP 1 99 POLY(2) 301 0 1 0 0 1.0E-5 1e-6
IBN 302 304 DC 2.0182e-5
RBN 302 304 1E5 TC=0.0036036
VBN 304 0 DC 1.0182
GBN 2 99 POLY(2) 302 0 2 0 0 1.0E-5 1e-5
RINN 14 99 1000000000
CINN 2 99 1e-12
GA1 99 11 1 99 0.020408
GA2 11 99 11 99 0.020408
VSENS 11 16 DC 0.0
LINN 16 14 2.5e-8
RSW1 2 14 1000000000
GSW1 2 14 POLY(2) 812 99 2 14 0 0 6.3246e-6 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56e-6
GSW2 59 99 POLY(2) 806 99 59 99 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
IOFF 501 0 DC 0.0015
ROFF 501 0 1 TC=0.01
GOFF 59 99 501 0 0.020408
FA 99 59 VSENS 1.0
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI1
DR2 102 0 DRI1
GR1 99 1 101 102 0.2898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI2
DR4 104 0 DRI2
GR2 99 2 103 104 1.2075
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI3
DR6 602 0 DRI3
GR3 59 99 601 602 4.347
*
* common mode rejection
GCM1 99 11 POLY(2) 2 0 1 0 0 1.5621e-5 1.5621e-5
*
* frequency shaper
RP0 59 99 1000
CP0 59 99 3.1553e-13
GP0 99 60 59 99 0.001
RR1 660 60 0.001
*
* slew rate limiter
RSR 660 66 0.1
ESRP 96 0 660 66 5315.5
ESRN 97 0 660 66 5315.5
DSRP 96 95 DX
DSRN 95 97 DX
VSR 95 0 DC 0
FSR 660 99 VSR 0.01
*
* transimpedance stage and dominant pole
RTR 66 99 125000
C1 66 99 1.6461e-12
DC 66 53 DX
DE 54 66 DX
VC 3 53 DC 1.54
VE 54 4 DC 1.54
*
* output stage
GB 99 7 66 99 0.041841
ROUT 7 99 23.9
FB 7 99 VSCL 0.0018347
VSCL 90 0 DC 0
DLP 91 90 DX
DLN 90 92 DX
ESCLP 91 0 7 51 125
ESCLN 92 0 7 51 125
R01S 7 51 0.1
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
CGSW3 51 5 8.5e-12
R0P 5 0 593790000
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 803 3.8482e-5 0.00089
RP 3 4 1000000
GV 31 0 7 51 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
* shutdown stage
RDIS1 3 6 166670
CDIS1 6 99 3e-12
GREF 99 801 POLY(2) 3 4 803 99 0.0 0.0002 0.0 0.0 -8e-6
RREF 801 99 1000
GDIS 99 803 6 801 0.001
RDIS3 803 99 100000
VDIS2 804 99 DC -0.756
VDIS3 805 99 DC -4.245
DDIS2 803 804 DX
DDIS3 805 803 DX
CDIS2 803 99 3e-12
EDIS 810 99 803 99 1
RDIS5 810 812 31.614
RDIS6 812 811 55.233
DDIS4 811 810 DX
CDIS3 812 99 1e-9
GDIS2 99 806 POLY(1) 812 99 -5.0E-3 -1.0E-3
RDIS4 806 99 1000
CDIS4 806 99 1.0053e-12
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DRI1 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.MODEL DRI2 D(IS= 8.2592e-16 KF= 1.283e-14 RS=0 XTI=0)
.MODEL DRI3 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.ENDS LT1399_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM 5 August 1997 16:27:12 $
*
* Pinout matches IC Pinout
.SUBCKT LT1431 1 2 3 4 5 6 7 8
*
* 10 KOhm voltage divider
RTOP 4 7 5.0E3
RBOT 7 5 5.0E3
* 2.5 V voltage reference
* with temperature and supply
* voltage dependency
IT1 11 5 1.0E-3
RT1 11 5 1.0E3
IT2 12 5 1.0E-3
RT2 12 5 1.0E3 TC=1.0E-4
RVREF 10 5 1.0E3
* Vref exactly 2.5 V
GVREF 5 10 POLY(2) 3 5 11 12 2.4987E-3 -3.5E-7 0 0 0 -0.17
* Vref + 0.5% = 2.512 V
*GVREF 5 10 POLY(2) 3 5 11 12 2.511E-3 -3.5E-7 0 0 0 -0.17
* transconductance amplifier
* input bias with cancellation for Vin > 4V
RIN 8 16 10
GBIAS 16 3 POLY(1) 17 5 4.8E-6 -1.2E-6
GIB2 5 17 3 5 1.0E-3
RIB1 17 5 1.0E3
DIB 17 18 DX
RIB2 18 19 1
VIB 19 5 DC 3.2V
* 1. pole at 18.4 Kz / 1. zero at 184 KHz
GP1 5 20 8 10 1.0E-5
CP1 20 21 7.79E-11
RP11 21 5 11100
RP12 20 5 1.0E5
* 2. pole at 375 Kz / 2. zero at 750 KHz
GP2 5 22 20 5 1.0E-5
CP2 22 23 2.12E-12
RP21 23 5 1.0E5
RP22 22 5 1.0E5
* 3. zero at 750 KHz / 3. pole at 2.25 MHz
GP3 5 24 22 5 1.0E-5
LP3 24 25 0.0318
RP31 25 5 150E3
RP32 24 5 300E3
* 4. pole at 3.0 MHz
GP4 5 26 24 5 1.0E-5
RP4 26 5 1.0E5
CP4 26 5 5.3E-13
* 5. pole at 3.0 MHz
GP5 5 27 26 5 1.0E-5
RP5 27 5 1.0E5
CP5 27 5 5.3E-13
* transconductance 4 mA/V
GGM 5 28 27 5 4.0E-3
R15 28 2 5.0E3
* output voltage clamp (Vout = 0 - V+)
DNL 50 28 DX
VNL 50 5 DC 0.782
DPL 28 51 DX
EPL 51 5 POLY(1) 3 5 -0.782 1.0
* open collector output stage
R17 2 30 1.5E3
Q19 2 33 34 Q1
R16 34 5 22
Q20 3 30 31 Q1
R18 31 5 50000
Q22A 1 31 32 Q2
Q22B 1 31 30 Q2
R19 32 6 3.6
R20 33 32 5.0E3
R21 2 5 100000
C3 30 1 6e-12
C4 33 2 1e-12
.MODEL Q1 NPN IS=1e-14 BF=250
.MODEL Q2 NPN IS=1e-14 BF=50
.MODEL DX D IS=8e-16 VJ=1.0 RS=0 XTI=0
* Ik vs Vka characteristic below Vref
* and off-state current
* Ik(min) = 0.55 mA
GIK1 5 40 POLY(1) 8 5 -1.0E-3 1.0E-3
RIK 40 5 1.0E4
DIK 41 40 DX
VIK 41 5 DC 0.723
GIK2 3 5 POLY(1) 40 5 0.9E-6 3.7E-5
.ENDS LT1431
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1457 3 2 7 4 6
CCM1 173 178 2
CCM2 172 173 2
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 1e-7
CG4 172 170 1e-7
CG5 175 178 1e-10
CG6 172 175 1e-10
CG7 176 178 1e-10
CG8 172 176 1e-10
CIN1 3 2 0.1f
CIN2 0 3 4p
CIN3 2 0 4p
CPSN 190 0 10p
CPSN1 172 189 1e-9
CPSN2 189 178 1e-9
CPSP 192 0 10p
CPSP1 172 191 1e-9
CPSP2 191 178 1e-9
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 14.0918
ESRLIM4 148 146 167 168 14.0918
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000891251
GCM2 178 174 181 186 0.000891251
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 0.0088542
GG2 178 169 168 167 0.0088542
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.5
GOUT2 178 188 180 178 0.5
GPSN1 172 190 4 178 0.00281838
GPSN2 178 190 4 178 0.00281838
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.5
GPSNO2 178 188 189 178 0.5
GPSP1 172 192 7 172 0.00158489
GPSP2 178 192 7 172 0.00158489
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.5
GPSPO2 178 188 191 178 0.5
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 7e-12
IBIAS2 103 0 7e-12
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.0018
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 1.59155
LCM2 132 178 1.59155
LCMX 128 174 100
LPSN1 172 136 1.59155
LPSN2 137 178 1.59155
LPSP1 172 138 0.159155
LPSP2 139 178 0.159155
LZP1 172 158 1.59314e-13
LZP2 159 178 1.59314e-13
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 31831000
RG2 169 178 31831000
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 0.000195652
RINOI2 135 0 0.000195652
ROUT1 172 188 2
ROUT2 188 178 2
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 11835.5
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 0.01001
RZP4 159 178 0.01001
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -0.019
VBIAS2 120 0 0.043
VILIM1 127 0 22
VILIM2 126 0 20
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 200u
VSHD7 163 187 0
VSHDN 144 0 0.001799
VSRLIM1 149 0 2.5
VSRLIM2 150 0 5
VVLIM1 172 153 3.1235
VVLIM2 154 178 3.1235
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=2.80V VOFF=3.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=4.00V VOFF=3.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=3.00V VOFF=2.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=3.80V VOFF=4.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 6.14434e-12)
.ENDS LT1457
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT SHDN
.SUBCKT LT1461-25 104 103 6 118
CG1 119 0 0.1
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 119 116 102 6283.18
GILIM1 0 105 122 6 1E4
GILIM2 0 106 122 6 1E4
GILIMO 119 0 107 0 0.01
GITMPCO 104 103 113 0 1e-9
GLINE 0 116 7 4 5e-6
GLOAD 0 116 122 6 0.03
GNOISE 0 116 108 0 1
GOUT1 0 122 119 0 0.000833333
GPWR1 109 0 122 6 10
GPWR2 110 0 122 6 10
GTEMP 0 116 113 112 7.5e-6
GVLIM2 0 114 104 111 10000000
GVLIM3 114 0 7 122 1000
GVLIMO 119 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 20
IILIM2 106 0 100
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 100
IVOPT 0 116 2.503
RFB1 102 6 1
RFB2 102 103 1000000000
RG1 119 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 122 4 1200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 122 0.1
RSHDN 118 7 1E9
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SSHDN 119 0 118 4 SSHDN
VDUM1 0 112 1
.MODEL SSHDN VSWITCH(RON=1E-5 ROFF=1E3 VON=2 VOFF=2.4)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1461-25
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT SHDN
.SUBCKT LT1461-3 104 103 6 118
CG1 119 0 0.1
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 119 116 102 6283.18
GILIM1 0 105 122 6 1E4
GILIM2 0 106 122 6 1E4
GILIMO 119 0 107 0 0.01
GITMPCO 104 103 113 0 1e-9
GLINE 0 116 7 4 5e-6
GLOAD 0 116 122 6 0.03
GNOISE 0 116 108 0 1
GOUT1 0 122 119 0 0.000833333
GPWR1 109 0 122 6 10
GPWR2 110 0 122 6 10
GTEMP 0 116 113 112 7.5e-6
GVLIM2 0 114 104 111 10000000
GVLIM3 114 0 7 122 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 20
IILIM2 106 0 100
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.5
RFB1 102 6 16670
RFB2 102 103 83330
RG1 119 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 122 4 1200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 122 0.1
RSHDN 118 7 1E9
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SSHDN 119 0 118 4 SSHDN
VDUM1 0 112 1
.MODEL SSHDN VSWITCH(RON=1E-5 ROFF=1E3 VON=2 VOFF=2.4)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1461-3
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT SHDN
.SUBCKT LT1461-33 104 103 6 118
CG1 119 0 0.1
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 119 116 102 6283.18
GILIM1 0 105 122 6 1E4
GILIM2 0 106 122 6 1E4
GILIMO 119 0 107 0 0.01
GITMPCO 104 103 113 0 1e-9
GLINE 0 116 7 4 5e-6
GLOAD 0 116 122 6 0.03
GNOISE 0 116 108 0 1
GOUT1 0 122 119 0 0.000833333
GPWR1 109 0 122 6 10
GPWR2 110 0 122 6 10
GTEMP 0 116 113 112 7.5e-6
GVLIM2 0 114 104 111 10000000
GVLIM3 114 0 7 122 1000
GVLIMO 119 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 20
IILIM2 106 0 100
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.5
RFB1 102 6 24242
RFB2 102 103 75758
RG1 119 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 122 4 1200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 122 0.1
RSHDN 118 7 1E9
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SSHDN 119 0 118 4 SSHDN
VDUM1 0 112 1
.MODEL SSHDN VSWITCH(RON=1E-5 ROFF=1E3 VON=2 VOFF=2.4)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1461-33
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT SHDN
.SUBCKT LT1461-4 104 103 6 118
CG1 119 0 0.1
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 119 116 102 6283.18
GILIM1 0 105 122 6 1E4
GILIM2 0 106 122 6 1E4
GILIMO 119 0 107 0 0.01
GITMPCO 104 103 113 0 1e-9
GLINE 0 116 7 4 5e-6
GLOAD 0 116 122 6 0.03
GNOISE 0 116 108 0 1
GOUT1 0 122 119 0 0.000833333
GPWR1 109 0 122 6 10
GPWR2 110 0 122 6 10
GTEMP 0 116 113 112 7.5e-6
GVLIM2 0 114 104 111 10000000
GVLIM3 114 0 7 122 1000
GVLIMO 119 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 20
IILIM2 106 0 100
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.5
RFB1 102 6 37500
RFB2 102 103 62500
RG1 119 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 122 4 1200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 122 0.1
RSHDN 118 7 1E9
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SSHDN 119 0 118 4 SSHDN
VDUM1 0 112 1
.MODEL SSHDN VSWITCH(RON=1E-5 ROFF=1E3 VON=2 VOFF=2.4)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1461-4
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT SHDN
.SUBCKT LT1461-5 104 103 6 118
CG1 119 0 0.1
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 119 116 102 6283.18
GILIM1 0 105 122 6 1E4
GILIM2 0 106 122 6 1E4
GILIMO 119 0 107 0 0.01
GITMPCO 104 103 113 0 1e-9
GLINE 0 116 7 4 5e-6
GLOAD 0 116 122 6 0.03
GNOISE 0 116 108 0 1
GOUT1 0 122 119 0 0.000833333
GPWR1 109 0 122 6 10
GPWR2 110 0 122 6 10
GTEMP 0 116 113 112 7.5e-6
GVLIM2 0 114 104 111 10000000
GVLIM3 114 0 7 122 1000
GVLIMO 119 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 20
IILIM2 106 0 100
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.5
RFB1 102 6 50000
RFB2 102 103 50000
RG1 119 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 122 4 1200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 122 0.1
RSHDN 118 7 1E9
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SSHDN 119 0 118 4 SSHDN
VDUM1 0 112 1
.MODEL SSHDN VSWITCH(RON=1E-5 ROFF=1E3 VON=2 VOFF=2.4)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1461-5
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1463 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1463 3 2 7 4 6 LT1462
.ENDS LT1463
*
*CCM
*
.SUBCKT LT1462 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
GRP1 1 111 1 111 0.01
GRP2 2 112 2 112 0.01
DIP1 114 111 DX
DIP2 115 112 DX
DIP3 116 114 DX
DIP4 116 115 DX
VCM 116 4 DC 2.625
RCMP 114 117 10000
ECMP 117 4 111 4 1.0
RCMN 115 118 10000
ECMN 118 4 112 4 1.0
CIN 111 112 1.7568e-12
GRIN 111 112 111 112 1e-12
M1 11 112 10 10 M1 L=100U W=100U
M2 12 113 10 10 M2 L=100U W=100U
RD1 4 11 1660.8 TC=6.1884e-5
RD2 4 12 1660.8 TC=-6.1884e-5
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 7.9857e-11
IEE 3 10 DC 0.0012042
GSR 3 10 11 12 6.1953e-5
GA 60 99 11 12 0.0006021
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 5.1921e-6
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 5.1921e-6
RRu 605 0 0.028682
VRu 605 0 DC 0
FRu 99 60 VRu 1
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.053052
ECM 113 111 20 99 3.5481e-5
RP1 601 99 20000
CP1 60 601 2.6526e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 -20000
LP2 61 611 -0.01061
RP22 61 99 6666.7
GP2 99 6 61 99 0.0001
R2 6 99 1000
C2 6 7 8.3497e-9
GB 7 99 6 99 329.63
R01 7 99 180.71
R02 7 50 0.1
R03 50 5 89.194
R04 5 99 1.0000e+012
VC 53 50 DC 2.1
VE 54 50 DC -2.1
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 588.24
ECLN 92 0 7 50 588.24
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 7.8535
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0011762
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL M1 PMOS LEVEL=3 KP=0.083042 VTO=-0.9996929 KF=8.2812e-27
.MODEL M2 PMOS LEVEL=3 KP=0.083042 VTO=-1.000307 KF=8.2812e-27
.MODEL DI1 D IS=1.3625e-12 EG=0.7676 XTI=3
.MODEL DI2 D IS=7.4826e-13 EG=0.82192 XTI=3
.MODEL DRI D IS=8e-16 KF=7.9383e-25 RS=0 XTI=0
.ENDS LT1462
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1465 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1465 3 2 7 4 6 LT1464
.ENDS LT1465
*
*CCM
*
.SUBCKT LT1464 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
GRP1 1 111 1 111 0.01
GRP2 2 112 2 112 0.01
DIP1 114 111 DX
DIP2 115 112 DX
DIP3 116 114 DX
DIP4 116 115 DX
VCM 116 4 DC 2.925
RCMP 114 117 10000
ECMP 117 4 111 4 1.0
RCMN 115 118 10000
ECMN 118 4 112 4 1.0
CIN 111 112 1.4723e-12
GRIN 111 112 111 112 1e-12
M1 11 112 10 10 M1 L=100U W=100U
M2 12 113 10 10 M2 L=100U W=100U
RD1 4 11 1080.7 TC=3.9038e-5
RD2 4 12 1080.7 TC=-3.9038e-5
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 2.9455e-11
IEE 3 10 DC 0.0018507
GSR 3 10 12 11 0.0002727
GA 60 99 11 12 0.00092536
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 5.2223e-6
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 5.2223e-6
RRu 605 0 0.28876
VRu 605 0 DC 0
FRu 99 60 VRu 1
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.031831
ECM 113 111 20 99 5.6234e-5
RP1 601 99 90000
CP1 60 601 1.7684e-12
RP11 60 99 10000
GP1 99 6 60 99 0.0001
R2 6 99 1000
C2 6 7 1.5664e-9
GB 7 99 6 99 2893.6
R01 7 99 30.801
R02 7 50 0.1
R03 50 5 39.099
R04 5 99 1.0000e+012
VC 53 50 DC 2.4
VE 54 50 DC -2.4
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 333.33
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 105.95
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0017057
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL M1 PMOS LEVEL=3 KP=0.054033 VTO=-0.9996929 KF=9.6721e-28
.MODEL M2 PMOS LEVEL=3 KP=0.054033 VTO=-1.000307 KF=9.6721e-28
.MODEL DI1 D IS=1.1256e-12 EG=0.79282 XTI=3
.MODEL DI2 D IS=5.0816e-13 EG=0.87304 XTI=3
.MODEL DRI D IS=8e-16 KF=2.572e-24 RS=0 XTI=0
.ENDS LT1464
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1466L 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1466L 3 2 7 4 6 LT1466
.ENDS LT1466L
*
.SUBCKT LT1467 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1467 3 2 7 4 6 LT1466
.ENDS LT1467
*
.SUBCKT LT1467l 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1467L 3 2 7 4 6 LT1466
.ENDS LT1467L
*
*CCM
*
.SUBCKT LT1466 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
GRP1 1 111 1 111 1
GRP2 2 112 2 112 1
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.49
CIN 111 112 1e-11
GRIN 111 112 111 112 1.2591e-8
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 303 11 3867.8
RC2 303 12 3867.8
RE1 10 13 0.25
RE2 10 14 0.25
C1 11 12 1.0287e-10
IEE 10 304 DC 5.1721e-5
D1 304 10 DX
VCMEP 303 3 DC 1.4
VCMEN 4 304 DC 0.6
GA 60 99 11 12 0.00025854
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 28670000
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 28670000
GR 99 60 605 606 2.1735
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.15915
ECM 113 111 20 99 1.5849e-5
RR1 6 60 0.001
R2 6 99 1000
C2 6 7 1.1436e-9
GB 7 99 6 99 7954.2
R01 7 99 220.65
R02 7 50 1407.8
R03 50 51 153.44
R04 51 5 18.091
R05 5 99 1.0000e+012
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 1.018
VE 54 50 DC -1.024
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 0.041784
ECLN 92 0 7 50 0.041784
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 8.1375
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 8.2791e-6
GV 31 0 7 50 0.00071032
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 NPN IS=9.9798e-16 BF=3965.4 XTB=-7.8461
+ XTI=2.99073 KF=5e-18
.MODEL Q2 NPN IS=1.002e-15 BF=4317.8 XTB=-5.9859
+ XTI=3.00927 KF=5e-18
.MODEL DR D IS=8e-16 KF=3.2074e-18 RS=0 XTI=0
.MODEL DOUT D IS=5.4503e-7 RS=0 XTI=0
.ENDS LT1466
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1469 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
X1 3 2 7 4 6 LT1468
.ENDS LT1469
*
.SUBCKT LT1468 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* input
rc1 4 80 277
rc2 4 90 277
q1 80 102 10 qm1
q2 90 103 11 qm2
cinm 2 0 4e-12
cinp 3 0 4e-12
rb1 2 102 100
rb2 3 103 100
ddm1 102 103 dm2
ddm2 103 102 dm2
*input pole at 600MHz
c1 80 90 4.79e-13
re1 10 12 -44
re2 11 12 -44
iee 7 12 1.6055E-04
*assymetrical slewing
gosit 7 12 90 80 488E-06
re 12 0 1245700
* intermediate
gcm 8 0 12 0 5.56e-8
ga 8 0 78 0 0.00356
r2 8 0 286E+06
c2 8 0 6.3E-12
dc1 8 7 dm3
dc2 4 8 dm3
*pole at 60MHz
gx1 0 28 90 80 1E-06
rx1 28 0 1E+06
cx1 28 0 2.65E-15
*pole at 2MHz
gx2 0 38 28 0 1E-06
rx2 38 0 1E+06
cx2 38 0 79.6E-15
*zero at 8MHz
gx3 0 48 38 0 1E-06
rx3 48 49 1E+06
lx3 49 0 0.0199
*zero at 80MHz
gx4 0 58 48 0 1E-06
rx4 58 59 1E+06
lx4 59 0 0.00199
*pole at 160MHz
gx5 0 68 58 0 1E-06
rx5 68 0 1E+06
cx5 68 0 9.95e-16
*pole at 80MHz
gx6 0 78 68 0 1E-06
rx6 78 0 1E+06
cx6 78 0 1.99E-15
*output
eb 1 0 8 0 1
ro2 1 6 17
* current limit
ecl 18 1 6 1 .99
q3 7 18 8 qm3
q4 4 18 8 qm4
*
d3a 131 70 dm3
d3b 13 131 dm3
gpl 8 0 70 7 1
vc 13 6 2.3312
rpla 7 70 10
rplb 7 131 1000
d4a 60 141 dm3
d4b 141 14 dm3
gnl 8 0 60 4 1
ve 6 14 2.9312
rnla 60 4 10
rnlb 141 4 1000
*
ip 7 4 0.0037394
dsub 4 7 dm2
* models
.model qm1 pnp(is=8e-16 bf=8000)
.model qm2 pnp(is=8.0206E-16 bf=2000)
.model qm3 npn(is=8e-16 bf=100)
.model qm4 pnp(is=8e-16 bf=100)
.model dm1 d(is=1e-20)
.model dm2 d(is=8e-16 bv=43.2)
.model dm3 d(is=1e-16)
.ENDS LT1468
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM THIS VERSION INCLUDES NOISE MODELING
*
* IN+ IN- V+ V- VO
.SUBCKT LT1468N 1 2 3 4 5
*
* input protection
RIP1 1 111 100
RIP2 2 112 100
DIP1 111 112 DX
DIP2 112 111 DX
*
* input stage
CIN 111 112 4e-12
GRIN 111 112 111 112 6.5453e-6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 4 11 1177.6
RC2 4 12 1177.6
RE1 10 13 0.1
RE2 10 14 0.1
C1 11 12 1.3516e-12
IEE 3 10 DC 0.0016984
GSR 3 10 12 11 0.00011546
D1 10 3 DX
GA 60 99 11 12 0.00084921
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 45771
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 45771
GR 99 60 605 606 7.5396
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.072343
ECM 113 111 20 99 3.1623e-6
*
* frequency shaper
RP1 601 99 4000
CP1 60 601 5.6841e-12
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 6.7241e-11
GB 7 99 6 99 5280.9
R01 7 99 24.9
R02 7 50 0.1
R03 50 5 25
R04 5 99 5937900000
VC 53 50 DC 0.992
VE 54 50 DC -1.592
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 250
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 171.89
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0022016
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL Q1 PNP(IS=1.0006e-15 BF=89390.9 XTB=-2.0972
+ XTI=3.00344 KF=1.5615e-14)
.MODEL Q2 PNP(IS=9.9938e-16 BF=1698427.3 XTB=-10.572
+ XTI=2.99656 KF=1.5615e-14)
.MODEL DR D(IS=8.2592e-16 KF=8.9781e-18 RS=0 XTI=0)
.ENDS LT1468N
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1491 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1491 3 2 7 4 6 LT1490
.ENDS LT1491
*
.SUBCKT LT1490 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
IBP 303 0 DC -3.9675e-9
RBP 303 0 1E6
*TC=-1.6154E-02 (ADD THIS TC TO RBP)
*
IBN 304 0 DC -3.786e-9
RBN 304 0 1E6
*TC=-1.4615E-02 (ADD THIS TC TO RBN)
*
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -8.5e-5 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
*
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
*
GBP 111 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 2e-8 3.6E-6
GBN 112 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 2.2e-8 3.2e-6
*
ROFF1 301 0 1.00022
*TC=-2.0000E-06 (ADD THIS TC TO ROFF1)
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000E+09
*
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM4 21 0 1000
RCM5 20 0 1000000
LCM 20 21 0.072343
ECM 113 111 20 0 1.25892e-5
RCM3 113 111 1E12
*
GRP1 1 111 1 111 0.001
GRP2 2 112 2 112 0.001
DIP1 4 111 DX
DIP2 4 112 DX
*
CIN 111 112 3.95E-12
RDIFF 111 112 1.7E+07
* COMMON MODE RESISTANCE COMMENTED OUT
* FOR CORRECT BIAS MODELING AT HIGH INPUT VOLTAGES
* RCM1 111 99 11E+06
* RCM2 112 99 11E+06
GIN 99 10 113 114 0.022273
RCC 10 99 4489.6
C1 10 99 1.41798E-10
DSRP 10 11 DX
VSRP 11 99 DC 5.35
DSRN 12 10 DX
VSRN 12 99 DC -3.85
GA 60 99 10 99 1.0E-5
*
GR 99 60 605 606 2.41668
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
RP1 601 99 20000
CP1 60 601 1.3263E-10
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
R2 6 99 1000
C2 6 7 6.3819E-10
GB 7 99 6 99 2731.5
R01 7 99 682.22
R02 7 50 1642.7
R03 50 51 107.5
*
* R04 51 5 1.2501E+01
R04 51 5 17.501
*
R05 5 99 1.0000E+12
DOP 50 51 DO
DON 51 50 DO
DSUB 4 5 DX
*
EVLP 53 0 POLY(2) 3 99 50 99 1.024 -1.0 1.0
DLVP 53 90 DX
EVLN 54 0 POLY(2) 4 99 50 99 -1.024 -1.0 1.0
DLVN 90 54 DX
*
ELIM1 91 0 7 50 0.025406
ELIM2 92 0 7 50 0.025406
DLP 91 90 DX
DLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 0.51074
*
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 3.8e-5
RP 3 4 2500000
GV 31 0 7 50 6.0877E-04
DP1 3 31 DX
DP2 32 4 DX
EGV 31 32 POLY(1) 3 4 -1.0 1.0
*
.MODEL DX D IS=8e-16 VJ=1.0 RS=0 XTI=0
.MODEL DR D IS=8e-16 KF=1.9244E-19 RS=0 XTI=0
.MODEL DO D IS=2.226e-6 RS=0 XTI=0
*
.ENDS LT1490
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1493 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1493 3 2 7 4 6 LT1492
.ENDS LT1493
*
*CCM
*
.SUBCKT LT1492 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
CIN 1 2 1e-11
GRIN 1 2 1 2 1e-12
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 4 11 2423.6
RC2 4 12 2423.6
RE1 10 13 373.11
RE2 10 14 373.11
C1 11 12 1.3134e-11
IEE 3 10 DC 8.2607e-5
D1 10 3 DX
GA 60 99 11 12 0.00041261
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 2898000
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 2898000
GR 99 60 605 606 0.74095
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.31831
ECM 111 1 20 99 7.9433e-6
RP1 601 99 26667
CP1 60 601 5.4257e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
R2 6 99 1000
C2 6 7 3.2742e-11
GB 7 99 6 99 2962.4
R01 7 99 134.11
R02 7 50 107.26
R03 50 51 43.117
R04 51 5 15.511
R05 5 99 1.0000e+012
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 1.6478
VE 54 50 DC -1.008
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 0.15538
ECLN 92 0 7 50 0.15538
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 4.8357
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00034239
GV 31 0 7 50 0.0093228
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1.002e-15 BF=931.7 XTB=0.92858
+ XTI=3.00382 KF=1.4811e-16
.MODEL Q2 PNP IS=9.9802e-16 BF=994.8 XTB=0.73963
+ XTI=2.99618 KF=1.4811e-16
.MODEL DR D IS=8e-16 KF=3.7682e-19 RS=0 XTI=0
.MODEL DOUT D IS=1.7235e-9 RS=0 XTI=0
*
.ENDS LT1492
*
***
*
* Copyright © Linear Technology Corp. 2007/01/08. All rights reserved.
*
.SUBCKT LT1495 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1494 3 2 7 4 6 LT1494
.ENDS LT1495
*
.SUBCKT LT1496 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1496 3 2 7 4 6 LT1494
.ENDS LT1496
*
* Copyright © Linear Technology Corp. 12/12/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT1494 3 2 7 4 6
IBIASDEF2 0 2 230E-12
IBIASDEF1 0 3 250E-12
RG1 22 0 27600
CG1 22 0 1E-3
GCM2 0 51 50 4 1.78E-8
RCMRR 51 0 1E3
RVNOI 41 0 2E6
CIN3 2 4 4E-12
CIN2 4 3 4E-12
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 4 3 DIN
DIN2 4 2 DIN
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 2E-8
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 17.4
GG1 0 22 VALUE={1*TANH(V(21))}
MOUT1 77 26 6 6 NOUT
MOUT2 44 26 6 6 POUT
CIN4 7 3 4E-12
CIN5 2 7 4E-12
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
GITYP 7 4 VALUE={(1.3E-6+5E-9*V(7,4))*(0.5+0.5*TANH(4*(V(7,4)-1.5)))}
CIN1 3 2 3E-12
GIN 0 21 VALUE={V(3,2)+V(41)+V(42,43)+V(51)+2E-4}
GB 0 26 VALUE={3.14*(V(7)+V(4))}
GG2 0 26 25 0 6.2832
RG2 26 0 0.159155
CG2 26 0 3E-4
GINOI1 3 0 41 0 5.4E-8
GINOI2 2 0 41 0 5.4E-8
GILIM1 7 77 VALUE={MIN(1E-3,1.45E-3*V(7,77))}
GILIM2 44 4 VALUE={MIN(1E-3,1.45E-3*V(44,4))}
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1u RD=0)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1u RD=0)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=4 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=3E-11)
.ENDS LT1494
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1497 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q1A 4 33 10 QP
Q2A 4 33 110 QP
Q3A 11 10 22 QN 0.45X
Q4A 11 11 14 QP
RBC 11 11A 300
Q5A 9 11A 16 QP
Q6A 12 11A 17 QP 2X
Q7A 4 9 12 QP 2X
Q8A 15 18 13 QN 21X
RBA 12 18 150
RSCA 13 6 2.4
IBA 7 10 370U
ROA 7 10 80K
DIA 10 7 DCC 3X
*
Q1B 7 33 110 QN
Q2B 7 33 10 QN
Q3B 111 110 22 QP 0.55X
Q4B 111 111 114 QN
RBD 111 111B 300
Q5B 9 111B 116 QN
Q6B 112 111B 117 QN 2X
Q7B 7 9 112 QN 2X
Q8B 115 118 113 QP 21X
RBB 112 118 150
RSCB 6 113 2.4
IBB 110 4 370U
ROB 110 4 80K
DIB 4 110 DCC 3X
*
RIP 3 33 .01
RIM 2 22 15
RIB 7 11 120K
R4A 14 15 400
R5A 16 15 400
R6A 17 7 200
RBSA 7 15 6
R4B 114 115 400
R5B 116 115 400
R6B 117 4 200
RBSB 4 115 6
R9A 7 9 1200K
R9B 9 4 1200K
C9 9 4 3PF
D1 9 6 DCC
D2 6 9 DCC
D3 9 7 DCC 2X
D4 4 9 DCC 2X
CMA 7 11 4PF
CMB 111 4 4PF
IB 7 4 600UA
*
.MODEL DCC D CJO=3PF VJ=0.57 M=0.36
.MODEL QN NPN BF=150 TF=400P
.MODEL QP PNP BF=150 TF=400P
*
.ENDS LT1497
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1499 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1499 3 2 7 4 6 LT1498
.ENDS LT1499
*
.SUBCKT LT1498 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
*
Q4 17 11 18 [4] P1 1.006
Q3 16 10 15 [4] P1 1
Q5 33 32 14 [4] P1 1
QIC2 10 10 11 [4] P1 1
QIC1 11 11 10 [4] P1 1
Q4C 16 11 11 [4] P1 1.5
Q3C 17 10 10 [4] P1 1.5
Q1 12 11 20 [4] N1 1.006
Q2 13 10 21 [4] N1 1
Q2C 12 10 10 [4] N1 1.5
Q1C 13 11 11 [4] N1 1.5
*
RINP 10 3 200
RINN 11 2 200
R1 12 7 2K
RCMP 14 7 12MEG
R4 4 17 2K
R2 13 7 2K
ROUT1 27 6 31.2
ROUT2 27 0 50K
RCMN 4 19 12MEG
RPS1 4 22 1600MEG
RPS2 22 7 1600MEG
RI 23 24 4K
RC1 22 26 400
RO1 0 22 9MEG
RC3 29 22 2K
RC2 25 24 100
R3 4 16 2K
REQ4 18 14 450
REQ3 14 15 450
REQ1 20 19 450
REQ2 19 21 450
*
C1 12 13 1PF
C2 16 17 1PF
CCMP 14 7 1.6PF
CCMN 4 19 1.6PF
CC1 26 6 10P
CPS2 22 7 0.1PF
CC2 25 6 20P
CC3 29 0 50P
CINP 10 0 5P
CINN 11 0 5P
CPS1 4 22 0.1PF
*
VESAT 30 4 0.814
VCSAT 7 31 0.814
VSENSE 33 4 0
FSENSE 19 4 VSENSE 1
VLS 7 32 1.4
GN1 7 22 13 12 290U
GP1 22 4 17 16 340U
GOUT 0 27 0 24 22E-3
I1 7 14 75U
IOS 3 2 5NA
IQ 7 4 1.9MA
E1 23 0 22 0 6
EOUT 28 0 6 0 1
*
DI2 11 7 DM1
DI1 10 7 DM1
DC1 22 0 DMX
DO1 6 31 DM1
DO2 30 6 DM1
DL1 28 27 DMX
DL2 27 28 DMX
DC2 0 22 DMX
DSUB 4 7 DM2
*
.MODEL N1 NPN
+ IS=0.0000000000000004
+ BF=150
+ RB=340
+ TF=400PS
.MODEL P1 PNP
+ IS=0.0000000000000004
+ BF=150
+ RB=400
+ TF=410PS
.MODEL DM1 D IS=8E-16
.MODEL DMX D IS=3.4E-24
.MODEL DM2 D IS=8E-16 BV=39
*
.ENDS LT1498
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUT ADJ GND SDN IN
.SUBCKT LT1521 1 2 3 5 8
XREG 1 2 3 5 8 MD1521
.ENDS LT1521
*
.SUBCKT MD1521 1 2 3 4 5
*
* power section
*
* power transistor
* base resistor defines peak in
* quiescent current below Vref
QPWR 51 54 52 Q1
RBASE 54 53 78500
DDARl 53 84 DX
*
* temperature dependent dropout voltage
RDROP 51 1 0.71 TC=2.6E-3
*
* quiescent current at Vin > 3.75 V
RQC 1 3 625000
*
* load dependent ground pin current
VCURR 5 52 DC 0
FGND 5 3 POLY(1) VCURR 4.0E-6 0.022
*
* input dependent current limit
* beta / QPWR defines increase factor
* G / FCL1 defines upper knee current
* G / ECL1 defines increase factor above current limit
FCL1 3 60 VCURR 0.21
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 5 3 0.0285
FCL2 90 3 VCL1 1.0
*
* shutdown section
*
* bias current
IBSD 5 4 DC 2.0E-6
*
* input clamp to -0.6 / 7.0 V
DSDP1 4 70 DX
VSDP1 70 3 DC 6.2
DSDN1 71 4 DX
VSDN1 71 3 DC 0.595
*
* schmitt trigger, trip points 0.95V / 1.2V
GSD1 3 73 72 4 1.0E-1
RSD1 73 3 1.0E4
CSD1 73 3 2.2E-9
GTV1 3 72 POLY(1) 73 3 0.78E-3 1.2E-4
RTV1 72 3 1.0E3
DSDP2 73 74 DX
VSDP2 74 3 DC 2.90
DSDN2 75 73 DX
VSDN2 75 3 DC 0.876
QSD 90 77 3 Q2
RSD3 77 3 1.0E1
GSD3 3 77 73 3 5.3E-2
*
* error amplifier
*
* temperature dependent bias current
IBEA 3 80 DC 68.7E-6
REA1 80 3 1.0E3 TC=-8.0E-3
GEA1 2 3 80 3 1.0E-6
*
* input clamp to -0.6 / 6.0 V
DEAP1 2 81 DX
VEAP1 81 3 DC 5.3
DEAN1 82 2 DX
VEAN1 82 3 DC 0.4
*
* amplifier with 80 dB gain
GEA2 3 84 2 90 10.0
REA2 84 3 1.0E3
*
* feedback for transient response
CFEED 84 88 4.7e-8
RFEED 88 90 1.5E3
*
* reverse input voltage protection
DREV 5 55 DX
RREV 55 3 1.0E9
*
DEAP2 84 85 DX
EEAP2 85 3 POLY(1) 55 3 -1.0 1.0
DEAN2 86 84 DX
VEAN2 86 3 DC 1.0
*
* voltage reference (3.75V)
*
* temperature dependent 3.750V reference
IREF1 3 90 DC 0.00375
RREF1 90 3 1.0E3 TC=1.8E-5
*
* line regulation (Vin: 4.3V -> 20V / 1.5 mV)
GLINE 3 90 5 3 1.3E-8
*
* load regulation (Iload: 1mA -> 300mA / -20 mV)
GLOAD 90 3 51 1 9.5E-5
*
* models used
*
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1e-12 BF=44857 XTI=0 NF=1.06
.MODEL Q2 NPN IS=1e-16 BF=1000 XTI=0
*
.ENDS MD1521
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM Thu May 20 9:42:15 1998
*
* OUT ADJ GND SDN IN
.SUBCKT LT1529 1 2 3 4 5
*
* power section
*
* power transistor
* base resistor defines peak in
* quiescent current below Vref
QPWR 51 54 52 Q1
RBASE 54 53 15000
DDARl 53 84 DX
*
* temperature dependent dropout voltage
RDROP 51 1 0.10 TC=2.6E-3
*
* quiescent current at Vin > 3.75 V
RQC 1 3 107200
*
* load dependent ground pin current
VCURR 5 52 DC 0
FGND 5 3 POLY(1) VCURR 10.4E-6 0 0.0088
*
* input dependent current limit
* beta / QPWR defines increase factor
* G / FCL1 defines upper knee current
* G / ECL1 defines increase factor above current limit
FCL1 3 60 VCURR 0.023
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 5 3 0.04
FCL2 90 3 VCL1 1.0
*
* shutdown section
*
* bias current
IBSD 5 4 DC 4.5E-6
*
* input clamp to -0.6 / 7.0 V
DSDP1 4 70 DX
VSDP1 70 3 DC 6.2
DSDN1 71 4 DX
VSDN1 71 3 DC 0.595
*
* schmitt trigger, trip points 0.75V / 1.2V
GSD1 3 73 72 4 1.0E-1
RSD1 73 3 1.0E4
CSD1 73 3 2.2E-9
GTV1 3 72 POLY(1) 73 3 0.78E-3 1.2E-4
RTV1 72 3 1.0E3
DSDP2 73 74 DX
VSDP2 74 3 DC 2.90
DSDN2 75 73 DX
VSDN2 75 3 DC 0.876
QSD 90 77 3 Q2
RSD3 77 3 1.0E1
GSD3 3 77 73 3 5.3E-2
*
* error amplifier
*
* temperature dependent bias current
IBEA 3 80 DC 140E-6
REA1 80 3 1.0E3 TC=-8.0E-3
GEA1 2 3 80 3 1.0E-6
*
* input clamp to -0.6 / 6.0 V
DEAP1 2 81 DX
VEAP1 81 3 DC 5.3
DEAN1 82 2 DX
VEAN1 82 3 DC 0.4
*
* amplifier with 80 dB gain
GEA2 3 84 2 90 10.0
REA2 84 3 1.0E3
*
* feedback for transient response
CFEED 84 88 1.2e-8
RFEED 88 90 1.8E3
*
* reverse input voltage protection
DREV 5 55 DX
RREV 55 3 1.0E9
*
DEAP2 84 85 DX
EEAP2 85 3 POLY(1) 55 3 -1.0 1.0
DEAN2 86 84 DX
VEAN2 86 3 DC 1.0
*
* voltage reference (3.75V)
*
* temperature dependent 3.750V reference
IREF1 3 90 DC 0.00375
RREF1 90 3 1.0E3 TC=3.4E-5
*
* line regulation (Vin: 4.3V -> 15V / 1.5 mV)
GLINE 3 90 5 3 2.2E-8
*
* load regulation (Iload: 1mA -> 3.0A / -5.0 mV)
GLOAD 90 3 51 1 1.85E-5
*
* MODELS USED
*
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1e-12 BF=51500 XTI=0 NF=1.0
.MODEL Q2 NPN IS=1e-16 BF=1000 XTI=0
*
.ENDS LT1529
*
***
*
***
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
* Model syntax:
*
* X1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 LT1568
*
* Model has 16 nodes, the nodes are the ordered pins of the LT1568 IC (node #1 is pin #1, etc.)
*
* If cutting and pasting model file, must include the following 9 subcircuits along
* with the LT1568 subckt: CMP1, AMP1, AMP2, ESDPAD, ISPLY, HDJ, HDJ2, SW1, SW2
*
*
**
****
.SUBCKT LT1568 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116
CC1A 126 102 105.7P
CC1B 125 115 105.7P
CC2A 127 103 141.3P
CC2B 128 114 141.3P
EE1 123 0 101 0 1
EE2 119 0 106 0 1
EE3 120 0 111 0 1
EE6 123 118 117 121 1
EI_13 122 0 109 0 1
EI_14 124 0 116 0 1
EI_15 121 0 108 0 1
RR1A1 104 126 2
RR1B1 113 125 2
RR2A1 105 127 3.2
RR2B1 112 128 3.2
RRFA 105 129 600
RRFB 112 130 600
RRGC 106 101 5014
RRGE 108 106 5014
RRIA 104 129 600
RRIB 130 113 600
RRMINUS 108 109 62
RRNC1 106 107 1E9
RRNC2 106 107 1E9
XISA 117 118 108 101 ISPLY
XISB 117 118 109 116 ISPLY
XOA1A 102 106 119 117 118 121 104 123 AMP1
XOA1B 115 111 120 117 118 122 113 124 AMP1
XOA2A 129 106 119 117 118 121 105 123 AMP2
XOA2B 130 111 120 117 118 122 112 124 AMP2
XPAD1 108 101 101 ESDPAD
XPAD10 108 101 110 ESDPAD
XPAD11 108 101 111 ESDPAD
XPAD12 108 101 112 ESDPAD
XPAD13 108 101 113 ESDPAD
XPAD14 108 101 114 ESDPAD
XPAD15 108 101 115 ESDPAD
XPAD16 108 101 116 ESDPAD
XPAD2 108 101 102 ESDPAD
XPAD3 108 101 103 ESDPAD
XPAD4 108 101 104 ESDPAD
XPAD5 108 101 105 ESDPAD
XPAD6 108 101 106 ESDPAD
XPAD8 108 101 108 ESDPAD
XPAD9 108 101 109 ESDPAD
XSHDN 110 121 123 117 CMP1
.ENDS LT1568
*
***
*
.SUBCKT CMP1 106 107 108 100
CCFILT 101 108 3P
DDSD 108 102 DIODE1
DDVLIM 104 108 DIODE1
GG1 104 107 103 106 -0.01
GRPD 100 107 100 107 1M
QQ1 100 104 108 QCOMPARE 1.0
RCONVERGE 107 100 1E9
RRBIAS 104 108 1E6
RRIN1 101 106 20K
RRIN2 101 102 20K
RRPU 102 108 80K
VVT 108 103 1.3
.MODEL DIODE1 D(IS=8.2592e-16 RS=10) ; original version
.MODEL QCOMPARE PNP(VA=100 RC=10 IS=1e-016 BF=100 RB=0)
.ENDS CMP1
***
.SUBCKT AMP1 100 101 105 113 116 102 103 104
CC1 123 132 85P
CC2 124 125 27P
CCCN1A 105 106 1.2P
CCCN1B 105 107 1.2P
CCCN2A 105 108 5N
CCCN2B 105 109 5N
CCE 105 126 0.5P
CCNV1 105 131 1P
CCS1 111 110 700P
DD1 117 125 IDIODE11
DD2 125 117 IDIODE12
DD3 103 128 DIODE2
DD4 129 103 DIODE2
DDCM 121 126 DIODE1
DDIP1 101 112 DIODE1
DDIP2 112 101 DIODE1
DDIP3 100 112 DIODE1
DDIP4 112 100 DIODE1
DDS1 111 105 DIODE2
DDS2 105 111 DIODE2
EESHDN 118 102 113 102 1
GGA 124 105 123 122 12E-2
GGB 125 105 124 105 0.58
GGC 117 105 103 105 -4593.346
GGCM 124 105 126 105 8E-5
GGCN1A 100 105 106 105 1.9E-4
GGCN1B 101 105 107 105 1.9E-4
GGCN2A 100 105 108 105 1.4E-3
GGCN2B 101 105 109 105 1.4E-3
GGNV1 124 105 130 105 0.2
GGNV2 124 105 131 105 0.01
GRC1 127 123 127 123 0.0167761
GRC2 127 122 127 122 0.0167761
GRE1 114 126 114 126 6.66667E-3
GRE2 115 126 115 126 6.66667E-3
IIBC 100 105 -1U
IIEE 126 102 1E-3
IINV 130 105 0
IIVOS 124 105 60U
LLCN1A 105 106 7.2M
LLCN1B 105 107 7.2M
LLNV1 105 131 1.2U
QQ1 123 100 114 QDIFF 1.0
QQ2 122 101 115 QDIFF 1.0
RR2 105 124 26K
RRC 105 117 2.177062E-4
RRCN1A 105 106 7K
RRCN1B 105 107 7K
RRCN2A 105 108 350
RRCN2B 105 109 350
RRE 105 126 51161
RRNV1 105 130 0.16
RRNV2 105 131 1000
RRO1 125 119 14
RRO2 105 125 6.5K
RRS3 105 111 1E8
VVC 104 128 0.9808
VVCM 121 118 0.9
VVE 129 102 0.8779
VVSAT 104 127 0.7
XI_1 103 119 116 102 SW1
XI_2 103 110 113 102 SW1
XRZ 132 133 133 122 HDJ
.MODEL DIODE1 D(IS=8.2592e-16 RS=10) ; original version
.MODEL DIODE2 D(IS=8.2592e-16 RS=0)
.MODEL IDIODE21 D(IS=4e-10 RS=0) ; version 3
.MODEL IDIODE22 D(IS=6.5e-11 RS=0) ; version 3
.MODEL IDIODE11 D(IS=16e-15 RS=0) ; version 3
.MODEL IDIODE12 D(IS=1.5e-15 RS=0) ; version 3
.MODEL QDIFF NPN(IS=9.8047e-16 BF=500 RB =0)
.ENDS AMP1
***
.SUBCKT AMP2 100 101 105 113 116 102 103 104
CC1 128 136 100P
CC2 129 130 19.3P
CCI0 105 108 1P
CCI1 105 111 1P
CCI2 105 123 1P
CCI3 105 124 1P
CCNV1 105 119 1P
CCS1 118 120 700P
CI_19 105 109 1.2P
CI_29 105 107 5N
CI_30 105 110 5N
CI_33 105 106 1.2P
DD1 117 130 IDIODE21
DD2 130 117 IDIODE22
DD3 103 133 DIODE2
DD4 134 103 DIODE2
DDCM 126 131 DIODE1
DDIP1 101 112 DIODE1
DDIP2 112 101 DIODE1
DDIP3 100 112 DIODE1
DDIP4 112 100 DIODE1
DDS1 118 105 DIODE2
DDS2 105 118 DIODE2
EESHDN 122 102 113 102 1
GGA 129 105 128 127 12E-2
GGB 130 105 129 105 0.58
GGC 117 105 103 105 -4593.346
GGCM 129 105 131 105 -50E-6
GGI0 100 105 107 105 1.4E-3
GGI1 101 105 110 105 1.4E-3
GGI2 100 105 108 105 0
GGI3 101 105 111 105 0
GGI4 100 105 123 105 0
GGI5 101 105 124 105 0
GGI6 100 105 106 105 1.7E-4
GGI7 101 105 109 105 1.7E-4
GGNV1 129 105 135 105 1
GI_34 129 105 119 105 0.0055
GRC1 132 128 132 128 0.0167761
GRC2 132 127 132 127 0.0167761
GRE1 114 131 114 131 9.52381E-3
GRE2 115 131 115 131 9.52381E-3
IIEE 131 102 1E-3
IINV 135 105 0
IIVOS 129 105 -53U
LI_15 105 109 7.2M
LI_31 105 106 7.2M
LLI0 105 108 55.43N
LLI1 105 111 55.43N
LLI2 105 123 6E-6
LLI3 105 124 6E-6
LLNV1 105 119 3E-5
QQ1 128 100 114 QDIFF 1.0
QQ2 127 101 115 QDIFF 1.0
RI_17 105 109 10K
RI_27 105 107 350
RI_28 105 110 350
RI_32 105 106 10K
RR2 105 129 26K
RRC 105 117 2.177062E-4
RRE 105 131 51161
RRI2 105 108 300
RRI3 105 111 300
RRI4 105 123 1000
RRI5 105 124 1000
RRNV1 105 135 1
RRNV2 105 119 7K
RRO1 121 130 10
RRO2 105 130 4.4K
RRS3 105 118 1E8
VVC 104 133 0.9808
VVCM 126 122 0.9
VVE 134 102 0.8779
VVSAT 104 132 0.7
XI_35 103 120 113 102 SW1
XI_36 103 121 116 102 SW1
XRZ 136 137 137 127 HDJ2
.MODEL DIODE1 D(IS=8.2592e-16 RS=10) ; original version
.MODEL DIODE2 D(IS=8.2592e-16 RS=0)
.MODEL IDIODE21 D(IS=4e-10 RS=0) ; version 3
.MODEL IDIODE22 D(IS=6.5e-11 RS=0) ; version 3
.MODEL IDIODE11 D(IS=16e-15 RS=0) ; version 3
.MODEL IDIODE12 D(IS=1.5e-15 RS=0) ; version 3
.MODEL QDIFF NPN(IS=9.8047e-16 BF=500 RB =0)
.ENDS AMP2
***
.SUBCKT ESDPAD 101 102 100
CC1 101 100 0.5P
DDC 100 102 ESDDIODE
DDE 101 100 ESDDIODE
.MODEL ESDDiode D(IS=8e-016 RS=5)
.ENDS ESDPAD
***
.SUBCKT ISPLY 103 104 107 108
GG2 108 107 105 0 1
II1 0 105 1E-6
RR1 106 108 6k TC1=4.5E-3
RR2 0 105 11.5k TC1=4.5E-3
XS1 106 107 104 107 SW1
XS3 105 0 103 107 SW1
.ENDS ISPLY
****
.subckt hdj 1 2 3 4
vmon 1 2 0
hout 3 4 vmon 69
.ends hdj
****
.subckt hdj2 1 2 3 4
vmon 1 2 0
hout 3 4 vmon 77
.ends hdj2
****
.subckt sw1 1 2 3 4
s1 1 2 3 4 smod
.model smod vswitch(von=.6 voff=.4 ron=1 roff=1e9)
.ends sw1
****
.subckt sw2 1 2 3 4 5
s1 1 3 4 5 smod
s2 1 3 4 5 smodi
.model smod vswitch(von=.6 voff=.4 ron=1 roff=1e9)
.model smodi vswitch(von=.6 voff=.4 ron=1e9 roff=1)
.ends sw2
****
*
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1630 3 2 8 4 1
XOP1 3 2 8 4 1 LT1630_MD
.ENDS LT1630
*
***
*
.SUBCKT LT1630_MD 1 2 3 4 5
*
* input protection
RIP1 1 111 225
RIP2 2 112 225
DIP1 111 112 DX
DIP2 112 111 DX
DIP3 111 3 DX
DIP4 112 3 DX
DIP5 4 111 DX
DIP6 4 112 DX
*
* input stage
CIN 111 112 5e-12
GRIN 111 112 111 112 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 751.62
RC2 304 12 751.62
RE1 10 13 9.2358
RE2 10 14 9.2358
C1 11 12 2.6469e-12
IEE 303 10 DC 0.002662
GSR 303 10 11 12 5.7327e-5
D1 10 303 DX
GA 60 99 11 12 0.0013305
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 25998
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 25998
GR 99 60 605 606 9.1834
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0066315
ECM 113 111 20 99 1e-5
*
* frequency shaper
RP1 601 99 3043.5
CP1 60 601 8.7156e-12
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 1.8617e-10
GB 7 99 6 99 3165.8
R01 7 99 31.4
R02 7 50 0.1
R03 50 5 28.5
R04 5 99 5937900000
VC 53 50 DC 1.1178
VE 54 50 DC -1.1117
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 243.9
ECLN 92 0 7 50 243.9
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 161.44
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.000838
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL Q1 PNP(IS=1.003e-15 BF=2428.5 XTB=0.43858
+ XTI=3.01148 KF=3.75e-17)
.MODEL Q2 PNP(IS=9.9698e-16 BF=2507.9 XTB=0.41684
+ XTI=2.98852 KF=3.75e-17)
.MODEL DR D(IS=8.2592e-16 KF=4.6553e-18 RS=0 XTI=0)
.ENDS LT1630_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1631 3 2 4 11 1
XOP1 3 2 4 11 1 LT1631_MD
.ENDS LT1631
*
***
*
.SUBCKT LT1631_MD 1 2 3 4 5
*
* input protection
RIP1 1 111 225
RIP2 2 112 225
DIP1 111 112 DX
DIP2 112 111 DX
DIP3 111 3 DX
DIP4 112 3 DX
DIP5 4 111 DX
DIP6 4 112 DX
*
* input stage
CIN 111 112 5e-12
GRIN 111 112 111 112 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 751.62
RC2 304 12 751.62
RE1 10 13 9.2358
RE2 10 14 9.2358
C1 11 12 2.6469e-12
IEE 303 10 DC 0.002662
GSR 303 10 11 12 5.7327e-5
D1 10 303 DX
GA 60 99 11 12 0.0013305
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 25998
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 25998
GR 99 60 605 606 9.1834
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0066315
ECM 113 111 20 99 1e-5
*
* frequency shaper
RP1 601 99 3043.5
CP1 60 601 8.7156e-12
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 1.8617e-10
GB 7 99 6 99 3165.8
R01 7 99 31.4
R02 7 50 0.1
R03 50 5 28.5
R04 5 99 5937900000
VC 53 50 DC 1.1178
VE 54 50 DC -1.1117
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 243.9
ECLN 92 0 7 50 243.9
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 161.44
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.000838
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL Q1 PNP(IS=1.003e-15 BF=2428.5 XTB=0.43858
+ XTI=3.01148 KF=3.75e-17)
.MODEL Q2 PNP(IS=9.9698e-16 BF=2507.9 XTB=0.41684
+ XTI=2.98852 KF=3.75e-17)
.MODEL DR D(IS=8.2592e-16 KF=4.6553e-18 RS=0 XTI=0)
.ENDS LT1631_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1632 3 2 8 4 1
XOP1 3 2 8 4 1 LT1632_MD
.ENDS LT1632
*
***
*
.SUBCKT LT1632_MD 1 2 3 4 5
*
* input protection
RIP1 1 111 225
RIP2 2 112 225
DIP1 111 114 DX
DIP2 114 112 DX
DIP3 112 115 DX
DIP4 115 111 DX
DIP5 111 3 DX
DIP6 112 3 DX
DIP7 4 111 DX
DIP8 4 112 DX
*
* input stage
CIN 111 112 5e-12
GRIN 111 112 111 112 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 307.29
RC2 304 12 307.29
RE1 10 13 36.368
RE2 10 14 36.368
C1 11 12 8.6322e-12
IEE 303 10 DC 0.0065108
GSR 303 10 11 12 0.00039172
D1 10 303 DX
GA 60 99 11 12 0.0032543
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 7556.3
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 7556.3
GR 99 60 605 606 13.022
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0019894
ECM 113 111 20 99 3.1623e-5
*
* frequency shaper
RP1 601 99 2903.2
CP1 60 601 1.3705e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 7.963e-11
GB 7 99 6 99 2816.5
R01 7 99 31.4
R02 7 50 0.1
R03 50 5 28.5
R04 5 99 5937900000
VC 53 50 DC 1.1496
VE 54 50 DC -1.1397
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 250
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 351.31
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0022108
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL Q1 PNP(IS=1.0082e-15 BF=2798.6 XTB=0.77573
+ XTI=3.03822 KF=4.007e-16)
.MODEL Q2 PNP(IS=9.9183e-16 BF=2885.8 XTB=0.76646
+ XTI=2.96178 KF=4.007e-16)
.MODEL DR D(IS=8.2592e-16 KF=7.1158e-18 RS=0 XTI=0)
.ENDS LT1632_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1633 3 2 4 11 1
XOP1 3 2 4 11 1 LT1633_MD
.ENDS LT1633
*
***
*
.SUBCKT LT1633_MD 1 2 3 4 5
*
* input protection
RIP1 1 111 225
RIP2 2 112 225
DIP1 111 114 DX
DIP2 114 112 DX
DIP3 112 115 DX
DIP4 115 111 DX
DIP5 111 3 DX
DIP6 112 3 DX
DIP7 4 111 DX
DIP8 4 112 DX
*
* input stage
CIN 111 112 5e-12
GRIN 111 112 111 112 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 307.29
RC2 304 12 307.29
RE1 10 13 36.368
RE2 10 14 36.368
C1 11 12 8.6322e-12
IEE 303 10 DC 0.0065108
GSR 303 10 11 12 0.00039172
D1 10 303 DX
GA 60 99 11 12 0.0032543
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 7556.3
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 7556.3
GR 99 60 605 606 13.022
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0019894
ECM 113 111 20 99 3.1623e-5
*
* frequency shaper
RP1 601 99 2903.2
CP1 60 601 1.3705e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 7.963e-11
GB 7 99 6 99 2816.5
R01 7 99 31.4
R02 7 50 0.1
R03 50 5 28.5
R04 5 99 5937900000
VC 53 50 DC 1.1496
VE 54 50 DC -1.1397
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 250
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 351.31
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0022108
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL Q1 PNP(IS=1.0082e-15 BF=2798.6 XTB=0.77573
+ XTI=3.03822 KF=4.007e-16)
.MODEL Q2 PNP(IS=9.9183e-16 BF=2885.8 XTB=0.76646
+ XTI=2.96178 KF=4.007e-16)
.MODEL DR D(IS=8.2592e-16 KF=7.1158e-18 RS=0 XTI=0)
.ENDS LT1633_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1635 3 2 7 4 6 1 8
XOP 3 2 7 4 6 OP1635
XREF 1 4 7 8 REF1635
.ENDS LT1635
*
***
*
.SUBCKT OP1635 1 2 3 4 5
*
* input range / phase reversal protection
*
GRP1 1 111 1 111 0.00016667
GRP2 2 112 2 112 0.00016667
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.34
*
* input stage
*
CIN 111 112 2.2785e-12
GRIN 111 112 111 112 1.8115e-8
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 2685.4
RC2 304 12 2685.4
RE1 10 13 30.583
RE2 10 14 30.583
C1 11 12 5.9268e-11
IEE 303 10 DC 0.00074478
GSR 303 10 12 11 2.5978e-5
D1 10 303 DX
GA 60 99 11 12 0.00037239
*
* noise sources
*
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 8610300
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 8610300
GR 99 60 605 606 24.145
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
*
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0019894
ECM 113 111 20 99 3.1623e-6
*
* frequency shaper
*
RP1 601 99 1363.6
CP1 60 601 2.3343e-9
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 5.3052e-11
GP2 99 62 61 99 0.0001
RP3 621 99 11111
LP3 62 621 0.035368
RP33 62 99 100000
GP3 99 63 62 99 0.0001
RP4 63 99 10000
CP4 63 99 3.1831e-11
GP4 99 6 63 99 0.0001
*
* output stage
*
R2 6 99 1000
C2 6 7 9.5036e-9
GB 7 99 6 99 1807
R01 7 99 23.531
R02 7 50 0.1
R03 50 5 26.369
R04 5 99 1.0000e+012
VC 53 50 DC 1.0769
VE 54 50 DC -1.0706
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 250
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 26.627
*
* supply characteristic
*
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.00061478
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL Q1 PNP IS=1.0059e-15 BF=204344.4 XTB=1.1308
+ XTI=3.01156 KF=2.7778e-18
.MODEL Q2 PNP IS=9.9416e-16 BF=211088.6 XTB=1.1079
+ XTI=2.98844 KF=2.7778e-18
.MODEL DR D IS=8e-16 KF=3.8504e-19 RS=0 XTI=0
*
.ENDS OP1635
*
***
*
.SUBCKT REF1635 1 4 7 8
*
* 200 mV reference with temperature drift
*
IREF 4 10 1.0E-3
RREF 10 4 200 TC=3.3E-5
*
* reference amp, poles at 8Hz / 500KHz
*
CIN 8 4 3e-12
IBIAS 8 4 DC 3.5E-9
GIN 4 11 10 8 1.0E-5
RP1 11 4 1.0E5
CP1 11 4 1.98E-7
GP2 4 12 11 4 1.0E-5
RP2 12 4 1.0E5
CP2 12 4 3.2E-12
GOUT 4 22 12 4 900
ROUT1 22 4 100
ROUT2 22 1 100
*
* voltage limiter to Vdd-0.8V, Vss + 0.02V
*
DLP 22 23 DX
ELP 23 4 POLY(1) 7 4 -1.792 1.0
DLN 24 22 DX
VLN 24 4 DC 0.995
*
* current limiter to 2mA / 10uA source / sink
*
ECLP 91 0 22 1 5.4
ECLN 92 0 22 1 7.5E2
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 89 DC 0
RLIM 89 0 0.05
FB 22 4 VLIM 10
*
.MODEL DX D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1635
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT SHDN
.SUBCKT LT1636 3 2 7 4 6 5
XOP1 3 2 7 4 6 5 LT1636_MD
.ENDS LT1636
*
***
*
.SUBCKT LT1636_MD 1 2 3 4 5 8
*
* input range / phase reversal protection
RIP1 1 111 1000
RIP2 2 112 1000
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -4.95e-9
RBP 303 0 1E6 TC=-0.016154
IBN 304 0 DC -4.85e-9
RBN 304 0 1E6 TC=-0.014615
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -7.5e-5 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 15.4E-9 2.7E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 15.8E-9 2.5E-6
*
* offset voltage
ROFF1 301 0 1 TC=-2e-6
ROFF2 302 0 1.000047
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.53052
ECM 113 111 20 0 3.1623e-6
RCM3 113 111 1E12
*
* noise sources
GR 99 60 605 606 0.979
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* input stage
CIN 111 112 3.4e-12
RDIFF 111 112 1.0e+07
GIN 99 10 113 114 0.014265
RCC 10 99 7009.8
C1 10 99 5.6762e-11
DSRP 10 11 DX
VSRP 11 99 DC 8.3
DSRN 12 10 DX
VSRN 12 99 DC -5.3
GA 60 99 10 99 0.4e-5
*
* frequency shaper
RP1 601 99 10000
CP1 60 601 3.9789e-10
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 5.3052e-11
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3e-10
GSW1 6 7 POLY(2) 813 99 6 7 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
GB 7 99 6 99 20103
R01 7 99 263.9
R02 7 50 0.1
R03 50 51 113.07
R04 51 52 22.933
GSW2 52 5 POLY(2) 812 99 52 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
R05 5 99 5937900000
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 0.99529
VE 54 50 DC -0.97379
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 400
ECLN 92 0 7 50 400
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 10.992
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 812 4e-6 7.8e-6
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
* shutdown stage
RDIS1 4 8 4545500
CDIS1 8 99 3e-12
GREF 4 801 POLY(2) 3 4 803 99 0.0 0.00015674 0.0 0.0 -2.8312e-5
RREF 801 4 1000
GDIS 99 803 8 801 0.001
RDIS3 803 99 100000
VDIS2 804 99 DC -0.756
VDIS3 805 99 DC -4.245
DDIS2 803 804 DX
DDIS3 805 803 DX
CDIS2 803 99 3e-12
EDIS 810 99 803 99 1
RDIS5 810 812 9420
RDIS6 812 811 89.235
DDIS4 810 811 DX
CDIS3 812 99 1e-8
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DR D(IS=8.2592e-16 KF=3.241e-19 RS=0 XTI=0)
.MODEL DOUT D(IS=1.0332e-7 RS=0 XTI=0)
.ENDS LT1636_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Thu Jun 22 12:29:10 2000
*# INP 3
*# INN 2
*# VDD 7
*# VSS 4
*# OUTP 6
*# SHDN 5
.SUBCKT LT1637 3 2 7 4 6 5
XOP1 3 2 7 4 6 5 LT1637_MD
.ENDS LT1637
*
.SUBCKT LT1637_MD 1 2 3 4 5 8
*
* input range / phase reversal protection
RIP1 1 111 1300
RIP2 2 112 1300
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -2.02e-8
RBP 303 0 1E6 TC=-0.003
IBN 304 0 DC -1.98e-8
RBN 304 0 1E6 TC=-0.0028
*
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -8.5e-5 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
*
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
*
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 100.4E-9 21.7E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 100.8E-9 21.5E-6
*
* offset voltage
ROFF1 301 0 1 TC=-1e-6
ROFF2 302 0 1.00011
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* noise voltage
GR 99 60 605 606 2.2246
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.11368
ECM 113 111 20 0 3.1623e-6
RCM3 113 111 1E12
*
* input stage
CIN 111 112 3.3e-12
RDIFF 111 112 2.6e+06
GIN 99 10 113 114 0.0265
RCC 10 99 16300
DSRP 10 11 DX
VSRP 11 99 DC 35.5
DSRN 12 10 DX
VSRN 12 99 DC -24.7
GA 60 99 10 99 0.4e-5
*
* frequency shaper
RP1 601 99 5625
CP1 60 601 1.1318e-10
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 8.8419e-12
GP2 99 62 61 99 0.0001
RP3 62 99 10000
CP3 62 99 5.3052e-12
GP3 99 6 62 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.6389e-10
GB 7 99 6 99 15014
R01 7 99 30.9
R02 7 50 0.1
R03 50 51 49
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 51 5 1.0000e+010
R04 5 99 5937900000
VC 53 50 DC 0.11998
VE 54 50 DC -0.1004
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 454.55
ECLN 92 0 7 50 166.67
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 35.252
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 812 3.3984e-6 3.751e-5
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
* shutdown stage
RDIS1 8 4 1162800
RDIS2 8 808 100
CDIS1 808 4 3e-12
GREF 4 801 3 4 0.00025
RREF 801 4 1000
GDIS 99 803 808 801 0.01
RDIS3 803 99 10000
VDIS2 804 99 DC -0.08
VDIS3 805 99 DC -4.921
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 10528.1
RDIS6 812 811 181.1
DDIS4 810 811 DVC
CDIS3 812 99 1e-8
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL DR D(IS=8.2592e-16 KF=3.8774e-19 RS=0 XTI=0)
*
.ENDS LT1637_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1638 3 2 8 4 1
XOP1 3 2 8 4 1 LT1638_MD
.ENDS LT1638
*
***
*
.SUBCKT LT1638_MD 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 1000
RIP2 2 112 1000
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -2e-8
RBP 303 0 1E6 TC=-0.016154
IBN 304 0 DC -2.1e-8
RBN 304 0 1E6 TC=-0.014615
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -7.5e-5 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
GCV2 0 309 POLY(3) 3 0 1 0 2 0 -0.1E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 6e-8 6.2E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 6.8e-8 8.2E-6
*
* offset voltage
ROFF1 301 0 1 TC=-2e-6
ROFF2 302 0 1.00018
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.043213
ECM 113 111 20 0 1.2589e-5
RCM3 113 111 1E12
*
* noise voltage
GR 99 60 605 606 1.4747
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* input stage
CIN 111 112 4.3e-12
RDIFF 111 112 2.5e+6
GIN 99 10 113 114 0.05024
RCC 10 99 1990.3
*C1 10 99 7.98e-11
C1 10 99 7.66e-11
DSRP 10 11 DX
VSRP 11 99 DC 6.8
DSRN 12 10 DX
VSRN 12 99 DC -5.1
GA 60 99 10 99 1.538e-5
*
* frequency shaper
RP1 601 99 6666.7
CP1 60 601 4.7746e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.2368e-10
GB 7 99 6 99 11372
R01 7 99 86.9
R02 7 50 0.1
R03 50 51 64.533
R04 51 500 23.467
*
* switch output to high impedance when
* VDD is switched off
SOUT 500 5 3 4 SHDN
*
R05 5 99 5937900000
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 1.0306
VE 54 50 DC -1.0092
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 400
ECLN 92 0 7 50 400
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 21.9
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00017
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DR D(IS=8.2592e-16 KF=3.6798e-18 RS=0 XTI=0)
.MODEL DOUT D(IS=9.0917e-7 RS=0 XTI=0)
.MODEL SHDN VSWITCH(RON=0.1 ROFF=1.0E9 VON=2.4 VOFF=2.2)
.ENDS LT1638_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1639 3 2 4 11 1
XOP1 3 2 4 11 1 LT1639_MD
.ENDS LT1639
*
***
*
.SUBCKT LT1639_MD 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 1000
RIP2 2 112 1000
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -2e-8
RBP 303 0 1E6 TC=-0.016154
IBN 304 0 DC -2.1e-8
RBN 304 0 1E6 TC=-0.014615
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -7.5e-5 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
GCV2 0 309 POLY(3) 3 0 1 0 2 0 -0.1E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 6e-8 6.2E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 6.8e-8 8.2E-6
*
* offset voltage
ROFF1 301 0 1 TC=-2e-6
ROFF2 302 0 1.00018
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.043213
ECM 113 111 20 0 1.2589e-5
RCM3 113 111 1E12
*
* noise voltage
GR 99 60 605 606 1.4747
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* input stage
CIN 111 112 4.3e-12
RDIFF 111 112 2.5e+6
GIN 99 10 113 114 0.05024
RCC 10 99 1990.3
*C1 10 99 7.98e-11
C1 10 99 7.66e-11
DSRP 10 11 DX
VSRP 11 99 DC 6.8
DSRN 12 10 DX
VSRN 12 99 DC -5.1
GA 60 99 10 99 1.538e-5
*
* frequency shaper
RP1 601 99 6666.7
CP1 60 601 4.7746e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.2368e-10
GB 7 99 6 99 11372
R01 7 99 86.9
R02 7 50 0.1
R03 50 51 64.533
R04 51 500 23.467
*
* switch output to high impedance when
* VDD is switched off
SOUT 500 5 3 4 SHDN
*
R05 5 99 5937900000
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 1.0306
VE 54 50 DC -1.0092
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 400
ECLN 92 0 7 50 400
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 21.9
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00017
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DR D(IS=8.2592e-16 KF=3.6798e-18 RS=0 XTI=0)
.MODEL DOUT D(IS=9.0917e-7 RS=0 XTI=0)
.MODEL SHDN VSWITCH(RON=0.1 ROFF=1.0E9 VON=2.4 VOFF=2.2)
.ENDS LT1639_MD
**
***
*
*CCM
*
* V+ IN+ IN- V- LATCH GND OUT+ OUT-
.SUBCKT LT1671 1 2 3 4 5 6 7 8
XCOMP 2 3 7 8 1 4 6 5 LT1671_MD
.ENDS LT1671
*
***
*
* CCM, updated 2006-09-08 by CWP
*
.SUBCKT LT1671_MD 1 2 101 102 200 300 400 600
*
* input stage
CIN_D 2 1 5e-12
CIN_CM1 1 0 3.5e-12
CIN_CM2 2 0 3.5e-12
RIN 2 1 5000000
ROFF1 301 0 1.0009 TC=4e-6
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 1 3 POLY(3) 301 302 1 0 2 0 0 1.0 5e-6 5e-6
ROFF 3 1 1000000000
IBP 303 0 DC 1.25e-7
RBP 303 0 1E6 TC=0.017815
GBP 1 0 303 0 1e-6
IBN 304 0 DC 1.15e-7
RBN 304 0 1E6 TC=0.017741
GBN 2 0 304 0 1e-6
*
* delay stage
G1 0 20 3 2 5
R1 20 0 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 0 DC 76.099
V1N 22 0 DC -76.099
G2 0 23 20 0 0.001
R2 23 0 1000
CD 23 0 1.9577e-12
*
* slewrate stage
G3 0 24 23 0 0.001
R3 24 0 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 0 DC 33.333
V3N 26 0 DC -33.333
G41 0 30 24 0 0.001
R41 30 0 1000
CR 30 0 2.2122e-10
D4P 30 32 DX
D4N 33 30 DX
E4P 32 0 POLY(1) 200 400 -1.6543 0.5
E4N 0 33 POLY(1) 200 400 -1.6543 0.5
*
* phase shifter
G5 0 40 30 0 0.001
R5 40 0 1000
LA 40 41 2.3873e-7
CA 41 0 1.4921e-12
*
* latch stage
RTTL1 600 200 1.0000e+012
DTTL 601 600 DX
RTTL2 601 602 11679000
VTTL 603 602 DC 0
ETTL 200 603 200 0 0.35
FLATCH 0 623 POLY(1) VTTL 100E-3 -800000
RLATCH1 623 0 1000
VL1P 646 0 DC 20
DL1P 623 646 DLATCH
VL1N 0 647 DC 20
DL1N 647 623 DLATCH
EINV 0 648 623 0 1
ELATCH 645 0 41 0 1
CHOLD 649 0 1e-7
RHOLD 642 0 1.0000e+012
RLATCH2 645 0 1.0000e+012
RLATCH3 648 0 1.0000e+012
M1 645 623 642 646 SPMOS L=100U W=100U
M2 642 648 645 647 SNMOS L=100U W=100U
M3 645 623 649 646 SPMOS L=100U W=100U
M4 649 648 645 647 SNMOS L=100U W=100U
M5 649 648 642 646 SPMOS L=100U W=100U
M6 642 623 649 647 SNMOS L=100U W=100U
*
* output stage
GO12 401 43 642 0 0.036364
RO12 43 401 27.5
VOUT1 101 43 DC -0.775036
ROUT1 101 0 1000000000
GO22 401 47 642 0 -0.036364
RO22 47 401 27.5
VOUT2 102 47 DC -0.77504
ROUT2 102 0 1000000000
*
* supply characteristic
EGND 401 0 VALUE={(V(200)+V(400))/2}
RGND 400 0 1000000000
IVDD 200 400 DC 0.00045
IVSS 400 300 DC 7.5e-5
FA1 51 0 VOUT1 -1
FA2 51 0 VOUT2 -1
DAP 200 51 DPC
RGV 52 53 9.7531
EGV 51 52 POLY(1) 200 400 -0.8 1.0
DAN 53 400 DPC
*
.MODEL DX D(IS=1e-12 RS=0 XTI=0)
.MODEL DPC D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL D3P D(IS=1e-12 TT=1.1693e-7 CJO=3e-13 RS=0 XTI=0)
.MODEL D3N D(IS=1e-12 TT=1.2903e-7 CJO=3e-13 RS=0 XTI=0)
.MODEL DLATCH D(IS=1e-12 TT=1.2431e-7 CJO=3e-13 RS=0 XTI=0)
.MODEL SPMOS PMOS(LEVEL=1 VTO=-3 KP=10)
.MODEL SNMOS NMOS(LEVEL=1 VTO=3 KP=10)
.MODEL DOUT D(IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1)
.ENDS LT1671_MD
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1673 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1673 3 2 7 4 6 LT1672
.ENDS LT1673
*
.SUBCKT LT1674 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1674 3 2 7 4 6 LT1672
.ENDS LT1674
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1672 3 2 7 4 6
CCM1 173 178 0.0025
CCM2 172 173 0.0025
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 0.0002
CG4 172 170 0.0002
CG5 175 178 0.0002
CG6 172 175 0.0002
CG7 176 178 0.0002
CG8 172 176 0.0002
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 190 0 10p
CPSN1 172 189 0.0005
CPSN2 189 178 0.0005
CPSP 192 0 10p
CPSP1 172 191 0.0005
CPSP2 191 178 0.0005
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 0.126491
ESRLIM4 148 146 167 168 0.126491
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000891251
GCM2 178 174 181 186 0.000891251
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 7.94766e-5
GG2 178 169 168 167 7.94766e-5
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.0125
GOUT2 178 188 180 178 0.0125
GPSN1 172 190 4 178 0.001
GPSN2 178 190 4 178 0.001
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.0125
GPSNO2 178 188 189 178 0.0125
GPSP1 172 192 7 172 0.001
GPSP2 178 192 7 172 0.001
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.0125
GPSPO2 178 188 191 178 0.0125
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 2.5e-10
IBIAS2 103 0 2.5e-10
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 1.5e-6
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.0795775
LCM2 132 178 0.0795775
LCMX 128 174 100
LPSN1 172 136 397.887
LPSN2 137 178 397.887
LPSP1 172 138 3.97887
LPSP2 139 178 3.97887
LZP1 172 158 1.59314e-13
LZP2 159 178 1.59314e-13
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 397888000
RG2 169 178 397888000
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 1000
RIN2 103 2 1000
RINOI1 134 0 0.00603865
RINOI2 135 0 0.00603865
ROUT1 172 188 80
ROUT2 188 178 80
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 2064730
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 0.01001
RZP4 159 178 0.01001
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -0.75
VBIAS2 120 0 169.75
VILIM1 127 0 1.3
VILIM2 126 0 1.3
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 150u
VSHD7 163 187 0
VSHDN 144 0 5e-7
VSRLIM1 149 0 0.005
VSRLIM2 150 0 0.005
VVLIM1 172 153 1.1585
VVLIM2 154 178 1.1735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=-0.50V VOFF=-0.30V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=0.60V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=-0.30V VOFF=-0.50V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.60V VOFF=0.80V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.10909e-10)
.ENDS LT1672
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Thu Jun 08 23:21:23 2000
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*
.SUBCKT LT1677 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 10
RIP2 2 112 10
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.39
*
* input stage
CIN 111 112 3.8e-12
GRIN 111 112 111 112 1e-12
VCMEP 303 3 DC 1.6
VCMEN 4 304 DC 0.8
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 303 11 1454.5
RC2 303 12 1454.5
RE1 10 13 2.6861
RE2 10 14 2.6861
C1 11 12 3.6473e-12
IEE 10 304 DC 0.001375
D1 304 10 DX
GA 60 99 11 12 0.0006875
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 184120
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 184120
GR 99 60 605 606 3.8199
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.079577
ECM 113 111 20 99 1e-6
*
* frequency shaper
RP1 601 99 1764.7
CP1 60 601 2.2547e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 13636
LP2 61 611 0.00054257
RP22 61 99 37500
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 5.5e-10
GB 7 99 6 99 20146
R01 7 99 39.9
R02 7 50 0.1
R03 50 5 40
R04 5 99 5937900000
VC 53 50 DC 0.202
VE 54 50 DC -0.172
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 285.71
ECLN 92 0 7 50 285.71
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 530.87
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.001375
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL Q1 NPN(IS=9.996e-16 BF=196428.6 XTB=-0.89146
+ XTI=2.99924 KF=5.4928e-15)
.MODEL Q2 NPN(IS=1.0004e-15 BF=458333.3 XTB=-2.783
+ XTI=3.00076 KF=5.4928e-15)
.MODEL DR D(IS=8.2592e-16 KF=4.2062e-18 RS=0 XTI=0)
.ENDS LT1677
**
***
*
*
.SUBCKT LT1679 3 2 7 4 6 ; IN+ IN- VCC VEE OUT
XLT1679 3 2 7 4 6 LT1678
.ENDS LT1679
*
* Version 1.67 Copyright © Linear Technology Corp. 5/18/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1678 3 2 7 4 6
CCM1 162 0 1e-7
CG2 158 0 1n
CG3 159 0 3.33333e-6
CG5 164 0 1.42857e-8
CG7 165 0 1e-10
CIN1 3 2 0.1f
CIN2 0 3 4.2p
CIN3 2 0 4.2p
CPSN2 178 0 0.0025
CPSP2 180 0 0.0025
CVM 175 0 1E5
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 177 144 DVLIM
DVLIM2 145 177 DVLIM
DVNF 146 0 DVNOI
DVNFX 147 0 DVNOIX
EICM1 153 0 2 0 1
EICM2 154 0 3 0 1
EILIM1 125 122 177 155 1E5
EILIM2 124 120 177 155 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 135 0 177 155 1E5
EPWR2 136 0 177 155 1E5
ESRLIM1 141 143 103 105 0
ESRLIM2 140 142 105 103 0
ESRLIM3 140 138 157 156 198.221
ESRLIM4 141 139 156 157 198.221
EVCC 161 0 7 0 1
EVEE 167 0 4 0 1
EVNOI1 107 108 0 148 1
EVNOI2 109 107 146 147 1
FVLIM1 177 0 VVLIM1 -1E7
FVLIM2 177 0 VVLIM2 1E7
GCM2 0 163 170 175 6.30957e-6
GCM3 0 162 163 0 6.2832
GCMO1 0 159 162 0 6.2832
GG2 0 158 157 156 0.124546
GG3 0 159 158 0 10
GG5 0 164 159 0 6.2832
GG7 0 165 164 0 6.2832
GILIM 158 0 128 0 0.01
GINOI1 103 0 0 129 1m
GINOI2 110 0 0 130 1m
GOUT2 0 177 169 0 0.0125
GPSN2 0 179 4 175 3.54813e-5
GPSN4 0 178 179 0 6.2832
GPSNO2 0 177 178 0 0.0125
GPSP2 0 181 7 175 6.30957e-5
GPSP4 0 180 181 0 6.2832
GPSPO2 0 177 180 0 0.0125
GPWR1 133 0 177 155 100
GPWR2 134 0 177 155 100
GSHD3 4 7 119 0 1
GZP1 167 168 165 0 0.1
GZP3 167 169 168 0 0.1
HIN1 113 156 VIN1 100
HIN2 118 157 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 2e-8
IBIAS2 103 0 2e-8
IDUM1 148 0 0
IDUM2 130 129 0
IPWR 7 4 0.002
ISLEW 111 0 10mA
IVNF 0 146 1A
IVNFX 0 147 1A
LCM2 127 0 1.59155e-5
LCMX 126 163 100
LPSN2 131 0 19.8944
LPSP2 132 0 19.8944
LZP2 149 167 1.57563e-6
LZP4 150 167 1.59314e-13
Q1 156 106 116 0 NPN1
Q2 157 104 112 0 NPN1
RCM2 163 127 1k
RCM3 162 0 0.159155
RCMX 126 0 0.1
RCMX2 163 126 1E8
RG2 158 0 318310
RG3 159 0 0.159155
RG5 164 0 0.159155
RG7 165 0 0.159155
RICM1 153 170 1k
RICM2 154 170 1k
RILIM 128 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 129 0 29.5894
RINOI2 130 0 29.5894
ROUT2 177 0 80
ROUT3 176 155 0.01
RPSN2 179 131 1k
RPSN22 131 0 1E8
RPSN4 178 0 0.159155
RPSP2 181 132 1k
RPSP22 132 0 1E8
RPSP4 180 0 0.159155
RPWR1 133 161 1E6
RPWR2 134 167 1E6
RSENSE 155 177 0.01
RSHD1 119 0 1
RVH1 161 175 1k
RVH2 175 167 1k
RVNOI 0 148 918.278
RZP1 168 149 10
RZP4 149 167 990
RZP5 169 150 10
RZP8 150 167 0.01001
SHD2 137 119 7 4 SHDN2X
SHD8 152 6 7 4 SHDNO2
SILIM1 128 123 122 0 SILIM
SILIM2 128 121 120 0 SILIM
SPWR1 7 133 135 0 SPWR
SPWR2 4 134 136 0 SPWRX
SSRLIM1 156 157 138 0 SSRLIM
SSRLIM2 156 157 139 0 SSRLIM
VILIM1 125 0 22
VILIM2 124 0 22
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 50u
VSHD7 152 176 0
VSHDN 137 0 0.001999
VSRLIM1 142 0 6
VSRLIM2 143 0 6
VVLIM1 161 144 1.1985
VVLIM2 145 167 1.2035
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 2.04349e-13)
.ENDS LT1678
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1712 3 2 7 4 101 6 133 107
XLT1712 3 2 7 4 101 6 133 107 LT1711
.ENDS LT1712
*
* Version 1.96 Copyright ? Linear Technology Corp. 9/22/04. All rights reserved. [Spice2]
* PINOUT: IN+ IN- VCC VEE GROUND OUT OUTINV LATCH
.SUBCKT LT1711 3 2 7 4 101 6 133 107
CDUM1 143 4 0.01p
CDUM2 4 3 0.01p
CHYST1 141 0 10p
CIBIAS1 110 0 10p
CIBIAS2 109 0 10p
CLATCH1 145 0 10p
COUT 6 4 1p
COUT_ 133 4 1p
CPROP 140 0 4.5e-9
CTRF 154 0 2e-9
DILIM1 112 116 DSW
DILIM1_ 113 117 DSW
DILIM2 116 114 DSW
DILIM2_ 117 115 DSW
DIN1 3 7 DIODE
DIN2 2 7 DIODE
DIN3 4 3 DIODE
DIN4 4 2 DIODE
DPWR1 152 129 DSW
DPWR2 130 101 DSW
DVLIM1 147 124 DVLIM
DVLIM1_ 148 124 DVLIM
DVLIM2 126 147 DVLIM
DVLIM2_ 126 148 DVLIM
DVLIM3 151 124 DVLIM
DVLIM4 126 151 DVLIM
EGAIN 128 0 145 0 14962.3
EGND 102 0 101 0 1
EIBIAS1 111 0 3 2 -100
EILIM1 118 0 116 0 100
EILIM1_ 119 0 117 0 100
EIN 144 0 120 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELATCH1 123 0 147 149 1
ELDO1 124 0 152 125 1
ELDO2 126 0 101 127 1
EOM 150 0 149 0 1
ETRF 131 0 151 0 1
EVCC1 137 0 7 0 1
EVEE1 139 0 4 0 1
EVS 153 0 152 0 1
GCMRR 0 120 142 146 0.000562341
GGAIN 0 151 140 141 1E-3
GIBIAS1 3 0 109 0 1E-6
GIBIAS2 2 0 110 0 1E-6
GILIM1 0 112 147 121 1E4
GILIM1_ 0 113 148 122 1E4
GILIM2 114 0 121 147 1E4
GILIM2_ 115 0 122 148 1E4
GILIM3 0 155 154 118 1
GILIM3_ 0 156 154 0 1
GILIM4_ 0 156 119 0 1
GIN 0 120 3 143 1
GOUT 0 147 155 150 2
GOUT_ 0 148 156 150 -2
GPSRRN 0 120 4 146 0.0001
GPSRRP 0 120 7 146 0.000177828
GPWRO1 129 0 147 121 10
GPWRO1_ 129 0 148 122 10
GPWRO2 130 0 147 121 10
GPWRO2_ 130 0 148 122 10
IIBIAS 0 108 -5
ILIM1 112 0 10
ILIM1_ 113 0 10
ILIM2 0 114 10
ILIM2_ 0 115 10
IOS 3 2 2e-7
ITYP1 7 0 0.015
ITYP2 0 4 0.008
ITYP3 152 101 0.007
IVOS 0 120 0.0005
RDUM1 134 121 0.001
RDUM1_ 135 122 0.001
RHYST1 141 0 1
RIBIAS1 110 0 1
RIBIAS2 109 0 1
RIBIAS3 108 110 10k
RILIM 121 147 0.1
RILIM_ 122 148 0.1
RILIM1 116 0 1
RILIM1_ 117 0 1
RILIM2 112 0 1
RILIM2_ 113 0 1
RILIM3 114 0 1
RILIM3_ 115 0 1
RILIM4 155 0 1
RILIM4_ 156 0 1
RIN 120 0 1
RINCM1 142 105 1
RINCM2 106 142 1
RLATCH 107 4 1E9
RLATCH1 145 0 1
RMID1 146 137 1
RMID2 139 146 1
ROUT 150 147 1
ROUT_ 150 148 1
ROX 151 0 1000
RPROP 140 128 1.307
RPWR1 129 153 1E3
RPWR2 130 102 1E3
RSHD7 134 6 1E-4
RSHD8 135 133 1E-4
RTRF 154 131 0.63662
RVCC 7 152 1E-4
RVNOI 143 2 60.3865
RVOM1 149 153 1
RVOM2 102 149 1
SIBIAS1 109 108 111 0 SWBIAS
SLATCH1 145 144 107 139 SWLATCH
SLATCH2 145 123 107 139 SWLATCHX
VLDO1 125 0 1.6557
VLDO2 0 127 1.6557
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=2.60)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.60 VOFF=2.20)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(XTI=0 AF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT1711
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1714 3 2 7 4 101 6 133 107
XLT1714 3 2 7 4 101 6 133 107 LT1713
.ENDS LT1714
*
* Version 1.96 Copyright ? Linear Technology Corp. 9/27/04. All rights reserved. [Spice3]
* PINOUT: IN+ IN- VCC VEE GROUND OUT OUTINV LATCH
.SUBCKT LT1713 3 2 7 4 101 6 133 107
CDUM1 143 4 0.01p
CDUM2 4 3 0.01p
CHYST1 141 0 10p
CIBIAS1 110 0 10p
CIBIAS2 109 0 10p
CLATCH1 145 0 10p
COUT 6 4 1p
COUT_ 133 4 1p
CPROP 140 0 7e-9
CTRF 154 0 4e-9
DILIM1 112 116 DSW
DILIM1_ 113 117 DSW
DILIM2 116 114 DSW
DILIM2_ 117 115 DSW
DIN1 3 7 DIODE
DIN2 2 7 DIODE
DIN3 4 3 DIODE
DIN4 4 2 DIODE
DPWR1 152 129 DSW
DPWR2 130 101 DSW
DVLIM1 147 124 DVLIM
DVLIM1_ 148 124 DVLIM
DVLIM2 126 147 DVLIM
DVLIM2_ 126 148 DVLIM
DVLIM3 151 124 DVLIM
DVLIM4 126 151 DVLIM
EGAIN 128 0 145 0 3162.28
EGND 102 0 101 0 1
EIBIAS1 111 0 3 2 -100
EILIM1 118 0 116 0 100
EILIM1_ 119 0 117 0 100
EIN 144 0 120 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELATCH1 123 0 147 149 1
ELDO1 124 0 152 125 1
ELDO2 126 0 101 127 1
EOM 150 0 149 0 1
ETRF 131 0 151 0 1
EVCC1 137 0 7 0 1
EVEE1 139 0 4 0 1
EVS 153 0 152 0 1
GCMRR 0 120 142 146 0.000316228
GGAIN 0 151 140 141 1E-3
GIBIAS1 3 0 109 0 1E-6
GIBIAS2 2 0 110 0 1E-6
GILIM1 0 112 147 121 1E4
GILIM1_ 0 113 148 122 1E4
GILIM2 114 0 121 147 1E4
GILIM2_ 115 0 122 148 1E4
GILIM3 0 155 154 118 1
GILIM3_ 0 156 154 0 1
GILIM4_ 0 156 119 0 1
GIN 0 120 3 143 1
GOUT 0 147 155 150 2
GOUT_ 0 148 156 150 -2
GPSRRN 0 120 4 146 0.0001
GPSRRP 0 120 7 146 0.0001
GPWRO1 129 0 147 121 10
GPWRO1_ 129 0 148 122 10
GPWRO2 130 0 147 121 10
GPWRO2_ 130 0 148 122 10
IIBIAS 0 108 -1.5
ILIM1 112 0 10
ILIM1_ 113 0 10
ILIM2 0 114 10
ILIM2_ 0 115 10
IOS 3 2 1e-7
ITYP1 7 0 0.0055
ITYP2 0 4 0.0035
ITYP3 152 101 0.002
IVOS 0 120 0.0005
RDUM1 134 121 0.001
RDUM1_ 135 122 0.001
RHYST1 141 0 1
RIBIAS1 110 0 1
RIBIAS2 109 0 1
RIBIAS3 108 110 10k
RILIM 121 147 0.1
RILIM_ 122 148 0.1
RILIM1 116 0 1
RILIM1_ 117 0 1
RILIM2 112 0 1
RILIM2_ 113 0 1
RILIM3 114 0 1
RILIM3_ 115 0 1
RILIM4 155 0 1
RILIM4_ 156 0 1
RIN 120 0 1
RINCM1 142 105 1
RINCM2 106 142 1
RLATCH 107 4 1E9
RLATCH1 145 0 1
RMID1 146 137 1
RMID2 139 146 1
ROUT 150 147 1
ROUT_ 150 148 1
ROX 151 0 1000
RPROP 140 128 1.307
RPWR1 129 153 1E3
RPWR2 130 102 1E3
RSHD7 134 6 1E-4
RSHD8 135 133 1E-4
RTRF 154 131 0.63662
RVCC 7 152 1E-4
RVNOI 143 2 60.3865
RVOM1 149 153 1
RVOM2 102 149 1
SIBIAS1 109 108 111 0 SWBIAS
SLATCH1 145 144 107 139 SWLATCH
SLATCH2 145 123 107 139 SWLATCHX
VLDO1 125 0 1.6557
VLDO2 0 127 1.6557
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=2.60)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.60 VOFF=2.20)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(XTI=0 AF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT1713
*
***
*
* Version 1.96 Copyright ? Linear Technology Corp. 9/22/04. All rights reserved. [Spice2]
* PINOUT: IN+ IN- VCC VEE VS+ GROUND OUT
.SUBCKT LT1715 3 2 7 4 144 101 6
CDUM1 136 4 0.01p
CDUM2 4 3 0.01p
CHYST1 134 0 10p
CIBIAS1 111 0 10p
CIBIAS2 110 0 10p
CLATCH1 138 0 10p
COUT 6 4 1p
CPROP 133 0 4e-9
CTRF 146 0 2e-9
DILIM1 113 115 DSW
DILIM2 115 114 DSW
DIN1 3 7 DIODE
DIN2 2 7 DIODE
DIN3 4 3 DIODE
DIN4 4 2 DIODE
DPWR1 144 124 DSW
DPWR2 125 101 DSW
DVLIM1 140 119 DVLIM
DVLIM2 121 140 DVLIM
DVLIM3 143 119 DVLIM
DVLIM4 121 143 DVLIM
EGAIN 123 0 138 0 100000
EGND 102 0 101 0 1
EHYST1 108 0 141 140 1E5
EIBIAS1 112 0 3 2 -100
EILIM1 116 0 115 0 100
EIN 137 0 117 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELDO1 119 0 144 120 1
ELDO2 121 0 101 122 1
EOM 142 0 141 0 1
ETRF 126 0 143 0 1
EVCC1 130 0 7 0 1
EVEE1 132 0 4 0 1
EVS 145 0 144 0 1
GCMRR 0 117 135 139 0.000316228
GGAIN 0 143 133 134 1E-3
GIBIAS1 3 0 110 0 1E-6
GIBIAS2 2 0 111 0 1E-6
GILIM1 0 113 140 118 1E4
GILIM2 114 0 118 140 1E4
GILIM3 0 147 146 116 1
GIN 0 117 3 136 1
GOUT 0 140 147 142 2
GPSRRN 0 117 4 139 0.0001
GPSRRP 0 117 7 139 0.0001
GPWRO1 124 0 140 118 10
GPWRO2 125 0 140 118 10
IIBIAS 0 109 -2.5
ILIM1 113 0 10
ILIM2 0 114 10
IOS 3 2 2e-7
ITYP1 7 0 0.001
ITYP2 0 4 0.0029
ITYP3 144 101 0.0046
IVOS 0 117 0.0004
RDUM1 128 118 0.001
RHYST1 134 0 1
RIBIAS1 111 0 1
RIBIAS2 110 0 1
RIBIAS3 109 111 10k
RILIM 118 140 0.1
RILIM1 115 0 1
RILIM2 113 0 1
RILIM3 114 0 1
RILIM4 147 0 1
RIN 117 0 1
RINCM1 135 105 1
RINCM2 106 135 1
RLATCH0 138 137 1E-4
RLATCH1 138 0 1
RMID1 139 130 1
RMID2 132 139 1
ROUT 142 140 1
ROX 143 0 1000
RPROP 133 123 1.307
RPWR1 124 145 1E3
RPWR2 125 102 1E3
RSHD7 128 6 1E-4
RTRF 146 126 0.63662
RVNOI 136 2 60.3865
RVOM1 141 145 1
RVOM2 102 141 1
SHYST1 134 107 108 0 SWHYST
SIBIAS1 110 109 112 0 SWBIAS
VHYST1 107 0 350
VLDO1 120 0 1.6557
VLDO2 0 122 1.6557
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=2.60)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.60 VOFF=2.20)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(XTI=0 AF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT1715
*
***
*
* Copyright © Linear Technology Corp. 09/18/06. All rights reserved.
* Pinout: IN+ IN- V+ V- OUT
.SUBCKT LT1716 1 2 3 4 5
DIN3 4 101 DIN
DIN4 4 102 DIN
IOS 101 102 3E-9
RG1 23 0 4.5E6
GIBIAS1 101 0 VALUE={3E-9*(0.5+0.5*tanh(10*V(1,2)))}
GIBIAS2 102 0 VALUE={3E-9*(0.5+0.5*tanh(10*V(1,2)))}
MOUTOC2 46 24 4 4 NOUT
GTRFOC 0 24 VALUE={tanh(V(23))}
RTRFOC 24 0 1
CTRFOC 24 0 4E-6
IPU1 0 43 2E-6
ITYP 3 4 4E-5
RIN1 101 1 5E3
RIN2 102 2 5E3
DV1 55 23 DVLIM
DV2 55 0 DVLIM
RPU1 43 4 3E5
GPU2 42 5 VALUE={MAX(-1E-7,V(42,5))}
GPU3 43 5 VALUE={MAX(0,V(43,5))}
MOUTOC1 42 41 3 3 POUT
GIN 0 23 VALUE={11*(0.5+0.5*tanh(V(3,4)-2.1))*tanh(V(102,101)+3.16E-6*(((V(1)+V(2))/2)-V(4))+3.16E-6*V(3,4)+3E-4)}
GVEE 0 24 4 0 1
COUT 46 24 1E-11
COUT2 4 5 1E-11
CPU1 4 43 1E-11
MOUTOC3 41 41 3 3 POUT
GMIR 41 0 VALUE={2.6E-4*V(43,4)*(0.5+0.5*TANH(50*(V(3,42)-0.14)))}
GPU4 5 46 VALUE={MAX(-1E-10,V(5,46))}
.MODEL NOUT NMOS(KF=0 KP=0.02 VTO=1E-6 RD=40)
.MODEL POUT PMOS(KF=0 KP=2E-4 VTO=-1E-6)
.MODEL DVLIM D(BV=20 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DIN D(KF=0 RS=0)
.ENDS LT1716
*
***
*
* Copyright © Linear Technology Corp. 09/18/2006. All rights reserved.
* Pinout (same as IC): VCC IN+ IN- VEE GND SHDN OUT VS+
.SUBCKT LT1719 1 2 3 4 5 6 7 8
DIN3 4 2 DIN
DIN4 4 3 DIN
RG1 21 0 1E6
GIBIAS1 2 0 VALUE={-5E-6*(0.5+0.5*tanh(10*V(2,3)))}
GIBIAS2 3 0 VALUE={-5E-6*(0.5+0.5*tanh(10*V(3,2)))}
MOUT1 88 24 77 77 NOUT
GTRF 0 24 VALUE={10*V(70)*tanh(V(21))}
RTRF 24 0 1
CTRF 24 0 3E-9
DV1 55 21 DVLIM
DV2 55 0 DVLIM
MOUT2 56 24 77 77 POUT
GIN 0 21 VALUE={V(2,3)+5.62E-4*(((V(2)+V(3))/2)-V(4))+1E-4*V(1,4)+4E-4}
GVLIM1 8 88 VALUE={MIN(0.02,0.1*(V(8,88)-0.2))}
GVLIM2 56 5 VALUE={MIN(0.02,0.1*(V(56,5)-0.2))}
GOB 0 24 VALUE={(V(8)+V(5))/2}
DIN1 2 1 DIN
DIN2 3 1 DIN
GCUR3 8 0 VALUE={2E-7+V(70)*(2.8E-3+2.33E-4*V(8,5))}
GCUR4 0 5 VALUE={2E-7+V(70)*(1.5E-3+2.33E-4*V(8,5))}
GHYST 0 21 VALUE={0.35E-3*(V(24)-0.5*(V(8)+V(5)))}
CG1 21 0 7E-11
RSHD 8 6 1E7
GSHDN 77 7 VALUE={V(70)*10*V(77,7)}
ESHDN 70 0 VALUE={0.5+0.5*TANH(10*(V(8,6)-1.3))}
GCUR1 1 0 VALUE={2E-7+V(70)*1E-3}
GCUR2 0 4 VALUE={2E-7+V(70)*2.3E-3}
ROUT 7 5 1E7
IOS 2 3 2E-7
RDUM1 8 88 1E10
RDUM2 56 5 1E10
.MODEL NOUT NMOS(KF=0 KP=5E-3 VTO=1E-3)
.MODEL POUT PMOS(KF=0 KP=5E-3 VTO=-1E-3)
.MODEL DVLIM D(BV=15 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DIN D(KF=0 RS=0)
.ENDS LT1719
*
***
*
*
.SUBCKT LT1721 1 2 8 5 7 ; IN+ IN- V+ V- OUT
XLT1721 1 2 7 8 5 LT1720_MD
.ENDS LT1721
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT
.SUBCKT LT1720 1 2 8 5 7
XCOMP 1 2 7 8 5 LT1720_MD
.ENDS LT1720
*
***
*
.SUBCKT LT1720_MD 1 2 101 200 300
*
* input stage
*
* clamp to supplies
DIC1 1 200 DPC
DIC2 2 200 DPC
DIC3 300 1 DPC
DIC4 300 2 DPC
*
CIN_D 2 1 2e-12
CIN_CM1 1 0 2e-12
CIN_CM2 2 0 2e-12
RIN 2 1 1500000
ROFF1 301 0 1.0002 TC=1e-5
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 1 3 POLY(3) 301 302 1 0 2 0 0 1.0 0.00023666 0.00023666
ROFF 3 1 1000000000
IBP 303 0 DC -2.375e-6
RBP 303 0 1E6 TC=-0.018662
GBP 1 0 303 0 1e-6
IBN 304 0 DC -2.625e-6
RBN 304 0 1E6 TC=-0.01867
GBN 2 0 304 0 1e-6
*
* internal hysteresis
ITRIP 300 353 2.0E-6
RTRIP 353 300 1.0E3
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-11
RNORM3 357 300 1.0E3
DNORM1 357 358 DPC
VNORM1 358 300 DC 0.075
DNORM2 359 357 DPC
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 -1.0E-3
RMULT 360 300 1.0E3
EHYST 5 2 360 300 1.0
RHYST 5 2 1.0E9
*
* delay stage
G1 0 20 3 5 10
R1 20 0 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 0 DC 225.51
V1N 22 0 DC -225.51
G2 0 23 20 0 0.001
R2 23 0 1000
CD 23 0 1.9305e-12
*
* slewrate stage
G3 0 24 23 0 0.001
R3 24 0 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 0 DC 53.283
V3N 26 0 DC -32.628
G41 0 30 24 0 0.001
R41 30 0 1000
G42 0 31 24 0 0.00051642
R42 31 0 1000
D5 30 31 DX
CR 30 0 2.907e-11
D4P 30 32 DX
D4N 33 30 DX
E4P 32 0 POLY(1) 200 300 -0.84351 0.5
E4N 0 33 POLY(1) 200 300 -0.84351 0.5
*
* phase shifter
G5 0 40 30 0 0.001
R5 40 0 1000
LA 40 41 3.1831e-8
CA 41 0 1.9894e-13
*
* output stage
GO11 401 42 41 0 0.10202
RO11 42 401 9.8018
DO1 43 42 DOUT
GO12 401 43 41 0 0.024994
RO12 43 401 40.01
VOUT1 101 43 DC 0.0008530021
ROUT1 101 0 1000000000
*
* supply characteristic
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
IVDD 200 300 DC 0.004
FA1 51 0 VOUT1 -1
DAP 200 51 DPC
RGV 52 53 9.7531
EGV 51 52 POLY(1) 200 300 -0.8 1.0
DAN 53 300 DPC
*
.MODEL DX D(IS=1e-12 RS=0 XTI=0)
.MODEL DPC D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL D3P D(IS=1e-12 TT=4.1641e-10 CJO=3e-13 RS=0 XTI=0)
.MODEL D3N D(IS=1e-12 TT=1.771e-9 CJO=3e-13 RS=0 XTI=0)
.MODEL DOUT D(IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1)
.ENDS LT1720_MD
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
.SUBCKT LT1723 3 2 7 4 6
XOP1 3 2 7 4 6 LT1722MD
.ENDS LT1723
*
.SUBCKT LT1724 3 2 7 4 6
XOP1 3 2 7 4 6 LT1722MD
.ENDS LT1724
*
* -------------------------------------------------------------------
* $Name: LT1722
* $Type: operational amplifier
* $Level: Level 2 (Detailed Model)
* $Simulator: PSpice 8 (MicroSim Corp.)
* $Info: low-noise, 200 MHz, input clamp
* $Vendor: Linear Technology, 2002
* $Date: 04 Aug 2002
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& GND 0
*& CKT LT1722
* ----------------------------
*
.SUBCKT LT1722 3 2 7 4 6
XOP1 3 2 7 4 6 LT1722MD
.ENDS LT1722
*
*
.SUBCKT LT1722MD 1 2 3 4 5
*
* input protection
DIP1 1 2 DX
DIP2 2 1 DX
*
* ESD clamp
DESD1 1 3 DX
DESD2 4 1 DX
DESD3 2 3 DX
DESD4 4 2 DX
*
* input stage
CIN 1 2 1.9953e-13
CIC1 1 99 1.7958e-12
CIC2 2 99 1.7958e-12
GRIN 1 2 1 2 1.9481e-5
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 3 11 884.45
RC2 3 12 884.45
RE1 10 13 7.7211
RE2 10 14 7.7211
C1 11 12 5.9983e-13
IEE 10 4 DC 0.0022614
GSR 10 4 11 12 2.84e-5
D1 4 10 DX
GA 60 99 11 12 0.0011306
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 11590
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 11590
GR 99 60 605 606 5.9477
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0022736
ECM 111 1 20 99 5.6234e-6
*
* frequency shaper
RP1 601 99 1764.7
CP1 60 601 2.2547e-12
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 13636
LP2 61 611 5.4257e-5
RP22 61 99 37500
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.4803e-11
GB 7 99 6 99 41.337
R01 7 99 13.2
R02 7 50 0.1
R03 50 5 13.3
R04 5 99 5937900000
VC 53 50 DC 1.3049
VE 54 50 DC -1.292
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 6 56 3 1
GVLN 99 6 58 4 1
ECLP 91 0 7 50 104.17
ECLN 92 0 7 50 119.05
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 1.7896
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0014386
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 NPN(IS=9.9982e-16 BF=30150.5 XTB=0.65704
+ XTI=3.01768 KF=1.6457e-15)
.MODEL Q2 NPN(IS=1.0002e-15 BF=34789.0 XTB=0.76702
+ XTI=2.98232 KF=1.6457e-15)
.MODEL DR D(IS=8.2592e-16 KF=1.6326e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1722MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1739 4 3 17 20 18 5 6
XOP1 4 3 17 20 18 5 6 LT1794_MD
.ENDS LT1739
*
* $Key: opamp
* $SimID: 201
*
* -------------------------------------------------------------------
* $Name: LT1794
* $Type: operational amplifier
* with shutdown and bias control
* $Level: Level 2 (Detailed Model)
* $Simulator: PSpice 8 (MicroSim Corp.)
* $Info: typical behaviour model
* $Vendor: Linear Technology, 2001
* $Date: 18 Oct 2001
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 4
*& INN 3
*& VDD 17
*& VSS 20
*& OUTP 18
*& SHDN 5
*& SHDNREF 6
*& CKT LT1794
*& GND 0
* ----------------------------
*
.SUBCKT LT1794 4 3 17 20 18 5 6
XOP1 4 3 17 20 18 5 6 LT1794_MD
.ENDS LT1794
*
.SUBCKT LT1794_MD 1 2 3 4 5 8 9
*
* input stage
GSW1 2 119 POLY(2) 812 99 2 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
GSW2 1 119 POLY(2) 813 99 1 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1.0000e+011
RGSW2 1 119 1.0000e+012
CIN 1 119 3e-13
CIC1 1 99 2.7e-12
CIC2 119 99 2.7e-12
GRIN 1 119 1 119 1e-12
Q1 11 119 13 Q1
Q2 12 111 14 Q2
*************************
* phantom supply of diff. pair
*RC1 3 11 3.6748e+002
*RC2 3 12 3.6748e+002
EPAIR 133 4 3 4 1.0
RC1 133 11 367.48
RC2 133 12 367.48
*************************
RE1 10 13 77.382
RE2 10 14 77.382
C1 11 12 2.069e-12
*
**********************************
* slew rate incl. bias control
IEE 350 4 DC 0.0051427
GSR 350 4 11 12 9.1209e-5
RIE 350 4 1000
SIE 350 4 812 99 Sshdn
.MODEL Sshdn VSWITCH(RON=1 ROFF=1E12 VON=-0.5 VOFF=-4.5)
GIE 4 10 POLY(2) 350 4 365 99 0 1.0E-3 0 0 3.874E-4
***********************************
*
D1 4 10 DX
GA 60 99 11 12 0.0027212
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 26449
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 26449
GR 99 60 605 606 4.3573
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 119 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0019768
ECM 111 1 20 99 1.7783e-5
*
* frequency shaper
RP1 60 99 10000
CP1 60 99 2.6526e-13
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 2.6526e-13
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
*
*************************************
* 1st pole incl. bias control
C2 6 37 7.7e-12
RSC2 37 7 0.01
GC2 6 7 POLY(2) 37 7 365 99 0 0 0 0 146
**************************************
*
GB 7 99 6 99 398.95
R01 7 99 1.3741
R02 7 50 0.1
R03 50 51 0.36277
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 51 5 1.0000e+010
R04 5 99 5937900000
VC 53 50 DC 0.892
VE 54 50 DC -0.892
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
*GVLP 99 60 56 3 1.0000e+000
*GVLN 99 60 58 4 1.0000e+000
GVLP 99 6 56 3 1
GVLN 99 6 58 4 1
ECLP 91 0 7 50 13.131
ECLN 92 0 7 50 13.116
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 41.598
*
********************************
* output clamp diodes
DCLAMP1 5 3 DX
DCLAMP2 4 5 DX
********************************
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
*
***********************************
* bias control of quiescent current
FIP 3 4 POLY(1) VSHDN 1.0E-4 39
***********************************
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
**********************************
* internal biasing circuit
* as shown in datasheet
RSHDN1 8 360 1600
DSHDN1 360 361 DX
DSHDN2 361 9 DX
Q3 362 361 360 QSHDN
RSHDN2 362 363 800
Q4 364 9 363 QSHDN
VSHDN 364 99 DC 0
* decoupled scaling factor
* Rshdn=24.9K => factor=0.0
* Rshdn=136K => factor=1.0
FSHDN 365 99 POLY(1)VSHDN -217.94E-6 1.0
RSHDN3 365 99 5693.4
DSHDN3 366 365 DX
VSHDN2 366 99 DC 0.6
***********************************
*
* shutdown stage
*
IREF 99 801 DC 0.00042
RREF 801 99 1000
GDIS 99 803 8 801 -0.012
RDIS3 803 99 10000
VDIS2 804 99 DC -0.08
VDIS3 805 99 DC -4.921
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 7222.2
RDIS6 812 811 2913.4
DDIS4 811 810 DVC
CDIS3 812 99 1e-9
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 NPN(IS=9.807e-16 BF=18141.6 XTB=-2.6591
+ XTI=2.96146 KF=5.1213e-15)
.MODEL Q2 NPN(IS=1.0197e-15 BF=54424.7 XTB=-4.9531
+ XTI=3.03854 KF=5.1213e-15)
.MODEL QSHDN PNP(IS=1.3e-15 BF=500)
.MODEL DR D(IS=8.2592e-16 KF=1.3365e-18 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1794_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_18
* ------------------------------
*
.SUBCKT LT1761_18 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176118
.ENDS LT1761_18
*
.SUBCKT LT176118 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.26
*
* quiescent current
GQC 8 4 80 4 8.03E-6
GQCP 8 4 54 84 7.6E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.1E-2 -2.2e-8 0 0 0 -6.55E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 5.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.54
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 10.2E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=2.0E-4)
.MODEL RVR RES(TC1=-0.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176118
**
***
*
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_2
* ------------------------------
*
.SUBCKT LT1761_2 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176120
.ENDS LT1761_2
*
.SUBCKT LT176120 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.6
*
* quiescent current
GQC 8 4 80 4 8.03E-6
GQCP 8 4 54 84 7.2E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 0.0215 -2.2e-8 0 0 0 -5.85E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 7.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.77
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 9.22E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=2.0E-4)
.MODEL RVR RES(TC1=-3.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176120
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_25
* ------------------------------
*
.SUBCKT LT1761_25 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176125
.ENDS LT1761_25
*
.SUBCKT LT176125 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.85
*
* quiescent current
GQC 8 4 80 4 8.03E-6
GQCP 8 4 54 84 7.2E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 0.0215 -2.2e-8 0 0 0 -2.85E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 1.28E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 3.39
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 9.9E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.0E-4)
.MODEL RVR RES(TC1=-3.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176125
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_3
* ------------------------------
*
.SUBCKT LT1761_3 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176130
.ENDS LT1761_3
*
.SUBCKT LT176130 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 1.0
*
* quiescent current
GQC 8 4 80 4 8.03E-6
GQCP 8 4 54 84 3.95E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -2.2e-8 0 0 0 -7.85E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 1.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 3.95
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 7.95E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=1.0E-3)
.MODEL RVR RES(TC1=-3.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176130
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_33
* ------------------------------
*
.SUBCKT LT1761_33 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176133
.ENDS LT1761_33
*
.SUBCKT LT176133 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 1.06
*
* quiescent current
GQC 8 4 80 4 8.03E-6
GQCP 8 4 54 84 2.7E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.1E-2 -2.2e-8 0 0 0 -8.8E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 2.08E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 4.3
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 7.45E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=1.4E-3)
.MODEL RVR RES(TC1=-1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176133
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& BYPASS 4
*& VGND 2
*& SHDN 3
*& VIN 1
*& CKT LT1761_5
* ------------------------------
*
.SUBCKT LT1761_5 5 4 2 3 1
XLT1761 5 4 2 3 1 LT176150
.ENDS LT1761_5
*
.SUBCKT LT176150 1 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 1.23
*
* quiescent current
GQC 8 4 80 4 8.03E-6
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.1E-2 -2.2e-8 0 0 0 -7.8E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 1 80 3.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 5.5
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 6.12E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.112
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=1.5E-3)
.MODEL RVR RES(TC1=-1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT176150
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& ADJUST 4
*& BYPASS 3
*& VGND 2
*& VIN 1
*& CKT LT1761BYP
* ------------------------------
*
.SUBCKT LT1761BYP 5 4 3 2 1
XLT1761 5 4 3 2 1 LT1761_B
.ENDS LT1761BYP
*
.SUBCKT LT1761_B 1 2 3 4 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.8
*
* quiescent current
GQC 8 4 80 4 12.09E-6
RQC 1 4 2.4E5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 0.0215 -2.2e-8 0 0 0 -4.55E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 4 REA 4.436E7
*
GEA1 4 81 80 90 1.8
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 10.2E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.122
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=2.0E-4)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT1761_B
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VOUT 5
*& ADJUST 4
*& SHDN 3
*& VGND 2
*& VIN 1
*& CKT LT1761SD
* ------------------------------
*
.SUBCKT LT1761SD 5 4 3 2 1
XLT1761 5 4 3 2 1 LT1761_S
.ENDS LT1761SD
*
.SUBCKT LT1761_S 1 2 5 4 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 28100
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.33
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.8
*
* quiescent current
GQC 8 4 80 4 12.09E-6
RQC 1 4 2.4E5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 0.0215 -2.2e-8 0 0 0 -4.55E-4
GGPC2 4 45 POLY(1) 8 1 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 4 REA 4.436E7
*
GEA1 4 81 80 90 1.8
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 50
*
CFEED 84 88 7.5E-9
RFEED 88 90 3420
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 10.2E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.122
RR1 3 4 7.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.95E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.25E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=2.0E-4)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=7500 XTI=0 NF=1.0
************************
*
.ENDS LT1761_S
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 8
*& VOUT 1
*& SENSE 2
*& BYPASS 3
*& VGND 4
*& SHDN 5
* ------------------------------
*
.SUBCKT LT1762_15 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.05
*
* quiescent current
GQC 8 4 80 4 1.21E-5
GQCP 8 4 54 84 1.95E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -6.75E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.15
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 100
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.6E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.125
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=2.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_15
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1762_18 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.1
*
* quiescent current
GQC 8 4 80 4 1.21E-5
GQCP 8 4 54 84 1.45E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -8.75E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 5.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.56
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 140
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.34E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.125
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=2.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_18
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1762_25 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.37
*
* quiescent current
GQC 8 4 80 4 1.22E-5
GQCP 8 4 54 84 9.75E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -8.75E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.28E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 3.37
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 140
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.28E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.125
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=2.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_25
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1762_3 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.45
*
* quiescent current
GQC 8 4 80 4 1.22E-5
GQCP 8 4 54 84 6.2E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -7.0E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 3.93
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 140
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.07E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.125
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=2.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_3
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1762_33 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.51
*
* quiescent current
GQC 8 4 80 4 1.2e-5
GQCP 8 4 54 84 6.5E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -7.0E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.08E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 4.28
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 140
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.23E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=2.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_33
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1762_5 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.65
*
* quiescent current
GQC 8 4 80 4 1.2e-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.6E-2 -1.52E-7 0 0 0 -7.0E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 3.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 5.5
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 140
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 1.44E-5
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.0E-3)
.MODEL RVR RES(TC1=5.6E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762_5
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 8
*& VOUT 1
*& ADJUST 2
*& BYPASS 3
*& VGND 4
*& SHDN 5
* ------------------------------
*
.SUBCKT LT1762 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 14500
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.285
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.055
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.33
*
* quiescent current
GQC 8 4 80 4 1.62E-5
RQC 1 4 2.4E5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.7E-2 -1.52E-7 0 0 0 -6.75E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 4 REA 4.436E7
*
GEA1 4 81 80 90 1.78
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 100
*
CFEED 84 88 4.0E-9
RFEED 88 90 4.5E3
*
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 6.59E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.125
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.0E-3)
.MODEL RVR RES(TC1=1.4E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=4200 XTI=0 NF=1.0
************************
*
.ENDS LT1762
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_15 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.01
*
* quiescent current
GQC 8 3 80 4 1.63E-5
GQCP 8 3 54 84 1.55E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -7.4E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.8E4
RG 80 3 1.22E5
*
GEA1 3 81 80 90 2.14
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 4.8E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.13
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_15
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_18 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.04
*
* quiescent current
GQC 8 3 80 4 1.63E-5
GQCP 8 3 54 84 1.55E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -7.4E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 5.8E4
RG 80 3 1.22E5
*
GEA1 3 81 80 90 2.52
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.35E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.13
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_18
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_25 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.12
*
* quiescent current
GQC 8 3 80 4 1.63E-5
GQCP 8 3 54 84 1.05E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -8.4E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.28E5
RG 80 3 1.22E5
*
GEA1 3 81 80 90 3.37
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 4.83E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.13
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_25
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_3 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.155
*
* quiescent current
GQC 8 3 80 4 1.63E-5
GQCP 8 3 54 84 5.5E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -8.7E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.78E5
RG 80 3 1.22E5
*
GEA1 3 81 80 90 3.93
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.64E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.15
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=2.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_3
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_33 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.17
*
* quiescent current
GQC 8 3 80 4 1.63E-5
GQCP 8 3 54 84 4.5E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -8.4E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.08E5
RG 80 3 1.22E5
*
GEA1 3 81 80 90 4.23
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.15E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.15
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=2.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_33
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763_5 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.208
*
* quiescent current
GQC 8 3 80 4 1.63E-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0201 -1.52E-7 0 0 0 -8.2E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 3.78E5
RG 80 3 1.22E5
*
GEA1 3 81 80 90 5.5
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.85E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.15
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=6.6E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763_5
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& ADJUST
*& VGND
*& BYPASS
*& SHDN
* ------------------------------
*
.SUBCKT LT1763 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 17200
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 3 60 VSENS 0.096
RCL1 60 3 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 3 8 3 0.03
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.12
*
* quiescent current
GQC 8 3 80 4 2.03E-5
RQC 1 3 2.4E5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0.0221 -1.52E-7 0 0 0 -8.2E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 3 REA 4.436E7
*
GEA1 3 81 80 90 1.78
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 110
*
CFEED 84 88 8.5E-9
RFEED 88 90 2750
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 3 90 DC 1.22E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 3.95E-6
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 4 3 601 602 0.13
RR1 4 3 5.9E4
DR3 4 3 DX
DR4 3 4 DX
GR2 90 3 4 3 1.8E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DAC
GSHDN 5 3 70 3 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 7.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.1E-3)
.MODEL RVR RES(TC1=1.5E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=14950 XTI=0 NF=1.0
************************
*
.ENDS LT1763
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 2
*& VOUT 4
*& SENSE 5
*& VGND 3
*& SHDN 1
*& CKT LT1764_15
* ------------------------------
*
.SUBCKT LT1764_15 4 5 3 1 2
XLT1764 4 5 3 1 2 LT176415
.ENDS LT1764_15
*
.SUBCKT LT176415 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC -0.05
FCL1 0 60 VSENS 0.0165
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
RCL1 60 0 10
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 24.2E-5
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -5.4E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 16.7
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.005
*
* quiescent current
GQC 8 3 80 3 3.3E-4
GQCP 8 3 54 84 5.05E-3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -4.02E-7 0 1.1E-2 0 0 0 0 0 0 0 -3.1E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 483.3
RG 80 3 2016
*
GEA1 3 81 80 90 0.9
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 280
CFEED 84 88 1.5E-10
RFEED 88 90 5.0E1
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.75E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.98
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=0.0488)
.MODEL RVR RES(TC1=-8.2E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1.0E-9 BF=12500 XTI=0 NF=1.0
************************
*
.ENDS LT176415
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 2
*& VOUT 4
*& SENSE 5
*& VGND 3
*& SHDN 1
*& CKT LT1764_18
* ------------------------------
*
.SUBCKT LT1764_18 4 5 3 1 2
XLT1764 4 5 3 1 2 LT176418
.ENDS LT1764_18
*
.SUBCKT LT176418 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC -0.05
FCL1 0 60 VSENS 0.0165
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
RCL1 60 0 10
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 24.2E-5
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -5.4E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 16.7
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.005
*
* quiescent current
GQC 8 3 80 3 3.3E-4
GQCP 8 3 54 84 0.0105
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -4.02E-7 0 1.1E-2 0 0 0 0 0 0 0 -3.1E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 983.3
RG 80 3 2016
*
GEA1 3 81 80 90 0.9
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 360
CFEED 84 88 1.5E-10
RFEED 88 90 5.0E1
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 6.94E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.98
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=0.0488)
.MODEL RVR RES(TC1=-8.2E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1.0E-9 BF=12500 XTI=0 NF=1.0
************************
*
.ENDS LT176418
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 2
*& VOUT 4
*& SENSE 5
*& VGND 3
*& SHDN 1
*& CKT LT1764_25
* ------------------------------
*
.SUBCKT LT1764_25 4 5 3 1 2
XLT1764 4 5 3 1 2 LT176425
.ENDS LT1764_25
*
.SUBCKT LT176425 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0165
RCL1 60 0 10
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 24.2E-5
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -5.4E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 16.7
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.017
*
* quiescent current
GQC 8 3 80 3 3.3E-4
GQCP 8 3 54 84 0.0195
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -4.02E-7 0 1.1E-2 0 0 0 0 0 0 0 -4.6E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2149
RG 80 3 2016
*
GEA1 3 81 80 90 0.9
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 500
CFEED 84 88 1.5E-10
RFEED 88 90 5.0E1
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 4.5E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.92
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=0.0288)
.MODEL RVR RES(TC1=-8.2E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1.0E-9 BF=12500 XTI=0 NF=1.0
************************
*
.ENDS LT176425
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN 2
*& VOUT 4
*& SENSE 5
*& VGND 3
*& SHDN 1
*& CKT LT1764_33
* ------------------------------
*
.SUBCKT LT1764_33 4 5 3 1 2
XLT1764 4 5 3 1 2 LT176433
.ENDS LT1764_33
*
.SUBCKT LT176433 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0165
RCL1 60 0 10
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 24.2E-5
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -5.4E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 16.7
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.0325
*
* quiescent current
GQC 8 3 80 3 3.35E-4
GQCP 8 3 54 84 1.3E-2
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -4.02E-7 0 1.1E-2 0 0 0 0 0 0 0 -4.6E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 3483
RG 80 3 2016
*
GEA1 3 81 80 90 0.95
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 640
CFEED 84 88 1.5E-10
RFEED 88 90 5.0E1
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 3.05E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.92
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=0.0148)
.MODEL RVR RES(TC1=-6.2E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1.0E-9 BF=12500 XTI=0 NF=1.0
************************
*
.ENDS LT176433
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& ADJUST
*& VGND
*& SHDN
*& CKT
* ------------------------------
*
.SUBCKT LT1764 4 5 3 1 2
XLT1764 4 5 3 1 2 LT1764MD
.ENDS LT1764
*
.SUBCKT LT1764MD 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0165
RCL1 60 0 10
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 24.2E-5
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -5.4E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 16.7
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.0125
*
* quiescent current
GQC 8 3 80 3 5.78E-4
RQC 1 3 4.0E3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -4.02E-7 0 1.1E-2 0 0 0 0 0 0 0 -3.9E-4
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 3 REA 448100
*
GEA1 3 81 80 90 0.9
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 240
*
CFEED 84 88 1.5E-10
RFEED 88 90 5.0E1
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 4.75E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.92
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=0.0408)
.MODEL RVR RES(TC1=-4.2E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1.0E-9 BF=12500 XTI=0 NF=1.0
************************
*
.ENDS LT1764MD
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* Thu Jun 22 11:36:59 2000
*# INP 3
*# INN 4
*# VDD 6
*# VSS 2
*# OUTP 1
*# SHDN 5
.SUBCKT LT1782 3 4 6 2 1 5
XLT1782 3 4 6 2 1 5 LT1782_MD
.ENDS LT1782
*
*$*
.SUBCKT LT1782_MD 1 2 3 4 5 8
* input range / phase reversal protection
RIP1 1 111 6000
RIP2 2 112 6000
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -7.65e-9
RBP 303 0 1E6 TC=-0.003
IBN 304 0 DC -8.35e-9
RBN 304 0 1E6 TC=-0.0028
*
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -0.9E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
*
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
*
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 24.4E-9 5.5E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 24.8E-9 5.5E-6
*
* offset voltage
ROFF1 301 0 1 TC=-2e-6
ROFF2 302 0 1.00041
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* noise voltage
GR 99 60 605 606 0.84769
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.079577
ECM 113 111 20 0 1e-5
RCM3 113 111 1E12
*
* input stage
CIN 111 112 3.5e-12
RDIFF 111 112 6.5e+06
GIN 99 10 113 114 5.864E-3
RCC 10 99 16300
DSRP 10 11 DX
VSRP 11 99 DC 6.1
DSRN 12 10 DX
VSRN 12 99 DC -4.5
GA 60 99 10 99 0.4e-5
*
* frequency shaper
RP1 601 99 10000
CP1 60 601 2.6526e-10
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 2.4485e-11
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.8571e-10
GB 7 99 6 99 132560
R01 7 99 30.015
R02 7 50 0.1
R03 50 51 63.063
R04 51 52 6.822
GSW3 52 5 POLY(2) 812 99 52 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 52 5 1.0000e+010
R05 5 99 5937900000
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 0.148
VE 54 50 DC -0.094624
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 57.612
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 812 5e-6 7e-6
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
* shutdown stage
RDIS1 8 4 1000000
RDIS2 8 808 100
CDIS1 808 4 3e-12
GREF 4 801 3 4 0.00025
RREF 801 4 1000
GDIS 99 803 808 801 0.01
RDIS3 803 99 10000
VDIS2 804 99 DC -0.08
VDIS3 805 99 DC -4.921
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 18000
RDIS6 812 811 366.82
DDIS4 810 811 DVC
CDIS3 812 99 1e-8
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL DR D(IS=8.2592e-16 KF=6.7164e-19 RS=0 XTI=0)
.MODEL DOUT D(IS=7.0394e-6 RS=0 XTI=0)
*
.ENDS LT1782_MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* Fri Jun 23 14:20:47 2000
*# INP 3
*# INN 4
*# VDD 6
*# VSS 2
*# OUTP 1
*# SHDN 5
.SUBCKT LT1783 3 4 6 2 1 5
XLT1783 3 4 6 2 1 5 LT1783_MD
.ENDS LT1783
*
.SUBCKT LT1783_MD 1 2 3 4 5 8
*
* input range / phase reversal protection
RIP1 1 111 1000
RIP2 2 112 1000
DIP1 4 111 DX
DIP2 4 112 DX
*
* bias current
IBP 303 0 DC -4.3e-8
RBP 303 0 1E6 TC=-0.003
IBN 304 0 DC -4.7e-8
RBN 304 0 1E6 TC=-0.0028
*
GCV1 0 306 POLY(3) 3 0 1 0 2 0 -0.9E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV1 306 0 1.0E5
DCV1 307 306 DX
DCV2 308 307 DX
VCV1 308 0 DC -0.35
RCV2 307 0 1.0E5
*
GCV2 0 309 POLY(3) 3 0 1 0 2 0 0.0E-4 1.0E-4 -0.5E-4 -0.5E-4
RCV3 309 0 1.0E5
DCV3 310 309 DX
DCV4 311 310 DX
VCV2 311 0 DC -0.35
RCV4 310 0 1.0E5
*
GBP 1 99 POLY(3) 303 0 307 0 310 0 0.0 1.0E-6 165.4E-9 32.5E-6
GBN 2 99 POLY(3) 304 0 307 0 310 0 0.0 1.0E-6 165.8E-9 32.5E-6
*
* offset voltage
ROFF1 301 0 1 TC=-2e-6
ROFF2 302 0 1.00041
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 114 112 301 302 1
ROFF3 114 112 1.0000e+09
*
* noise voltage
GR 99 60 605 606 1.6914
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 0 20 POLY(2) 111 0 112 0 0 0.0005 0.0005
RCM1 21 0 1000
RCM2 20 0 1000000
LCM 20 21 0.0066315
ECM 113 111 20 0 1e-5
RCM3 113 111 1E12
*
* input stage
CIN 111 112 4.3e-12
RDIFF 111 112 1.3e+06
GIN 99 10 113 114 0.02872
RCC 10 99 16300
DSRP 10 11 DX
VSRP 11 99 DC 35.7
DSRN 12 10 DX
VSRN 12 99 DC -28.0
GA 60 99 10 99 0.4e-5
*
* frequency shaper
RP1 601 99 25000
CP1 60 601 9.0946e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 2.6526e-11
GP2 99 62 61 99 0.0001
RP3 621 99 15000
LP3 62 621 0.0023873
RP33 62 99 30000
GP3 99 6 62 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.3333e-10
GB 7 99 6 99 26997
R01 7 99 29.9
R02 7 50 0.1
R03 50 51 42.974
R04 51 52 7.0264
GSW3 52 5 POLY(2) 812 99 52 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 52 5 1.0000e+010
R05 5 99 5937900000
DOP 50 51 DOUT
DON 51 50 DOUT
VC 53 50 DC 0.15488
VE 54 50 DC -0.099302
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 250
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 68.265
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 812 5e-6 4.153e-5
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
* shutdown stage
RDIS1 8 4 1000000
RDIS2 8 808 100
CDIS1 808 4 3e-12
GREF 4 801 3 4 0.00025
RREF 801 4 1000
GDIS 99 803 808 801 0.01
RDIS3 803 99 10000
VDIS2 804 99 DC -0.08
VDIS3 805 99 DC -4.921
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 5370.7
RDIS6 812 811 173.93
DDIS4 810 811 DVC
CDIS3 812 99 1e-8
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL DR D(IS=8.2592e-16 KF=2.914e-18 RS=0 XTI=0)
.MODEL DOUT D(IS=8e-6 RS=0 XTI=0)
*
.ENDS LT1783_MD
**
***
*
* Copyright © Linear Technology Corp. 01/05/2007. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN(8)
.SUBCKT LT1784 3 2 7 4 6 8
CCM1 167 0 0.2
CG2 163 0 1n
CG3 164 0 3.33333e-7
CG5 169 0 1e-7
CG7 170 0 1e-10
CIN1 3 2 0.1f
CIN2 0 3 5p
CIN3 2 0 5p
CPSN 184 0 10p
CPSN2 183 0 1e-9
CPSP 186 0 10p
CPSP2 185 0 1e-9
CVM 180 0 1E5
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DVLIM1 182 148 DVLIM
DVLIM2 149 182 DVLIM
DVNF 150 0 DVNOI
DVNFX 151 0 DVNOIX
DVL1 163 301 DLIM
DVL2 0 301 DLIM
EICM1 157 0 2 0 1
EICM2 158 0 3 0 1
EILIM1 127 124 182 159 1E5
EILIM2 126 122 182 159 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 139 0 182 159 1E5
EPWR2 140 0 182 159 1E5
ESRLIM1 145 147 103 105 0
ESRLIM2 144 146 105 103 0
ESRLIM3 144 142 162 161 8.79645
ESRLIM4 145 143 161 162 8.79645
EVCC 166 0 7 0 1
EVEE 172 0 4 0 1
EVNOI1 107 108 0 152 1
EVNOI2 109 107 150 151 1
FVLIM1 182 0 VVLIM1 -1E7
FVLIM2 182 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM2 0 168 175 180 0.000891251
GCM3 0 167 168 0 6.2832
GCMO1 0 164 167 0 6.2832
GG2 0 163 162 161 0.00552699
GG3 0 164 163 0 10
GG5 0 169 164 0 6.2832
GG7 0 170 169 0 6.2832
GILIM 163 0 132 0 0.01
GINOI1 103 0 0 133 1m
GINOI2 110 0 0 134 1m
GOUT2 0 182 174 0 1
GPSN2 0 184 4 180 0.0398107
GPSN4 0 183 184 0 6.2832
GPSNO2 0 182 183 0 1
GPSP2 0 186 7 180 0.0251189
GPSP4 0 185 186 0 6.2832
GPSPO2 0 182 185 0 1
GPWR1 137 0 182 159 100
GPWR2 138 0 182 159 100
GSHD3 4 7 121 0 1
GZP1 172 173 170 0 0.1
GZP3 172 174 173 0 0.1
HIN1 113 161 VIN1 100
HIN2 118 162 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -2.5e-7
IBIAS2 103 0 -2.5e-7
IDUM1 152 0 0
IDUM2 134 133 0
IPWR 7 4 0.00054
ISLEW 111 0 10mA
IVNF 0 150 1A
IVNFX 0 151 1A
LCM2 131 0 0.397887
LCMX 128 168 100
LPSN2 135 0 0.0795775
LPSP2 136 0 0.0795775
LZP2 153 172 1.59314e-13
LZP4 154 172 1.59314e-13
Q1 161 106 116 0 NPN1
Q2 162 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM2 168 131 1k
RCM3 167 0 0.159155
RCMX 128 0 0.1
RCMX2 168 128 1E8
RG2 163 0 11368200
RG3 164 0 0.159155
RG5 169 0 0.159155
RG7 170 0 0.159155
RICM1 157 175 1k
RICM2 158 175 1k
RILIM 132 0 1
RIN1 108 3 1000
RIN2 103 2 1000
RINOI1 133 0 5.43478
RINOI2 134 0 5.43478
ROUT2 182 0 1
ROUT3 181 159 0.01
RPSN2 184 135 1k
RPSN22 135 0 1E8
RPSN4 183 0 0.159155
RPSP2 186 136 1k
RPSP22 136 0 1E8
RPSP4 185 0 0.159155
RPWR1 137 166 1E6
RPWR2 138 172 1E6
RSENSE 159 182 0.01
RSHD1 121 0 1
RSHDN 8 4 1E9
RVH1 166 180 1k
RVH2 180 172 1k
RVNOI 0 152 35741.5
RZP1 173 153 10
RZP4 153 172 0.01001
RZP5 174 154 10
RZP8 154 172 0.01001
SHD1 141 121 8 4 SHDNX
SHD2 141 121 7 4 SHDN2X
SHD7 156 181 8 4 SHDNO
SHD8 156 6 7 4 SHDNO2
SILIM1 132 125 124 0 SILIM
SILIM2 132 123 122 0 SILIM
SPWR1 7 137 139 0 SPWR
SPWR2 4 138 140 0 SPWRX
SSRLIM1 161 162 142 0 SSRLIM
SSRLIM2 161 162 143 0 SSRLIM
SWB1 129 119 175 172 SBIAS
SWB2 130 120 166 175 SBIAS2X
VBIAS1 119 0 0
VBIAS2 120 0 750
VILIM1 127 0 28
VILIM2 126 0 40
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1.5m
VSHDN 141 0 0.000532
VSRLIM1 146 0 1.5
VSRLIM2 147 0 1.32
VVLIM1 166 148 1.1835
VVLIM2 149 172 1.1285
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=1.20V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=1.20V VOFF=1.00V)
.MODEL SHDNO VSWITCH(ROFF=100000.00 RON=0.001 VON=1.00V VOFF=1.20V)
.MODEL SHDNO2 VSWITCH(ROFF=100000.00 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDNOX VSWITCH(ROFF=100000.00 RON=0.001 VON=1.20V VOFF=1.00V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=1.90V VOFF=2.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=-0.10V VOFF=0.10V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.10V VOFF=-0.10V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 7.46397e-12)
.MODEL DLIM D(BV=30 IS=1E-14 KF=0 RS=0)
.ENDS LT1784
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM
*
*# FIL- 1
*# VSENS- 2
*# VEE 4
*# VOUT 5
*# VBIAS 6
*# VSENS+ 7
*# FIL+ 8
*
.SUBCKT LT1787 1 2 4 5 6 7 8
*
* input gain setting resistors
RG1A 2 1 1250
RG1B 1 11 1250
RG2A 7 8 1250
RG2B 8 12 1250
* input bias currents
*VS-
GIBN 0 20 2 7 1.0E-3
RIBN 20 0 1.0E3
DIBN 20 21 DVC
VIBN 21 0 DC -0.135
RTCN 24 0 1.0E5 TC=2.45E-3
VTCN 24 0 DC 4.7
FIBN 2 4 POLY(2) VIBN VTCN 0 0 -1.0 1.6E3
*VS+
GIBP 0 22 7 2 1.0E-3
RIBP 22 0 1.0E3
DIBP 22 23 DVC
VIBP 23 0 DC -0.125
RTCP 25 0 1.0E6 TC=4.0E-3
VTCP 25 0 DC 4.0
FIBP 7 4 POLY(2) VIBP VTCP 0 0 -1.0 1.5E3
* amplifier
* double pole at 320 KHz
RINP 12 30 5.0E7
RINN 11 30 5.0E7
RCM 30 4 1.0E8
GIN 4 31 12 11 1.0E-3
RP1 31 4 1.0E3
CP1 31 4 5e-10
GP2 4 32 31 4 1.0E-3
RP2 32 4 1.0E3
CP2 32 4 5e-10
* input offset voltage / no load output current and voltage
RNL 50 0 1.0E4 TC=7.2E-3
GNL 0 50 POLY(1) 7 4 4.7E-4 -1.2E-6
* current mirror output
GOUT 4 5 POLY(2) 32 4 50 0 2.0E-8 4.08E-4 -5.6E-9
ROUT 5 6 20E3
* neg. output voltage limiter to VEE + 30mV
DOVN 40 5 DVC
VOVN 40 4 0.086
* maximum negative swing to Vbias - 6.2 V
EVCN 41 0 POLY(1) 6 0 -6.2 1.0
DVCN 41 5 DVC
* pos. output voltage limiter to VS+ - 0.75V
EVCP 42 0 POLY(1) 7 0 -0.82 1.0
DVCP 5 42 DVC
* maximum linear positive swing to Vbias+ 10V
DNLP 5 43 DVC
ENLP 43 44 POLY(1) 6 0 10.3 1.0
RNLP 44 0 30E3
*
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-1.3 N=0.1 EG=0.1)
*
.ENDS LT1787
*
***
*
* Copyright © Linear Technology Corp. 09/15/2005. All rights reserved.
* Pinout (same as IC): RG IN- IN+ -VS REF OUT +VS RG
.SUBCKT LT1789-1 1 2 3 4 5 6 7 8
C2 5 132 20p
C4 6 133 20p
CAMP1 135 0 1E-6
CAMP2 136 0 1E-6
CAMP3 137 131 1.5E-5
CAMP4 138 131 1.5E-5
CG1 128 0 1E-6
CG3 24 0 4E-5
CIN1 3 2 1.6pF
CIN2 4 3 0.8pF
CIN3 2 4 0.8pF
CIN4 7 3 0.8pF
CIN5 2 7 0.8pF
CPSRR1 117 129 1E-11
CPSRR2 118 131 1E-11
DIN1 3 7 DIN
DIN2 2 7 DIN
DIN3 4 3 DIN
DIN4 4 2 DIN
DIN5 139 129 DIN
DIN6 131 139 DIN
DIN7 5 7 DIN
DIN8 4 5 DIN
DOUT1 139 6 DOUTP
DOUT2 6 139 DOUTN
DVL1 119 128 DVLIM
DVL2 119 0 DVLIM
DVL3 120 135 DVLIM
DVL4 120 0 DVLIM
DVL5 121 136 DVLIM
DVL6 121 0 DVLIM
DVNF1 122 0 DVNOI
DVNF2 123 0 DVNOI
DVNFX1 124 0 DVNOIX
EICM 134 0 VALUE={(V(3)+V(2))/2}
EVLIM1 129 0 VALUE={V(7)-0.8}
EVLIM2 131 0 VALUE={V(4)+0.68}
GAMP1 0 135 VALUE={0.023*TANH(V(110))}
GAMP11 0 110 114 1 1
GAMP2 0 136 VALUE={0.023*TANH(V(111))}
GAMP22 0 111 113 8 1
GAMP3 131 137 135 0 6.2832
GAMP4 131 138 136 0 6.2832
GCM2 0 130 134 4 1E-8
GCMRRO 113 114 130 0 0.5
GG1 0 128 VALUE={0.023*TANH(V(23))}
GG3 0 24 128 0 6.2832
GGAIN 0 23 132 133 0.2
GINOI1 3 0 0 115 1m
GINOI2 2 0 0 116 1m
GINX1 0 114 3 0 1
GINX2 0 113 2 0 1
GOUT 0 139 VALUE={1E-3*tanh(V(24))}
GPSRR 0 140 7 4 1E-8
GPSRRO 114 113 140 0 0.5
GVNOI1 0 114 125 0 1
GVNOI2 114 0 122 124 1
GVNOI3 0 113 126 0 1
GVNOI4 113 0 123 124 1
GVNOI5 0 23 127 0 2.38
IBIAS1 0 3 19E-9
IBIAS2 0 2 19E-9
IDUM1 125 126 0
IDUM2 116 115 0
IDUM3 0 127 0
IOS 3 2 4E-9
ITYP 7 4 65uA
IVNF1 0 122 1
IVNF2 0 123 1
IVNFX 0 124 1
IVOS 113 114 7.5E-6
MOUT1 7 139 6 6 NOUT
MOUT2 4 139 6 6 POUT
R1 132 137 110k
R2 5 132 110k
R3 133 138 110k
R4 6 133 110k
RA 23 0 2.1
RAMP1 135 0 1.39E5
RAMP11 110 0 43.5
RAMP2 136 0 1.39E5
RAMP22 111 0 43.5
RAMP3 137 131 0.159155
RAMP4 138 131 0.159155
RCMRR 130 0 1k
RCUR 7 4 2E6
RDUM1 1 8 1E9
RFB1 137 1 100k
RFB2 138 8 100k
RG1 128 0 12.7E6
RG3 24 0 0.159155
RINOI1 115 0 0.23
RINOI2 116 0 0.23
RINX1 114 0 1
RINX2 113 0 1
ROUT2 139 131 1E5
RPSRR1 140 0 1k
RPSRR2 140 117 3k
RPSRR3 140 118 3k
RVNOI1 125 0 85k
RVNOI2 126 0 85k
RVNOI3 127 0 9k
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=40 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=5.445E-11)
.MODEL DOUTP D(IS=3.37E-4 KF=0 RS=0)
.MODEL DOUTN D(IS=1.0E-4 KF=0 RS=0)
.ENDS LT1789-1
*
***
*
* Copyright © Linear Technology Corp. 09/15/2005. All rights reserved.
* Pinout (same as IC): RG IN- IN+ -VS REF OUT +VS RG
.SUBCKT LT1789-10 1 2 3 4 5 6 7 8
C2 5 132 15p
C4 6 133 15p
CAMP1 135 0 1E-6
CAMP2 136 0 1E-6
CAMP3 137 131 1.5E-5
CAMP4 138 131 1.5E-5
CG1 128 0 1E-6
CG3 24 0 4E-5
CIN1 3 2 1.6pF
CIN2 4 3 0.8pF
CIN3 2 4 0.8pF
CIN4 7 3 0.8pF
CIN5 2 7 0.8pF
CPSRR1 117 129 1E-11
CPSRR2 118 131 1E-11
DIN1 3 7 DIN
DIN2 2 7 DIN
DIN3 4 3 DIN
DIN4 4 2 DIN
DIN5 139 129 DIN
DIN6 131 139 DIN
DIN7 5 7 DIN
DIN8 4 5 DIN
DOUT1 139 6 DOUTP
DOUT2 6 139 DOUTN
DVL1 119 128 DVLIM
DVL2 119 0 DVLIM
DVL3 120 135 DVLIM
DVL4 120 0 DVLIM
DVL5 121 136 DVLIM
DVL6 121 0 DVLIM
DVNF1 122 0 DVNOI
DVNF2 123 0 DVNOI
DVNFX1 124 0 DVNOIX
EICM 134 0 VALUE={(V(3)+V(2))/2}
EVLIM1 129 0 VALUE={V(7)-0.8}
EVLIM2 131 0 VALUE={V(4)+0.68}
GAMP1 0 135 VALUE={0.018*TANH(V(110))}
GAMP11 0 110 114 1 1
GAMP2 0 136 VALUE={0.018*TANH(V(111))}
GAMP22 0 111 113 8 1
GAMP3 131 137 135 0 6.2832
GAMP4 131 138 136 0 6.2832
GCM2 0 130 134 4 1E-8
GCMRRO 113 114 130 0 0.5
GG1 0 128 VALUE={0.023*TANH(V(23))}
GG3 0 24 128 0 6.2832
GGAIN 0 23 132 133 0.2
GINOI1 3 0 0 115 1m
GINOI2 2 0 0 116 1m
GINX1 0 114 3 0 1
GINX2 0 113 2 0 1
GOUT 0 139 VALUE={1E-3*tanh(V(24))}
GPSRR 0 140 7 4 1E-8
GPSRRO 114 113 140 0 0.5
GVNOI1 0 114 125 0 1
GVNOI2 114 0 122 124 1
GVNOI3 0 113 126 0 1
GVNOI4 113 0 123 124 1
GVNOI5 0 23 127 0 2.38
IBIAS1 0 3 19E-9
IBIAS2 0 2 19E-9
IDUM1 125 126 0
IDUM2 116 115 0
IDUM3 0 127 0
IOS 3 2 4E-9
ITYP 7 4 65uA
IVNF1 0 122 1
IVNF2 0 123 1
IVNFX 0 124 1
IVOS 113 114 7.5E-6
MOUT1 7 139 6 6 NOUT
MOUT2 4 139 6 6 POUT
R1 132 137 10k
R2 5 132 100k
R3 133 138 10k
R4 6 133 100k
RA 23 0 2.1
RAMP1 135 0 1.39E5
RAMP11 110 0 55.6
RAMP2 136 0 1.39E5
RAMP22 111 0 55.6
RAMP3 137 131 0.159155
RAMP4 138 131 0.159155
RCMRR 130 0 1k
RCUR 7 4 2E6
RDUM1 1 8 1E9
RFB1 137 1 100k
RFB2 138 8 100k
RG1 128 0 12.7E6
RG3 24 0 0.159155
RINOI1 115 0 0.23
RINOI2 116 0 0.23
RINX1 114 0 1
RINX2 113 0 1
ROUT2 139 131 1E5
RPSRR1 140 0 1k
RPSRR2 140 117 3k
RPSRR3 140 118 3k
RVNOI1 125 0 85k
RVNOI2 126 0 85k
RVNOI3 127 0 16k
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=36 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=1.445E-11)
.MODEL DOUTP D(IS=3.37E-4 KF=0 RS=0)
.MODEL DOUTN D(IS=1.0E-4 KF=0 RS=0)
.ENDS LT1789-10
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-125 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 1.25
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-125
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-2048 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.048
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-2048
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-25 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 2.5
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-25
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-3 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 3
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-3
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-33 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 3.3
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-33
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-4096 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 4.096
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-4096
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LT1790-5 104 103 6
CG1 118 0 0.5
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 111732
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 4e-7
GLINE 0 116 7 4 0.000125
GLOAD 0 116 121 6 0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.00125
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.25e-5
GVLIM2 0 114 104 111 480000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 10
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 3.5e-5
IVLIM2 0 114 60
IVOPT 0 116 5
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 241546000
ROUT1 121 4 800
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT1790-5
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& GND 0
*& CKT LT1792
* ----------------------------
*
.SUBCKT LT1792 3 2 7 4 6
XLT1792 3 2 7 4 6 LT1792MD
.ENDS LT1792
*
.SUBCKT LT1792MD 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 100
RIP2 2 112 100
DIP1 114 111 DX
DIP2 115 112 DX
DIP3 116 114 DX
DIP4 116 115 DX
VCM 116 4 DC 5.125
RCMP 114 117 10000
ECMP 117 4 111 4 1.0
RCMN 115 118 10000
ECMN 118 4 112 4 1.0
*
* input stage
CIN 111 112 1.54e-12
CIC1 111 99 1.386e-11
CIC2 112 99 1.386e-11
GRIN 111 112 111 112 1e-11
M1 11 112 10 10 M1 L=25U W=25U
M2 12 113 10 10 M2 L=25U W=25U
RD1 3 11 ROVD1 952.38
RD2 3 12 ROVD2 952.38
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 8.3556e-12
IEE 10 4 DC 0.0021
GA 60 99 11 12 0.00105
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.00014838
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.00014838
RRu 605 0 2.2569
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.015915
ECM 113 111 20 99 5.6234e-6
*
* frequency shaper
RP1 601 99 2631.6
CP1 60 601 2.52e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 13158
LP2 61 611 0.00087256
RP22 61 99 41667
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 6.1765e-10
GB 7 99 6 99 2688.4
R01 7 99 63.9
R02 7 50 0.1
R03 50 5 56
R04 5 99 5937900000
VC 53 50 DC 1.092
VE 54 50 DC -1.242
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 666.67
ECLN 92 0 7 50 666.67
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 108.2
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0021
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL M1 NMOS(LEVEL=3 KP=0.25574 VTO=1.0001 KF=5.8919e-29)
.MODEL M2 NMOS(LEVEL=3 KP=0.25574 VTO=0.9999 KF=5.8919e-29)
.MODEL ROVD1 RES(TC1=-4.6991e-5)
.MODEL ROVD2 RES(TC1=4.6991e-5)
.MODEL DI1 D(IS=3.5e-10 EG=0.10381 XTI=3 CJO=0 IBV=1e-10 TT=0)
.MODEL DI2 D(IS=2.5e-10 EG=0.11252 XTI=3 CJO=0 IBV=1e-10 TT=0)
.MODEL DRI D(IS=8.2592e-16 KF=1.0442e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1792MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& GND 0
*& CKT LT1793
* ----------------------------
*
.SUBCKT LT1793 3 2 7 4 6
XLT1793 3 2 7 4 6 LT1793MD
.ENDS LT1793
*
.SUBCKT LT1793MD 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 100
RIP2 2 112 100
DIP1 114 111 DX
DIP2 115 112 DX
DIP3 116 114 DX
DIP4 116 115 DX
VCM 116 4 DC 5.125
RCMP 114 117 10000
ECMP 117 4 111 4 1.0
RCMN 115 118 10000
ECMN 118 4 112 4 1.0
*
* input stage
CIN 111 112 1.5e-13
CIC1 111 99 1.4e-12
CIC2 112 99 1.4e-12
GRIN 111 112 111 112 1e-12
M1 11 112 10 10 M1 L=25U W=25U
M2 12 113 10 10 M2 L=25U W=25U
RD1 3 11 ROVD1 952.38
RD2 3 12 ROVD2 952.38
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 9.8302e-12
IEE 10 4 DC 0.0021
GA 60 99 11 12 0.00105
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 1.6353e-6
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 1.6353e-6
RRu 605 0 1.1029
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.015915
ECM 113 111 20 99 7.9433e-6
*
* frequency shaper
RP1 601 99 2631.6
CP1 60 601 2.52e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 13934
LP2 61 611 0.00092406
RP22 61 99 35417
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 6.1765e-10
GB 7 99 6 99 2520.3
R01 7 99 63.9
R02 7 50 0.1
R03 50 5 56
R04 5 99 5937900000
VC 53 50 DC 0.942
VE 54 50 DC -1.192
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 666.67
ECLN 92 0 7 50 666.67
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 101.43
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0021
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL M1 NMOS(LEVEL=3 KP=0.22073 VTO=1.000125 KF=1.2496e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.22073 VTO=0.999875 KF=1.2496e-28)
.MODEL ROVD1 RES(TC1=-5.4573e-5)
.MODEL ROVD2 RES(TC1=5.4573e-5)
.MODEL DI1 D(IS=1.25e-12 EG=0.78674 XTI=3 CJO=0 IBV=1e-10 TT=0)
.MODEL DI2 D(IS=7.5e-13 EG=0.85031 XTI=3 CJO=0 IBV=1e-10 TT=0)
.MODEL DRI D(IS=8.2592e-16 KF=8.4933e-15 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1793MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Thu Jun 15 16:27:11 2000
*
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*# SHDNREF 6
*# SHDN 120
*# COMP 130
*
.SUBCKT LT1795 1 2 3 4 5 6 120 130
*
*RTEST 3 120 0.1
*
*RTEST 6 0 0.1
*VTEST 120 0 DC 2.5
*
* input stage
RINP 1 99 1000000000
CINP 1 99 2e-12
IBP 301 303 DC 1.32e-5
RBP 301 303 TCRBP 1E5
VBP 303 0 DC 1.12
GBP 1 99 POLY(2) 301 0 1 0 0 1.0E-5 1e-7
IBN 302 304 DC 2.8667e-5
RBN 302 304 TCRBN 1E5
VBN 304 0 DC 1.8667
GBN 2 99 POLY(2) 302 0 2 0 0 1.0E-5 1e-6
.MODEL TCRBP RES(TC1=0.0060606)
.MODEL TCRBN RES(TC1=0.0046512)
RINN 14 99 1000000000
CINN 2 99 1e-12
GA1 99 11 1 99 0.020408
GA2 11 99 11 99 0.020408
VSENS 11 16 DC 0.0
LINN 16 14 2.5e-9
RSW1 2 14 1000000000
GSW1 2 14 POLY(2) 812 99 2 14 0 0 8.094e-6 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56e-6
GSW2 59 99 POLY(2) 806 99 59 99 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
IOFF 501 0 DC 0.003
ROFF 501 0 ROVD 1
.MODEL ROVD RES(TC1=0.0033333)
GOFF 59 99 501 0 0.020408
FA 99 59 VSENS 1.0
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI1
DR2 102 0 DRI1
GR1 99 1 101 102 0.0966
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI2
DR4 104 0 DRI2
GR2 99 2 103 104 1.449
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI3
DR6 602 0 DRI3
GR3 59 99 601 602 3.4776
*
* common mode rejection
GCM1 99 11 POLY(2) 2 0 1 0 0 3.9871e-6 3.9871e-6
*
* frequency shaper
RP0 59 99 1000
CP0 59 99 3.0027e-12
GP0 99 60 POLY(2) 59 99 822 0 0 0.00035551 0 0 4.6881e-5
RP1 60 99 10000
CP1 60 99 1.8724e-14
GP1 99 660 60 99 0.0001
*
* compensation
CCOMP 2 130 1e-12
RCOMP 130 5 1.0E12
*
* slew rate limiter
RSR 660 66 0.1
ESRP 96 0 POLY(2) 660 66 822 0 0 5270.3 0 0 -252.73
ESRN 97 0 POLY(2) 660 66 822 0 0 7990.7 0 0 -417.57
DSRP 96 95 DX
DSRN 95 97 DX
VSR 95 0 DC 0
FSR 660 99 VSR 0.01
*
* transimpedance stage and dominant pole
RTR 66 99 216000
C1 66 99 4.1153e-12
DC 66 53 DVC
DE 54 66 DVC
VC 3 53 DC 1.574
VE 54 4 DC 1.574
*
* output stage
GB 99 7 66 99 0.60606
ROUT 7 99 1.65
FB 7 99 VSCL 0.13764
VSCL 90 0 DC 0
DLP 91 90 DX
DLN 90 92 DX
ESCLP 91 0 POLY(2) 7 51 822 0 0 22.961 0 0 -0.94283
ESCLN 92 0 POLY(2) 7 51 822 0 0 22.961 0 0 -0.94283
R01S 7 51 0.1
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 1.024e-5
CGSW3 51 5 8e-12
R0P 5 0 593790000
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(2) 99 803 822 0 6.3272e-5 0.00014743 0 0 0.00042428
RP 3 4 1000000
GV 31 0 7 51 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
* shutdown stage
*RDIS1 6 3 1.0000e+012
*DDIS1 801 6 DX
*VDIS1 802 801 DC 6.0000e-001
*RDIS2 3 802 4.8134e+004
*
RDIS1 120 801 1.0E2
HDIS 801 802 POLY(1) VREF 0.8 1.0E6
VDIS1 802 823 DC 0
DDIS1 823 6 DX
GREF 0 820 120 801 0.03481
RREF1 820 0 1.0E3
DREF 820 821 DVC
VREF 821 0 DC 0.92
GBUF 0 822 120 801 1.0E-3
*
* if Rshdn is connected between VDD and SHDN use RBUF1
RBUF1 822 0 481340
* if Rshdn is connected between SHDNREF and GND use RBUF2
*RBUF2 822 0 9.6268e+005
*
FDIS 99 803 POLY(1) VDIS1 0.0013819 -39.853
RDIS3 803 99 100000
VDIS2 804 99 DC -0.806
VDIS3 805 99 DC -4.195
DDIS2 803 804 DX
DDIS3 805 803 DX
CDIS2 803 99 3e-12
EDIS 810 99 803 99 1
RDIS5 810 812 1678.4
RDIS6 812 811 3500.8
DDIS4 810 811 DX
CDIS3 812 99 1e-9
GDIS2 99 806 POLY(1) 812 99 -5.0E-3 -1.0E-3
RDIS4 806 99 1000
CDIS4 806 99 8.3919e-11
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-1.3 N=0.1 EG=0.1)
.MODEL DRI1 D(IS= 8.2592e-16 KF= 3.2074e-16 RS=0 XTI=0)
.MODEL DRI2 D(IS= 8.2592e-16 KF= 3.2074e-16 RS=0 XTI=0)
.MODEL DRI3 D(IS= 8.2592e-16 KF= 6.4148e-17 RS=0 XTI=0)
.ENDS LT1795
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT1797 3 4 5 2 1 
XLT1797 3 4 5 2 1 LT1797MD
.ENDS LT1797
*
*
.SUBCKT LT1797MD 1 2 3 4 5
*
* input range / phase reversal protection
RIP1 1 111 100
RIP2 2 112 100
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 0.4525
*
* bias current for Vin > Vdd -1.5V (NPN stage active)
GNPN1 3 500 POLY(2) 111 3 112 3 0.0013 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -2.05E-7
GNPN3 3 2 501 3 -2.03E-7
*
* input stage
CIN 111 112 4e-13
CIC1 111 99 3.6e-12
CIC2 112 99 3.6e-12
GRIN 111 112 111 112 7.5758e-7
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 112 13 Q1
Q2 12 113 14 Q2
RC1 304 11 3596.6
RC2 304 12 3596.6
RE1 10 13 0.1
RE2 10 14 0.1
C1 11 12 9.6198e-13
IEE 303 10 DC 0.00055638
D1 10 303 DX
GA 60 99 11 12 0.00027804
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 3421500
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 3421500
GR 99 60 605 606 10.383
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.031831
ECM 113 111 20 99 5.6234e-6
*
* frequency shaper
RP1 601 99 35000
LP1 60 601 0.0011141
RP11 60 99 14000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 2.2736e-12
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 2.4444e-10
GB 7 99 6 99 13288
R01 7 99 4.9
R02 7 50 0.1
R03 50 5 15
R04 5 99 5937900000
VC 53 50 DC 0.14955
VE 54 50 DC -0.10955
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 6 56 3 1
GVLN 99 6 58 4 1
ECLP 91 0 7 50 222.22
ECLN 92 0 7 50 256.41
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 141.6
*
* output protection diodes
DOPP 5 3 DX
DOPN 4 5 DX
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00054362
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0196e-15 BF=1791.7 XTB=-3.1272
+ XTI=3.00961 KF=1.4107e-16)
.MODEL Q2 PNP(IS=9.8079e-16 BF=1850.4 XTB=-3.0746
+ XTI=2.99039 KF=1.4107e-16)
.MODEL DR D(IS=8.2592e-16 KF=3.2074e-17 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1797MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
.SUBCKT LT1801 3 2 7 4 6
XLT1801 3 2 7 4 6 LT1800MD
.ENDS LT1801
*
.SUBCKT LT1802 3 2 7 4 6
XLT1802 3 2 7 4 6 LT1800MD
.ENDS LT1802
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& GND 0
*& CKT LT1800
* ----------------------------
*
.SUBCKT LT1800 3 2 7 4 6
XLT1800 3 2 7 4 6 LT1800MD
.ENDS LT1800
*
*
.SUBCKT LT1800MD 1 2 3 4 5
DIP1 1 114 DX
DIP2 114 2 DX
DIP3 2 115 DX
DIP4 115 1 DX
*
* ESD diodes
DIP5 1 3 DX
DIP6 4 1 DX
DIP7 2 3 DX
DIP8 4 2 DX
*
* reverse input protection
DIP9 11 1 DX
DIP10 12 2 DX
*
* bias current for Vin > Vdd -1.3V (NPN stage active)
GNPN1 3 500 POLY(2) 1 3 2 3 0.0011 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -5.5e-7
GNPN3 3 2 501 3 -5.25E-7
*
* input stage
CIN 1 2 2e-13
CIC1 1 99 1.8e-12
CIC2 2 99 1.8e-12
GRIN 1 2 1 2 9.301e-8
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 304 11 2186.9
RC2 304 12 2186.9
RE1 10 13 8.2191
RE2 10 14 8.2191
C1 11 12 3.0324e-13
IEE 303 10 DC 0.00091456
D1 10 303 DX
GA 60 99 11 12 0.00045727
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 16483
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 16483
GR 99 60 605 606 6.3286
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.001061
ECM 111 1 20 99 1e-5
*
* frequency shaper
RP1 601 99 3636.4
CP1 60 601 1.4589e-12
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 3.1831e-13
GP2 99 62 61 99 0.0001
RP3 621 99 13333
LP3 62 621 7.0736e-5
RP33 62 99 40000
GP3 99 6 62 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3.2e-11
GB 7 99 6 99 442.27
R01 7 99 11.9
R02 7 50 0.1
R03 50 5 12
R04 5 99 5937900000
VC 53 50 DC 0.1209
VE 54 50 DC -0.1129
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 6 56 3 1
GVLN 99 6 58 4 1
ECLP 91 0 7 50 222.22
ECLN 92 0 7 50 222.22
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 7.7509
*
* output protection diodes
DOPP 5 3 DX
DOPN 4 5 DX
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00068544
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0016e-15 BF=60969.9 XTB=-7.3897
+ XTI=3.00712 KF=2.0803e-14)
.MODEL Q2 PNP(IS=9.9842e-16 BF=182909.8 XTB=-7.3897
+ XTI=2.99288 KF=2.0803e-14)
.MODEL DR D(IS=8.2592e-16 KF=6.4391e-17 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1800MD
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved. [Spice2]
*
.SUBCKT LT1804 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1804 3 2 7 4 6 LT1803
.ENDS LT1804
*
.SUBCKT LT1805 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1805 3 2 7 4 6 LT1803
.ENDS LT1805
*
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1803 3 2 7 4 6
CCM1 166 0 0.000666667
CG2 162 0 1n
CG3 163 0 1e-6
CG5 168 0 1.88679e-9
CG7 169 0 1e-10
CIN1 3 2 0.1f
CIN2 0 3 2p
CIN3 2 0 2p
CPSN 183 0 10p
CPSN2 182 0 1e-10
CPSP 185 0 10p
CPSP2 184 0 1e-10
CVM 179 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 181 148 DVLIM
DVLIM2 149 181 DVLIM
DVNF 150 0 DVNOI
DVNFX 151 0 DVNOIX
DVL1 162 301 DLIM
DVL2 0 301 DLIM
EICM1 157 0 2 0 1
EICM2 158 0 3 0 1
EILIM1 127 124 181 159 1E5
EILIM2 126 122 181 159 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 139 0 181 159 1E5
EPWR2 140 0 181 159 1E5
ESRLIM1 145 147 103 105 0
ESRLIM2 144 146 105 103 0
ESRLIM3 144 142 161 160 423.995
ESRLIM4 145 143 160 161 423.995
EVCC 165 0 7 0 1
EVEE 171 0 4 0 1
EVNOI1 107 108 0 152 1
EVNOI2 109 107 150 151 1
FVLIM1 181 0 VVLIM1 -1E7
FVLIM2 181 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM2 0 167 174 179 0.000562341
GCM3 0 166 167 0 6.2832
GCMO1 0 163 166 0 6.2832
GG2 0 162 161 160 0.266405
GG3 0 163 162 0 10
GG5 0 168 163 0 6.2832
GG7 0 169 168 0 6.2832
GILIM 162 0 132 0 0.01
GINOI1 103 0 0 133 1m
GINOI2 110 0 0 134 1m
GOUT2 0 181 173 0 0.05
GPSN2 0 183 4 179 0.00177828
GPSN4 0 182 183 0 6.2832
GPSNO2 0 181 182 0 0.05
GPSP2 0 185 7 179 0.00177828
GPSP4 0 184 185 0 6.2832
GPSPO2 0 181 184 0 0.05
GPWR1 137 0 181 159 100
GPWR2 138 0 181 159 100
GSHD3 4 7 121 0 1
GZP1 171 172 169 0 0.1
GZP3 171 173 172 0 0.1
HIN1 113 160 VIN1 100
HIN2 118 161 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -2.5e-7
IBIAS2 103 0 -2.5e-7
IDUM1 152 0 0
IDUM2 134 133 0
IPWR 7 4 0.0025
ISLEW 111 0 10mA
IVNF 0 150 1A
IVNFX 0 151 1A
LCM2 131 0 0.0031831
LCMX 128 167 100
LPSN2 135 0 0.0159155
LPSP2 136 0 0.0159155
LZP2 153 171 4.42479e-7
LZP4 154 171 1.59314e-13
Q1 160 106 116 0 NPN1
Q2 161 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM2 167 131 1k
RCM3 166 0 0.159155
RCMX 128 0 0.1
RCMX2 167 128 1E8
RG2 162 0 132629
RG3 163 0 0.159155
RG5 168 0 0.159155
RG7 169 0 0.159155
RICM1 157 174 1k
RICM2 158 174 1k
RILIM 132 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 133 0 377.415
RINOI2 134 0 377.415
ROUT2 181 0 20
ROUT3 180 159 0.01
RPSN2 183 135 1k
RPSN22 135 0 1E8
RPSN4 182 0 0.159155
RPSP2 185 136 1k
RPSP22 136 0 1E8
RPSP4 184 0 0.159155
RPWR1 137 165 1E6
RPWR2 138 171 1E6
RSENSE 159 181 0.01
RSHD1 121 0 1
RVH1 165 179 1k
RVH2 179 171 1k
RVNOI 0 152 26630.2
RZP1 172 153 10
RZP4 153 171 80.625
RZP5 173 154 10
RZP8 154 171 0.01001
SHD2 141 121 7 4 SHDN2X
SHD8 156 6 7 4 SHDNO2
SILIM1 132 125 124 0 SILIM
SILIM2 132 123 122 0 SILIM
SPWR1 7 137 139 0 SPWR
SPWR2 4 138 140 0 SPWRX
SSRLIM1 160 161 142 0 SSRLIM
SSRLIM2 160 161 143 0 SSRLIM
SWB1 129 119 174 171 SBIAS
SWB2 130 120 165 174 SBIAS2X
VBIAS1 119 0 -750
VBIAS2 120 0 2750
VILIM1 127 0 40
VILIM2 126 0 60
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1.5m
VSHD7 156 180 0
VSHDN 141 0 0.002499
VSRLIM1 146 0 88
VSRLIM2 147 0 88
VVLIM1 165 148 1.1435
VVLIM2 149 171 1.1385
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.60V VOFF=2.40V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=2.40V VOFF=2.60V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.00V VOFF=0.20V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.20V VOFF=0.00V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.26658e-13)
.MODEL DLIM D(BV=15 IS=1E-12 KF=0 RS=0)
.ENDS LT1803
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& SHDN 1
*& GND 0
*& CKT LT1806
* ----------------------------
*
.SUBCKT LT1806 3 2 7 4 6 1
XLT1806 3 2 7 4 6 1 LT1806MD
.ENDS LT1806
*
.SUBCKT LT1806MD 1 2 3 4 5 8
*
* input protection (back-to-back)
DIP1 1 114 DX
DIP2 114 119 DX
DIP3 119 115 DX
DIP4 115 1 DX
*
* input protection (to supplies)
DIP5 1 3 DX
DIP6 4 1 DX
DIP7 2 3 DX
DIP8 4 2 DX
*
* bias current for Vin > Vdd -1.5V (NPN stage active)
GNPN1 3 500 POLY(2) 1 3 119 3 0.0015 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -5.985E-6
GNPN3 3 2 501 3 -6.015E-6
*
* input stage
GSW1 2 119 POLY(2) 812 99 2 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
GSW2 1 119 POLY(2) 813 99 1 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1.0000e+011
RGSW2 1 119 1.0000e+012
CIN 1 119 2e-13
CIC1 1 99 1.8e-12
CIC2 119 99 1.8e-12
GRIN 1 119 1 119 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 119 13 Q1
Q2 12 111 14 Q2
RC1 304 11 309.97
RC2 304 12 309.97
RE1 10 13 4.985
RE2 10 14 4.985
C1 11 12 6.4181e-13
IEE 303 10 DC 0.0064622
GSHDN 303 10 813 99 0.0013055
D1 10 303 DX
GA 60 99 11 12 0.0032261
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 25556
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 25556
GR 99 60 605 606 12.91
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 119 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0079577
ECM 111 1 20 99 1e-5
*
* frequency shaper
RP1 601 99 20000
CP1 60 601 2.6526e-13
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 -5714.3
LP2 61 611 -1.6536e-5
RP22 61 99 3636.4
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3.68e-11
GB 7 99 6 99 263.24
R01 7 99 10.809
R02 7 50 0.1
R03 50 51 9.0912
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 51 5 1.0000e+010
R04 5 99 5937900000
VC 53 50 DC 0.12828
VE 54 50 DC -0.12195
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 117.65
ECLN 92 0 7 50 117.65
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 32.549
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 812 0.0004 0.00046756
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
* shutdown stage
RDIS1 8 3 1.0000e+012
DDIS1 801 8 DX
VDIS1 802 801 DC 1
RDIS2 3 802 22333
FDIS 99 803 POLY(1) VDIS1 -0.005 100
RDIS3 803 99 100000
VDIS2 804 99 DC -0.078
VDIS3 805 99 DC -4.925
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 89.297
RDIS6 812 811 51.897
DDIS4 810 811 DVC
CDIS3 812 99 1e-9
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0021e-15 BF=642.6 XTB=-0.096808
+ XTI=3.01622 KF=9e-16)
.MODEL Q2 PNP(IS=9.9794e-16 BF=647.6 XTB=-0.11137
+ XTI=2.98378 KF=9e-16)
.MODEL DR D(IS=8.2592e-16 KF=3.2512e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1806MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 8
*& VSS 4
*& OUTP 1
*& GND 0
*& CKT LT1807
* ----------------------------
*
.SUBCKT LT1807 3 2 8 4 1
XLT1807 3 2 8 4 1 LT1807MD
.ENDS LT1807
*
.SUBCKT LT1807MD 1 2 3 4 5
*
* input protection (back-to-back)
DIP1 1 114 DX
DIP2 114 2 DX
DIP3 2 115 DX
DIP4 115 1 DX
*
* input protection (to supplies)
DIP5 1 3 DX
DIP6 4 1 DX
DIP7 2 3 DX
DIP8 4 2 DX
*
* bias current for Vin > Vdd -1.5V (NPN stage active)
GNPN1 3 500 POLY(2) 1 3 2 3 0.0015 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -5.985E-6
GNPN3 3 2 501 3 -6.015E-6
*
* input stage
CIN 1 2 2e-13
CIC1 1 99 1.8e-12
CIC2 2 99 1.8e-12
GRIN 1 2 1 2 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 304 11 310.41
RC2 304 12 310.41
RE1 10 13 4.9736
RE2 10 14 4.9736
C1 11 12 6.409e-13
IEE 303 10 DC 0.006453
D1 10 303 DX
GA 60 99 11 12 0.0032215
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 25556
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 25556
GR 99 60 605 606 12.911
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0079577
ECM 111 1 20 99 1e-5
*
* frequency shaper
RP1 601 99 20000
CP1 60 601 2.6526e-13
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 611 99 -5714.3
LP2 61 611 -1.6536e-5
RP22 61 99 3636.4
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 3.68e-11
GB 7 99 6 99 287.4
R01 7 99 9.9
R02 7 50 0.1
R03 50 5 10
R04 5 99 5937900000
VC 53 50 DC 0.12893
VE 54 50 DC -0.12193
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 117.65
ECLN 92 0 7 50 117.65
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 35.486
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.002747
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0021e-15 BF=641.6 XTB=-0.10308
+ XTI=3.01622 KF=9e-16)
.MODEL Q2 PNP(IS=9.9794e-16 BF=646.5 XTB=-0.11743
+ XTI=2.98378 KF=9e-16)
.MODEL DR D(IS=8.2592e-16 KF=3.2511e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1807MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 7
*& VSS 4
*& OUTP 6
*& SHDN 1
*& GND 0
*& CKT LT1809
* ----------------------------
*
.SUBCKT LT1809 3 2 7 4 6 1
XLT1809 3 2 7 4 6 1 LT1809MD
.ENDS LT1809
*
.SUBCKT LT1809MD 1 2 3 4 5 8
*
* input protection (back-to-back)
DIP1 1 114 DX
DIP2 114 119 DX
DIP3 119 115 DX
DIP4 115 1 DX
*
* input protection (to supplies)
DIP5 1 3 DX
DIP6 4 1 DX
DIP7 2 3 DX
DIP8 4 2 DX
*
* bias current for Vin > Vdd -1.5V (NPN stage active)
GNPN1 3 500 POLY(2) 1 3 119 3 0.0015 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -9.3E-6
GNPN3 3 2 501 3 -9.3E-6
*
* input stage
GSW1 2 119 POLY(2) 812 99 2 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
GSW2 1 119 POLY(2) 813 99 1 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1.0000e+011
RGSW2 1 119 1.0000e+012
CIN 1 119 2e-13
CIC1 1 99 1.8e-12
CIC2 119 99 1.8e-12
GRIN 1 119 1 119 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 119 13 Q1
Q2 12 111 14 Q2
RC1 304 11 294.21
RC2 304 12 294.21
RE1 10 13 40.229
RE2 10 14 40.229
C1 11 12 2.0806e-12
IEE 303 10 DC 0.0068129
GSHDN 303 10 813 99 0.0013763
D1 10 303 DX
GA 60 99 11 12 0.0033989
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 732.84
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 732.84
GR 99 60 605 606 16.084
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 119 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.004681
ECM 111 1 20 99 1e-5
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 2.0161e-11
GB 7 99 6 99 313.54
R01 7 99 12.282
R02 7 50 0.1
R03 50 51 6.618
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 51 5 1.0000e+010
R04 5 99 5937900000
VC 53 50 DC 0.13361
VE 54 50 DC -0.1265
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 117.65
ECLN 92 0 7 50 117.65
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 40.845
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 812 0.00055 0.0010274
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
* shutdown stage
RDIS1 8 3 1.0000e+012
DDIS1 801 8 DX
VDIS1 802 801 DC 1
RDIS2 3 802 7976.2
FDIS 99 803 POLY(1) VDIS1 -0.003125 31.25
RDIS3 803 99 100000
VDIS2 804 99 DC -0.078
VDIS3 805 99 DC -4.925
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 105.06
RDIS6 812 811 48.747
DDIS4 810 811 DVC
CDIS3 812 99 1e-9
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0116e-15 BF=445.9 XTB=-1.3021
+ XTI=3.04064 KF=2.3333e-15)
.MODEL Q2 PNP(IS=9.8848e-16 BF=456.5 XTB=-1.3184
+ XTI=2.95936 KF=2.3333e-15)
.MODEL DR D(IS=8.2592e-16 KF=8.0604e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1809MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& INP 3
*& INN 2
*& VDD 8
*& VSS 4
*& OUTP 1
*& GND 0
*& CKT LT1810
* ----------------------------
*
.SUBCKT LT1810 3 2 8 4 1
XLT1810 3 2 8 4 1 LT1810MD
.ENDS LT1810
*
.SUBCKT LT1810MD 1 2 3 4 5
*
* input protection (back-to-back)
DIP1 1 114 DX
DIP2 114 2 DX
DIP3 2 115 DX
DIP4 115 1 DX
*
* input protection (to supplies)
DIP5 1 3 DX
DIP6 4 1 DX
DIP7 2 3 DX
DIP8 4 2 DX
*
* bias current for Vin > Vdd -1.5V (NPN stage active)
GNPN1 3 500 POLY(2) 1 3 2 3 0.0015 5.0e-4 5.0e-4
RNPN1 500 3 100000
DNPN1 3 500 DX
DNPN2 500 501 DX
DNPN3 501 502 DX
VNPN2 502 3 DC 0.27
RNPN2 501 3 1.0E6
GNPN2 3 1 501 3 -9.3E-6
GNPN3 3 2 501 3 -9.3E-6
*
* input stage
CIN 1 2 2e-13
CIC1 1 99 1.8e-12
CIC2 2 99 1.8e-12
GRIN 1 2 1 2 1e-12
VCMEP 303 3 DC 0.8
VCMEN 4 304 DC 1.6
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 304 11 296.05
RC2 304 12 296.05
RE1 10 13 40.181
RE2 10 14 40.181
C1 11 12 2.0677e-12
IEE 303 10 DC 0.0067708
D1 10 303 DX
GA 60 99 11 12 0.0033779
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 732.84
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 732.84
GR 99 60 605 606 16.084
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.004681
ECM 111 1 20 99 1e-5
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 2.0161e-11
GB 7 99 6 99 310.55
R01 7 99 12.4
R02 7 50 0.1
R03 50 5 7.5
R04 5 99 5937900000
VC 53 50 DC 0.13361
VE 54 50 DC -0.12644
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 117.65
ECLN 92 0 7 50 117.65
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 40.205
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0057292
*
GPC 31 0 7 50 10
DPC1 3 31 DVC
DPC2 32 4 DVC
RPC1 31 32 1.0E6
RPC2 31 33 9.7531
EPC 33 32 3 4 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1 CJO=0 IBV=1e-10 TT=0)
.MODEL Q1 PNP(IS=1.0116e-15 BF=443.1 XTB=-1.306
+ XTI=3.04064 KF=2.3333e-15)
.MODEL Q2 PNP(IS=9.8849e-16 BF=453.7 XTB=-1.3223
+ XTI=2.95936 KF=2.3333e-15)
.MODEL DR D(IS=8.2592e-16 KF=8.0604e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
.ENDS LT1810MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM
* IN+ IN- V+ V- VO
.SUBCKT LT1812 1 2 3 4 5
*
* input stage
CIN 1 2 2e-12
GRIN 1 2 1 2 1e-12
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 4 11 1163
RC2 4 12 1163
RE1 10 13 769.6
RE2 10 14 769.6
C1 11 12 6.8424e-13
IEE 3 10 DC 0.0017215
D1 10 3 DX
GA 60 99 11 12 0.00085984
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 23270
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 23270
GR 99 60 605 606 0.23988
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0021221
ECM 111 1 20 99 5.6234e-5
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.8659e-12
GB 7 99 6 99 143.1
R01 7 99 17.9
R02 7 50 0.1
R03 50 5 18
R04 5 99 5937900000
VC 53 50 DC 0.892
VE 54 50 DC -0.992
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 83.567
ECLN 92 0 7 50 93.758
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 4.7139
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0012785
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL Q1 PNP(IS=1.0104e-15 BF=929.6 XTB=0.55322
+ XTI=3.04765 KF=5e-16)
.MODEL Q2 PNP(IS=9.8968e-16 BF=982.7 XTB=0.5277
+ XTI=2.95235 KF=5e-16)
.MODEL DR D(IS=8.2592e-16 KF=1.8541e-16 RS=0 XTI=0)
.ENDS LT1812
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
* IN+ IN- V+ V- VO
.SUBCKT LT1814 1 2 3 4 5
XLT1814 3 2 7 4 6 LT1813
.ENDS LT1814
*
*CCM
* IN+ IN- V+ V- VO
.SUBCKT LT1813 1 2 3 4 5
*
* input stage
CIN 1 2 2e-13
GRIN 1 2 1 2 1e-12
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 4 11 1163
RC2 4 12 1163
RE1 10 13 769.6
RE2 10 14 769.6
C1 11 12 6.8424e-13
IEE 3 10 DC 0.0017215
D1 10 3 DX
GA 60 99 11 12 0.00085984
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 23270
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 23270
GR 99 60 605 606 0.23988
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0021221
ECM 111 1 20 99 5.6234e-5
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.8659e-12
GB 7 99 6 99 143.1
R01 7 99 17.9
R02 7 50 0.1
R03 50 5 18
R04 5 99 5937900000
VC 53 50 DC 0.892
VE 54 50 DC -0.992
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 83.567
ECLN 92 0 7 50 93.758
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 4.7139
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0012785
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL Q1 PNP(IS=1.0104e-15 BF=929.6 XTB=0.55322
+ XTI=3.04765 KF=5e-16)
.MODEL Q2 PNP(IS=9.8968e-16 BF=982.7 XTB=0.5277
+ XTI=2.95235 KF=5e-16)
.MODEL DR D(IS=8.2592e-16 KF=1.8541e-16 RS=0 XTI=0)
.ENDS LT1813
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1816 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1816 3 2 7 4 6 LT1815
.ENDS LT1816
*
.SUBCKT LT1817 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1817 3 2 7 4 6 LT1815
.ENDS LT1817
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
*Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1815 3 2 7 4 6
CCM1 169 174 2.5e-5
CCM2 168 169 2.5e-5
CG1 168 165 1n
CG2 165 174 1n
CG3 166 174 6.66667e-9
CG4 168 166 6.66667e-9
CG5 171 174 1e-10
CG6 168 171 1e-10
CG7 172 174 1e-10
CG8 168 172 1e-10
CIN1 3 2 0.1f
CIN2 0 3 2p
CIN3 2 0 2p
CPSN 186 0 10p
CPSN1 168 185 1e-7
CPSN2 185 174 1e-7
CPSP 188 0 10p
CPSP1 168 187 1e-7
CPSP2 187 174 1e-7
CVCC 147 0 1E5
CVEE 148 0 1E5
CVM 182 0 1E5
DVLIM1 184 149 DVLIM
DVLIM2 150 184 DVLIM
DVNF 151 0 DVNOI
DVNFX 152 0 DVNOIX
EICM1 160 0 2 0 1
EICM2 161 0 3 0 1
EILIM1 125 122 184 162 1E5
EILIM2 124 120 184 162 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 138 0 184 162 1E5
EPWR2 139 0 184 162 1E5
ESRLIM1 144 146 103 105 166
ESRLIM2 143 145 105 103 166
ESRLIM3 143 141 164 163 2249.36
ESRLIM4 144 142 163 164 2249.36
EVCC 168 0 147 0 1
EVEE 174 0 148 0 1
EVNOI1 107 108 0 153 1
EVNOI2 109 107 151 152 1
FVLIM1 184 0 VVLIM1 -1E7
FVLIM2 184 0 VVLIM2 1E7
GCM1 168 170 177 182 0.000281838
GCM2 174 170 177 182 0.000281838
GCM3 174 169 170 182 6.2832
GCM4 168 169 170 182 6.2832
GCMO1 174 166 169 174 6.2832
GCMO2 166 168 168 169 6.2832
GG1 168 165 164 163 1.41332
GG2 174 165 164 163 1.41332
GG3 174 166 165 182 10
GG4 168 166 165 182 10
GG5 174 171 166 182 6.2832
GG6 168 171 166 182 6.2832
GG7 174 172 171 182 6.2832
GG8 168 172 171 182 6.2832
GILIM 165 0 129 0 0.01
GINOI1 103 0 0 130 1m
GINOI2 110 0 0 131 1m
GOUT1 184 168 168 176 0.025
GOUT2 174 184 176 174 0.025
GPSN1 168 186 4 174 7.94328e-5
GPSN2 174 186 4 174 7.94328e-5
GPSN3 168 185 186 182 6.2832
GPSN4 174 185 186 182 6.2832
GPSNO1 184 168 168 185 0.025
GPSNO2 174 184 185 174 0.025
GPSP1 168 188 7 168 7.94328e-5
GPSP2 174 188 7 168 7.94328e-5
GPSP3 168 187 188 182 6.2832
GPSP4 174 187 188 182 6.2832
GPSPO1 184 168 168 187 0.025
GPSPO2 174 184 187 174 0.025
GPWR1 136 0 184 162 100
GPWR2 137 0 184 162 100
GSHD3 4 7 119 0 1
GZP1 174 175 172 182 0.1
GZP2 168 175 172 182 0.1
GZP3 174 176 175 182 0.1
GZP4 168 176 175 182 0.1
HIN1 113 163 VIN1 100
HIN2 118 164 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -2e-9
IBIAS2 103 0 -2e-9
IDUM1 153 0 0
IDUM2 131 130 0
IPWR 7 4 0.0065
ISLEW 111 0 10mA
IVNF 0 151 1A
IVNFX 0 152 1A
LCM1 168 127 0.00159154
LCM2 128 174 0.00159154
LCMX 126 170 100
LPSN1 168 132 0.00884194
LPSN2 133 174 0.00884194
LPSP1 168 134 0.0198944
LPSP2 135 174 0.0198944
LZP1 168 154 1.59314e-13
LZP2 155 174 1.59314e-13
LZP3 168 156 1.59314e-13
LZP4 157 174 1.59314e-13
Q1 163 106 116 0 NPN1
Q2 164 104 112 0 NPN1
RCM1 127 170 1k
RCM2 170 128 1k
RCM3 169 174 0.159155
RCM4 168 169 0.159155
RCMX 126 0 0.1
RG1 168 165 3978.88
RG2 165 174 3978.88
RG3 166 174 0.159155
RG4 168 166 0.159155
RG5 171 174 0.159155
RG6 168 171 0.159155
RG7 172 174 0.159155
RG8 168 172 0.159155
RICM1 160 177 1k
RICM2 161 177 1k
RILIM 129 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 130 0 86.9565
RINOI2 131 0 86.9565
ROUT1 168 184 40
ROUT2 184 174 40
ROUT3 183 162 0.01
RPSN1 132 186 1k
RPSN2 186 133 1k
RPSN3 168 185 0.159155
RPSN4 185 174 0.159155
RPSP1 134 188 1k
RPSP2 188 135 1k
RPSP3 168 187 0.159155
RPSP4 187 174 0.159155
RPWR1 136 168 1E6
RPWR2 137 174 1E6
RSENSE 162 184 0.01
RSHD1 119 0 1
RVCC 147 7 100
RVEE 148 4 100
RVH1 168 182 1k
RVH2 182 174 1k
RVNOI 0 153 1509.46
RZP1 175 155 10
RZP2 154 175 10
RZP3 168 154 0.01001
RZP4 155 174 0.01001
RZP5 176 157 10
RZP6 156 176 10
RZP7 168 156 0.01001
RZP8 157 174 0.01001
SHD2 140 119 7 4 SHDN2X
SHD8 159 6 7 4 SHDNO2
SILIM1 129 123 122 0 SILIM
SILIM2 129 121 120 0 SILIM
SPWR1 7 136 138 0 SPWR
SPWR2 4 137 139 0 SPWRX
SSRLIM1 163 164 141 0 SSRLIM
SSRLIM2 163 164 142 0 SSRLIM
VILIM1 125 0 80
VILIM2 124 0 80
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 200u
VSHD7 159 183 0
VSHDN 140 0 0.006499
VSRLIM1 145 0 500
VSRLIM2 146 0 500
VVLIM1 168 149 2.0235
VVLIM2 150 174 2.0235
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.60V VOFF=2.40V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=2.60V VOFF=2.40V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=2.40V VOFF=2.60V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 3.73199e-12)
.ENDS LT1815
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1819 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1819 3 2 7 4 6 LT1818
.ENDS LT1819
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT1818 3 2 7 4 6
CCM1 173 178 1e-6
CCM2 172 173 1e-6
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 3.125e-9
CG4 172 170 3.125e-9
CG5 175 178 1.42857e-9
CG6 172 175 1.42857e-9
CG7 176 178 1e-10
CG8 172 176 1e-10
CIN1 3 2 1p
CIN2 0 3 1.5p
CIN3 2 0 1.5p
CPSN 190 0 10p
CPSN1 172 189 1e-7
CPSN2 189 178 1e-7
CPSP 192 0 10p
CPSP1 172 191 1e-7
CPSP2 191 178 1e-7
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 126
ESRLIM2 147 149 105 103 126
ESRLIM3 147 145 168 167 1995.26
ESRLIM4 148 146 167 168 1995.26
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000112201
GCM2 178 174 181 186 0.000112201
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 1.25366
GG2 178 169 168 167 1.25366
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.025
GOUT2 178 188 180 178 0.025
GPSN1 172 190 4 178 2.81838e-5
GPSN2 178 190 4 178 2.81838e-5
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.025
GPSNO2 178 188 189 178 0.025
GPSP1 172 192 7 172 2.81838e-5
GPSP2 178 192 7 172 2.81838e-5
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.025
GPSPO2 178 188 191 178 0.025
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -2e-6
IBIAS2 103 0 -2e-6
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.009
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.000159155
LCM2 132 178 0.000159155
LCMX 128 174 100
LPSN1 172 136 0.0265258
LPSN2 137 178 0.0265258
LPSP1 172 138 0.0198944
LPSP2 139 178 0.0198944
LZP1 172 158 1.59314e-13
LZP2 159 178 1.59314e-13
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 1591.55
RG2 169 178 1591.55
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 86.9565
RINOI2 135 0 86.9565
ROUT1 172 188 40
ROUT2 188 178 40
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 2173.71
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 0.01001
RZP4 159 178 0.01001
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -1500
VBIAS2 120 0 3000
VILIM1 127 0 200
VILIM2 126 0 160
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1m
VSHD7 163 187 0
VSHDN 144 0 0.008999
VSRLIM1 149 0 251
VSRLIM2 150 0 251
VVLIM1 172 153 2.0235
VVLIM2 154 178 2.0235
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=1.30V VOFF=1.50V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.50V VOFF=1.30V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.37406e-12)
.ENDS LT1818
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1880 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1880 3 2 7 4 6 LT1884
.ENDS LT1880
*
.SUBCKT LT1885 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1885 3 2 7 4 6 LT1884
.ENDS LT1885
*
* Mon Jun 12 20:51:09 2000
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*
.SUBCKT LT1884 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
* input range / phase reversal protection
RIP1 1 111 100
RIP2 2 112 100
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 1.3525
*
* input stage
CIN 111 112 6.0542e-13
GRIN 111 112 111 112 1e-9
M1 11 112 10 10 M1 L=100U W=100U
M2 12 113 10 10 M2 L=100U W=100U
VCME 303 3 DC 1
RD1 303 11 ROVD1 4800.3
RD2 303 12 ROVD2 4800.3
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 4.1444e-13
IEE 10 4 DC 0.00041664
GSR 10 4 11 12 3.0213e-5
GA 60 99 11 12 0.00020832
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002415
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002415
RRu 605 0 5.8816
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 1.5915
ECM 113 111 20 99 3.9811e-7
*
* frequency shaper
RP1 601 99 8750
CP1 60 601 6.063e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 6.3662e-12
GP2 99 62 61 99 0.0001
RP3 621 99 11111
LP3 62 621 0.0004421
RP33 62 99 100000
GP3 99 6 62 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 4.6429e-10
GB 7 99 6 99 2747.9
R01 7 99 49.9
R02 7 50 0.1
R03 50 5 50
R04 5 99 5937900000
VC 53 50 DC 0.212
VE 54 50 DC -0.11773
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 333.33
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 21.94
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00023336
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.080547 VTO=1.000013 KF=6.3694e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.080547 VTO=0.9999875 KF=6.3694e-28)
.MODEL ROVD1 RES(TC1=-1.6685e-5)
.MODEL ROVD2 RES(TC1=1.6685e-5)
.MODEL DI1 D(IS=2.4231e-10 EG=0.19893 XTI=3)
.MODEL DI2 D(IS=8.0762e-11 EG=0.19894 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.9244e-17 RS=0 XTI=0)
.ENDS LT1884
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT1882 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT1882 3 2 7 6 4 LT1881
.ENDS LT1882
*
* Mon Jun 12 19:15:59 2000
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*
.SUBCKT LT1881 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
* input range / phase reversal protection
RIP1 1 111 10
RIP2 2 112 10
DIP1 114 111 DX
DIP2 114 112 DX
VCM 114 4 DC 1.3525
*
* input stage
CIN 111 112 3.925e-13
GRIN 111 112 111 112 1e-9
M1 11 112 10 10 M1 L=100U W=100U
M2 12 113 10 10 M2 L=100U W=100U
VCME 303 3 DC 1
RD1 303 11 ROVD1 4413.2
RD2 303 12 ROVD2 4413.2
DI1 113 3 DI1
DI2 112 3 DI2
C1 11 12 1.5027e-12
IEE 10 4 DC 0.00045319
GSR 10 4 11 12 6.8841e-5
GA 60 99 11 12 0.0002266
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.0013983
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.0013983
RRu 605 0 0.66375
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* common mode rejection
GCM1 99 20 POLY(2) 111 99 112 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 3.9789
ECM 113 111 20 99 6.3096e-7
*
* frequency shaper
RP1 601 99 5909.1
CP1 60 601 3.8477e-11
RP11 60 99 10000
GP1 99 61 60 99 0.0001
RP2 61 99 10000
CP2 61 99 2.6526e-12
GP2 99 6 61 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 1.8056e-9
GB 7 99 6 99 1413.2
R01 7 99 49.9
R02 7 50 0.1
R03 50 5 50
R04 5 99 5937900000
VC 53 50 DC 0.212
VE 54 50 DC -0.11792
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 333.33
ECLN 92 0 7 50 333.33
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 12.273
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00019681
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.27998 VTO=1.000013 KF=3.3177e-27)
.MODEL M2 NMOS(LEVEL=3 KP=0.27998 VTO=0.9999875 KF=3.3177e-27)
.MODEL ROVD1 RES(TC1=-7.4566e-6)
.MODEL ROVD2 RES(TC1=7.4566e-6)
.MODEL DI1 D(IS=2.25e-10 EG=0.11717 XTI=3)
.MODEL DI2 D(IS=7.5e-11 EG=0.11717 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.2244e-17 RS=0 XTI=0)
.ENDS LT1881
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* Fri Jun 09 22:00:50 2000
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*
.SUBCKT LT1886 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
* input protection
DIP1 1 2 DX
DIP2 2 1 DX
*
* input stage
CIN 1 2 2e-12
GRIN 1 2 1 2 4.8546e-6
Q1 11 2 13 Q1
Q2 12 111 14 Q2
RC1 3 11 647.85
RC2 3 12 647.85
RE1 10 13 0.1
RE2 10 14 0.1
C1 11 12 4.0945e-13
IEE 10 4 DC 0.0030901
D1 4 10 DX
GA 60 99 11 12 0.0015436
*
* noise sources
FRI1 99 1 VRI1 1
VRI1 101 0 DC 0
RRI1 101 0 4705.3
FRI2 99 2 VRI2 1
VRI2 201 0 DC 0
RRI2 201 0 4705.3
GR 99 60 605 606 19.476
IR1 0 605 DC 1
IR2 0 606 DC 1
DR1 605 0 DR
DR2 606 0 DR
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.0018724
ECM 111 1 20 99 3.1623e-5
*
* frequency shaper
RP1 60 99 10000
CP1 60 99 5.3052e-14
GP1 99 6 60 99 0.0001
*
* output stage
R2 6 99 1000
C2 6 7 1.4701e-11
GB 7 99 6 99 60.754
R01 7 99 3.3
R02 7 50 0.1
R03 50 5 3.4
R04 5 99 5937900000
VC 53 50 DC 0.892
VE 54 50 DC -0.892
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 12.5
ECLN 92 0 7 50 20
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 3.5791
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.0039099
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL Q1 NPN(IS=9.8047e-16 BF=973.4 XTB=1.8221
+ XTI=3.00232 KF=2.1333e-15)
.MODEL Q2 NPN(IS=1.0199e-15 BF=1110.5 XTB=1.82
+ XTI=2.99768 KF=2.1333e-15)
.MODEL DR D(IS=8.2592e-16 KF=8.0192e-17 RS=0 XTI=0)
.ENDS LT1886
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*CCM
* RG1 IN- IN+ V- REF OUT V+ RG2
.SUBCKT LT1920 1 2 3 4 5 6 7 8
*
XIN1 2 1 7 4 10 LT1920_IN1
XIN2 3 8 7 4 11 LT1920_IN2
XOUT 13 12 7 4 6 LT1920_OUT
*
* input protection
DIP1 2 7 DX
DIP2 3 7 DX
DIP3 4 2 DX
DIP4 4 3 DX
*
* input capacity
CDIFF 2 3 1.6E-12
CCM1 2 4 1.6E-12
CCM2 3 4 1.6E-12
*
* bias current
IBP 0 450 650E-6
RBP 450 0 1.0E3 TC=-0.012
GBP 7 3 450 0 -1.0E-9
IBN 0 451 350E-6
RBN 451 0 1.0E3 TC=-0.012
GBN 7 2 451 0 -1.0E-9
*
* feedback network
RF1 1 10 24700
CF1 1 10 2.5E-12
RF2 8 11 24700
CF2 8 11 2.5E-12
RCM1 10 12 10E3
RCM2 6 12 10E3
RCM3 11 13 10E3
RCM4 13 5 10E3
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
*
.ENDS LT1920
*
***
*
.SUBCKT LT1920_IN1 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 1 10 10 M2 L=100U W=100U
RD1 3 11 12578 TC=-1.1882e-5
RD2 3 12 12578 TC=1.1882e-5
C1 11 12 1.0547e-13
IEE 10 4 DC 0.00015904
GA 60 99 11 12 7.952e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002898
RRu 605 0 6.2
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.7
VE 54 50 DC -1.6
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 0.00014096
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.56128 VTO=1.000007 KF=6.6793e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56128 VTO=0.999993 KF=6.6793e-28)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1920_IN1
*
***
*
.SUBCKT LT1920_IN2 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 1 10 10 M2 L=100U W=100U
RD1 3 11 12578 TC=-1.1882e-5
RD2 3 12 12578 TC=1.1882e-5
C1 11 12 1.0547e-13
IEE 10 4 DC 0.00015904
GA 60 99 11 12 7.952e-5
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 0.002898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 0.002898
RRu 605 0 6.2
VRu 605 0 DC 0
FRu 99 60 VRu 1
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 1.7
VE 54 50 DC -1.6
DC1 53 55 DVC
DC2 55 56 DVC
DE1 57 54 DVC
DE2 58 57 DVC
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
IP 3 4 DC 0.00014096
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.56128 VTO=1.000007 KF=6.6793e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56128 VTO=0.999993 KF=6.6793e-28)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1920_IN2
*
***
*
.SUBCKT LT1920_OUT 1 2 3 4 5
*
* input stage
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 12578 TC=-1.1882e-5
RD2 3 12 12578 TC=1.1882e-5
C1 11 12 1.0546e-13
IEE 10 4 DC 0.00015903
GA 60 99 11 12 7.9514e-5
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.53052
*
*140 dB for gain=1000
*ECM 111 1 20 99 0.8E-7
*
* 125 dB for gain=100
ECM 111 1 20 99 5.6234e-7
*
*115 dB for gain=10
*ECM 111 1 20 99 1.778E-6
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.25e-10
GB 7 99 6 99 3560.5
R01 7 99 14.9
R02 7 50 0.1
R03 50 5 65
R04 5 99 5937900000
VC 53 50 DC 2.2
VE 54 50 DC -2.1
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 370.37
ECLN 92 0 7 50 370.37
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 10.851
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 0.00014097
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.56128 VTO=1.000007 KF=6.6793e-28)
.MODEL M2 NMOS(LEVEL=3 KP=0.56128 VTO=0.999993 KF=6.6793e-28)
.MODEL DRI D(IS=8.2592e-16 KF=6.4148e-18 RS=0 XTI=0)
.ENDS LT1920_OUT
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_15 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.01
*
* quiescent current
GQC 8 4 80 4 1.6e-5
GQCP 8 4 54 84 2.95E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -2.1E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.15
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 86.8E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=9.9E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_15
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_18 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.116
*
* quiescent current
GQC 8 4 80 4 1.6e-5
GQCP 8 4 54 84 2.95E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -2.1E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 5.8E4
RG 80 4 1.22E5
*
GEA1 4 81 80 90 2.54
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 86.8E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=8.5E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_18
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_25 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.3
*
* quiescent current
GQC 8 4 80 4 1.6e-5
GQCP 8 4 54 84 2.6E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -2.1E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.28E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 3.35
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 80.8E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.5E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_25
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_3 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.33
*
* quiescent current
GQC 8 4 80 4 1.6e-5
GQCP 8 4 54 84 1.95E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -1.1E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 1.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 4.0
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 92.1E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.5E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_3
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_33 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.35
*
* quiescent current
GQC 8 4 80 4 1.6e-5
GQCP 8 4 54 84 1.4E-4
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -1.1E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 2.08E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 4.25
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 86.1E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.5E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_33
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962_5 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.4
*
* quiescent current
GQC 8 4 80 4 1.6e-5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.0E-2 -1.52E-7 0 0 0 -3.6E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
RF 2 80 3.78E5
RG 80 4 1.22E5
*
GEA1 4 81 80 90 5.5
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 100
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 96.8E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=5.5E-3)
.MODEL RVR RES(TC1=4.8E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962_5
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& ADJUST
*& BYPASS
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1962 1 2 3 4 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 6.0E3
*
* input dependent current limit
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 4 60 VSENS 0.108
RCL1 60 4 10
DCL1 60 61 DX
VCL1 61 62 DC 0
ECL1 62 4 8 4 0.03
FCL2 90 4 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.27
*
* quiescent current
GQC 8 4 80 4 2.03E-5
RQC 1 4 2.4E5
*
* load dependent ground pin current, linear
* A - B - (A*C)
GGPC1 8 4 POLY(3) 68 0 42 0 46 4 0 2.2E-2 -1.52E-7 0 0 0 -2.3E-4
GGPC2 4 45 POLY(1) 8 2 0.0E-3 2.4E-3
RGPC1 45 4 1.0E3
DGPC1 45 46 DX
RGPC2 46 4 1.0E5
*
* reverse input protection
ERVP1 40 0 8 4 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 4 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 4 REA 4.436E7
*
GEA1 4 81 80 90 1.77
REA1 81 4 1.0E4
CP1 81 82 1.0E-3
RP1 82 4 90
CFEED 84 88 8.5E-9
RFEED 88 90 2.0E3
GEA2 4 84 81 4 1.0E-4
REA2 84 4 1.0E4
EEAP 85 4 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 4 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.22V reference
IREF1 4 90 DC 1.22E-3
RREF1 90 4 RVR 1.0E3
FLOAD 90 4 VSENS 65.8E-7
*
****************************
* noise voltage
****************************
IR1 0 601 DC 1
IR2 0 602 DC 1
DR1 601 0 DRI
DR2 602 0 DRI
GR1 3 4 601 602 0.15
RR1 3 4 5.9E4
DR3 3 4 DX
DR4 4 3 DX
GR2 90 4 3 4 1.5E-3
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 4 70 POLY(2) 42 0 5 4 0 0 0 0 1.33E-3
RSB 70 4 1.0E3
DSB 4 70 DAC
GSHDN 5 4 70 4 1.48E-7
*
* schmitt trigger, trip points 0.65V / 0.8V
GSD1 4 71 72 5 1.0E-1
RSD1 71 4 1.0E4
CSD1 71 4 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 4 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 4 DC -1.8
GTV1 4 72 POLY(1) 71 4 7.24E-4 2.98E-5
RTV1 72 4 1.0E3
SSHDN 90 4 71 4 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=6.5E-3)
.MODEL RVR RES(TC1=1.2E-5)
.MODEL REA RES(TC1=0.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-15 BF=5800 XTI=0 NF=1.0
************************
*
.ENDS LT1962
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1963_15 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0305
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 4.1E-4
RCL1 60 0 10
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -4.5E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 15.8
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.01
*
* quiescent current
GQC 8 3 80 3 3.305E-4
GQCP 8 3 54 84 3.0E-3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -2.72E-7 0 3.4E-2 0 0 0 0 0 0 0 -1.15E-3
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
RF 2 80 483.3
RG 80 3 2016
GEA1 3 81 80 90 1.2
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 240
CFEED 84 88 7e-11
RFEED 88 90 2.5E3
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 7.61E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.85
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.6E-3)
.MODEL RVR RES(TC1=-9.5E-5)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-9 BF=6800 XTI=0 NF=1.0
************************
*
.ENDS LT1963_15
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1963_18 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0305
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 4.1E-4
RCL1 60 0 10
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -4.5E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 15.8
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.01
*
* quiescent current
GQC 8 3 80 3 3.305E-4
GQCP 8 3 54 84 3.0E-3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -3.72E-7 0 3.4E-2 0 0 0 0 0 0 0 -1.15E-3
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
RF 2 80 983.3
RG 80 3 2016
GEA1 3 81 80 90 1.2
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 300
CFEED 84 88 7e-11
RFEED 88 90 2.5E3
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 7.61E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.85
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.6E-3)
.MODEL RVR RES(TC1=-9.5E-5)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-9 BF=6800 XTI=0 NF=1.0
************************
*
.ENDS LT1963_18
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1963_25 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0305
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 4.1E-4
RCL1 60 0 10
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -4.5E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 15.8
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.055
*
* quiescent current
GQC 8 3 80 3 3.305E-4
GQCP 8 3 54 84 7.15E-3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -3.72E-7 0 0.0327 0 0 0 0 0 0 0 -1.2E-3
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.95E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
RF 2 80 2149
RG 80 3 2016
GEA1 3 81 80 90 1.2
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 450
CFEED 84 88 6e-11
RFEED 88 90 2.5E3
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.8E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.85
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.6E-3)
.MODEL RVR RES(TC1=-9.5E-5)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-10 BF=6800 XTI=0 NF=1.0
************************
*
.ENDS LT1963_25
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& SENSE
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1963_33 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0305
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 4.1E-4
RCL1 60 0 10
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -4.5E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 15.8
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.08
*
* quiescent current
GQC 8 3 80 3 3.305E-4
GQCP 8 3 54 84 4.9E-3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -3.72E-7 0 0.0327 0 0 0 0 0 0 0 -1.2E-3
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.95E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
RF 2 80 3483
RG 80 3 2016
GEA1 3 81 80 90 1.2
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 600
*
CFEED 84 88 6e-11
RFEED 88 90 2.5E3
*
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 5.2E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.85
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=3.2E-3)
.MODEL RVR RES(TC1=-8.9E-5)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-10 BF=6800 XTI=0 NF=1.0
************************
*
.ENDS LT1963_33
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* ----------------------------
* terminal definitions
* ----------------------------
*& VIN
*& VOUT
*& ADJUST
*& VGND
*& SHDN
* ------------------------------
*
.SUBCKT LT1963 1 2 3 5 8
*
*********************
* power section
*********************
*
* pass transistor
QPWR 51 54 52 Q1
RBASE 54 84 5.0E3
*
* current limiter with SOA protection
VSENS 8 52 DC 0
RSENS 68 0 1.0E3
FSENS 0 68 VSENS 1.0E-3
FCL1 0 60 VSENS 0.0305
GCL0 0 60 POLY(2) 68 0 65 0 0 0 0 0 0 0 0 0 4.1E-4
RCL1 60 0 10
DCL1 60 61 DX
VCL1 61 0 DC 0
GCL1 0 63 POLY(1) 8 1 -4.5E-3 1.0E-3
RCL2 0 63 1.0E3
DCL2 63 64 DX
RCL3 64 0 50E3
GCL2 0 65 POLY(1) 64 0 0 0 1.0E-4
RCL4 65 0 1.0E3
DCL3 65 66 DX
VCL2 66 0 DC 15.8
FCL2 90 3 VCL1 1.0
*
* temperature dependent dropout voltage
RDROP 51 55 RVD 0.05
*
* quiescent current
GQC 8 3 80 3 5.78E-4
RQC 1 3 4.0E3
*
* load dependent ground pin current
GGPC1 8 3 POLY(3) 68 0 42 0 46 3 0 0 -2.82E-7 0 0.0327 0 0 0 0 0 0 0 -1.2E-3
GGPC2 3 45 POLY(1) 8 2 0.0E-3 1.0E-3
RGPC1 45 3 1.0E3
DGPC1 45 46 DX
RGPC2 46 3 1.0E5
*
* reverse input protection
ERVP1 40 0 8 3 1.0
DRVP1 40 41 DX
RRVP1 41 42 1.0E3
DRVP2 42 0 DX
RRVP2 42 0 1.0E4
*
* reverse input current
DRVP3 43 8 DX
RRVP3 43 3 1.9E5
*
* reverse output protection
SROP1 55 1 1 8 SROP1
*
********************
* error amplifier
********************
*
* adjust input with +/-7V clamp
RADJ 2 80 10
DAP1 80 89 DAC
DAP2 0 89 DAC
RAPB 80 3 REA 403300
*
GEA1 3 81 80 90 1.1
REA1 81 3 1.0E4
CP1 81 82 1.0E-3
RP1 82 3 210
CFEED 84 88 8.5E-11
RFEED 88 90 2.5E3
GEA2 3 84 81 3 1.0E-4
REA2 84 3 1.0E4
EEAP 85 3 41 0 1.0
DEAP 84 85 DX
DEAN 86 84 DX
VEAN 86 3 DC 1.4
*
****************************
* voltage reference
****************************
*
* temperature dependent 1.21V reference
IREF1 3 90 DC 1.2094E-3
RREF1 90 3 RVR 1.0E3
FLOAD 90 3 VSENS 10.8E-7
*
****************************
* noise voltage
****************************
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI
DR6 602 0 DRI
GR3 90 3 601 602 1.92
*
***************************
* shutdown section
***************************
*
* shdn bias current
GSB 3 70 POLY(2) 42 0 5 3 0 0 0 0 1.33E-3
RSB 70 3 1.0E3
DSB 3 70 DIC
GSHDN 5 3 70 3 5.58E-7
*
* schmitt trigger, trip points 0.75V / 0.9V
GSD1 3 71 72 5 1.0E-1
RSD1 71 3 1.0E4
CSD1 71 3 2.2E-9
DSDP2 71 73 DTT
VSDP2 73 3 DC 1.8
DSDN2 74 71 DTT
VSDN2 74 3 DC -1.8
GTV1 3 72 POLY(1) 71 3 8.24E-4 2.98E-5
RTV1 72 3 1.0E3
SSHDN 90 3 71 3 SHDN
*
***********************
* models used
***********************
.MODEL DX D IS=8.2592e-16 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0
.MODEL DIC D IS=8e-13 BV=5.0 RS=0 XTI=0
.MODEL DAC D IS=8e-13 BV=6.3 RS=0 XTI=0
.MODEL DTT D IS=8e-16 RS=0 XTI=1 IBV=1e-10 TT=8.3E-6
.MODEL DRI D(IS=8.2592e-16 KF=3.2074e-19 RS=0 XTI=1 CJO=0 IBV=1e-10 TT=0)
*
.MODEL RVD RES(TC1=2.8E-3)
.MODEL RVR RES(TC1=-7.4E-5)
.MODEL REA RES(TC1=2.5E-3)
*
.MODEL SROP1 VSWITCH(RON=0.001 ROFF=1.0E8 VON=0.0 VOFF=0.1)
.MODEL SHDN VSWITCH(RON=0.01 ROFF=1.0E8 VON=01.0 VOFF=-1.0)
*
.MODEL Q1 PNP IS=1e-10 BF=6800 XTI=0 NF=1.0
************************
*
.ENDS LT1963
*
***
*
* Copyright (c) Linear Technology Corp. 11/2/04. All rights reserved.
* Pinout: VEE V- OUT SENSE+ FILTER SENSE- VCC IN- IN+ VCSNK VCSRC COMMON ENABLE ISRC_ ISNK_ TSD_ V+
.SUBCKT LT1970 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
CG1 157 0 1u
CG3 158 0 300n
CG5 164 0 45n
CG7 165 0 5n
CILIM1 114 0 10p
CIN2 1 9 6p
CIN3 8 1 6p
COUT1 3 1 1p
CPSN2 170 0 1u
CPSP2 171 0 1u
CRF1 128 0 10n
CRF2 125 0 10n
CSHD1 131 0 10p
CSNK1 161 155 70n
CSRC1 163 155 70n
DILIM1 112 114 DILIM
DILIM2 114 113 DILIM
DOC1 127 128 DSW
DOC2 127 126 DSW
DOC3 124 125 DSW
DOC4 124 123 DSW
DPWR1 130 2 DSW
DPWR2 17 129 DSW
DSNK2 111 133 DILIM
DSRC2 140 111 DILIM
DSRLIM1 137 139 DSW
DSRLIM2 139 138 DSW
DVLIM1 169 141 DVLIM
DVLIM2 142 169 DVLIM
DVLIMOC1 121 120 DVLIM
DVLIMOC2 121 119 DVLIM
EICM1 115 0 8 0 1
EICM2 118 0 9 0 1
ELDO 121 0 12 122 1
EOC1 126 0 140 0 1
EOC2 123 0 0 133 1
ESR1 137 0 135 134 100
ESR2 138 0 136 134 100
EVCC2 155 0 17 0 1
EVEE2 172 0 2 0 1
EVLIM1 145 0 155 143 1
EVLIM2 146 0 172 144 1
GCMR 0 108 167 1 5.62E-6
GG1 134 157 156 0 19.87
GG3 0 158 157 0 6.2832
GG5 0 164 158 0 6.2832
GG7 0 165 164 0 6.2832
GICTRL1 165 0 111 0 1E3
GICTRL2 108 0 111 0 1E3
GILIM1 0 112 169 149 1E5
GILIM2 113 0 149 169 1E5
GILIM3 165 0 114 0 1E3
GIN1 0 156 108 106 1E3
GINOI1 106 0 0 116 1m
GINOI2 107 0 0 117 1m
GINX 0 108 107 0 1
GISNKO 0 12 15 119 10
GISRCO 0 12 14 120 10
GOUT 0 169 165 0 0.1
GOUTOC1 120 0 128 0 1
GOUTOC2 119 0 125 0 1
GPSN4 0 170 1 12 6.2832E-5
GPSNO 0 169 170 0 0.1
GPSP4 0 171 7 12 6.2832E-5
GPSPO 0 169 171 0 0.1
GPWR1 129 0 169 149 100
GPWR2 130 0 169 149 100
GSHD3 1 7 131 0 2.4m
GSHD4 2 17 131 0 4m
GSNK1 0 133 4 5 1E4
GSNK2 0 133 161 0 1E3
GSNK3 0 161 10 12 1
GSR3 156 0 139 0 1E3
GSRC1 0 140 4 5 1E4
GSRC2 140 0 163 0 1E3
GSRC3 0 163 11 12 1
GVLIM1 157 0 141 145 1E6
GVLIM2 157 0 142 146 1E6
GVNOI1 0 108 147 0 1
IBIAS1 107 0 -160n
IBIAS2 106 0 -160n
IDUM1 147 0 0
IDUM2 117 116 0
IILIM1 112 0 800
IILIM2 0 113 800
IOC1 0 127 30E-3
IOC2 0 124 30E-3
IPWR 7 1 3m
IPWR1 17 2 4m
ISNK1 0 161 0.04
ISR1 135 0 1.75
ISR2 0 136 1.75
ISRC1 0 163 0.04
IVOS 0 108 116u
LSR1 0 134 1m
RCTRL 111 0 1
RFIL 6 5 1k
RFILT1 5 1 1E8
RG1 157 0 159.155
RG3 158 0 0.159155
RG5 164 0 0.159155
RG7 165 0 0.159155
RICM1 115 167 1k
RICM2 118 167 1k
RILIM1 112 0 1
RILIM2 113 0 1
RILIM3 114 0 1
RILIMOC1 14 120 0.1
RILIMOC2 15 119 0.1
RIN1 107 9 0.1
RIN2 106 8 0.1
RIN3 156 0 1E-3
RINOI1 116 0 750
RINOI2 117 0 750
RINX 108 0 1
ROC1 128 0 1
ROC2 127 0 100
ROC3 125 0 1
ROC4 124 0 100
ROUT 169 172 10
ROUT3 168 149 0.01
RPSN4 170 0 0.159155
RPSP4 171 0 0.159155
RPU1 155 120 1E8
RPU2 155 119 1E8
RPWR1 129 155 1E3
RPWR2 130 172 1E3
RSENSE 149 169 0.01
RSHD3 131 0 1
RSHDN 13 12 1E9
RSNK1 133 0 1
RSNK2 161 0 1
RSR1 134 0 1
RSR2 135 0 1
RSR3 136 0 1
RSR4 139 0 1
RSRC1 140 0 1
RSRC2 163 0 1
RTSD 16 12 1E7
RVLIM1 145 141 1E-3
RVLIM2 142 146 1E-3
RVNOI 147 0 3698
SHD1 157 0 13 12 SHDN
SHD5 132 131 13 12 SHDN
SHD7 3 168 13 12 SHDNOX
VLDO2 0 122 1.6
VSHDN 132 0 1
VVLIM1 143 0 2.2
VVLIM2 0 144 2.4
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.MODEL DILIM D(IS=1E-10 RS=25 KF=0 XTI=0)
.MODEL SHDN VSWITCH(ROFF=1G RON=1E-1 VON=1.4V VOFF=1.7V)
.MODEL SHDNOX VSWITCH(ROFF=1E6 RON=1E-3 VON=1.7V VOFF=1.4V)
.ENDS LT1970
*
***
*
* Version 1.0 Copyright ? Linear Technology Corp. 3/14/05. All rights reserved.
* Node List (same as IC): REF IN- IN+ V- GAIN2 OUT V+ GAIN1
.SUBCKT LT1990 11 12 13 4 15 6 7 18
R1 12 2 1MEG
R2 13 3 1MEG
R3 2 11 40k
R4 3 11 40k
R5 2 19 900k
R6 3 20 900k
R7 19 6 100k
R8 20 11 100k
R9 19 18 10k
R10 20 15 10k
CCMRR 140 122 2.8303e-20
CG1 136 0 1e-6
CG3 137 0 3.33333e-5
CG5 139 0 1e-10
CPSRR1 125 30 3.53788e-11
CPSRR2 126 31 3.53788e-11
DIN5 22 21 DIN
DIN6 21 22 DIN
DOUT1 25 26 DOUTP
DOUT2 26 25 DOUTN
DVL1 131 136 DVLIM
DVL2 131 0 DVLIM
DVNF 132 0 DVNOI
DVNFX 133 0 DVNOIX
EICM 140 0 VALUE={(V(21)+V(22))/2}
EPWR1 128 0 VALUE={V(31)+V(25,26)}
EPWR2 129 0 VALUE={V(30)+V(25,26)}
EVLIM1 30 0 VALUE={V(7)-V(32)}
EVLIM2 31 0 VALUE={V(4)+V(33)}
GCM2 0 138 140 4 1.77828e-10
GCMRRO 0 121 138 0 1
GG1 0 136 VALUE={(V(27)+V(29))*TANH(V(23))}
GG3 0 137 136 0 6.2832
GG5 0 139 137 0 6.2832
GGAIN 0 23 121 22 5.69845
GINOI1 22 0 0 123 1m
GINOI2 21 0 0 124 1m
GINX 0 121 21 0 1
GOUT 0 25 VALUE={1m*tanh(V(24))}
GPSRR 0 141 7 4 1.77828e-10
GPSRRO 121 0 141 0 1
GPWR 7 4 127 31 1E-3
GSR1 0 29 VALUE={V(28)*ABS(V(21,22))}
GVNOI1 0 121 134 0 1
GVNOI2 121 0 132 133 1
GZP1 0 24 139 0 0.1
IBIASDEF1 21 0 1e-12
IBIASDEF2 22 0 1e-12
IDUM1 134 0 0
IDUM2 124 123 0
IOS 21 22 1e-12
IPWR1 0 127 0.00017
IPWR2 7 4 1e-6
IVNF 0 132 1
IVNFX 0 133 1
IVOS 0 121 0.001
LZP2 135 0 1.74759e-5
MOUT1 30 25 26 26 NOUT
MOUT1X 7 128 31 31 NOUT
MOUT2 31 25 26 26 POUT
MOUT2X 4 129 30 30 POUT
RA 23 0 0.35
RCMRR 138 0 1k
RCMRR2 122 138 3k
RG1 136 0 318310
RG3 137 0 0.159155
RG5 139 0 0.159155
RIN1 21 3 500
RIN2 22 2 500
RINOI1 123 0 0.603865
RINOI2 124 0 0.603865
RINX 121 0 1
ROUT1 30 25 2E5
ROUT2 25 31 2E5
RPSRR1 141 0 1k
RPSRR2 141 125 3k
RPSRR3 141 126 3k
RPWR 127 31 1k
RSHDNZ 6 26 0.1
RSR1 29 0 1
RVNOI 134 0 10835.7
RZP1 24 135 10
RZP4 135 0 46.6667
VSRCO 28 0 0
VSRLIM 27 0 0.11
VVLIMN 33 0 0.03
VVLIMP 32 0 0.1
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PSW PMOS(KF=0 KP=5 VTO=-1M)
.MODEL NSW NMOS(KF=0 KP=5 VTO=1M)
.MODEL DOUTP D(KF=0 RS=0 IS= 5.11197e-5)
.MODEL DOUTN D(KF=0 RS=0 IS= 3.22705e-5)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 2.04811e-12)
.ENDS LT1990
*
***
*
* Version 1.96 Copyright (c) Linear Technology Corp. 10/20/04. All rights reserved.
* Pinout (Same as IC): P1 P3 P9 VEE REF OUT VCC M9 M3 M1
.SUBCKT LT1991 1 2 3 4 5 6 7 8 9 10
CCM1 150 0 1e-10
CEXT1 200 6 4p
CEXT2 201 5 4p
CG1 146 0 1e-6
CG3 147 0 3.33333e-5
CG5 152 0 1e-10
CG7 153 0 1e-10
CILIM1 113 0 10p
COUT1 6 4 1p
CPSN2 161 0 5e-7
CPSP2 163 0 1e-6
DEXT1 2 7 DIODE
DEXT2 3 7 DIODE
DEXT3 4 2 DIODE
DEXT4 4 3 DIODE
DEXT5 9 7 DIODE
DEXT6 8 7 DIODE
DEXT7 4 9 DIODE
DEXT8 4 8 DIODE
DEXT9 4 5 DIODE
DILIM1 111 113 DSW
DILIM2 113 112 DSW
DIN5 103 104 DIODE
DIN6 104 103 DIODE
DPWR1 121 4 DSW
DPWR2 7 120 DSW
DSRLIM1 125 127 DSW
DSRLIM2 127 126 DSW
DVLIM1 160 128 DVLIM
DVLIM2 129 160 DVLIM
DVNF 134 0 DVNOI
DVNFX 135 0 DVNOIX
EICM1 114 0 200 0 1
EICM2 117 0 201 0 1
ESR1 125 0 123 122 100
ESR2 126 0 124 122 100
EVCC 149 0 7 0 1
EVEE 155 0 4 0 1
EVLIM1 132 0 149 130 1
EVLIM2 133 0 155 131 1
GCM2 0 151 158 0 0.000354813
GCM3 0 150 151 0 6.2832
GCMO1 0 147 150 0 6.2832
GG1 122 146 145 0 9.84624
GG3 0 147 146 0 10
GG5 0 152 147 0 6.2832
GG7 0 153 152 0 6.2832
GILIM1 0 111 160 144 1E5
GILIM2 112 0 144 160 1E5
GILIM3 146 0 113 0 10
GIN1 0 145 105 103 1E3
GINOI1 103 0 0 115 1m
GINOI2 104 0 0 116 1m
GINX 0 105 104 0 1
GOUT 0 160 157 0 10
GPSN2 0 162 4 0 0.000354813
GPSN4 0 161 162 0 6.2832
GPSNO 0 160 161 0 10
GPSP2 0 164 7 0 0.000354813
GPSP4 0 163 164 0 6.2832
GPSPO 0 160 163 0 10
GPWR1 120 0 160 144 100
GPWR2 121 0 160 144 100
GSR1 123 0 104 103 0
GSR2 0 124 103 104 0
GSR3 145 0 127 0 100
GVLIM1 146 0 128 132 1E6
GVLIM2 146 0 129 133 1E6
GVNOI1 0 105 136 0 1
GVNOI2 105 0 134 135 1
GZP1 0 156 153 0 0.1
GZP3 0 157 156 0 0.1
IBIAS1 104 0 2.5e-9
IBIAS2 103 0 2.5e-9
IDUM1 136 0 0
IDUM2 116 115 0
IILIM1 111 0 12
IILIM2 0 112 21
IPWR 7 4 0.00026
ISR1 123 0 0.11
ISR2 0 124 0.11
IVNF 0 134 1A
IVNFX 0 135 1A
IVOS 0 105 20u
LCM2 110 0 1.59155e-7
LCMX 109 151 100
LPSN2 118 0 795.775
LPSP2 119 0 198.944
LZP2 137 0 1.74759e-5
LZP4 138 0 1.59314e-13
RCM2 151 110 1k
RCM3 150 0 0.159155
RCMX 109 0 0.1
RCMX2 151 109 1E8
REXTD1 10 4 1E8
REXTD2 9 4 1E8
REXTD3 8 4 1E8
REXTD4 1 4 1E8
REXTD5 2 4 1E8
REXTD6 3 4 1E8
REXTD7 5 4 1E8
REXTD8 6 4 1E8
REXTFB 6 200 450k
REXTM1 10 200 450k
REXTM3 9 200 150k
REXTM9 8 200 50k
REXTP1 1 201 450k
REXTP3 2 201 150k
REXTP9 3 201 50k
REXTREF 5 201 450k
RG1 146 0 127324
RG3 147 0 0.159155
RG5 152 0 0.159155
RG7 153 0 0.159155
RICM1 114 158 1k
RICM2 117 158 1k
RILIM1 111 0 1
RILIM2 112 0 1
RILIM3 113 0 1
RIN1 104 201 500
RIN2 103 200 500
RIN3 145 0 1E-3
RINOI1 115 0 0.603865
RINOI2 116 0 0.603865
RINX 105 0 1
ROUT 160 155 0.1
ROUT3 159 144 0.01
RPSN2 162 118 1k
RPSN22 118 0 1E8
RPSN4 161 0 0.159155
RPSP2 164 119 1k
RPSP22 119 0 1E8
RPSP4 163 0 0.159155
RPWR1 120 149 1E3
RPWR2 121 155 1E3
RSENSE 144 160 0.01
RSHD8 159 6 1E-4
RSR1 122 0 1
RSR2 123 0 1
RSR3 124 0 1
RSR4 127 0 1
RVLIM1 132 128 1E-3
RVLIM2 129 133 1E-3
RVNOI 136 0 10835.7
RZP1 156 137 10
RZP4 137 0 46.6667
RZP5 157 138 10
RZP8 138 0 0.01001
VVLIM1 130 0 0.971
VVLIM2 0 131 0.971
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 2.04811e-12)
.ENDS LT1991
*
***
*
* Copyright © Linear Technology Corp. 5/18/05. All rights reserved.
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT1993-2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 200
RA2 20 5 200
RA3 16 21 200
RA4 21 22 200
RB1 15 24 200
RB2 24 8 200
RB3 13 23 200
RB4 22 23 200
CA1 20 5 0.35p
CB1 24 8 0.35p
CC1 22 32 12p
XA 21 20 31 32 5 11 1993AMPA
XB 23 24 31 32 8 11 1993AMPA
XC 2 22 31 32 22 11 1993AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 25
RF2 8 7 25
CF1 6 32 12p
CF2 7 32 12p
CF3 6 7 12p
RSHDN 11 31 1E8
.ENDS LT1993-2
*
.SUBCKT 1993AMPA 3 2 7 4 6 8
CG1 125 0 1E-9
CG2 128 0 800p
CG3 126 0 25n
CG4 129 0 1100p
DOUT1 25 26 DOUTP
DOUT2 26 25 DOUTN
DVL1 120 125 DVLIM
DVL2 120 0 DVLIM
EPWR1 117 0 VALUE={V(31)+V(25,26)-V(41,42)}
EPWR2 118 0 VALUE={V(30)+V(25,26)+V(41,42)}
ESHD1 42 0 VALUE={V(31)-10}
EVLIM1 30 0 VALUE={V(7)-1.25}
EVLIM2 31 0 VALUE={V(4)+0.45}
GG1 0 125 VALUE={1.1*TANH(V(23))}
GG2 0 128 127 0 6.2832
GG3 0 126 125 0 6.2832
GG4 0 129 128 0 6.2832
GGAIN 0 23 115 2 15.5
GINX 0 115 3 0 1
GOUT 0 25 VALUE={1E-3*TANH(V(24))}
GPWR 7 4 116 31 0.1
GSHD1 119 0 8 4 1
GVNOI1 0 115 121 0 1
GZP1 0 24 129 0 0.1
GZP2 0 127 126 0 0.1
IDUM1 121 0 0
IPWR1 0 116 -7m
IPWR2 7 4 175u
ISHD2 0 119 2
IVOS 0 115 2.5m
LZP1 123 0 3.5n
LZP2 122 0 10n
MOUT1 30 25 26 26 NOUT
MOUT1X 7 117 31 31 NOUT
MOUT2 31 25 26 26 POUT
MOUT2X 4 118 30 30 POUT
MSHD1 26 119 124 124 NSW
MSHD10 31 119 116 116 PSW
MSHD11 41 119 31 31 PSW
MSHD2 6 119 124 124 NSW
RA 23 0 0.1
RG1 125 0 1000
RG2 128 0 0.159155
RG3 126 0 0.159155
RG4 129 0 0.159155
RINX 115 0 1
ROUT1 30 25 2E4
ROUT2 25 31 2E4
RPWR 116 31 10
RSHD2 119 31 10
RSHD3 42 41 1k
RSHDNZ 6 26 1E8
RVNOI 121 0 245
RZP1 24 122 10
RZP2 127 123 10
RZP3 123 0 30
RZP4 122 0 35
.MODEL NOUT NMOS(KP=5 VTO=-150m)
.MODEL POUT PMOS(KP=5 VTO=150m)
.MODEL NOUTX NMOS(KP=5 VTO=0)
.MODEL POUTX PMOS(KP=5 VTO=0)
.MODEL PSW PMOS(KP=5 VTO=-1M)
.MODEL NSW NMOS(KP=5 VTO=1M)
.MODEL DOUTP D(KF=0 RS=0 IS=1.028E-7)
.MODEL DOUTN D(KF=0 RS=0 IS=1.028E-7)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 1993AMPA
*
* Copyright © Linear Technology Corp. 6/13/05. All rights reserved.
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT1993-4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 100
RA2 20 5 200
RA3 16 21 100
RA4 21 22 200
RB1 15 24 100
RB2 24 8 200
RB3 13 23 100
RB4 22 23 200
CA1 20 5 0.55p
CB1 24 8 0.55p
CC1 22 32 12p
XA 21 20 31 32 5 11 1993AMPA4
XB 23 24 31 32 8 11 1993AMPA4
XC 2 22 31 32 22 11 1993AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 25
RF2 8 7 25
CF1 6 32 12p
CF2 7 32 12p
CF3 6 7 12p
RSHDN 11 31 1E8
.ENDS LT1993-4
*
.SUBCKT 1993AMPA4 3 2 7 4 6 8
CG1 125 0 5.0E-10
CG2 128 0 800p
CG3 126 0 25n
CG4 129 0 1100p
DOUT1 25 26 DOUTP
DOUT2 26 25 DOUTN
DVL1 120 125 DVLIM
DVL2 120 0 DVLIM
EPWR1 117 0 VALUE={V(31)+V(25,26)-V(41,42)}
EPWR2 118 0 VALUE={V(30)+V(25,26)+V(41,42)}
ESHD1 42 0 VALUE={V(31)-10}
EVLIM1 30 0 VALUE={V(7)-1.25}
EVLIM2 31 0 VALUE={V(4)+0.45}
GG1 0 125 VALUE={0.06*TANH(V(23))}
GG2 0 128 127 0 6.2832
GG3 0 126 125 0 6.2832
GG4 0 129 128 0 6.2832
GGAIN 0 23 115 2 248
GINX 0 115 3 0 1
GOUT 0 25 VALUE={1E-3*TANH(V(24))}
GPWR 7 4 116 31 0.1
GSHD1 119 0 8 4 1
GVNOI1 0 115 121 0 1
GZP1 0 24 129 0 0.1
GZP2 0 127 126 0 0.1
IDUM1 121 0 0
IPWR1 0 116 -7m
IPWR2 7 4 175u
ISHD2 0 119 2
IVOS 0 115 2.5m
LZP1 123 0 3.5n
LZP2 122 0 10n
MOUT1 30 25 26 26 NOUT
MOUT1X 7 117 31 31 NOUT
MOUT2 31 25 26 26 POUT
MOUT2X 4 118 30 30 POUT
MSHD1 26 119 124 124 NSW
MSHD10 31 119 116 116 PSW
MSHD11 41 119 31 31 PSW
MSHD2 6 119 124 124 NSW
RA 23 0 0.1
RG1 125 0 1000
RG2 128 0 0.159155
RG3 126 0 0.159155
RG4 129 0 0.159155
RINX 115 0 1
ROUT1 30 25 2E4
ROUT2 25 31 2E4
RPWR 116 31 10
RSHD2 119 31 10
RSHD3 42 41 1k
RSHDNZ 6 26 1E8
RVNOI 121 0 125
RZP1 24 122 10
RZP2 127 123 10
RZP3 123 0 30
RZP4 122 0 35
.MODEL NOUT NMOS(KP=5 VTO=-150m)
.MODEL POUT PMOS(KP=5 VTO=150m)
.MODEL NOUTX NMOS(KP=5 VTO=0)
.MODEL POUTX PMOS(KP=5 VTO=0)
.MODEL PSW PMOS(KP=5 VTO=-1M)
.MODEL NSW NMOS(KP=5 VTO=1M)
.MODEL DOUTP D(KF=0 RS=0 IS=1.028E-7)
.MODEL DOUTN D(KF=0 RS=0 IS=1.028E-7)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 1993AMPA4
*
* Copyright © Linear Technology Corp. 6/15/05. All rights reserved.
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT1993-10 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 100
RA2 20 5 500
RA3 16 21 100
RA4 21 22 500
RB1 15 24 100
RB2 24 8 500
RB3 13 23 100
RB4 22 23 500
CA1 20 5 0.05p
CB1 24 8 0.05p
CC1 22 32 12p
XA 21 20 31 32 5 11 1993AMPA10
XB 23 24 31 32 8 11 1993AMPA10
XC 2 22 31 32 22 11 1993AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 25
RF2 8 7 25
CF1 6 32 12p
CF2 7 32 12p
CF3 6 7 12p
RSHDN 11 31 1E8
.ENDS LT1993-10
*
.SUBCKT 1993AMPA10 3 2 7 4 6 8
CG1 125 0 1.7E-10
CG2 128 0 800p
CG3 126 0 23n
CG4 129 0 1100p
DOUT1 25 26 DOUTP
DOUT2 26 25 DOUTN
DVL1 120 125 DVLIM
DVL2 120 0 DVLIM
EPWR1 117 0 VALUE={V(31)+V(25,26)-V(41,42)}
EPWR2 118 0 VALUE={V(30)+V(25,26)+V(41,42)}
ESHD1 42 0 VALUE={V(31)-10}
EVLIM1 30 0 VALUE={V(7)-1.25}
EVLIM2 31 0 VALUE={V(4)+0.45}
GG1 0 125 VALUE={0.02*TANH(V(23))}
GG2 0 128 127 0 6.2832
GG3 0 126 125 0 6.2832
GG4 0 129 128 0 6.2832
GGAIN 0 23 115 2 338
GINX 0 115 3 0 1
GOUT 0 25 VALUE={1E-3*TANH(V(24))}
GPWR 7 4 116 31 0.1
GSHD1 119 0 8 4 1
GVNOI1 0 115 121 0 1
GZP1 0 24 129 0 0.1
GZP2 0 127 126 0 0.1
IDUM1 121 0 0
IPWR1 0 116 -7m
IPWR2 7 4 175u
ISHD2 0 119 2
IVOS 0 115 2.5m
LZP1 123 0 3.5n
LZP2 122 0 10n
MOUT1 30 25 26 26 NOUT
MOUT1X 7 117 31 31 NOUT
MOUT2 31 25 26 26 POUT
MOUT2X 4 118 30 30 POUT
MSHD1 26 119 124 124 NSW
MSHD10 31 119 116 116 PSW
MSHD11 41 119 31 31 PSW
MSHD2 6 119 124 124 NSW
RA 23 0 0.1
RG1 125 0 1000
RG2 128 0 0.159155
RG3 126 0 0.159155
RG4 129 0 0.159155
RINX 115 0 1
ROUT1 30 25 2E4
ROUT2 25 31 2E4
RPWR 116 31 10
RSHD2 119 31 10
RSHD3 42 41 1k
RSHDNZ 6 26 1E8
RVNOI 121 0 140
RZP1 24 122 10
RZP2 127 123 10
RZP3 123 0 30
RZP4 122 0 35
.MODEL NOUT NMOS(KP=5 VTO=-150m)
.MODEL POUT PMOS(KP=5 VTO=150m)
.MODEL NOUTX NMOS(KP=5 VTO=0)
.MODEL POUTX PMOS(KP=5 VTO=0)
.MODEL PSW PMOS(KP=5 VTO=-1M)
.MODEL NSW NMOS(KP=5 VTO=1M)
.MODEL DOUTP D(KF=0 RS=0 IS=1.028E-7)
.MODEL DOUTN D(KF=0 RS=0 IS=1.028E-7)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 1993AMPA10
*
.SUBCKT 1993AMPC 3 2 7 4 6 8
CG1 122 0 1E-9
CG2 124 0 1n
CG3 123 0 35n
CIN1 3 7 0.5p
CIN2 3 4 0.5p
DOUT1 25 26 DOUTP
DOUT2 26 25 DOUTN
DVL1 119 122 DVLIM
DVL2 119 0 DVLIM
EPWR1 116 0 VALUE={V(31)+V(25,26)-V(41,42)}
EPWR2 117 0 VALUE={V(30)+V(25,26)+V(41,42)}
ESHD1 42 0 VALUE={V(31)-10}
EVLIM1 30 0 VALUE={V(7)-1.1}
EVLIM2 31 0 VALUE={V(4)+0.7}
GG1 0 122 VALUE={0.5*TANH(V(23))}
GG2 0 124 123 0 6.2832
GG3 0 123 122 0 6.2832
GGAIN 0 23 115 2 0.77
GINX 0 115 3 0 1
GOUT 0 25 VALUE={1E-3*TANH(V(24))}
GSHD1 118 0 8 4 1
GZP1 0 24 124 0 0.1
IBIAS 3 0 10u
ISHD2 0 118 2
IVOS 0 115 5m
LZP1 120 0 20n
MOUT1 30 25 26 26 NOUT
MOUT1X 7 116 31 31 NOUT
MOUT2 31 25 26 26 POUT
MOUT2X 4 117 30 30 POUT
MSHD1 26 118 121 121 NSW
MSHD11 41 118 31 31 PSW
MSHD2 6 118 121 121 NSW
RA 23 0 0.1
RG1 122 0 1000
RG2 124 0 0.159155
RG3 123 0 0.159155
RIN1 3 7 2E6
RIN2 3 4 2E6
RINX 115 0 1
ROUT1 30 25 2E5
ROUT2 25 31 2E5
RSHD2 118 31 10
RSHD3 42 41 1k
RSHDNZ 6 26 1E8
RZP1 24 120 10
RZP2 120 0 90
.MODEL NOUT NMOS(KP=5 VTO=-10m)
.MODEL POUT PMOS(KP=5 VTO=10m)
.MODEL PSW PMOS(KP=5 VTO=-1M)
.MODEL NSW NMOS(KP=5 VTO=1M)
.MODEL DOUTP D(KF=0 RS=0 IS=1.028E-6)
.MODEL DOUTN D(KF=0 RS=0 IS=1.028E-6)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 1993AMPC
*
***
*
* Copyright © Linear Technology Corp. 07/18/06. All rights reserved.
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- SHDN/ IN+
.SUBCKT LT1994 1 2 3 4 5 6 7 8
IBIASDEF2 0 1 19.1u
IBIASDEF1 0 8 19u
RG1P 26 0 400k
CG1P 26 0 1E-9
GPSRR 0 52 3 6 4E-7
RPSRR1 52 0 10
GG3P 0 28 26 0 6.2832
RG3P 28 0 0.159155
CG3P 28 0 14.29n
RVNOI 41 0 137
GINOI1 1 0 0 44 1m
RINOI1 44 0 380
GINOI2 8 0 0 45 1m
RINOI2 45 0 380
CIN3 1 3 1p
CIN2 3 8 1p
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 8 3 DIN
DIN2 1 3 DIN
GG5P 0 24 28 0 6.4832
RG5P 24 0 0.159155
CG5P 24 0 800p
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
IDUM1 41 0 0
IDUM2 45 44 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 22 0 1
GG1P 0 26 VALUE={3.6E-2*TANH(V(23))}
MOUT1 3 24 31 31 NOUT
MOUT2 6 24 31 31 POUT
CIN4 6 8 1p
CIN5 1 6 1p
GGAINP 0 23 22 1 9.31
RAP 23 0 1
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
RPSRR2 52 53 30
CPSRR1 53 3 1.5E-12
RPSRR3 52 54 30
CPSRR2 54 6 1.5E-12
DIN7 8 62 DIN
DIN8 62 1 DIN
MOUT1M 3 25 32 32 NOUT
MOUT2M 6 25 32 32 POUT
RVOCM3 3 2 80k
RVOCM4 2 6 80k
ROCM1 61 0 100k
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
RSHDN2 7 3 100k
RIND 8 1 4.5k
RG5M 25 0 0.159155
CG5M 25 0 800p
COCM1 61 0 100p
GG5M 0 25 0 28 6.0832
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GPWR 3 6 VALUE={V(88)*(V(3,6)/3333+9.5E-3)+0.15E-3}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+2.4m)+10*V(41)}
COCM3 6 2 4E-12
GOUT1 31 4 VALUE={MIN(0.085,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.085,V(88)*0.143*V(32,5))}
GINX 0 22 VALUE={V(8)+3.1E-5*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)+75E-6}
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LT1994
*
***
*
*  Copyright (c) Linear Technology Corp.  10/26/04.  All rights reserved.
*  Pinout (same as IC): P1 P2 P4 VEE REF OUT VCC M4 M2 M1
.SUBCKT LT1995 1 2 3 4 5 6 7 8 9 10
RP1 1 203 4k
RP2 2 203 2k
CP2 2 203 0.5p
RREF 203 5 4k
CREF 203 5 0.5p
RP4 3 203 1k
RM4 8 202 1k
RM2 9 202 2k
CM2 9 202 0.5p
RM1 10 202 4k
RFB 202 6 4k
CFB 202 6 0.5p
DP11 1 7 DIODE
DP21 2 7 DIODE
DP41 3 7 DIODE
DM11 10 7 DIODE
DM21 9 7 DIODE
DM41 8 7 DIODE
DP12 4 1 DIODE
DP22 4 2 DIODE
DP42 4 3 DIODE
DM12 4 10 DIODE
DM22 4 9 DIODE
DM42 4 8 DIODE
DREF1 5 7 DIODE
DREF2 4 5 DIODE
* INPUT
RC1 7  80 5.6841E+02
RC2 7  90 5.6841E+02
Q1  80 202  210 QM1 
Q2  90 203  11 QM2 
CIN 202  203  2.0000E-12
*INPUT POLE AT 300MHZ
C1  80 90 1.067E-12
RE1 210 12 +5.5532E+02
RE2 11 12 +5.5532E+02
IEE 12 4  4.0012E-03
RE  12 0  4.9985E+04
* INTERMEDIATE 
GCM 208  0  12 0  5.5634E-08
GA  208  0  78 0  1.7593E-03
R2  208  0  3.69E+06
C2  208  0  5.55E-12
DC1 208  7  DM3
DC2 4  208  DM3
*
*POLE AT 300MHZ
GX1 0  28 90 80 1E-06
RX1 28 0  1E+06
CX1 28 0  0.13E-15
*POLE AT 300MHZ
GX2 0  38 28 0  1E-06
RX2 38 0  1E+06
CX2 38 0  0.13E-15
*POLE AT 300MHZ
GX3 0  48 38 0  1E-06
RX3 48 0  1E+06
CX3 48 0  0.53E-15  
*ZERO AT 85MHZ
GX4 0  58 48 0  1E-06
RX4 58 59 1E+06
LX4 59 0  1.87E-03
*POLE AT 170MHZ
GX5 0  68 58 0  1E-06
RX5 68 0 1E+06
CX5 68 0 0.937E-15
*POLE AT 500MHZ
GX6 0  78 68 0  1E-06
RX6 78 0  1E+06
CX6 78 0  0.318E-15
*
EB  201  0  208  0  1
RO2 201  6  20
RF  208  99 800
CF  99 6  6E-12
* OUTPUT 
ECL 18 201  6  201  0.36
Q3  7  18 208  QM3
Q4  4  18 208  QM4
* 
D3A 131 70 DM3 
D3B 13 131 DM3 
GPL 208  0  70 7  1.0000E+00
VC  13 6  2.9317E+00
RPLA 7  70 1.0000E+01
RPLB 7  131 1.0000E+03
D4A 60 141 DM3 
D4B 141 14  DM3 
GNL 208  0  60 4  1.0000E+00
VE  6  14 2.9317E+00
RNLA 60 4  1.0000E+01
RNLB 141 4  1.0000E+03
* 
IP  7  4  1.9988E-03
DSUB 4  7  DM2  
* MODELS 
.MODEL QM1 NPN (IS=8.0000E-16 BF=3.0303E+03)
.MODEL QM2 NPN (IS=8.1562E-16 BF=3.7037E+03)
.MODEL QM3 NPN (IS=8.0000E-16 BF=100)
.MODEL QM4 PNP (IS=8.0000E-16 BF=100)
.MODEL DM1  D   (IS=1.0000E-20)
.MODEL DM2  D   (IS=8.0000E-16 BV=4.3200E+01)
.MODEL DM3  D   (IS=1.0000E-16)
.MODEL DIODE  D (KF=0 RS=1E-4)
.ENDS LT1995
*
***
*
* Version 1.96 Copyright (c) Linear Technology Corp. 10/20/04. All rights reserved.
* Pinout (Same as IC): P9 P27 P81 VEE REF OUT VCC M81 M27 M9
.SUBCKT LT1996 1 2 3 4 5 6 7 8 9 10
CCM1 150 0 1e-10
CEXT1 200 6 4p
CEXT2 201 5 4p
CG1 146 0 1e-6
CG3 147 0 3.33333e-5
CG5 152 0 1e-10
CG7 153 0 1e-10
CILIM1 113 0 10p
COUT1 6 4 1p
CPSN2 161 0 5e-7
CPSP2 163 0 1e-6
DEXT1 2 7 DIODE
DEXT2 3 7 DIODE
DEXT3 4 2 DIODE
DEXT4 4 3 DIODE
DEXT5 9 7 DIODE
DEXT6 8 7 DIODE
DEXT7 4 9 DIODE
DEXT8 4 8 DIODE
DEXT9 4 5 DIODE
DILIM1 111 113 DSW
DILIM2 113 112 DSW
DIN5 103 104 DIODE
DIN6 104 103 DIODE
DPWR1 121 4 DSW
DPWR2 7 120 DSW
DSRLIM1 125 127 DSW
DSRLIM2 127 126 DSW
DVLIM1 160 128 DVLIM
DVLIM2 129 160 DVLIM
DVNF 134 0 DVNOI
DVNFX 135 0 DVNOIX
EICM1 114 0 200 0 1
EICM2 117 0 201 0 1
ESR1 125 0 123 122 100
ESR2 126 0 124 122 100
EVCC 149 0 7 0 1
EVEE 155 0 4 0 1
EVLIM1 132 0 149 130 1
EVLIM2 133 0 155 131 1
GCM2 0 151 158 0 0.000354813
GCM3 0 150 151 0 6.2832
GCMO1 0 147 150 0 6.2832
GG1 122 146 145 0 9.84624
GG3 0 147 146 0 10
GG5 0 152 147 0 6.2832
GG7 0 153 152 0 6.2832
GILIM1 0 111 160 144 1E5
GILIM2 112 0 144 160 1E5
GILIM3 146 0 113 0 10
GIN1 0 145 105 103 1E3
GINOI1 103 0 0 115 1m
GINOI2 104 0 0 116 1m
GINX 0 105 104 0 1
GOUT 0 160 157 0 10
GPSN2 0 162 4 0 0.000354813
GPSN4 0 161 162 0 6.2832
GPSNO 0 160 161 0 10
GPSP2 0 164 7 0 0.000354813
GPSP4 0 163 164 0 6.2832
GPSPO 0 160 163 0 10
GPWR1 120 0 160 144 100
GPWR2 121 0 160 144 100
GSR1 123 0 104 103 0
GSR2 0 124 103 104 0
GSR3 145 0 127 0 100
GVLIM1 146 0 128 132 1E6
GVLIM2 146 0 129 133 1E6
GVNOI1 0 105 136 0 1
GVNOI2 105 0 134 135 1
GZP1 0 156 153 0 0.1
GZP3 0 157 156 0 0.1
IBIAS1 104 0 2.5e-9
IBIAS2 103 0 2.5e-9
IDUM1 136 0 0
IDUM2 116 115 0
IILIM1 111 0 12
IILIM2 0 112 21
IPWR 7 4 0.00026
ISR1 123 0 0.11
ISR2 0 124 0.11
IVNF 0 134 1A
IVNFX 0 135 1A
IVOS 0 105 20u
LCM2 110 0 1.59155e-7
LCMX 109 151 100
LPSN2 118 0 795.775
LPSP2 119 0 198.944
LZP2 137 0 1.74759e-5
LZP4 138 0 1.59314e-13
RCM2 151 110 1k
RCM3 150 0 0.159155
RCMX 109 0 0.1
RCMX2 151 109 1E8
REXTD1 10 4 1E8
REXTD2 9 4 1E8
REXTD3 8 4 1E8
REXTD4 1 4 1E8
REXTD5 2 4 1E8
REXTD6 3 4 1E8
REXTD7 5 4 1E8
REXTD8 6 4 1E8
REXTFB 6 200 450k
REXTM9 10 200 50k
REXTM27 9 200 16.67k
REXTM81 8 200 5.56k
REXTP9 1 201 50k
REXTP27 2 201 16.67k
REXTP81 3 201 5.56k
REXTREF 5 201 450k
RG1 146 0 127324
RG3 147 0 0.159155
RG5 152 0 0.159155
RG7 153 0 0.159155
RICM1 114 158 1k
RICM2 117 158 1k
RILIM1 111 0 1
RILIM2 112 0 1
RILIM3 113 0 1
RIN1 104 201 500
RIN2 103 200 500
RIN3 145 0 1E-3
RINOI1 115 0 0.603865
RINOI2 116 0 0.603865
RINX 105 0 1
ROUT 160 155 0.1
ROUT3 159 144 0.01
RPSN2 162 118 1k
RPSN22 118 0 1E8
RPSN4 161 0 0.159155
RPSP2 164 119 1k
RPSP22 119 0 1E8
RPSP4 163 0 0.159155
RPWR1 120 149 1E3
RPWR2 121 155 1E3
RSENSE 144 160 0.01
RSHD8 159 6 1E-4
RSR1 122 0 1
RSR2 123 0 1
RSR3 124 0 1
RSR4 127 0 1
RVLIM1 132 128 1E-3
RVLIM2 129 133 1E-3
RVNOI 136 0 10835.7
RZP1 156 137 10
RZP4 137 0 46.6667
RZP5 157 138 10
RZP8 138 0 0.01001
VVLIM1 130 0 0.971
VVLIM2 0 131 0.971
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 2.04811e-12)
.ENDS LT1996
*
***
*
* Pinout: IN+ IN- VCC VEE OUT SHDN/
.SUBCKT LT6001 3 2 7 4 6 8
XAMP1 3 2 7 4 6 8 LT6000
.ENDS LT6001
*
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT6002 3 2 7 4 6
XAMP1 3 2 7 4 6 8 LT6000
RD1 8 7 1E8
.ENDS LT6002
*
* Copyright © Linear Technology Corp. 12/20/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT SHDN/
.SUBCKT LT6000 3 2 7 4 6 8
IBIASDEF2 0 102 2.2E-9
IBIASDEF1 0 101 2E-9
RG1 22 0 150
CG1 22 0 1E-3
GCM2 0 51 50 4 1.78E-8
RCMRR 51 0 1E3
RVNOI 41 0 3.51E5
CIN3 2 4 2E-12
CIN2 4 3 2E-12
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 3 7 DIN
DIN2 2 7 DIN
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 1.1E-5
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 30
GG1 0 22 VALUE={15*TANH(V(21))}
MOUT1 77 25 66 66 NOUT
MOUT2 44 25 66 66 POUT
CIN4 7 3 2E-12
CIN5 2 7 2E-12
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 9E-12
RCMRR2 52 51 2k
GITYP 7 4 VALUE={(12E-6+5.5E-7*V(7,4))*(0.5+0.5*TANH(4*(V(8,4)-0.9)))*(0.5+0.5*TANH(4*(V(7,4)-1.35)))}
CIN1 3 2 1E-12
GIN 0 21 VALUE={V(101,102)+V(41)+V(42,43)+V(51)+2E-4}
GB 0 25 VALUE={3.14*(V(7)+V(4))}
GINOI1 101 0 41 0 4.6E-7
GINOI2 102 0 41 0 4.6E-7
RIN1 101 3 3E4
RIN2 102 2 3E4
DIN5 102 101 DIN
DIN6 101 102 DIN
GSHDN 66 6 VALUE={(1+TANH(12*(V(8,4)-1.1)))*V(66,6)}
RSHDN 8 7 7.5E6
ISHDN 8 0 3E-8
GLIM1 7 77 VALUE={MIN(4E-3,5E-3*V(7,77))}
GLIM2 44 4 VALUE={MIN(4E-3,5E-3*V(44,4))}
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10u RD=0)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10u RD=0)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=10 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=4E-12)
.ENDS LT6000
*
***
*
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT6004 3 2 7 4 6
XAMP1 3 2 7 4 6 LT6003
.ENDS LT6004
*
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT6005 3 2 7 4 6
XAMP1 3 2 7 4 6 LT6003
.ENDS LT6005
*
* Copyright © Linear Technology Corp. 10/10/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LT6003 3 2 7 4 6
IBIASDEF2 0 102 25E-12
IBIASDEF1 0 101 20E-12
RG1 22 0 8000
CG1 22 0 1E-3
GCM2 0 51 50 4 1.78E-8
RCMRR 51 0 1E3
GPSRR 0 53 7 4 1.78E-8
RPSRR1 53 0 1E3
RVNOI 41 0 6.8E6
CIN3 2 4 2E-12
CIN2 4 3 2E-12
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 3 7 DIN
DIN2 2 7 DIN
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 2E-8
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 19
GG1 0 22 VALUE={1*TANH(V(21))}
MOUT1 7 26 6 6 NOUT
MOUT2 4 26 6 6 POUT
CIN4 7 3 2E-12
CIN5 2 7 2E-12
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 9E-11
RCMRR2 52 51 2k
GITYP 7 4 VALUE={(7.8E-7+2.5E-8*V(7,4))*(0.5+0.5*TANH(5*(V(7,4)-1)))}
CIN1 3 2 1E-12
GIN 0 21 VALUE={V(101,102)+V(41)+V(42,43)+V(51)+V(53)+1E-4}
GB 0 26 VALUE={3.14*(V(7)+V(4))}
GG2 0 26 25 0 6.2832
RG2 26 0 0.159155
CG2 26 0 5E-4
GINOI1 101 0 41 0 5E-8
GINOI2 102 0 41 0 5E-8
RIN1 101 3 6E5
RIN2 102 2 6E5
DIN5 102 101 DIN
DIN6 101 102 DIN
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1u RD=1000)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1u RD=1000)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=4 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=8E-12)
.ENDS LT6003
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6011 3 2 7 4 6
XLT6010 3 2 7 4 6 8 LT6010
VX 8 4 0
.ENDS LT6011
*
.SUBCKT LT6012 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6010 3 2 7 4 6 8 LT6010
VX 8 4 0
.ENDS LT6012
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN(8)
.SUBCKT LT6010 3 2 7 4 6 8
CCM1 174 179 1e-10
CCM2 173 174 1e-10
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 3.33333e-5
CG4 173 171 3.33333e-5
CG5 176 179 1e-10
CG6 173 176 1e-10
CG7 177 179 1e-10
CG8 173 177 1e-10
CIN1 3 2 1f
CIN2 0 3 4p
CIN3 2 0 4p
CPSN 191 0 10p
CPSN1 173 190 5e-7
CPSN2 190 179 5e-7
CPSP 193 0 10p
CPSP1 173 192 1e-6
CPSP2 192 179 1e-6
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 187 0 1E5
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 189 153 DVLIM
DVLIM2 154 189 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 189 166 1E5
EILIM2 126 122 189 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 189 166 1E5
EPWR2 143 0 189 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 169 168 9.97628
ESRLIM4 148 146 168 169 9.97628
EVCC 173 0 151 0 1
EVEE 179 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 173 175 182 187 0.000354813
GCM2 179 175 182 187 0.000354813
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 0.0062683
GG2 179 170 169 168 0.0062683
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 189 173 173 181 5
GOUT2 179 189 181 179 5
GPSN1 173 191 4 179 0.000354813
GPSN2 179 191 4 179 0.000354813
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 5
GPSNO2 179 189 190 179 5
GPSP1 173 193 7 173 0.000354813
GPSP2 179 193 7 173 0.000354813
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 5
GPSPO2 179 189 192 179 5
GPWR1 140 0 189 166 100
GPWR2 141 0 189 166 100
GSHD3 4 7 121 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 113 168 VIN1 100
HIN2 118 169 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -4e-11
IBIAS2 103 0 -4e-11
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.00026
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 173 131 1.59155e-7
LCM2 132 179 1.59155e-7
LCMX 128 175 100
LPSN1 173 136 795.775
LPSN2 137 179 795.775
LPSP1 173 138 198.944
LPSP2 139 179 198.944
LZP1 173 158 1.74759e-5
LZP2 159 179 1.74759e-5
LZP3 173 160 1.59314e-13
LZP4 161 179 1.59314e-13
Q1 168 106 116 0 NPN1
Q2 169 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 175 1k
RCM2 175 132 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 128 0 0.1
RG1 173 170 318310000
RG2 170 179 318310000
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 164 182 1k
RICM2 165 182 1k
RILIM 133 0 1
RIN1 108 3 500
RIN2 103 2 500
RINOI1 134 0 0.603865
RINOI2 135 0 0.603865
ROUT1 173 189 0.2
ROUT2 189 179 0.2
ROUT3 188 166 0.01
RPSN1 136 191 1k
RPSN2 191 137 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 138 193 1k
RPSP2 193 139 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 140 173 1E6
RPWR2 141 179 1E6
RSENSE 166 189 0.01
RSHD1 121 0 1
RSHDN 8 4 1E9
RVCC 151 7 100
RVEE 152 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 157 10835.7
RZP1 180 159 10
RZP2 158 180 10
RZP3 173 158 46.6667
RZP4 159 179 46.6667
RZP5 181 161 10
RZP6 160 181 10
RZP7 173 160 0.01001
RZP8 161 179 0.01001
SHD1 144 121 8 4 SHDNX
SHD2 144 121 7 4 SHDN2X
SHD7 163 188 8 4 SHDNO
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 168 169 145 0 SSRLIM
SSRLIM2 168 169 146 0 SSRLIM
SWB1 129 119 182 179 SBIAS
SWB2 130 120 173 182 SBIAS2X
VBIAS1 119 0 0.06
VBIAS2 120 0 0.08
VILIM1 127 0 15
VILIM2 126 0 20
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 20u
VSHDN 144 0 0.000248
VSRLIM1 149 0 0.11
VSRLIM2 150 0 0.11
VVLIM1 173 153 1.1585
VVLIM2 154 179 1.1635
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.30V VOFF=0.50V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.50V VOFF=0.30V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 2.04811e-12)
.ENDS LT6010
*
***
*
* Copyright © Linear Technology Corp. 09/16/2005. All rights reserved.
* Pinout (same as IC): VS- VCC FIL VEE VOUT A2 A4 VS+
.SUBCKT LT6100 1 2 3 4 5 6 7 8
Q1 12 13 14 0 NCUR
RO 14 4 50k
RE 3 14 10k
RG1 1 11 5k
RG2 8 12 5k
RR1 5 15 25k
RR3 15 7 8333
RR2 6 15 25k
GCUR1 0 101 12 11 1
RCUR1 101 0 1
IVOS 0 101 8E-5
GCUR2 0 102 101 0 1E2
RCUR2 102 0 10k
CCUR1 102 0 2E-6
GCUR3 0 103 102 0 1E-3
RCUR3 103 44 1E3
EVCC 22 0 2 0 1
EVEE 44 0 4 0 1
MOUT1 22 103 13 13 NOUT
MOUT2 44 103 13 13 POUT
IBIAS1 0 112 4.5E-2
ISUP 2 4 60E-6
DZ1 4 1 DZNR
DZ2 4 8 DZNR
GA1 0 201 3 15 1
RA1 201 0 8E1
RA2 202 0 1.59E6
CA1 202 0 1E-6
GOUT 0 204 VALUE={1E-3*TANH(V(203))}
GA3 0 203 202 0 6.2832
RA3 203 0 0.159155
CA2 203 0 1E-5
GA2 0 202 VALUE={5E-4*TANH(V(201))}
ROUT 204 44 1E5
MOUT3 205 204 5 5 NOUT
MOUT4 206 204 5 5 POUT
DVL1 210 202 DVLIM
DVL2 210 0 DVLIM
RVLD1 2 205 166
RVLD2 206 4 100
MICML 102 110 0 0 NOUT
EICML 110 0 VALUE={V(2)+1.4-V(51)}
MIB1 112 111 0 0 NOUT
EIB1 111 0 VALUE={10*(2.8-V(2)+V(4))}
RIB 112 0 100
GIB1 11 0 112 0 1E-6
GIB2 12 0 112 0 1E-6
RDUM1 6 4 1E9
RDUM2 7 4 1E9
MIB2 102 111 0 0 NOUT
GCMRR 0 52 51 4 1E-10
EICM 51 0 VALUE={(V(1)+V(8))/2}
RCMRR1 52 0 1E3
CCMRR 52 53 10p
RCMRR2 53 51 3E3
GCMRRO 0 101 52 0 1
GPSRR 0 54 2 4 1E-10
RPSRR1 54 0 1E3
RPSRR2 55 2 3E3
RPSRR3 56 4 3E3
CPSRR 54 55 10p
CPSRR1 54 56 10p
GPSRRO 0 101 54 0 1
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m)
.MODEL NCUR NPN(BF=500)
.MODEL DIN D(KF=0 RS=0)
.MODEL DZNR D(BV=50 IS=1E-14 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DOUT D(IS=1E-4 KF=0 RS=0)
.ENDS LT6100
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN_L(8)
.SUBCKT LT6200 3 2 7 4 6 8
CCM1 174 179 0.0001
CCM2 173 174 0.0001
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 1.42857e-8
CG4 173 171 1.42857e-8
CG5 176 179 5e-10
CG6 173 176 5e-10
CG7 177 179 5e-10
CG8 173 177 5e-10
CIN1 3 2 4.2p
CIN2 0 3 3.1p
CIN3 2 0 3.1p
CPSN 191 0 10p
CPSN1 173 190 1e-8
CPSN2 190 179 1e-8
CPSP 193 0 10p
CPSP1 173 192 1e-8
CPSP2 192 179 1e-8
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 187 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 189 153 DVLIM
DVLIM2 154 189 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 189 166 1E5
EILIM2 126 122 189 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 189 166 1E5
EPWR2 143 0 189 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 169 168 1778.27
ESRLIM4 148 146 168 169 1778.27
EVCC 173 0 151 0 1
EVEE 179 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 173 175 182 187 0.000316228
GCM2 179 175 182 187 0.000316228
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 1.11732
GG2 179 170 169 168 1.11732
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 189 173 173 181 0.05
GOUT2 179 189 181 179 0.05
GPSN1 173 191 4 179 0.00562341
GPSN2 179 191 4 179 0.00562341
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.05
GPSNO2 179 189 190 179 0.05
GPSP1 173 193 7 173 0.00891251
GPSP2 179 193 7 173 0.00891251
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.05
GPSPO2 179 189 192 179 0.05
GPWR1 140 0 189 166 100
GPWR2 141 0 189 166 100
GSHD3 4 7 121 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 113 168 VIN1 100
HIN2 118 169 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1e-5
IBIAS2 103 0 -1e-5
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.025
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 173 131 0.00530516
LCM2 132 179 0.00530516
LCMX 128 175 100
LPSN1 173 136 1.59155e-8
LPSN2 137 179 1.59155e-8
LPSP1 173 138 1.59155e-8
LPSP2 139 179 1.59155e-8
LZP1 173 158 5.96832e-9
LZP2 159 179 5.96832e-9
LZP3 173 160 1.59314e-13
LZP4 161 179 1.59314e-13
Q1 168 106 116 0 NPN1
Q2 169 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 175 1k
RCM2 175 132 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 128 0 0.1
RG1 173 170 15915.5
RG2 170 179 15915.5
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 164 182 1k
RICM2 165 182 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 543.478
RINOI2 135 0 543.478
ROUT1 173 189 20
ROUT2 189 179 20
ROUT3 188 166 0.01
RPSN1 136 191 1k
RPSN2 191 137 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 138 193 1k
RPSP2 193 139 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 140 173 1E6
RPWR2 141 179 1E6
RSENSE 166 189 0.01
RSHD1 121 0 1
RSHDN 8 7 1E9
RVCC 151 7 100
RVEE 152 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 157 135.67
RZP1 180 159 10
RZP2 158 180 10
RZP3 173 158 30
RZP4 159 179 30
RZP5 181 161 10
RZP6 160 181 10
RZP7 173 160 0.01001
RZP8 161 179 0.01001
SHD1 144 121 8 4 SHDN
SHD2 144 121 7 4 SHDN2X
SHD7 163 188 8 4 SHDNOX
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 168 169 145 0 SSRLIM
SSRLIM2 168 169 146 0 SSRLIM
SWB1 129 119 182 179 SBIAS
SWB2 130 120 173 182 SBIAS2X
VBIAS1 119 0 -10000
VBIAS2 120 0 18000
VILIM1 127 0 90
VILIM2 126 0 90
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1m
VSHDN 144 0 0.0237
VSRLIM1 149 0 50
VSRLIM2 150 0 50
VVLIM1 173 153 1.2735
VVLIM2 154 179 1.2735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 3.35879e-12)
.ENDS LT6200
*
***
*
* Version 1.67 Copyright ? Linear Technology Corp. 5/17/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN_L(8)
.SUBCKT LT6200-10 3 2 7 4 6 8
CCM1 167 0 0.001
CG2 163 0 1n
CG3 164 0 2e-7
CG5 169 0 6.25e-9
CG7 170 0 1e-9
CIN1 3 2 4.2p
CIN2 0 3 3.1p
CIN3 2 0 3.1p
CPSN 184 0 10p
CPSN2 183 0 1.42857e-8
CPSP 186 0 10p
CPSP2 185 0 1.42857e-8
CVM 180 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 182 148 DVLIM
DVLIM2 149 182 DVLIM
DVNF 150 0 DVNOI
DVNFX 151 0 DVNOIX
EICM1 157 0 2 0 1
EICM2 158 0 3 0 1
EILIM1 127 124 182 159 1E5
EILIM2 126 122 182 159 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 139 0 182 159 1E5
EPWR2 140 0 182 159 1E5
ESRLIM1 145 147 103 105 0
ESRLIM2 144 146 105 103 0
ESRLIM3 144 142 162 161 10029.2
ESRLIM4 145 143 161 162 10029.2
EVCC 166 0 7 0 1
EVEE 172 0 4 0 1
EVNOI1 107 108 0 152 1
EVNOI2 109 107 150 151 1
FVLIM1 182 0 VVLIM1 -1E7
FVLIM2 182 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM2 0 168 175 180 0.000630957
GCM3 0 167 168 0 6.2832
GCMO1 0 164 167 0 6.2832
GG2 0 163 162 161 6.30159
GG3 0 164 163 0 10
GG5 0 169 164 0 6.2832
GG7 0 170 169 0 6.2832
GILIM 163 0 132 0 0.01
GINOI1 103 0 0 133 1m
GINOI2 110 0 0 134 1m
GOUT2 0 182 174 0 0.05
GPSN2 0 184 4 180 0.141254
GPSN4 0 183 184 0 6.2832
GPSNO2 0 182 183 0 0.05
GPSP2 0 186 7 180 0.0891251
GPSP4 0 185 186 0 6.2832
GPSPO2 0 182 185 0 0.05
GPWR1 137 0 182 159 100
GPWR2 138 0 182 159 100
GSHD3 4 7 121 0 1
GZP1 172 173 170 0 0.1
GZP3 172 174 173 0 0.1
HIN1 113 161 VIN1 100
HIN2 118 162 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1e-5
IBIAS2 103 0 -1e-5
IDUM1 152 0 0
IDUM2 134 133 0
IPWR 7 4 0.02
ISLEW 111 0 10mA
IVNF 0 150 1A
IVNFX 0 151 1A
LCM2 131 0 0.106103
LCMX 128 168 100
LPSN2 135 0 0.000132629
LPSP2 136 0 0.000159155
LZP2 153 172 2.27205e-7
LZP4 154 172 1.60763e-12
Q1 161 106 116 0 NPN1
Q2 162 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM2 168 131 1k
RCM3 167 0 0.159155
RCMX 128 0 0.1
RCMX2 168 128 1E8
RG2 163 0 19894.4
RG3 164 0 0.159155
RG5 169 0 0.159155
RG7 170 0 0.159155
RICM1 157 175 1k
RICM2 158 175 1k
RILIM 132 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 133 0 543.478
RINOI2 134 0 543.478
ROUT2 182 0 20
ROUT3 181 159 0.01
RPSN2 184 135 1k
RPSN22 135 0 1E8
RPSN4 183 0 0.159155
RPSP2 186 136 1k
RPSP22 136 0 1E8
RPSP4 185 0 0.159155
RPWR1 137 166 1E6
RPWR2 138 172 1E6
RSENSE 159 182 0.01
RSHD1 121 0 1
RSHDN 8 7 1E9
RVH1 166 180 1k
RVH2 180 172 1k
RVNOI 0 152 54.2988
RZP1 173 153 10
RZP4 153 172 14275.7
RZP5 174 154 10
RZP8 154 172 0.10101
SHD1 141 121 8 4 SHDN
SHD2 141 121 7 4 SHDN2X
SHD7 156 181 8 4 SHDNOX
SHD8 156 6 7 4 SHDNO2
SILIM1 132 125 124 0 SILIM
SILIM2 132 123 122 0 SILIM
SPWR1 7 137 139 0 SPWR
SPWR2 4 138 140 0 SPWRX
SSRLIM1 161 162 142 0 SSRLIM
SSRLIM2 161 162 143 0 SSRLIM
SWB1 129 119 175 172 SBIAS
SWB2 130 120 166 175 SBIAS2X
VBIAS1 119 0 -10000
VBIAS2 120 0 18000
VILIM1 127 0 90
VILIM2 126 0 90
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1.4m
VSHDN 141 0 0.0184
VSRLIM1 146 0 500
VSRLIM2 147 0 440
VVLIM1 166 148 1.1935
VVLIM2 149 172 1.1355
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=1.90V VOFF=2.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.38899e-12)
.ENDS LT6200-10
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN_L(8)
.SUBCKT LT6200-5 3 2 7 4 6 8
CCM1 174 179 0.000333333
CCM2 173 174 0.000333333
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 3.81825e-7
CG4 173 171 3.81825e-7
CG5 176 179 2.83286e-9
CG6 173 176 2.83286e-9
CG7 177 179 2e-9
CG8 173 177 2e-9
CIN1 3 2 4.2p
CIN2 0 3 3.1p
CIN3 2 0 3.1p
CPSN 191 0 10p
CPSN1 173 190 1.42857e-8
CPSN2 190 179 1.42857e-8
CPSP 193 0 10p
CPSP1 173 192 1.42857e-8
CPSP2 192 179 1.42857e-8
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 187 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 189 153 DVLIM
DVLIM2 154 189 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 189 166 1E5
EILIM2 126 122 189 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 189 166 1E5
EPWR2 143 0 189 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 169 168 7284.68
ESRLIM4 148 146 168 169 7284.68
EVCC 173 0 151 0 1
EVEE 179 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 173 175 182 187 0.000630957
GCM2 179 175 182 187 0.000630957
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 4.57711
GG2 179 170 169 168 4.57711
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 189 173 173 181 0.025
GOUT2 179 189 181 179 0.025
GPSN1 173 191 4 179 0.141254
GPSN2 179 191 4 179 0.141254
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.025
GPSNO2 179 189 190 179 0.025
GPSP1 173 193 7 173 0.0891251
GPSP2 179 193 7 173 0.0891251
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.025
GPSPO2 179 189 192 179 0.025
GPWR1 140 0 189 166 100
GPWR2 141 0 189 166 100
GSHD3 4 7 121 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 113 168 VIN1 100
HIN2 118 169 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1e-5
IBIAS2 103 0 -1e-5
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.02
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 173 131 0.00530516
LCM2 132 179 0.00530516
LCMX 128 175 100
LPSN1 173 136 0.000159155
LPSN2 137 179 0.000159155
LPSP1 173 138 0.000198944
LPSP2 139 179 0.000198944
LZP1 173 158 4.25389e-7
LZP2 159 179 4.25389e-7
LZP3 173 160 1.59314e-13
LZP4 161 179 1.59314e-13
Q1 168 106 116 0 NPN1
Q2 169 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 175 1k
RCM2 175 132 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 128 0 0.1
RG1 173 170 43592.2
RG2 170 179 43592.2
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 164 182 1k
RICM2 165 182 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 543.478
RINOI2 135 0 543.478
ROUT1 173 189 40
ROUT2 189 179 40
ROUT3 188 166 0.01
RPSN1 136 191 1k
RPSN2 191 137 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 138 193 1k
RPSP2 193 139 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 140 173 1E6
RPWR2 141 179 1E6
RSENSE 166 189 0.01
RSHD1 121 0 1
RSHDN 8 7 1E9
RVCC 151 7 100
RVEE 152 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 157 54.2988
RZP1 180 159 10
RZP2 158 180 10
RZP3 173 158 26728
RZP4 159 179 26728
RZP5 181 161 10
RZP6 160 181 10
RZP7 173 160 0.01001
RZP8 161 179 0.01001
SHD1 144 121 8 4 SHDN
SHD2 144 121 7 4 SHDN2X
SHD7 163 188 8 4 SHDNOX
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 168 169 145 0 SSRLIM
SSRLIM2 168 169 146 0 SSRLIM
SWB1 129 119 182 179 SBIAS
SWB2 130 120 173 182 SBIAS2X
VBIAS1 119 0 -10000
VBIAS2 120 0 18000
VILIM1 127 0 90
VILIM2 126 0 90
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1.4m
VSHDN 144 0 0.0184
VSRLIM1 149 0 280
VSRLIM2 150 0 250
VVLIM1 173 153 1.1935
VVLIM2 154 179 1.1355
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.10V VOFF=0.30V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.30V VOFF=0.10V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=2.10V VOFF=1.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=1.90V VOFF=2.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.38899e-12)
.ENDS LT6200-5
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6201 3 2 7 4 6
CCM1 173 178 0.0001
CCM2 172 173 0.0001
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 1.42857e-8
CG4 172 170 1.42857e-8
CG5 175 178 5e-10
CG6 172 175 5e-10
CG7 176 178 5e-10
CG8 172 176 5e-10
CIN1 3 2 4.2p
CIN2 0 3 3.1p
CIN3 2 0 3.1p
CPSN 190 0 10p
CPSN1 172 189 1e-8
CPSN2 189 178 1e-8
CPSP 192 0 10p
CPSP1 172 191 1e-8
CPSP2 191 178 1e-8
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 1778.27
ESRLIM4 148 146 167 168 1778.27
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000316228
GCM2 178 174 181 186 0.000316228
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 1.11732
GG2 178 169 168 167 1.11732
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.0333333
GOUT2 178 188 180 178 0.0333333
GPSN1 172 190 4 178 0.00562341
GPSN2 178 190 4 178 0.00562341
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.0333333
GPSNO2 178 188 189 178 0.0333333
GPSP1 172 192 7 172 0.00891251
GPSP2 178 192 7 172 0.00891251
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.0333333
GPSPO2 178 188 191 178 0.0333333
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1e-5
IBIAS2 103 0 -1e-5
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.025
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.00530516
LCM2 132 178 0.00530516
LCMX 128 174 100
LPSN1 172 136 1.59155e-8
LPSN2 137 178 1.59155e-8
LPSP1 172 138 1.59155e-8
LPSP2 139 178 1.59155e-8
LZP1 172 158 8.6209e-9
LZP2 159 178 8.6209e-9
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 15915.5
RG2 169 178 15915.5
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 543.478
RINOI2 135 0 543.478
ROUT1 172 188 30
ROUT2 188 178 30
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 135.67
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 43.3333
RZP4 159 178 43.3333
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -10000
VBIAS2 120 0 18000
VILIM1 127 0 90
VILIM2 126 0 90
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1m
VSHD7 163 187 0
VSHDN 144 0 0.024999
VSRLIM1 149 0 50
VSRLIM2 150 0 50
VVLIM1 172 153 1.2735
VVLIM2 154 178 1.2735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 3.35879e-12)
.ENDS LT6201
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6203 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6203 3 2 7 4 6 LT6202
.ENDS LT6203
*
.SUBCKT LT6204 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6204 3 2 7 4 6 LT6202
.ENDS LT6204
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6202 3 2 7 4 6
CCM1 173 178 0.000333333
CCM2 172 173 0.000333333
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 5e-9
CG4 172 170 5e-9
CG5 175 178 1e-10
CG6 172 175 1e-10
CG7 176 178 1e-10
CG8 172 176 1e-10
CIN1 3 2 1.5p
CIN2 0 3 1.8p
CIN3 2 0 1.8p
CPSN 190 0 10p
CPSN1 172 189 0.000333333
CPSN2 189 178 0.000333333
CPSP 192 0 10p
CPSP1 172 191 0.000333333
CPSP2 191 178 0.000333333
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 598.577
ESRLIM4 148 146 167 168 598.577
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000446684
GCM2 178 174 181 186 0.000446684
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 0.376098
GG2 178 169 168 167 0.376098
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.01
GOUT2 178 188 180 178 0.01
GPSN1 172 190 4 178 0.00501187
GPSN2 178 190 4 178 0.00501187
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.01
GPSNO2 178 188 189 178 0.01
GPSP1 172 192 7 172 0.00630957
GPSP2 178 192 7 172 0.00630957
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.01
GPSPO2 178 188 191 178 0.01
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1.75e-6
IBIAS2 103 0 -1.75e-6
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.0025
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.00198944
LCM2 132 178 0.00198944
LCMX 128 174 100
LPSN1 172 136 0.00198944
LPSN2 137 178 0.00198944
LPSP1 172 138 0.00198944
LPSP2 139 178 0.00198944
LZP1 172 158 2.85663e-9
LZP2 159 178 2.85663e-9
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 53051.7
RG2 169 178 53051.7
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 60.3865
RINOI2 135 0 60.3865
ROUT1 172 188 100
ROUT2 188 178 100
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 241.346
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 11.6666
RZP4 159 178 11.6666
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 1746.5
VBIAS2 120 0 3250
VILIM1 127 0 40
VILIM2 126 0 40
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 0.5m
VSHD7 163 187 0
VSHDN 144 0 0.002499
VSRLIM1 149 0 20
VSRLIM2 150 0 20
VVLIM1 172 153 1.1735
VVLIM2 154 178 1.1735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=1.20V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.20V VOFF=1.00V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.20V VOFF=1.00V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=1.20V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.19423e-11)
.ENDS LT6202
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6206 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6205 3 2 7 4 6 LT6205
.ENDS LT6206
*
.SUBCKT LT6207 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6205 3 2 7 4 6 LT6205
.ENDS LT6207
*
* Version 1.67 Copyright ? Linear Technology Corp. 5/17/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6205 3 2 7 4 6
CCM1 162 0 0.00025
CG2 158 0 1n
CG3 159 0 2e-9
CG5 164 0 1.42857e-9
CG7 165 0 1e-9
CIN1 3 2 2p
CIN2 0 3 2p
CIN3 2 0 2p
CPSN 179 0 10p
CPSN2 178 0 0.00025
CPSP 181 0 10p
CPSP2 180 0 0.00025
CVM 175 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 177 144 DVLIM
DVLIM2 145 177 DVLIM
DVNF 146 0 DVNOI
DVNFX 147 0 DVNOIX
EICM1 153 0 2 0 1
EICM2 154 0 3 0 1
EILIM1 125 122 177 155 1E5
EILIM2 124 120 177 155 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 135 0 177 155 1E5
EPWR2 136 0 177 155 1E5
ESRLIM1 141 143 103 105 0
ESRLIM2 140 142 105 103 0
ESRLIM3 140 138 157 156 891.743
ESRLIM4 141 139 156 157 891.743
EVCC 161 0 7 0 1
EVEE 167 0 4 0 1
EVNOI1 107 108 0 148 1
EVNOI2 109 107 146 147 1
FVLIM1 177 0 VVLIM1 -1E7
FVLIM2 177 0 VVLIM2 1E7
GCM2 0 163 170 175 0.000630957
GCM3 0 162 163 0 6.2832
GCMO1 0 159 162 0 6.2832
GG2 0 158 157 156 0.5603
GG3 0 159 158 0 10
GG5 0 164 159 0 6.2832
GG7 0 165 164 0 6.2832
GILIM 158 0 128 0 0.01
GINOI1 103 0 0 129 1m
GINOI2 110 0 0 130 1m
GOUT2 0 177 169 0 0.01
GPSN2 0 179 4 175 0.00630957
GPSN4 0 178 179 0 6.2832
GPSNO2 0 177 178 0 0.01
GPSP2 0 181 7 175 0.00354813
GPSP4 0 180 181 0 6.2832
GPSPO2 0 177 180 0 0.01
GPWR1 133 0 177 155 100
GPWR2 134 0 177 155 100
GSHD3 4 7 119 0 1
GZP1 167 168 165 0 0.1
GZP3 167 169 168 0 0.1
HIN1 113 156 VIN1 100
HIN2 118 157 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 -1e-5
IBIAS2 103 0 -1e-5
IDUM1 148 0 0
IDUM2 130 129 0
IPWR 7 4 0.0037
ISLEW 111 0 10mA
IVNF 0 146 1A
IVNFX 0 147 1A
LCM2 127 0 0.00530516
LCMX 126 163 100
LPSN2 131 0 0.00159154
LPSP2 132 0 0.00795775
LZP2 149 167 1.57579e-13
LZP4 150 167 1.57579e-13
Q1 156 106 116 0 NPN1
Q2 157 104 112 0 NPN1
RCM2 163 127 1k
RCM3 162 0 0.159155
RCMX 126 0 0.1
RCMX2 163 126 1E8
RG2 158 0 39788.8
RG3 159 0 0.159155
RG5 164 0 0.159155
RG7 165 0 0.159155
RICM1 153 170 1k
RICM2 154 170 1k
RILIM 128 0 1
RIN1 108 3 150
RIN2 103 2 150
RINOI1 129 0 966.184
RINOI2 130 0 966.184
ROUT2 177 0 100
ROUT3 176 155 0.01
RPSN2 179 131 1k
RPSN22 131 0 1E8
RPSN4 178 0 0.159155
RPSP2 181 132 1k
RPSP22 132 0 1E8
RPSP4 180 0 0.159155
RPWR1 133 161 1E6
RPWR2 134 167 1E6
RSENSE 155 177 0.01
RSHD1 119 0 1
RVH1 161 175 1k
RVH2 175 167 1k
RVNOI 0 148 4591.3
RZP1 168 149 10
RZP4 149 167 0.1
RZP5 169 150 10
RZP8 150 167 0.1
SHD2 137 119 7 4 SHDN2X
SHD8 152 6 7 4 SHDNO2
SILIM1 128 123 122 0 SILIM
SILIM2 128 121 120 0 SILIM
SPWR1 7 133 135 0 SPWR
SPWR2 4 134 136 0 SPWRX
SSRLIM1 156 157 138 0 SSRLIM
SSRLIM2 156 157 139 0 SSRLIM
VILIM1 125 0 60
VILIM2 124 0 65
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 1m
VSHD7 152 176 0
VSHDN 137 0 0.003699
VSRLIM1 142 0 500
VSRLIM2 143 0 450
VVLIM1 161 144 1.2235
VVLIM2 145 167 1.1535
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 6.04582e-11)
.ENDS LT6205
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6221 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6220 3 2 7 4 6 LT6220
.ENDS LT6221
*
.SUBCKT LT6222 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6220 3 2 7 4 6 LT6220
.ENDS LT6222
*
* Version 1.67 Copyright ? Linear Technology Corp. 5/19/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6220 3 2 7 4 6
CCM1 162 0 0.001
CG2 158 0 1n
CG3 159 0 5e-7
CG5 164 0 1.26582e-8
CG7 165 0 1e-10
CIN1 3 2 0.1f
CIN2 0 3 2p
CIN3 2 0 2p
CPSN 179 0 10p
CPSN2 178 0 1e-6
CPSP 181 0 10p
CPSP2 180 0 1e-6
CVM 175 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 177 144 DVLIM
DVLIM2 145 177 DVLIM
DVNF 146 0 DVNOI
DVNFX 147 0 DVNOIX
EICM1 153 0 2 0 1
EICM2 154 0 3 0 1
EILIM1 125 122 177 155 1E5
EILIM2 124 120 177 155 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 135 0 177 155 1E5
EPWR2 136 0 177 155 1E5
ESRLIM1 141 143 103 105 0
ESRLIM2 140 142 105 103 0
ESRLIM3 140 138 157 156 499.091
ESRLIM4 141 139 156 157 499.091
EVCC 161 0 7 0 1
EVEE 167 0 4 0 1
EVNOI1 107 108 0 148 1
EVNOI2 109 107 146 147 1
FVLIM1 177 0 VVLIM1 -1E7
FVLIM2 177 0 VVLIM2 1E7
GCM2 0 163 170 175 0.000446684
GCM3 0 162 163 0 6.2832
GCMO1 0 159 162 0 6.2832
GG2 0 158 157 156 0.313589
GG3 0 159 158 0 10
GG5 0 164 159 0 6.2832
GG7 0 165 164 0 6.2832
GILIM 158 0 128 0 0.01
GINOI1 103 0 0 129 1m
GINOI2 110 0 0 130 1m
GOUT2 0 177 169 0 10
GPSN2 0 179 4 175 0.000794328
GPSN4 0 178 179 0 6.2832
GPSNO2 0 177 178 0 10
GPSP2 0 181 7 175 0.000794328
GPSP4 0 180 181 0 6.2832
GPSPO2 0 177 180 0 10
GPWR1 133 0 177 155 100
GPWR2 134 0 177 155 100
GSHD3 4 7 119 0 1
GZP1 167 168 165 0 0.1
GZP3 167 169 168 0 0.1
HIN1 113 156 VIN1 100
HIN2 118 157 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 1.5e-8
IBIAS2 103 0 1.5e-8
IDUM1 148 0 0
IDUM2 130 129 0
IPWR 7 4 0.001
ISLEW 111 0 10mA
IVNF 0 146 1A
IVNFX 0 147 1A
LCM2 127 0 0.00530516
LCMX 126 163 100
LPSN2 131 0 1.59155e-8
LPSP2 132 0 1.59155e-8
LZP2 149 167 2.27205e-7
LZP4 150 167 1.76839e-11
Q1 156 106 116 0 NPN1
Q2 157 104 112 0 NPN1
RCM2 163 127 1k
RCM3 162 0 0.159155
RCMX 126 0 0.1
RCMX2 163 126 1E8
RG2 158 0 159155
RG3 159 0 0.159155
RG5 164 0 0.159155
RG7 165 0 0.159155
RICM1 153 170 1k
RICM2 154 170 1k
RILIM 128 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 129 0 38.6473
RINOI2 130 0 38.6473
ROUT2 177 0 0.1
ROUT3 176 155 0.01
RPSN2 179 131 1k
RPSN22 131 0 1E8
RPSN4 178 0 0.159155
RPSP2 181 132 1k
RPSP22 132 0 1E8
RPSP4 180 0 0.159155
RPWR1 133 161 1E6
RPWR2 134 167 1E6
RSENSE 155 177 0.01
RSHD1 119 0 1
RVH1 161 175 1k
RVH2 175 167 1k
RVNOI 0 148 6038.45
RZP1 168 149 10
RZP4 149 167 14275.7
RZP5 169 150 10
RZP8 150 167 1.11111
SHD2 137 119 7 4 SHDN2X
SHD8 152 6 7 4 SHDNO2
SILIM1 128 123 122 0 SILIM
SILIM2 128 121 120 0 SILIM
SPWR1 7 133 135 0 SPWR
SPWR2 4 134 136 0 SPWRX
SSRLIM1 156 157 138 0 SSRLIM
SSRLIM2 156 157 139 0 SSRLIM
VILIM1 125 0 35
VILIM2 124 0 35
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 200u
VSHD7 152 176 0
VSHDN 137 0 0.000999
VSRLIM1 142 0 20
VSRLIM2 143 0 20
VVLIM1 161 144 1.2535
VVLIM2 145 167 1.2235
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.49279e-11)
.ENDS LT6220
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN(8)
.SUBCKT LT6230 3 2 7 4 6 8
CCM1 174 179 0.0001
CCM2 173 174 0.0001
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 1e-7
CG4 173 171 1e-7
CG5 176 179 2e-9
CG6 173 176 2e-9
CG7 177 179 1.11111e-9
CG8 173 177 1.11111e-9
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 191 0 10p
CPSN1 173 190 0.000333333
CPSN2 190 179 0.000333333
CPSP 193 0 10p
CPSP1 173 192 1e-7
CPSP2 192 179 1e-7
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 187 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 189 153 DVLIM
DVLIM2 154 189 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 189 166 1E5
EILIM2 126 122 189 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 189 166 1E5
EPWR2 143 0 189 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 169 168 3981.06
ESRLIM4 148 146 168 169 3981.06
EVCC 173 0 151 0 1
EVEE 179 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 173 175 182 187 0.000398107
GCM2 179 175 182 187 0.000398107
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 2.50138
GG2 179 170 169 168 2.50138
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 189 173 173 181 0.0125
GOUT2 179 189 181 179 0.0125
GPSN1 173 191 4 179 0.000125893
GPSN2 179 191 4 179 0.000125893
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.0125
GPSNO2 179 189 190 179 0.0125
GPSP1 173 193 7 173 0.000125893
GPSP2 179 193 7 173 0.000125893
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.0125
GPSPO2 179 189 192 179 0.0125
GPWR1 140 0 189 166 100
GPWR2 141 0 189 166 100
GSHD3 4 7 121 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 113 168 VIN1 100
HIN2 118 169 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 7e-6
IBIAS2 103 0 7e-6
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.00315
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 173 131 0.0063662
LCM2 132 179 0.0063662
LCMX 128 175 100
LPSN1 173 136 0.0159155
LPSN2 137 179 0.0159155
LPSP1 173 138 1.59155e-8
LPSP2 139 179 1.59155e-8
LZP1 173 158 5.3658e-8
LZP2 159 179 5.3658e-8
LZP3 173 160 1.59314e-13
LZP4 161 179 1.59314e-13
Q1 168 106 116 0 NPN1
Q2 169 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 175 1k
RCM2 175 132 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 128 0 0.1
RG1 173 170 15915.5
RG2 170 179 15915.5
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 164 182 1k
RICM2 165 182 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 347.826
RINOI2 135 0 347.826
ROUT1 173 189 80
ROUT2 189 179 80
ROUT3 188 166 0.01
RPSN1 136 191 1k
RPSN2 191 137 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 138 193 1k
RPSP2 193 139 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 140 173 1E6
RPWR2 141 179 1E6
RSENSE 166 189 0.01
RSHD1 121 0 1
RSHDN 8 4 1E9
RVCC 151 7 100
RVEE 152 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 157 72.8676
RZP1 180 159 10
RZP2 158 180 10
RZP3 173 158 168.571
RZP4 159 179 168.571
RZP5 181 161 10
RZP6 160 181 10
RZP7 173 160 0.01001
RZP8 161 179 0.01001
SHD1 144 121 8 4 SHDNX
SHD2 144 121 7 4 SHDN2X
SHD7 163 188 8 4 SHDNO
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 168 169 145 0 SSRLIM
SSRLIM2 168 169 146 0 SSRLIM
SWB1 129 119 182 179 SBIAS
SWB2 130 120 173 182 SBIAS2X
VBIAS1 119 0 -7000
VBIAS2 120 0 200
VILIM1 127 0 40
VILIM2 126 0 40
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 100u
VSHDN 144 0 0.003148
VSRLIM1 149 0 60
VSRLIM2 150 0 60
VVLIM1 173 153 1.1735
VVLIM2 154 179 1.1735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.60V VOFF=0.80V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=0.60V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.80628e-12)
.ENDS LT6230
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) EN_L(8)
.SUBCKT LT6230-10 3 2 7 4 6 8
CCM1 174 179 1e-5
CCM2 173 174 1e-5
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 2.5e-7
CG4 173 171 2.5e-7
CG5 176 179 2e-9
CG6 173 176 2e-9
CG7 177 179 1e-10
CG8 173 177 1e-10
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 191 0 10p
CPSN1 173 190 0.000333333
CPSN2 190 179 0.000333333
CPSP 193 0 10p
CPSP1 173 192 1e-7
CPSP2 192 179 1e-7
CVCC 152 0 1E5
CVEE 153 0 1E5
CVM 187 0 1E5
DIN1 109 7 DIODE
DIN2 104 7 DIODE
DIN3 4 109 DIODE
DIN4 4 104 DIODE
DIN5 104 109 DIODE
DIN6 109 104 DIODE
DVLIM1 189 154 DVLIM
DVLIM2 155 189 DVLIM
DVNF 156 0 DVNOI
DVNFX 157 0 DVNOIX
EICM1 165 0 2 0 1
EICM2 166 0 3 0 1
EILIM1 128 125 189 167 1E5
EILIM2 127 123 189 167 -1E5
EIN1 107 0 106 0 1
EIN2 105 0 104 0 1
EPWR1 143 0 189 167 1E5
EPWR2 144 0 189 167 1E5
ESRLIM1 149 151 104 106 0
ESRLIM2 148 150 106 104 0
ESRLIM3 148 146 169 168 17782.7
ESRLIM4 149 147 168 169 17782.7
EVCC 173 0 152 0 1
EVEE 179 0 153 0 1
EVNOI1 108 109 0 158 1
EVNOI2 110 108 156 157 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 106 0 130 0 1E-9
GBIAS2 104 0 130 0 1E-9
GBIAS3 106 0 131 0 1E-9
GBIAS4 104 0 131 0 1E-9
GCM1 173 175 182 187 0.000177828
GCM2 179 175 182 187 0.000177828
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 11.1732
GG2 179 170 169 168 11.1732
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 134 0 0.01
GINOI1 104 0 0 135 1m
GINOI2 111 0 0 136 1m
GOUT1 189 173 173 181 0.0125
GOUT2 179 189 181 179 0.0125
GPSN1 173 191 4 179 5.62341e-5
GPSN2 179 191 4 179 5.62341e-5
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.0125
GPSNO2 179 189 190 179 0.0125
GPSP1 173 193 7 173 5.62341e-5
GPSP2 179 193 7 173 5.62341e-5
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.0125
GPSPO2 179 189 192 179 0.0125
GPWR1 141 0 189 167 100
GPWR2 142 0 189 167 100
GSHD3 4 7 122 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 114 168 VIN1 100
HIN2 119 169 VIN2 100
HIN3 117 118 VIN3 100
HIN4 113 116 VIN4 100
IBIAS1 106 0 7e-6
IBIAS2 104 0 7e-6
IDUM1 158 0 0
IDUM2 136 135 0
IPWR 7 4 0.00315
ISLEW 112 0 10mA
IVNF 0 156 1A
IVNFX 0 157 1A
LCM1 173 132 0.0159155
LCM2 133 179 0.0159155
LCMX 129 175 100
LPSN1 173 137 0.0159155
LPSN2 138 179 0.0159155
LPSP1 173 139 1.59155e-8
LPSP2 140 179 1.59155e-8
LZP1 173 159 4.98686e-8
LZP2 160 179 4.98686e-8
LZP3 173 161 1.59314e-13
LZP4 162 179 1.59314e-13
Q1 168 107 117 0 NPN1
Q2 169 105 113 0 NPN1
RBIAS1 130 0 1
RBIAS2 131 0 1
RCM1 132 175 1k
RCM2 175 133 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 129 0 0.1
RG1 173 170 1591.55
RG2 170 179 1591.55
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 165 182 1k
RICM2 166 182 1k
RILIM 134 0 1
RIN1 109 3 0.1Ohms
RIN2 104 2 0.1Ohms
RINOI1 135 0 347.826
RINOI2 136 0 347.826
ROUT1 173 189 80
ROUT2 189 179 80
ROUT3 188 167 0.01
RPSN1 137 191 1k
RPSN2 191 138 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 139 193 1k
RPSP2 193 140 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 141 173 1E6
RPWR2 142 179 1E6
RSENSE 167 189 0.01
RSHD1 122 0 1
RSHDN 8 7 1E9
RVCC 152 7 100
RVEE 153 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 158 72.8676
RZP1 180 160 10
RZP2 159 180 10
RZP3 173 159 156.667
RZP4 160 179 156.667
RZP5 181 162 10
RZP6 161 181 10
RZP7 173 161 0.01001
RZP8 162 179 0.01001
SHD1 145 122 7 8 SHDN
SHD2 145 122 7 4 SHDN2X
SHD7 164 188 7 8 SHDNOX
SHD8 164 6 7 4 SHDNO2
SILIM1 134 126 125 0 SILIM
SILIM2 134 124 123 0 SILIM
SPWR1 7 141 143 0 SPWR
SPWR2 4 142 144 0 SPWRX
SSRLIM1 168 169 146 0 SSRLIM
SSRLIM2 168 169 147 0 SSRLIM
SWB1 130 120 182 179 SBIAS
SWB2 131 121 173 182 SBIAS2X
VBIAS1 120 0 -7000
VBIAS2 121 0 200
VILIM1 128 0 40
VILIM2 127 0 40
VILIM3 126 0 10000
VILIM4 124 0 -10000
VIN1 115 114 0
VIN2 115 119 0
VIN3 118 112 0
VIN4 116 112 0
VINPUT 115 0 100
VNF 110 111 83.3788uV
VOS 106 111 100u
VSHDN 145 0 0.003148
VSRLIM1 150 0 250
VSRLIM2 151 0 250
VVLIM1 173 154 1.1735
VVLIM2 155 179 1.1735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.60V VOFF=0.80V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=0.60V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.80628e-12)
.ENDS LT6230-10
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6232 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6231 3 2 7 4 6 LT6231
.ENDS LT6232
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6231 3 2 7 4 6
CCM1 173 178 0.0001
CCM2 172 173 0.0001
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 1e-7
CG4 172 170 1e-7
CG5 175 178 2e-9
CG6 172 175 2e-9
CG7 176 178 1e-10
CG8 172 176 1e-10
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 190 0 10p
CPSN1 172 189 0.000333333
CPSN2 189 178 0.000333333
CPSP 192 0 10p
CPSP1 172 191 1e-7
CPSP2 191 178 1e-7
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 3981.06
ESRLIM4 148 146 167 168 3981.06
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000398107
GCM2 178 174 181 186 0.000398107
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 2.50138
GG2 178 169 168 167 2.50138
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.025
GOUT2 178 188 180 178 0.025
GPSN1 172 190 4 178 0.000125893
GPSN2 178 190 4 178 0.000125893
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.025
GPSNO2 178 188 189 178 0.025
GPSP1 172 192 7 172 0.000125893
GPSP2 178 192 7 172 0.000125893
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.025
GPSPO2 178 188 191 178 0.025
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 7e-6
IBIAS2 103 0 7e-6
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.00315
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.0063662
LCM2 132 178 0.0063662
LCMX 128 174 100
LPSN1 172 136 0.0159155
LPSN2 137 178 0.0159155
LPSP1 172 138 1.59155e-8
LPSP2 139 178 1.59155e-8
LZP1 172 158 5.3658e-8
LZP2 159 178 5.3658e-8
LZP3 172 160 1.59314e-13
LZP4 161 178 1.59314e-13
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 15915.5
RG2 169 178 15915.5
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 134 0 347.826
RINOI2 135 0 347.826
ROUT1 172 188 40
ROUT2 188 178 40
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 72.8676
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 168.571
RZP4 159 178 168.571
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 0.01001
RZP8 161 178 0.01001
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -7000
VBIAS2 120 0 200
VILIM1 127 0 40
VILIM2 126 0 40
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 50u
VSHD7 163 187 0
VSHDN 144 0 0.003148
VSRLIM1 149 0 37.5
VSRLIM2 150 0 37.5
VVLIM1 172 153 1.1735
VVLIM2 154 178 1.1735
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.60V VOFF=0.80V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=0.60V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.80628e-12)
.ENDS LT6231
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) EN_L(8)
.SUBCKT LT6233 3 2 7 4 6 8
CCM1 174 179 0.0025
CCM2 173 174 0.0025
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 2.5e-7
CG4 173 171 2.5e-7
CG5 176 179 2.5e-9
CG6 173 176 2.5e-9
CG7 177 179 1e-10
CG8 173 177 1e-10
CIN1 3 2 4.2p
CIN2 0 3 2.5p
CIN3 2 0 2.5p
CPSN 191 0 10p
CPSN1 173 190 0.0025
CPSN2 190 179 0.0025
CPSP 193 0 10p
CPSP1 173 192 0.0025
CPSP2 192 179 0.0025
CVCC 152 0 1E5
CVEE 153 0 1E5
CVM 187 0 1E5
DIN1 109 7 DIODE
DIN2 104 7 DIODE
DIN3 4 109 DIODE
DIN4 4 104 DIODE
DIN5 104 109 DIODE
DIN6 109 104 DIODE
DVLIM1 189 154 DVLIM
DVLIM2 155 189 DVLIM
DVNF 156 0 DVNOI
DVNFX 157 0 DVNOIX
EICM1 165 0 2 0 1
EICM2 166 0 3 0 1
EILIM1 128 125 189 167 1E5
EILIM2 127 123 189 167 -1E5
EIN1 107 0 106 0 1
EIN2 105 0 104 0 1
EPWR1 143 0 189 167 1E5
EPWR2 144 0 189 167 1E5
ESRLIM1 149 151 104 106 0
ESRLIM2 148 150 106 104 0
ESRLIM3 148 146 169 168 799.997
ESRLIM4 149 147 168 169 799.997
EVCC 173 0 152 0 1
EVEE 179 0 153 0 1
EVNOI1 108 109 0 158 1
EVNOI2 110 108 156 157 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 106 0 130 0 1E-9
GBIAS2 104 0 130 0 1E-9
GBIAS3 106 0 131 0 1E-9
GBIAS4 104 0 131 0 1E-9
GCM1 173 175 182 187 0.000562341
GCM2 179 175 182 187 0.000562341
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 0.502654
GG2 179 170 169 168 0.502654
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 134 0 0.01
GINOI1 104 0 0 135 1m
GINOI2 111 0 0 136 1m
GOUT1 189 173 173 181 0.005
GOUT2 179 189 181 179 0.005
GPSN1 173 191 4 179 0.000316228
GPSN2 179 191 4 179 0.000316228
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.005
GPSNO2 179 189 190 179 0.005
GPSP1 173 193 7 173 0.000316228
GPSP2 179 193 7 173 0.000316228
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.005
GPSPO2 179 189 192 179 0.005
GPWR1 141 0 189 167 100
GPWR2 142 0 189 167 100
GSHD3 4 7 122 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 114 168 VIN1 100
HIN2 119 169 VIN2 100
HIN3 117 118 VIN3 100
HIN4 113 116 VIN4 100
IBIAS1 106 0 1.5e-6
IBIAS2 104 0 1.5e-6
IDUM1 158 0 0
IDUM2 136 135 0
IPWR 7 4 0.00105
ISLEW 112 0 10mA
IVNF 0 156 1A
IVNFX 0 157 1A
LCM1 173 132 0.00530516
LCM2 133 179 0.00530516
LCMX 129 175 100
LPSN1 173 137 0.0795775
LPSN2 138 179 0.0795775
LPSP1 173 139 0.00159154
LPSP2 140 179 0.00159154
LZP1 173 159 2.73457e-7
LZP2 160 179 2.73457e-7
LZP3 173 161 1.06103e-8
LZP4 162 179 1.06103e-8
Q1 168 107 117 0 NPN1
Q2 169 105 113 0 NPN1
RBIAS1 130 0 1
RBIAS2 131 0 1
RCM1 132 175 1k
RCM2 175 133 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 129 0 0.1
RG1 173 170 198944
RG2 170 179 198944
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 165 182 1k
RICM2 166 182 1k
RILIM 134 0 1
RIN1 109 3 0.1Ohms
RIN2 104 2 0.1Ohms
RINOI1 135 0 15.0966
RINOI2 136 0 15.0966
ROUT1 173 189 200
ROUT2 189 179 200
ROUT3 188 167 0.01
RPSN1 137 191 1k
RPSN2 191 138 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 139 193 1k
RPSP2 193 140 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 141 173 1E6
RPWR2 142 179 1E6
RSENSE 167 189 0.01
RSHD1 122 0 1
RSHDN 8 7 1E9
RVCC 152 7 100
RVEE 153 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 158 217.795
RZP1 180 160 10
RZP2 159 180 10
RZP3 173 159 171.818
RZP4 160 179 171.818
RZP5 181 162 10
RZP6 161 181 10
RZP7 173 161 6.66667
RZP8 162 179 6.66667
SHD1 145 122 7 8 SHDN
SHD2 145 122 7 4 SHDN2X
SHD7 164 188 7 8 SHDNOX
SHD8 164 6 7 4 SHDNO2
SILIM1 134 126 125 0 SILIM
SILIM2 134 124 123 0 SILIM
SPWR1 7 141 143 0 SPWR
SPWR2 4 142 144 0 SPWRX
SSRLIM1 168 169 146 0 SSRLIM
SSRLIM2 168 169 147 0 SSRLIM
SWB1 130 120 182 179 SBIAS
SWB2 131 121 173 182 SBIAS2X
VBIAS1 120 0 -1500
VBIAS2 121 0 200
VILIM1 128 0 50
VILIM2 127 0 50
VILIM3 126 0 10000
VILIM4 124 0 -10000
VIN1 115 114 0
VIN2 115 119 0
VIN3 118 112 0
VIN4 116 112 0
VINPUT 115 0 100
VNF 110 111 83.3788uV
VOS 106 111 100u
VSHDN 145 0 0.0010498
VSRLIM1 150 0 9.3
VSRLIM2 151 0 9.3
VVLIM1 173 154 1.1285
VVLIM2 155 179 1.1275
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.38899e-13)
.ENDS LT6233
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) EN_L(8)
.SUBCKT LT6233-10 3 2 7 4 6 8
CCM1 174 179 0.00025
CCM2 173 174 0.00025
CG1 173 170 1n
CG2 170 179 1n
CG3 171 179 3.33333e-7
CG4 173 171 3.33333e-7
CG5 176 179 2.85714e-9
CG6 173 176 2.85714e-9
CG7 177 179 1.66667e-9
CG8 173 177 1.66667e-9
CIN1 3 2 4.2p
CIN2 0 3 2.5p
CIN3 2 0 2.5p
CPSN 191 0 10p
CPSN1 173 190 0.00025
CPSN2 190 179 0.00025
CPSP 193 0 10p
CPSP1 173 192 0.00025
CPSP2 192 179 0.00025
CVCC 152 0 1E5
CVEE 153 0 1E5
CVM 187 0 1E5
DIN1 109 7 DIODE
DIN2 104 7 DIODE
DIN3 4 109 DIODE
DIN4 4 104 DIODE
DIN5 104 109 DIODE
DIN6 109 104 DIODE
DVLIM1 189 154 DVLIM
DVLIM2 155 189 DVLIM
DVNF 156 0 DVNOI
DVNFX 157 0 DVNOIX
EICM1 165 0 2 0 1
EICM2 166 0 3 0 1
EILIM1 128 125 189 167 1E5
EILIM2 127 123 189 167 -1E5
EIN1 107 0 106 0 1
EIN2 105 0 104 0 1
EPWR1 143 0 189 167 1E5
EPWR2 144 0 189 167 1E5
ESRLIM1 149 151 104 106 0
ESRLIM2 148 150 106 104 0
ESRLIM3 148 146 169 168 3999.99
ESRLIM4 149 147 168 169 3999.99
EVCC 173 0 152 0 1
EVEE 179 0 153 0 1
EVNOI1 108 109 0 158 1
EVNOI2 110 108 156 157 1
FVLIM1 189 0 VVLIM1 -1E7
FVLIM2 189 0 VVLIM2 1E7
GBIAS1 106 0 130 0 1E-9
GBIAS2 104 0 130 0 1E-9
GBIAS3 106 0 131 0 1E-9
GBIAS4 104 0 131 0 1E-9
GCM1 173 175 182 187 0.000562341
GCM2 179 175 182 187 0.000562341
GCM3 179 174 175 187 6.2832
GCM4 173 174 175 187 6.2832
GCMO1 179 171 174 179 6.2832
GCMO2 171 173 173 174 6.2832
GG1 173 170 169 168 2.51327
GG2 179 170 169 168 2.51327
GG3 179 171 170 187 10
GG4 173 171 170 187 10
GG5 179 176 171 187 6.2832
GG6 173 176 171 187 6.2832
GG7 179 177 176 187 6.2832
GG8 173 177 176 187 6.2832
GILIM 170 0 134 0 0.01
GINOI1 104 0 0 135 1m
GINOI2 111 0 0 136 1m
GOUT1 189 173 173 181 0.005
GOUT2 179 189 181 179 0.005
GPSN1 173 191 4 179 0.000316228
GPSN2 179 191 4 179 0.000316228
GPSN3 173 190 191 187 6.2832
GPSN4 179 190 191 187 6.2832
GPSNO1 189 173 173 190 0.005
GPSNO2 179 189 190 179 0.005
GPSP1 173 193 7 173 0.000316228
GPSP2 179 193 7 173 0.000316228
GPSP3 173 192 193 187 6.2832
GPSP4 179 192 193 187 6.2832
GPSPO1 189 173 173 192 0.005
GPSPO2 179 189 192 179 0.005
GPWR1 141 0 189 167 100
GPWR2 142 0 189 167 100
GSHD3 4 7 122 0 1
GZP1 179 180 177 187 0.1
GZP2 173 180 177 187 0.1
GZP3 179 181 180 187 0.1
GZP4 173 181 180 187 0.1
HIN1 114 168 VIN1 100
HIN2 119 169 VIN2 100
HIN3 117 118 VIN3 100
HIN4 113 116 VIN4 100
IBIAS1 106 0 1.5e-6
IBIAS2 104 0 1.5e-6
IDUM1 158 0 0
IDUM2 136 135 0
IPWR 7 4 0.00105
ISLEW 112 0 10mA
IVNF 0 156 1A
IVNFX 0 157 1A
LCM1 173 132 0.00530516
LCM2 133 179 0.00530516
LCMX 129 175 100
LPSN1 173 137 0.0795775
LPSN2 138 179 0.0795775
LPSP1 173 139 0.00159154
LPSP2 140 179 0.00159154
LZP1 173 159 2.73457e-7
LZP2 160 179 2.73457e-7
LZP3 173 161 1.85681e-8
LZP4 162 179 1.85681e-8
Q1 168 107 117 0 NPN1
Q2 169 105 113 0 NPN1
RBIAS1 130 0 1
RBIAS2 131 0 1
RCM1 132 175 1k
RCM2 175 133 1k
RCM3 174 179 0.159155
RCM4 173 174 0.159155
RCMX 129 0 0.1
RG1 173 170 39788.8
RG2 170 179 39788.8
RG3 171 179 0.159155
RG4 173 171 0.159155
RG5 176 179 0.159155
RG6 173 176 0.159155
RG7 177 179 0.159155
RG8 173 177 0.159155
RICM1 165 182 1k
RICM2 166 182 1k
RILIM 134 0 1
RIN1 109 3 0.1Ohms
RIN2 104 2 0.1Ohms
RINOI1 135 0 15.0966
RINOI2 136 0 15.0966
ROUT1 173 189 200
ROUT2 189 179 200
ROUT3 188 167 0.01
RPSN1 137 191 1k
RPSN2 191 138 1k
RPSN3 173 190 0.159155
RPSN4 190 179 0.159155
RPSP1 139 193 1k
RPSP2 193 140 1k
RPSP3 173 192 0.159155
RPSP4 192 179 0.159155
RPWR1 141 173 1E6
RPWR2 142 179 1E6
RSENSE 167 189 0.01
RSHD1 122 0 1
RSHDN 8 7 1E9
RVCC 152 7 100
RVEE 153 4 100
RVH1 173 187 1k
RVH2 187 179 1k
RVNOI 0 158 217.795
RZP1 180 160 10
RZP2 159 180 10
RZP3 173 159 171.818
RZP4 160 179 171.818
RZP5 181 162 10
RZP6 161 181 10
RZP7 173 161 23.3333
RZP8 162 179 23.3333
SHD1 145 122 7 8 SHDN
SHD2 145 122 7 4 SHDN2X
SHD7 164 188 7 8 SHDNOX
SHD8 164 6 7 4 SHDNO2
SILIM1 134 126 125 0 SILIM
SILIM2 134 124 123 0 SILIM
SPWR1 7 141 143 0 SPWR
SPWR2 4 142 144 0 SPWRX
SSRLIM1 168 169 146 0 SSRLIM
SSRLIM2 168 169 147 0 SSRLIM
SWB1 130 120 182 179 SBIAS
SWB2 131 121 173 182 SBIAS2X
VBIAS1 120 0 -1500
VBIAS2 121 0 200
VILIM1 128 0 50
VILIM2 127 0 50
VILIM3 126 0 10000
VILIM4 124 0 -10000
VIN1 115 114 0
VIN2 115 119 0
VIN3 118 112 0
VIN4 116 112 0
VINPUT 115 0 100
VNF 110 111 83.3788uV
VOS 106 111 100u
VSHDN 145 0 0.0010498
VSRLIM1 150 0 80
VSRLIM2 151 0 80
VVLIM1 173 154 1.1285
VVLIM2 155 179 1.1275
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.38899e-13)
.ENDS LT6233-10
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LT6235 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLT6235 3 2 7 4 6 LT6234
.ENDS LT6235
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LT6234 3 2 7 4 6
CCM1 173 178 0.0025
CCM2 172 173 0.0025
CG1 172 169 1n
CG2 169 178 1n
CG3 170 178 2.5e-7
CG4 172 170 2.5e-7
CG5 175 178 2.5e-9
CG6 172 175 2.5e-9
CG7 176 178 1e-10
CG8 172 176 1e-10
CIN1 3 2 4.2p
CIN2 0 3 2.5p
CIN3 2 0 2.5p
CPSN 190 0 10p
CPSN1 172 189 0.0025
CPSN2 189 178 0.0025
CPSP 192 0 10p
CPSP1 172 191 0.0025
CPSP2 191 178 0.0025
CVCC 151 0 1E5
CVEE 152 0 1E5
CVM 186 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DIN5 103 108 DIODE
DIN6 108 103 DIODE
DVLIM1 188 153 DVLIM
DVLIM2 154 188 DVLIM
DVNF 155 0 DVNOI
DVNFX 156 0 DVNOIX
EICM1 164 0 2 0 1
EICM2 165 0 3 0 1
EILIM1 127 124 188 166 1E5
EILIM2 126 122 188 166 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 142 0 188 166 1E5
EPWR2 143 0 188 166 1E5
ESRLIM1 148 150 103 105 0
ESRLIM2 147 149 105 103 0
ESRLIM3 147 145 168 167 799.997
ESRLIM4 148 146 167 168 799.997
EVCC 172 0 151 0 1
EVEE 178 0 152 0 1
EVNOI1 107 108 0 157 1
EVNOI2 109 107 155 156 1
FVLIM1 188 0 VVLIM1 -1E7
FVLIM2 188 0 VVLIM2 1E7
GBIAS1 105 0 129 0 1E-9
GBIAS2 103 0 129 0 1E-9
GBIAS3 105 0 130 0 1E-9
GBIAS4 103 0 130 0 1E-9
GCM1 172 174 181 186 0.000562341
GCM2 178 174 181 186 0.000562341
GCM3 178 173 174 186 6.2832
GCM4 172 173 174 186 6.2832
GCMO1 178 170 173 178 6.2832
GCMO2 170 172 172 173 6.2832
GG1 172 169 168 167 0.502654
GG2 178 169 168 167 0.502654
GG3 178 170 169 186 10
GG4 172 170 169 186 10
GG5 178 175 170 186 6.2832
GG6 172 175 170 186 6.2832
GG7 178 176 175 186 6.2832
GG8 172 176 175 186 6.2832
GILIM 169 0 133 0 0.01
GINOI1 103 0 0 134 1m
GINOI2 110 0 0 135 1m
GOUT1 188 172 172 180 0.05
GOUT2 178 188 180 178 0.05
GPSN1 172 190 4 178 0.000316228
GPSN2 178 190 4 178 0.000316228
GPSN3 172 189 190 186 6.2832
GPSN4 178 189 190 186 6.2832
GPSNO1 188 172 172 189 0.05
GPSNO2 178 188 189 178 0.05
GPSP1 172 192 7 172 0.000316228
GPSP2 178 192 7 172 0.000316228
GPSP3 172 191 192 186 6.2832
GPSP4 178 191 192 186 6.2832
GPSPO1 188 172 172 191 0.05
GPSPO2 178 188 191 178 0.05
GPWR1 140 0 188 166 100
GPWR2 141 0 188 166 100
GSHD3 4 7 121 0 1
GZP1 178 179 176 186 0.1
GZP2 172 179 176 186 0.1
GZP3 178 180 179 186 0.1
GZP4 172 180 179 186 0.1
HIN1 113 167 VIN1 100
HIN2 118 168 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 1.5e-6
IBIAS2 103 0 1.5e-6
IDUM1 157 0 0
IDUM2 135 134 0
IPWR 7 4 0.00105
ISLEW 111 0 10mA
IVNF 0 155 1A
IVNFX 0 156 1A
LCM1 172 131 0.00530516
LCM2 132 178 0.00530516
LCMX 128 174 100
LPSN1 172 136 0.0795775
LPSN2 137 178 0.0795775
LPSP1 172 138 0.00159154
LPSP2 139 178 0.00159154
LZP1 172 158 2.73457e-7
LZP2 159 178 2.73457e-7
LZP3 172 160 1.06103e-8
LZP4 161 178 1.06103e-8
Q1 167 106 116 0 NPN1
Q2 168 104 112 0 NPN1
RBIAS1 129 0 1
RBIAS2 130 0 1
RCM1 131 174 1k
RCM2 174 132 1k
RCM3 173 178 0.159155
RCM4 172 173 0.159155
RCMX 128 0 0.1
RG1 172 169 198944
RG2 169 178 198944
RG3 170 178 0.159155
RG4 172 170 0.159155
RG5 175 178 0.159155
RG6 172 175 0.159155
RG7 176 178 0.159155
RG8 172 176 0.159155
RICM1 164 181 1k
RICM2 165 181 1k
RILIM 133 0 1
RIN1 108 3 0.1Ohms
RIN2 103 2 0.1Ohms
RINOI1 134 0 15.0966
RINOI2 135 0 15.0966
ROUT1 172 188 20
ROUT2 188 178 20
ROUT3 187 166 0.01
RPSN1 136 190 1k
RPSN2 190 137 1k
RPSN3 172 189 0.159155
RPSN4 189 178 0.159155
RPSP1 138 192 1k
RPSP2 192 139 1k
RPSP3 172 191 0.159155
RPSP4 191 178 0.159155
RPWR1 140 172 1E6
RPWR2 141 178 1E6
RSENSE 166 188 0.01
RSHD1 121 0 1
RVCC 151 7 100
RVEE 152 4 100
RVH1 172 186 1k
RVH2 186 178 1k
RVNOI 0 157 217.795
RZP1 179 159 10
RZP2 158 179 10
RZP3 172 158 171.818
RZP4 159 178 171.818
RZP5 180 161 10
RZP6 160 180 10
RZP7 172 160 6.66667
RZP8 161 178 6.66667
SHD2 144 121 7 4 SHDN2X
SHD8 163 6 7 4 SHDNO2
SILIM1 133 125 124 0 SILIM
SILIM2 133 123 122 0 SILIM
SPWR1 7 140 142 0 SPWR
SPWR2 4 141 143 0 SPWRX
SSRLIM1 167 168 145 0 SSRLIM
SSRLIM2 167 168 146 0 SSRLIM
SWB1 129 119 181 178 SBIAS
SWB2 130 120 172 181 SBIAS2X
VBIAS1 119 0 -1500
VBIAS2 120 0 200
VILIM1 127 0 50
VILIM2 126 0 50
VILIM3 125 0 10000
VILIM4 123 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 100u
VSHD7 163 187 0
VSHDN 144 0 0.0010498
VSRLIM1 149 0 9.3
VSRLIM2 150 0 9.3
VVLIM1 172 153 1.1285
VVLIM2 154 178 1.1275
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.15V VOFF=0.35V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.35V VOFF=0.15V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 5.38899e-13)
.ENDS LT6234
*
***
*
* Copyright © Linear Technology Corp. 8/22/06.  All rights reserved. 
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT6402-6 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 200
RA2 20 5 200
RA3 16 21 200
RA4 21 22 200
RB1 15 24 200
RB2 24 8 200
RB3 13 23 200
RB4 22 23 200
CA1 20 5 1p
CB1 24 8 1p
CC1 22 32 12p
XA 21 20 31 32 5 42 64026AMPA
XB 23 24 31 32 8 42 64026AMPA
XC 2 22 31 32 22 42 6402AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 50
RF2 8 7 50
CF1 6 32 14p
CF2 7 32 14p
CF3 6 7 14p
RSHDN 11 31 1E8
ESHDN 42 0 VALUE={25+25*TANH(5*(V(32,11)+1))}
RSHDNX 42 0 10k
DE1 13 31 DESD
DE2 14 31 DESD
DE3 15 31 DESD
DE4 16 31 DESD
DE5 32 13 DESD
DE6 32 14 DESD
DE7 32 15 DESD
DE8 32 16 DESD
.MODEL DESD D(IS=1E-14 RS=0 KF=0)
.ENDS LT6402-6
*
.SUBCKT 64026AMPA 3 2 7 4 6 42
RG1 23 0 8E3
CG1 23 0 1E-9
GG3 0 31 23 0 6.2832
RG3 31 0 0.159155
CG3 31 0 2E-8
RVNOI 51 0 230
IDUM1 51 0 0
GG1 0 23 VALUE={0.35*TANH(V(22))}
MOUT1 27 32 26 26 NOUT
MOUT2 28 32 26 26 POUT
RA 22 0 433
DVL1 36 23 DVLIM
DVL2 36 0 DVLIM
GZP2 0 32 31 0 0.1
RZP2 32 33 10
RZP3 33 0 30
LZP1 33 0 3.0n
GPWR 7 4 VALUE={10E-6+V(42)*3E-4}
GOUT 26 6 VALUE={0.02*V(42)*V(26,6)}
RDUM1 42 4 1E6
GGAIN 0 22 VALUE={0.11*V(71)*TANH(V(3,2)+V(51)+3.16E-5*V(7,4)+1E-3)}
IB1 3 0 0.5u
IB2 2 0 0.5u
GBIAS 0 32 VALUE={0.05*(V(7)+V(4))}
GLIM1 7 27 VALUE={MIN(0.035,3*(V(7,27)-1.4))}
GLIM2 28 4 VALUE={MIN(0.035,3*(V(28,4)-0.25))}
RINCM 71 0 0.25
GINCM1 0 71 VALUE={TANH(10*(V(3)-V(4)-1.12))}
GINCM2 0 71 VALUE={TANH(10*(V(2)-V(4)-1.12))}
INCM 0 71 2
RDUM 28 4 1E9
.MODEL NOUT NMOS (KP=5 VTO=-10m)
.MODEL POUT PMOS (KP=5 VTO=10m)
.MODEL DVLIM D (BV=3 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 64026AMPA
*
* Copyright © Linear Technology Corp. 8/22/06.  All rights reserved. 
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT6402-12 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 100
RA2 20 5 200
RA3 16 21 100
RA4 21 22 200
RB1 15 24 100
RB2 24 8 200
RB3 13 23 100
RB4 22 23 200
CA1 20 5 1p
CB1 24 8 1p
CC1 22 32 12p
XA 21 20 31 32 5 42 640212AMPA
XB 23 24 31 32 8 42 640212AMPA
XC 2 22 31 32 22 42 6402AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 50
RF2 8 7 50
CF1 6 32 14p
CF2 7 32 14p
CF3 6 7 14p
RSHDN 11 31 1E8
ESHDN 42 0 VALUE={25+25*TANH(5*(V(32,11)+1))}
RSHDNX 42 0 10k
DE1 13 31 DESD
DE2 14 31 DESD
DE3 15 31 DESD
DE4 16 31 DESD
DE5 32 13 DESD
DE6 32 14 DESD
DE7 32 15 DESD
DE8 32 16 DESD
.MODEL DESD D(IS=1E-14 RS=0 KF=0)
.ENDS LT6402-12
*
.SUBCKT 640212AMPA 3 2 7 4 6 42
RG1 23 0 1E4
CG1 23 0 1E-9
GG3 0 31 23 0 6.2832
RG3 31 0 0.159155
CG3 31 0 1E-8
RVNOI 51 0 240
IDUM1 51 0 0
GG1 0 23 VALUE={1.375*TANH(V(22))}
MOUT1 27 32 26 26 NOUT
MOUT2 28 32 26 26 POUT
RA 22 0 80
DVL1 36 23 DVLIM
DVL2 36 0 DVLIM
GZP2 0 32 31 0 0.1
RZP2 32 33 10
RZP3 33 0 30
LZP1 33 0 3.5n
GPWR 7 4 VALUE={10E-6+V(42)*3E-4}
GOUT 26 6 VALUE={0.02*V(42)*V(26,6)}
RDUM1 42 4 1E6
GGAIN 0 22 VALUE={0.11*V(71)*TANH(V(3,2)+V(51)+3.16E-5*V(7,4)+1E-3)}
IB1 3 0 0.5u
IB2 2 0 0.5u
GBIAS 0 32 VALUE={0.05*(V(7)+V(4))}
GLIM1 7 27 VALUE={MIN(0.035,3*(V(7,27)-1.4))}
GLIM2 28 4 VALUE={MIN(0.035,3*(V(28,4)-0.25))}
RINCM 71 0 0.25
GINCM1 0 71 VALUE={TANH(10*(V(3)-V(4)-1.1))}
GINCM2 0 71 VALUE={TANH(10*(V(2)-V(4)-1.1))}
INCM 0 71 2
RDUM 28 4 1E9
.MODEL NOUT NMOS (KP=5 VTO=-10m)
.MODEL POUT PMOS (KP=5 VTO=10m)
.MODEL DVLIM D (BV=3 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 640212AMPA
*
* Copyright © Linear Technology Corp. 4/27/06.  All rights reserved. 
* Pinout (Same as IC): VCCC VOCM VCCA VEEA OUTP OUTPF OUTMF OUTM VEEB VCCB EN_ VEEC INMB INMA INPB INPA
.SUBCKT LT6402-20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RA1 14 20 100
RA2 20 5 500
RA3 16 21 100
RA4 21 22 500
RB1 15 24 100
RB2 24 8 500
RB3 13 23 100
RB4 22 23 500
CA1 20 5 1p
CB1 24 8 1p
CC1 22 32 12p
XA 21 20 31 32 5 42 640220AMPA
XB 23 24 31 32 8 42 640220AMPA
XC 2 22 31 32 22 42 6402AMPC
RVCC1 3 31 0.01
RVCC2 10 31 0.01
RVCC3 1 31 0.01
RVEE1 4 32 0.01
RVEE2 9 32 0.01
RVEE3 12 32 0.01
RF1 5 6 50
RF2 8 7 50
CF1 6 32 14p
CF2 7 32 14p
CF3 6 7 14p
RSHDN 11 31 1E8
ESHDN 42 0 VALUE={25+25*TANH(8*(V(32,11)+1.2))}
RSHDNX 42 0 10k
DE1 13 31 DESD
DE2 14 31 DESD
DE3 15 31 DESD
DE4 16 31 DESD
DE5 32 13 DESD
DE6 32 14 DESD
DE7 32 15 DESD
DE8 32 16 DESD
.MODEL DESD D(IS=1E-14 RS=0 KF=0)
.ENDS LT6402-20
*
.SUBCKT 640220AMPA 3 2 7 4 6 42
RG1 23 0 1E4
CG1 23 0 1E-9
GG3 0 31 23 0 6.2832
RG3 31 0 0.159155
CG3 31 0 15n
RVNOI 51 0 130
IDUM1 51 0 0
GG1 0 23 VALUE={1.375*TANH(V(22))}
MOUT1 27 34 26 26 NOUT
MOUT2 28 34 26 26 POUT
RA 22 0 80
DVL1 36 23 DVLIM
DVL2 36 0 DVLIM
GZP2 0 32 31 0 0.1
RZP2 32 33 10
RZP3 33 0 30
LZP1 33 0 3.5n
GG2 0 34 32 0 6.2832
RG2 34 35 0.159155
CG2 34 35 10p
GPWR 7 4 VALUE={10E-6+V(42)*3E-4}
GOUT 26 6 VALUE={0.02*V(42)*V(26,6)}
MVLIM1 7 7 27 27 NLIM
RDUM1 42 4 1E6
EOUT 35 0 VALUE={0.5*(V(7)+V(4))}
MVLIM2 4 4 28 28 PLIM
GGAIN 0 22 VALUE={0.11*TANH(V(3,2)+V(51)+3.16E-5*V(7,4)+1E-3)}
GILIM1 22 0 VALUE={MAX(0,30*V(26,6)-1)}
GILIM2 0 23 VALUE={MAX(0,3*(30*V(6,26)-1))}
IB1 3 0 0.5u
IB2 2 0 0.5u
.MODEL NOUT NMOS (KP=5 VTO=-10m)
.MODEL POUT PMOS (KP=5 VTO=10m)
.MODEL NLIM NMOS (KP=1 VTO=1.2)
.MODEL PLIM PMOS (KP=1 VTO=-0.15)
.MODEL NILIM NMOS (KP=10 VTO=1)
.MODEL PILIM PMOS (KP=10 VTO=-1)
.MODEL DVLIM D (BV=3 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 640220AMPA
*
.SUBCKT 6402AMPC 3 2 7 4 6 42
RG1 31 0 1000
CG1 31 0 1E-9
GG3 0 33 31 0 6.2832
RG3 33 0 0.159155
CG3 33 0 8n
GG1 0 31 VALUE={0.5*TANH(V(23))}
MOUT1 7 33 26 26 NOUT
MOUT2 4 33 26 26 POUT
RA 23 0 1.2
DVL1 32 31 DVLIM
DVL2 32 0 DVLIM
IBIAS1 3 0 5u
RIN1 3 7 6E6
RIN2 3 4 6E6
CIN1 3 7 0.5p
CIN2 3 4 0.5p
GGAIN 0 23 VALUE={V(3,2)+4E-3}
GOUT 26 6 VALUE={V(42)*0.1*V(26,6)}
RDUM1 42 4 1E6
IBIAS2 2 0 2u
.MODEL NOUT NMOS (KP=5 VTO=-10m)
.MODEL POUT PMOS (KP=5 VTO=10m)
.MODEL DVLIM D (BV=3 IS=1E-10 KF=0 RS=0 XTI=0)
.ENDS 6402AMPC
*
***
*
* Copyright © Linear Technology Corp. 04/07/2006. All rights reserved.
*
* Pinout: VEE OUT2 VCC OUT1 EN/ DGND IN1+ IN1- IN2- IN2+
* Node numbers below are named according to their respective pin on the IC
* V+ and V- pins are not repeated, which leaves 12 pins instead of 16
*
.SUBCKT LT6411 1 5 6 8 11 12 13 14 15 16
XAMP1 14 13 6 1 8 123 62 LT6411_BASE
XAMP2 15 16 6 1 5 223 62 LT6411_BASE
RVNOI1 41 0 1.5E3
DVNF1 42 0 DVNOI
IVNF1 0 42 1
IDUM1 41 0 0
DVNFX1 43 0 DVNOIX
IVNFX1 0 43 1
GVNOI2 20 0 42 43 1
IVOS1 0 20 12.4E-3
GINOI1 0 13 41 0 8E-4
RSHDN1 11 12 47E3
ESHD1 62 0 VALUE={0.5+0.5*TANH(5*(V(12,11)+1.45))}
IDGND1 6 12 10E-6
GPSRR1 0 65 6 1 1E-5
RPSRR1 65 0 100
RPSRR2 65 66 300
CPSRR1 66 6 5.3E-10
RPSRR3 65 67 300
CPSRR2 67 1 5.3E-10
GINOI2 0 16 41 0 8E-4
GPWR1 6 1 VALUE={22E-6+V(62)*(6.66E-4*V(6,1)+11.7E-3)}
GCT1 0 31 5 0 1E-8
RCT1 31 0 100
CCT1 32 5 6E-15
RCT2 31 32 4500
GCT2 0 33 8 0 1E-8
RCT3 33 0 100
CCT2 34 8 6E-15
RCT4 33 34 4500
GX1 0 123 VALUE={V(20)-V(65)+V(31)}
GX2 0 223 VALUE={V(20)-V(65)+V(33)}
RINP1 20 0 1
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=4.31E-10)
.ENDS LT6411
*
.SUBCKT LT6411_BASE 1 3 7 4 6 23 62
IBIASDEF1 3 0 -17E-6
RG1 24 0 250
CG1 24 0 1E-9
GG3 0 25 24 0 6.2832
RG3 25 26 0.159155
CG3 25 26 1.40E-9
DIN1 3 7 DIN
DIN2 4 3 DIN
GG1 0 24 VALUE={40*TANH(V(23))}
MOUT1 31 25 30 30 NOUT
MOUT2 32 25 30 30 POUT
GGAIN 0 23 3 2 1
RA 23 0 0.24
DVL1 244 24 DVLIM
DVL2 244 0 DVLIM
RFB1 6 2 370
RFB2 1 2 370
CIN 4 3 8E-13
MOUT3 7 7 31 31 NLIM
MOUT4 4 4 32 32 PLIM
CLD 4 6 8E-13
RDUM1 62 0 1E9
EVMID 26 0 VALUE={(V(7)+V(4))/2}
GOLIM 30 6 VALUE={V(62)*V(30,6)}
GINOI1 0 2 41 0 1
RINOI1 41 0 0.13
CINOI1 41 0 2.65E-9
IDUM1 0 41 0
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1E-3)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1E-3)
.MODEL NLIM NMOS(KF=0 KP=0.032 VTO=0.5)
.MODEL PLIM PMOS(KF=0 KP=0.032 VTO=-0.5)
.MODEL NSW NMOS(KP=5 VTO=1E-3)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-10 KF=0 RS=0)
.ENDS LT6411_BASE
*
*
***
*
* Copyright © Linear Technology Corp. 12/22/06. All rights reserved.
*
* Pinout (same as IC): REF IN- IN+ V- SHDN\ OUT V+ FB
*
.SUBCKT LT6552 1 2 3 4 5 6 7 8
IBIASDEF2 0 2 1.9E-5
IBIASDEF1 0 3 2E-5
RG1 22 0 7.5E4
CG1 22 0 1E-9
RCMRR 51 0 10
RVNOI 41 0 1.7E5
CIN3 2 4 7E-12
CIN2 4 3 7E-12
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 3 7 DIN
DIN2 2 7 DIN
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 3E-8
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 0.56
GG1 0 22 VALUE={0.7*TANH(V(21))}
MOUT1 77 25 66 66 NOUT
MOUT2 44 25 66 66 POUT
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
CCMRR 52 51 1.32E-13
RCMRR2 52 51 1E6
GITYP 7 4 VALUE={(11E-3+5.417E-4*V(7,4))*(0.5+0.5*TANH(6*(V(5,4)-3.7)))}
GIN 0 21 VALUE={V(3,2)+V(1,8)+V(41)+V(42,43)+V(51)+V(53)-9E-3}
GB 0 25 VALUE={3.14*(V(7)+V(4))}
GINOI1 2 3 41 0 1.27E-5
GSHDN 66 6 VALUE={(1+TANH(12*(V(5,4)-3.7)))*2*V(66,6)}
RSHDN 5 7 1.5E5
ISHDN 5 0 3E-8
GLIM1 7 77 VALUE={MIN(6.5E-2,8.33E-2*(V(7,77)-0.1))}
GLIM2 44 4 VALUE={MIN(6.5E-2,0.1*V(44,4))}
DIN3 4 3 DIN
DIN4 4 2 DIN
IBIASDEF3 0 8 1.9E-5
IBIASDEF4 0 1 2E-5
CIN1 8 4 7E-12
CIN4 4 1 7E-12
DIN5 1 7 DIN
DIN6 8 7 DIN
GINOI2 8 1 41 0 1.27E-5
DIN7 4 1 DIN
DIN8 4 8 DIN
GPSRR 0 53 7 4 2E-6
RPSRR 53 0 1E3
ECMRR 52 0 VALUE={7*(0.5*(V(3)+V(2)+V(1)+V(8))-V(7)-V(4))}
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10m RD=0)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10m RD=0)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=8 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=4E-9)
.ENDS LT6552
*
***
*
* Copyright © Linear Technology Corp. 04/07/2006. All rights reserved.
*
* Pinout: EN/ DGND INR AGND1 ING AGND2 INB V- OUTB V+ OUTG OUTR
* Node numbers below are named according to their respective pin on the IC
* V+ and V- pins are not repeated, which leaves 12 pins instead of 16
*
.SUBCKT LT6553 1 2 3 4 5 6 7 8 10 11 12 14
XAMP1 4 3 11 8 14 123 62 LT6553_BASE
XAMP2 4 5 11 8 12 223 62 LT6553_BASE
XAMP3 6 7 11 8 10 323 62 LT6553_BASE
RVNOI1 41 0 1.5E3
DVNF1 42 0 DVNOI
IVNF1 0 42 1
IDUM1 41 0 0
DVNFX1 43 0 DVNOIX
IVNFX1 0 43 1
GVNOI2 20 0 42 43 1
IVOS1 0 20 12.4E-3
GINOI1 0 3 41 0 5E-4
RSHDN1 1 11 47E3
ESHD1 62 0 VALUE={0.5+0.5*TANH(5*(V(2,1)+1.45))}
IDGND1 11 2 10E-6
GPSRR1 0 65 11 8 1E-5
RPSRR1 65 0 100
RPSRR2 65 66 300
CPSRR1 66 11 5.3E-10
RPSRR3 65 67 300
CPSRR2 67 8 5.3E-10
GINOI2 0 5 41 0 5E-4
GINOI3 0 7 41 0 5E-4
GPWR1 11 8 VALUE={10E-6+V(62)*(9.99E-4*V(11,8)+14.4E-3)}
GCT1 0 31 10 0 1E-8
RCT1 31 0 100
CCT1 32 10 6E-15
RCT2 31 32 4500
GCT2 0 33 12 0 1E-8
RCT3 33 0 100
CCT2 34 12 6E-15
RCT4 33 34 4500
GCT3 0 35 14 0 1E-8
RCT5 35 0 100
CCT3 36 14 6E-15
RCT6 35 36 4500
GX1 0 123 VALUE={V(20)-V(65)+V(31)+V(33)}
GX2 0 223 VALUE={V(20)-V(65)+V(31)+V(35)}
GX3 0 323 VALUE={V(20)-V(65)+V(35)+V(33)}
RINP1 20 0 1
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=4.31E-10)
.ENDS LT6553
*
.SUBCKT LT6553_BASE 1 3 7 4 6 23 62
IBIASDEF1 3 0 -17E-6
RG1 24 0 250
CG1 24 0 1E-9
GG3 0 25 24 0 6.2832
RG3 25 26 0.159155
CG3 25 26 1.40E-9
DIN1 3 7 DIN
DIN2 4 3 DIN
GG1 0 24 VALUE={40*TANH(V(23))}
MOUT1 31 25 30 30 NOUT
MOUT2 32 25 30 30 POUT
GGAIN 0 23 3 2 1
RA 23 0 0.24
DVL1 244 24 DVLIM
DVL2 244 0 DVLIM
RFB1 6 2 370
RFB2 1 2 370
CIN 4 3 8E-13
MOUT3 7 7 31 31 NLIM
MOUT4 4 4 32 32 PLIM
CLD 4 6 8E-13
RDUM1 62 0 1E9
EVMID 26 0 VALUE={(V(7)+V(4))/2}
GOLIM 30 6 VALUE={V(62)*V(30,6)}
GINOI1 0 2 41 0 1
RINOI1 41 0 0.12
CINOI1 41 0 1.5E-9
IDUM1 0 41 0
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1E-3)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1E-3)
.MODEL NLIM NMOS(KF=0 KP=0.032 VTO=0.5)
.MODEL PLIM PMOS(KF=0 KP=0.032 VTO=-0.5)
.MODEL NSW NMOS(KP=5 VTO=1E-3)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-10 KF=0 RS=0)
.ENDS LT6553_BASE
*
*
***
*
* Copyright © Linear Technology Corp. 09/29/2006. All rights reserved.
*
* Pinout (same as IC): EN/ GND INR GNDR ING GNDG INB GNDB V+B OUTB V+G OUTG V+R OUTR V+ BCV
*
.SUBCKT LT6557 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RVNOI1 41 0 3E3
DVNF1 42 0 DVNOI
IVNF1 0 42 1
IDUM1 41 0 0
DVNFX1 43 0 DVNOIX
IVNFX1 0 43 1
RSHDN1 1 15 40E3
ESHD1 62 0 VALUE={0.5+0.5*TANH(10*(V(15,1)-1.1))}
GCT1 0 31 10 0 1E-8
RCT1 31 0 100
CCT1 32 10 5E-15
RCT2 31 32 4500
GCT2 0 33 12 0 1E-8
RCT3 33 0 100
CCT2 34 12 5E-15
RCT4 33 34 4500
GCT3 0 35 14 0 1E-8
RCT5 35 0 100
CCT3 36 14 5E-15
RCT6 35 36 4500
GX1 0 123 VALUE={V(42,43)+V(41)+V(31)+V(33)}
GX2 0 223 VALUE={V(42,43)+V(41)+V(31)+V(35)}
GX3 0 323 VALUE={V(42,43)+V(41)+V(35)+V(33)}
XAMP1 3 13 4 14 123 62 LT6557_BASE
XAMP2 5 11 6 12 223 62 LT6557_BASE
XAMP3 7 9 8 10 323 62 LT6557_BASE
RSHDN2 1 2 1E7
RBCV 2 16 1
GBCV 2 16 VALUE={0.05}
EBCV 71 0 VALUE={450*(0.05-V(16,2))/V(16,2)-0.175}
RBV1 3 71 5000
RBV2 5 71 5000
RBV3 7 71 5000
GINOI1 5 3 VALUE={0.57*V(41)+0.041*V(42,43)}
GINOI2 0 7 VALUE={0.57*V(41)+0.041*V(42,43)}
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=1.3E-9)
.ENDS LT6557
*
.SUBCKT LT6557_BASE 3 7 4 6 23 62
IBIASDEF1 0 3 35E-6
RG1 24 0 600
CG1 24 0 1E-9
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG3 25 0 3E-9
DIN1 3 7 DIN
DIN2 4 3 DIN
GG1 0 24 VALUE={40*TANH(V(23))}
MOUT1 31 25 30 30 NOUT
MOUT2 32 25 30 30 POUT
RA 23 0 0.13
DVL1 244 24 DVLIM
DVL2 244 0 DVLIM
CIN 4 3 1.5E-12
CLD 4 6 8E-13
RDUM1 62 0 1E9
GOLIM 30 6 VALUE={V(62)*V(30,6)}
GPSRR1 0 65 7 4 1.4E-5
RPSRR1 65 0 100
RPSRR2 65 66 300
CPSRR1 66 7 2E-12
RPSRR3 65 67 300
CPSRR2 67 4 2E-12
GVMID 0 25 VALUE={3.14*(V(7)+V(4))}
GGAIN 0 23 VALUE={V(3)-0.50095*V(6)-0.5*V(4)+V(65)}
RFB 4 6 1k
GPWR1 7 4 VALUE={4E-6+V(62)*(2E-3*V(7,4)+12.4E-3)}
GLIM1 7 31 VALUE={MIN(0.1,0.4*(V(7,31)-0.7))}
GLIM2 32 4 VALUE={MIN(0.1,0.4*(V(32,4)-0.7))}
RDUM2 32 4 1E10
RDUM3 7 31 1E10
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1E-3)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1E-3)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=4 IS=1E-10 KF=0 RS=0)
.ENDS LT6557_BASE
*
*
***
*
* Copyright © Linear Technology Corp. 12/22/2006. All rights reserved.
*
* Pinout (same as IC): EN/ GND INR GNDR ING GNDG INB GNDB V+B OUTB V+G OUTG V+R OUTR V+ BCV
*
.SUBCKT LT6558 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
RVNOI1 41 0 7.5E3
DVNF1 42 0 DVNOI
IVNF1 0 42 1
IDUM1 41 0 0
DVNFX1 43 0 DVNOIX
IVNFX1 0 43 1
RSHDN1 1 15 40E3
ESHD1 62 0 VALUE={0.5+0.5*TANH(10*(V(15,1)-1.1))}
GCT1 0 31 10 0 1E-8
RCT1 31 0 100
CCT1 32 10 5E-15
RCT2 31 32 4500
GCT2 0 33 12 0 1E-8
RCT3 33 0 100
CCT2 34 12 5E-15
RCT4 33 34 4500
GCT3 0 35 14 0 1E-8
RCT5 35 0 100
CCT3 36 14 5E-15
RCT6 35 36 4500
GX1 0 123 VALUE={V(42,43)+V(41)+V(31)+V(33)}
GX2 0 223 VALUE={V(42,43)+V(41)+V(31)+V(35)}
GX3 0 323 VALUE={V(42,43)+V(41)+V(35)+V(33)}
RSHDN2 1 2 1E7
RBCV 2 16 1
EBCV 71 0 VALUE={300*(0.05-V(16,2))/V(16,2)+0.275}
RBV1 3 71 5000
RBV2 5 71 5000
RBV3 7 71 5000
GINOI1 5 3 VALUE={0.57*V(41)+0.016*V(42,43)}
GINOI2 0 7 VALUE={0.57*V(41)+0.016*V(42,43)}
XAMP1 3 13 4 14 123 62 LT6558_BASE
XAMP2 5 11 6 12 223 62 LT6558_BASE
XAMP3 7 9 8 10 323 62 LT6558_BASE
IBCV 2 16 5E-2
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=2E-10)
.ENDS LT6558
*
.SUBCKT LT6558_BASE 3 7 4 6 23 62
IBIASDEF1 0 3 35E-6
RG1 24 0 600
CG1 24 0 1E-9
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG3 25 0 2.8E-9
DIN1 3 7 DIN
DIN2 4 3 DIN
GG1 0 24 VALUE={40*TANH(V(23))}
MOUT1 31 25 30 30 NOUT
MOUT2 32 25 30 30 POUT
RA 23 0 0.06
DVL1 244 24 DVLIM
DVL2 244 0 DVLIM
CIN 4 3 1.4E-12
CLD 4 6 8E-13
RDUM1 62 0 1E9
GOLIM 30 6 VALUE={V(62)*V(30,6)}
GPSRR1 0 65 7 4 2.6E-5
RPSRR1 65 0 100
RPSRR2 65 66 300
CPSRR1 66 7 5E-12
RPSRR3 65 67 300
CPSRR2 67 4 5E-12
GVMID 0 25 VALUE={3.14*(V(7)+V(4))}
GGAIN 0 23 VALUE={V(3,6)+V(65)-12E-3}
GPWR1 7 4 VALUE={4E-6+V(62)*(2E-3*V(7,4)+12.4E-3)}
GLIM1 7 31 VALUE={MIN(0.1,0.4*(V(7,31)-0.7))}
GLIM2 32 4 VALUE={MIN(0.1,0.4*(V(32,4)-0.7))}
RDUM2 32 4 1E10
RDUM3 7 31 1E10
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1E-3)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1E-3)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=4 IS=1E-10 KF=0 RS=0)
.ENDS LT6558_BASE
*
*
***
*
* Copyright © Linear Technology Corp. 11/27/2006. All rights reserved.
*
*CCM
*
* IN+ IN- V+ V- OUT EN\
.SUBCKT LT6559 2 1 14 11 15 16
XCFA1 2 1 14 11 15 16 LT6559_MD
.ENDS LT6559
*
***
*
.SUBCKT LT6559_MD 1 2 3 4 5 6
*
* input stage
RINP 1 99 1000000000
CINP 1 99 2e-12
IBP 301 303 DC 2.0182e-5
RBP 301 303 1E5 TC=0.0036036
VBP 303 0 DC 1.0182
GBP 1 99 POLY(2) 301 0 1 0 0 1.0E-5 1e-6
IBN 302 304 DC 2.0182e-5
RBN 302 304 1E5 TC=0.0036036
VBN 304 0 DC 1.0182
GBN 2 99 POLY(2) 302 0 2 0 0 1.0E-5 1e-5
RINN 14 99 1000000000
CINN 2 99 1e-12
GA1 99 11 1 99 0.020408
GA2 11 99 11 99 0.020408
VSENS 11 16 DC 0.0
LINN 16 14 2.5e-8
RSW1 2 14 1000000000
GSW1 2 14 POLY(2) 812 99 2 14 0 0 6.3246e-6 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56e-6
GSW2 59 99 POLY(2) 806 99 59 99 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
IOFF 501 0 DC 0.0015
ROFF 501 0 1 TC=0.01
GOFF 59 99 501 0 0.020408
FA 99 59 VSENS 1.0
*
* noise sources
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI1
DR2 102 0 DRI1
GR1 99 1 101 102 0.2898
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI2
DR4 104 0 DRI2
GR2 99 2 103 104 1.2075
IR5 0 601 DC 1
IR6 0 602 DC 1
DR5 601 0 DRI3
DR6 602 0 DRI3
GR3 59 99 601 602 4.347
*
* common mode rejection
GCM1 99 11 POLY(2) 2 0 1 0 0 1.5621e-5 1.5621e-5
*
* frequency shaper
RP0 59 99 1000
CP0 59 99 3.1553e-13
GP0 99 60 59 99 0.001
RR1 660 60 0.001
*
* slew rate limiter
RSR 660 66 0.1
ESRP 96 0 660 66 5315.5
ESRN 97 0 660 66 5315.5
DSRP 96 95 DX
DSRN 95 97 DX
VSR 95 0 DC 0
FSR 660 99 VSR 0.01
*
* transimpedance stage and dominant pole
RTR 66 99 125000
C1 66 99 1.6461e-12
DC 66 53 DX
DE 54 66 DX
VC 3 53 DC 1.54
VE 54 4 DC 1.54
*
* output stage
GB 99 7 66 99 0.041841
ROUT 7 99 23.9
FB 7 99 VSCL 0.0018347
VSCL 90 0 DC 0
DLP 91 90 DX
DLN 90 92 DX
ESCLP 91 0 7 51 125
ESCLN 92 0 7 51 125
R01S 7 51 0.1
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
CGSW3 51 5 8.5e-12
R0P 5 0 593790000
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
GIP 3 4 POLY(1) 99 803 3.8482e-5 0.00089
RP 3 4 1000000
GV 31 0 7 51 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
* shutdown stage
RDIS1 3 6 166670
CDIS1 6 99 3e-12
GREF 99 801 POLY(2) 3 4 803 99 0.0 0.0002 0.0 0.0 -8e-6
RREF 801 99 1000
GDIS 99 803 6 801 0.001
RDIS3 803 99 100000
VDIS2 804 99 DC -0.756
VDIS3 805 99 DC -4.245
DDIS2 803 804 DX
DDIS3 805 803 DX
CDIS2 803 99 3e-12
EDIS 810 99 803 99 1
RDIS5 810 812 31.614
RDIS6 812 811 55.233
DDIS4 811 810 DX
CDIS3 812 99 1e-9
GDIS2 99 806 POLY(1) 812 99 -5.0E-3 -1.0E-3
RDIS4 806 99 1000
CDIS4 806 99 1.0053e-12
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DRI1 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.MODEL DRI2 D(IS= 8.2592e-16 KF= 1.283e-14 RS=0 XTI=0)
.MODEL DRI3 D(IS= 8.2592e-16 KF= 9.6222e-15 RS=0 XTI=0)
.ENDS LT6559_MD
*
****
***
*
* Copyright ? Linear Technology Corp. 2004. All rights reserved.
* Pinout Same as IC
.SUBCKT LT6600-10 101 188 7 148 147 4 184 108
C1 147 105 109p
C10 164 173 12p
C11 168 165 12p
C12 165 173 12p
C13 159 168 2n
C14 173 158 2n
C17 162 160 1p
C18 170 0 15p
C1X 148 103 109p
C2 147 113 130.8p
C2X 148 112 130.8p
C3 110 111 153p
C4 161 163 1p
C4B 149 108 32p
C4XB 153 101 32p
C5 187 0 3p
C6 190 0 5p
C7 159 0 5n
C8 158 0 5n
C9 168 164 12p
COUT1 150 122 3.5n
CVCC1 141 0 1E5
CVEE1 142 0 1E5
D1 108 7 DESDUP
D10 4 148 DESDUP
D11 147 7 DESDUP
D12 4 147 DESDUP
D13 164 114 DLIM
D14 155 164 DLIM
D15 165 129 DLIM
D16 156 165 DLIM
D17 168 118 DLIM
D18 168 119 DLIM
D19 173 118 DZNR
D2 4 108 DESDUP
D20 173 119 DZNR
D21 168 120 DLIM
D22 168 121 DLIM
D23 173 120 DZNR
D24 173 121 DZNR
D25 153 131 DLIM
D26 130 153 DLIM
D27 149 133 DLIM
D28 132 149 DLIM
D3 101 7 DESDUP
D4 4 101 DESDUP
D5 184 7 DESDUP
D6 4 184 DESDUP
D7 188 7 DESDUP
D8 4 188 DESDUP
D9 148 7 DESDUP
DOLIM1 150 128 DLIM
DOLIM2 154 127 DLIM
E1 180 105 186 0 1
E2 124 0 188 0 1
E3 169 0 168 0 1
E4 174 0 173 0 1
E5 181 102 185 0 1
E6 137 0 183 0 1
ECM1 157 179 176 177 1
EVCC1 167 0 141 0 1
EVEE1 172 0 142 0 1
G1 168 164 161 163 19.1m
G10 120 173 187 165 1m
G11 0 187 165 173 16m
G12 187 0 168 165 16m
G13 0 150 159 0 0.0041
G14 0 154 158 0 0.0041
G15 167 153 160 162 10
G16 172 153 160 162 10
G17 167 149 162 160 10
G18 172 149 162 160 10
G19 167 170 178 177 0.794u
G2 173 164 161 163 19.1m
G20 172 170 178 177 0.794u
G21 167 175 170 177 1
G22 172 175 170 177 1
G23 167 176 175 177 1
G24 172 176 175 177 1
G3 168 165 163 161 19.1m
G4 173 165 163 161 19.1m
G5 119 173 164 190 1m
G6 118 173 190 164 1m
G7 0 190 164 173 16m
G8 190 0 168 164 16m
G9 121 173 165 187 1m
GNOISE1 0 182 106 0 1
GNOISE2 0 180 107 0 1
GOCM1 0 164 189 152 10
GOCM2 0 165 189 152 10
GOCM3 0 149 109 151 8.367
GOCM4 0 153 109 151 8.367
GOSIT1 116 173 161 163 1.0m
GOSIT2 167 135 162 160 1.5m
GPD1 168 173 173 168 0.0056
I1 106 0 0
I2 107 0 0
I3 186 0 0
I4 158 0 0
I5 159 0 0
I6 185 0 0
ICC1 116 173 0.988mA
ICC2 167 135 1.088mA
ICMBIAS1 188 173 3u
IPD1 168 173 28mA
L1 186 0 20u
L10 145 172 4n
L2 106 0 1n
L3 107 0 1n
L4 185 0 0.3m
L5 139 172 40u
L6 167 138 40u
L7 167 144 4n
L8 143 172 4n
L9 167 146 4n
LOUT1 190 154 1n
LOUT2 187 150 1n
Q1 161 182 117 0 NPN1
Q2 163 123 115 0 NPN2
Q3 160 181 134 0 PNP1
Q4 162 140 136 0 PNP2
R1 112 111 80
R10 164 173 73.9k
R11 168 165 73.9k
R12 165 173 73.9k
R13 168 190 188
R14 190 173 188
R15 168 187 188
R16 187 173 188
R17 152 150 10k
R18 154 152 10k
R19 186 0 8k
R1X 113 110 80
R2 112 147 160
R20 159 168 15
R21 158 173 15
R22 127 125 5
R23 126 128 5
R24 160 172 229
R25 162 172 229
R26 135 134 178
R27 135 136 178
R28 167 153 188
R29 153 172 188
R2X 113 148 160
R3 105 112 40
R30 167 149 188
R31 149 172 188
R32 151 149 10k
R33 153 151 10k
R34 167 183 11k
R35 183 172 11k
R36 137 0 5.5k
R37 102 178 100k
R38 178 104 100k
R39 138 170 1000
R3X 103 113 40
R4 111 153 80
R40 170 139 1000
R41 109 137 0.01
R42 175 143 1
R43 144 175 1
R44 176 145 1
R45 146 176 1
R4X 110 149 80
R5 163 168 52.4
R5B 149 108 402
R5XB 153 101 402
R6 161 168 52.4
R7 116 115 1.03
R8 116 117 1.03
R9 168 164 73.9k
RMID1 189 0 10MEG
RN1 0 106 0.3
RN2 0 107 0.3
ROUT1 122 154 360
RREF1 169 177 1
RREF2 177 174 1
RVCC1 141 7 10
RVEE1 142 4 10
RVN1 0 185 90k
V1 169 114 0.739
V10 179 104 0
V2 155 174 0.739
V3 169 129 0.739
V4 156 174 0.739
V5 189 124 12m
V6 167 131 0.739
V7 130 172 0.739
V8 167 133 0.739
V9 132 172 0.739
VBUF1 182 103 0
VCC1 7 168 0
VDUM1 102 101 0
VDUM2 109 184 0
VDUM3 104 108 0
VDUM4 148 154 0
VDUM5 147 150 0
VEE1 4 173 0
VOLIM1 126 154 1.7
VOLIM2 125 150 1.7
VOS1 123 180 89.53u
VOS2 140 157 109uV
.MODEL DLIM D(IS=1E-12 BV=100 RS=0.1 XTI=0 CJO=0 TT=0)
.MODEL DOUT D(IS=1E-12 BV=100 RS=0.1 XTI=0 CJO=5p TT=1e-9)
.MODEL DZNR D(IS=1E-12 BV=50 RS=10 XTI=1 CJO=0 TT=0)
.MODEL PNP1 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL PNP2 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL NPN1 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPN2 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPNLIM NPN(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL PNPLIM PNP(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL NMOSLIM NMOS(VTO=0.5)
.MODEL PMOSLIM PMOS(VTO=-0.5)
.model DESDUP D(IS=1E-12 RS=0.001 CJO=1p VJ=0.3 TT=1e-9)
.ENDS LT6600-10
*
***
*
* Copyright ? Linear Technology Corp. 2004. All rights reserved.
* Pinout Same as IC
.SUBCKT LT6600-20 101 188 7 148 147 4 184 108
C1 147 105 54.5p
C10 158 0 5n
C11 168 164 12p
C12 164 173 12p
C13 168 165 12p
C14 165 173 12p
C15 159 168 2n
C16 173 158 2n
C1X 148 103 54.5p
C2 147 113 64.5p
C2X 148 112 64.5p
C3 110 111 78p
C4 162 160 1p
C4B 149 108 18.25p
C4XB 153 101 18.25p
C5 170 0 15p
C6 161 163 1p
C7 187 0 3p
C8 190 0 5p
C9 159 0 5n
COUT1 150 139 3.5n
CVCC1 125 0 1k
CVEE1 126 0 1k
D1 108 7 DESDUP
D10 4 148 DESDUP
D11 147 7 DESDUP
D12 4 147 DESDUP
D13 153 115 DLIM
D14 114 153 DLIM
D15 149 117 DLIM
D16 116 149 DLIM
D17 164 131 DLIM
D18 156 164 DLIM
D19 165 146 DLIM
D2 4 108 DESDUP
D20 157 165 DLIM
D21 168 135 DLIM
D22 168 136 DLIM
D23 173 135 DZNR
D24 173 136 DZNR
D25 168 137 DLIM
D26 168 138 DLIM
D27 173 137 DZNR
D28 173 138 DZNR
D3 101 7 DESDUP
D4 4 101 DESDUP
D5 184 7 DESDUP
D6 4 184 DESDUP
D7 188 7 DESDUP
D8 4 188 DESDUP
D9 148 7 DESDUP
DOLIM1 150 145 DLIM
DOLIM2 154 144 DLIM
E1 181 102 185 0 1
E2 121 0 183 0 1
E3 180 105 186 0 1
E4 141 0 188 0 1
E5 169 0 168 0 1
E6 174 0 173 0 1
ECM1 155 179 176 177 1
EVCC1 167 0 125 0 1
EVEE1 172 0 126 0 1
G1 167 153 160 162 10
G10 172 176 175 177 1
G11 168 164 161 163 19.1m
G12 173 164 161 163 19.1m
G13 168 165 163 161 19.1m
G14 173 165 163 161 19.1m
G15 136 173 164 190 1m
G16 135 173 190 164 1m
G17 0 190 164 173 16m
G18 190 0 168 164 16m
G19 138 173 165 187 1m
G2 172 153 160 162 10
G20 137 173 187 165 1m
G21 0 187 165 173 16m
G22 187 0 168 165 16m
G23 0 150 159 0 0.0041
G24 0 154 158 0 0.0041
G3 167 149 162 160 10
G4 172 149 162 160 10
G5 167 170 178 177 0.794u
G6 172 170 178 177 0.794u
G7 167 175 170 177 1
G8 172 175 170 177 1
G9 167 176 175 177 1
GNOISE1 0 182 106 0 1
GNOISE2 0 180 107 0 1
GOCM1 0 149 109 151 8.367
GOCM2 0 153 109 151 8.367
GOCM3 0 164 189 152 2
GOCM4 0 165 189 152 2
GOSIT1 167 119 162 160 1.5m
GOSIT2 133 173 161 163 1.0m
GPD1 168 173 173 168 0.0056
I1 185 0 0
I2 106 0 0
I3 107 0 0
I4 186 0 0
I5 158 0 0
I6 159 0 0
ICC1 167 119 1.088mA
ICC2 133 173 0.988mA
ICMBIAS1 188 173 3u
IPD1 168 173 28mA
L1 185 0 0.3m
L10 107 0 1n
L2 123 172 40u
L3 167 122 40u
L4 167 128 4n
L5 127 172 4n
L6 167 130 4n
L7 129 172 4n
L8 186 0 20u
L9 106 0 1n
LOUT1 190 154 1n
LOUT2 187 150 1n
Q1 160 181 118 0 PNP1
Q2 162 124 120 0 PNP2
Q3 161 182 134 0 NPN1
Q4 163 140 132 0 NPN2
R1 112 111 80
R10 153 172 188
R11 167 149 188
R12 149 172 188
R13 151 149 10k
R14 153 151 10k
R15 167 183 11k
R16 183 172 11k
R17 121 0 5.5k
R18 102 178 100k
R19 178 104 100k
R1X 113 110 80
R2 112 147 160
R20 122 170 1000
R21 170 123 1000
R22 109 121 0.01
R23 175 127 1
R24 128 175 1
R25 176 129 1
R26 130 176 1
R27 163 168 52.4
R28 161 168 52.4
R29 133 132 1.03
R2X 113 148 160
R3 105 112 49.5
R30 133 134 1.03
R31 168 164 73.9k
R32 164 173 73.9k
R33 168 165 73.9k
R34 165 173 73.9k
R35 168 190 188
R36 190 173 188
R37 168 187 188
R38 187 173 188
R39 152 150 10k
R3X 103 113 49.5
R4 111 153 80
R40 154 152 10k
R41 186 0 8k
R42 159 168 15
R43 158 173 15
R44 144 142 5
R45 143 145 5
R4X 110 149 80
R5 160 172 229
R5B 149 108 402
R5XB 153 101 402
R6 162 172 229
R7 119 118 178
R8 119 120 178
R9 167 153 188
RMID1 189 0 10MEG
RN1 0 106 0.3
RN2 0 107 0.3
ROUT1 139 154 360
RREF1 169 177 1
RREF2 177 174 1
RVCC1 125 7 1k
RVEE1 126 4 1k
RVN1 0 185 90k
V1 167 115 0.739
V10 189 141 12m
V2 114 172 0.739
V3 167 117 0.739
V4 116 172 0.739
V5 179 104 0
V6 169 131 0.739
V7 156 174 0.739
V8 169 146 0.739
V9 157 174 0.739
VBUF1 182 103 0
VCC1 7 168 0
VDUM1 102 101 0
VDUM2 109 184 0
VDUM3 104 108 0
VDUM4 148 154 0
VDUM5 147 150 0
VEE1 4 173 0
VOLIM1 143 154 1.7
VOLIM2 142 150 1.7
VOS1 124 155 109uV
VOS2 140 180 89.53u
.MODEL DLIM D(IS=1E-12 BV=100 RS=0.1 XTI=1 CJO=0 TT=0)
.MODEL DOUT D(IS=1E-12 BV=100 RS=0.1 XTI=1 CJO=5p TT=1e-9)
.MODEL DZNR D(IS=1E-12 BV=50 RS=10 XTI=1 CJO=0 TT=0)
.MODEL PNP1 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL PNP2 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL NPN1 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPN2 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPNLIM NPN(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL PNPLIM PNP(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL NMOSLIM NMOS(VTO=0.5)
.MODEL PMOSLIM PMOS(VTO=-0.5)
.model DESDUP D(IS=1E-12 RS=0.001 CJO=1p VJ=0.3 TT=1e-9)
.ends LT6600-20
*
***
*
* Copyright ? Linear Technology Corp. 2004. All rights reserved.
* Pinout Same as IC
.SUBCKT LT6600-25 101 188 7 148 147 4 184 108
C1 147 105 109p
C10 164 173 12p
C11 168 165 12p
C12 165 173 12p
C13 159 168 2n
C14 173 158 2n
C15 162 160 1p
C16 170 0 15p
C1X 148 103 109p
C2 147 113 130.8p
C2X 148 112 130.8p
C3 110 111 153p
C4 161 163 1p
C4B 149 108 39.5p
C4XB 153 101 39.5p
C5 187 0 3p
C6 190 0 5p
C7 159 0 5n
C8 158 0 5n
C9 168 164 12p
COUT1 150 122 3.5n
CVCC1 141 0 1k
CVEE1 142 0 1k
D1 108 7 DESDUP
D10 4 148 DESDUP
D11 147 7 DESDUP
D12 4 147 DESDUP
D13 164 114 DLIM
D14 155 164 DLIM
D15 165 129 DLIM
D16 156 165 DLIM
D17 168 118 DLIM
D18 168 119 DLIM
D19 173 118 DZNR
D2 4 108 DESDUP
D20 173 119 DZNR
D21 168 120 DLIM
D22 168 121 DLIM
D23 173 120 DZNR
D24 173 121 DZNR
D25 153 131 DLIM
D26 130 153 DLIM
D27 149 133 DLIM
D28 132 149 DLIM
D3 101 7 DESDUP
D4 4 101 DESDUP
D5 184 7 DESDUP
D6 4 184 DESDUP
D7 188 7 DESDUP
D8 4 188 DESDUP
D9 148 7 DESDUP
DOLIM1 150 128 DLIM
DOLIM2 154 127 DLIM
E1 180 105 186 0 1
E2 124 0 188 0 1
E3 169 0 168 0 1
E4 174 0 173 0 1
E5 181 102 185 0 1
E6 137 0 183 0 1
ECM1 157 179 176 177 1
EVCC1 167 0 141 0 1
EVEE1 172 0 142 0 1
G1 168 164 161 163 19.1m
G10 120 173 187 165 1m
G11 0 187 165 173 16m
G12 187 0 168 165 16m
G13 0 150 159 0 0.0041
G14 0 154 158 0 0.0041
G15 167 153 160 162 10
G16 172 153 160 162 10
G17 167 149 162 160 10
G18 172 149 162 160 10
G19 167 170 178 177 0.794u
G2 173 164 161 163 19.1m
G20 172 170 178 177 0.794u
G21 167 175 170 177 1
G22 172 175 170 177 1
G23 167 176 175 177 1
G24 172 176 175 177 1
G3 168 165 163 161 19.1m
G4 173 165 163 161 19.1m
G5 119 173 164 190 1m
G6 118 173 190 164 1m
G7 0 190 164 173 16m
G8 190 0 168 164 16m
G9 121 173 165 187 1m
GNOISE1 0 182 106 0 1
GNOISE2 0 180 107 0 1
GOCM1 0 164 189 152 2
GOCM2 0 165 189 152 2
GOCM3 0 149 109 151 8.367
GOCM4 0 153 109 151 8.367
GOSIT1 116 173 161 163 1.0m
GOSIT2 167 135 162 160 1.5m
GPD1 168 173 173 168 0.0056
I1 106 0 0
I2 107 0 0
I3 186 0 0
I4 158 0 0
I5 159 0 0
I6 185 0 0
ICC1 116 173 0.988mA
ICC2 167 135 1.088mA
ICMBIAS1 188 173 3u
IPD1 168 173 28mA
L1 186 0 20u
L10 145 172 4n
L2 106 0 1n
L3 107 0 1n
L4 185 0 0.3m
L5 139 172 40u
L6 167 138 40u
L7 167 144 4n
L8 143 172 4n
L9 167 146 4n
LOUT1 190 154 1n
LOUT2 187 150 1n
Q1 161 182 117 0 NPN1
Q2 163 123 115 0 NPN2
Q3 160 181 134 0 PNP1
Q4 162 140 136 0 PNP2
R1 112 111 397
R10 164 173 73.9k
R11 168 165 73.9k
R12 165 173 73.9k
R13 168 190 188
R14 190 173 188
R15 168 187 188
R16 187 173 188
R17 152 150 10k
R18 154 152 10k
R19 186 0 8k
R1X 113 110 397
R2 112 147 789
R20 159 168 15
R21 158 173 15
R22 127 125 5
R23 126 128 5
R24 160 172 229
R25 162 172 229
R26 135 134 178
R27 135 136 178
R28 167 153 188
R29 153 172 188
R2X 113 148 789
R3 105 112 196
R30 167 149 188
R31 149 172 188
R32 151 149 10k
R33 153 151 10k
R34 167 183 11k
R35 183 172 11k
R36 137 0 5.5k
R37 102 178 100k
R38 178 104 100k
R39 138 170 1000
R3X 103 113 196
R4 111 153 396
R40 170 139 1000
R41 109 137 0.01
R42 175 143 1
R43 144 175 1
R44 176 145 1
R45 146 176 1
R4X 110 149 396
R5 163 168 52.4
R5B 149 108 1578
R5XB 153 101 1578
R6 161 168 52.4
R7 116 115 1.03
R8 116 117 1.03
R9 168 164 73.9k
RMID1 189 0 10MEG
RN1 0 106 0.3
RN2 0 107 0.3
ROUT1 122 154 360
RREF1 169 177 1
RREF2 177 174 1
RVCC1 141 7 1k
RVEE1 142 4 1k
RVN1 0 185 90k
V1 169 114 0.739
V10 179 104 0
V2 155 174 0.739
V3 169 129 0.739
V4 156 174 0.739
V5 189 124 12m
V6 167 131 0.739
V7 130 172 0.739
V8 167 133 0.739
V9 132 172 0.739
VBUF1 182 103 0
VCC1 7 168 0
VDUM1 102 101 0
VDUM2 109 184 0
VDUM3 104 108 0
VDUM4 148 154 0
VDUM5 147 150 0
VEE1 4 173 0
VOLIM1 126 154 1.7
VOLIM2 125 150 1.7
VOS1 123 180 89.53u
VOS2 140 157 109uV
.MODEL DLIM D(IS=1E-12 BV=100 RS=0.1 XTI=1 CJO=0 TT=0)
.MODEL DOUT D(IS=1E-12 BV=100 RS=0.1 XTI=1 CJO=5p TT=1e-9)
.MODEL DZNR D(IS=1E-12 BV=50 RS=10 XTI=1 CJO=0 TT=0)
.MODEL PNP1 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL PNP2 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL NPN1 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPN2 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPNLIM NPN(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL PNPLIM PNP(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL NMOSLIM NMOS( VTO=0.5)
.model DESDUP D(IS=1E-12 RS=0.001 CJO=1p VJ=0.3 TT=1e-9)
.ENDS LT6600-25
*
***
*
* Copyright © Linear Technology Corp. 2005. All rights reserved.
* Pin Ordering is INM VOCM V+ OUTP OUTM V- VMID INP
.SUBCKT LT6600-5 101 188 7 148 147 4 184 108
C1 147 105 109p
C10 164 173 12p
C11 168 165 12p
C12 165 173 12p
C13 159 168 2n
C14 173 158 2n
C17 162 160 1p
C18 170 0 15p
C1X 148 103 109p
C2 147 113 132p
C2X 148 112 132p
C3 110 111 153p
C4 161 163 1p
C4B 149 108 33.5p
C4XB 153 101 33.5p
C5 187 0 3p
C6 190 0 5p
C7 159 0 5n
C8 158 0 5n
C9 168 164 12p
COUT1 150 122 3.5n
CVCC1 141 0 1E5
CVEE1 142 0 1E5
D1 108 7 DESDUP
D10 4 148 DESDUP
D11 147 7 DESDUP
D12 4 147 DESDUP
D13 164 114 DLIM
D14 155 164 DLIM
D15 165 129 DLIM
D16 156 165 DLIM
D17 168 118 DLIM
D18 168 119 DLIM
D19 173 118 DZNR
D2 4 108 DESDUP
D20 173 119 DZNR
D21 168 120 DLIM
D22 168 121 DLIM
D23 173 120 DZNR
D24 173 121 DZNR
D25 153 131 DLIM
D26 130 153 DLIM
D27 149 133 DLIM
D28 132 149 DLIM
D3 101 7 DESDUP
D4 4 101 DESDUP
D5 184 7 DESDUP
D6 4 184 DESDUP
D7 188 7 DESDUP
D8 4 188 DESDUP
D9 148 7 DESDUP
DOLIM1 150 128 DLIM
DOLIM2 154 127 DLIM
E1 180 105 186 0 1
E2 124 0 188 0 1
E3 169 0 168 0 1
E4 174 0 173 0 1
E5 181 102 185 0 1
E6 137 0 183 0 1
ECM1 157 179 176 177 1
EVCC1 167 0 141 0 1
EVEE1 172 0 142 0 1
G1 168 164 161 163 19.1m
G10 120 173 187 165 1m
G11 0 187 165 173 16m
G12 187 0 168 165 16m
G13 0 150 159 0 0.0041
G14 0 154 158 0 0.0041
G15 167 153 160 162 10
G16 172 153 160 162 10
G17 167 149 162 160 10
G18 172 149 162 160 10
G19 167 170 178 177 0.794u
G2 173 164 161 163 19.1m
G20 172 170 178 177 0.794u
G21 167 175 170 177 1
G22 172 175 170 177 1
G23 167 176 175 177 1
G24 172 176 175 177 1
G3 168 165 163 161 19.1m
G4 173 165 163 161 19.1m
G5 119 173 164 190 1m
G6 118 173 190 164 1m
G7 0 190 164 173 16m
G8 190 0 168 164 16m
G9 121 173 165 187 1m
GNOISE1 0 182 106 0 1
GNOISE2 0 180 107 0 1
GOCM1 0 164 189 152 10
GOCM2 0 165 189 152 10
GOCM3 0 149 109 151 8.367
GOCM4 0 153 109 151 8.367
GOSIT1 116 173 161 163 1.0m
GOSIT2 167 135 162 160 1.5m
GPD1 168 173 173 168 0.0056
I1 106 0 0
I2 107 0 0
I3 186 0 0
I4 158 0 0
I5 159 0 0
I6 185 0 0
ICC1 116 173 0.988mA
ICC2 167 135 1.088mA
ICMBIAS1 188 173 3u
IPD1 168 173 28mA
L1 186 0 20u
L10 145 172 4n
L2 106 0 1n
L3 107 0 1n
L4 185 0 0.3m
L5 139 172 40u
L6 167 138 40u
L7 167 144 4n
L8 143 172 4n
L9 167 146 4n
LOUT1 190 154 1n
LOUT2 187 150 1n
Q1 161 182 117 0 NPN1
Q2 163 123 115 0 NPN2
Q3 160 181 134 0 PNP1
Q4 162 140 136 0 PNP2
R1 112 111 170
R10 164 173 73.9k
R11 168 165 73.9k
R12 165 173 73.9k
R13 168 190 188
R14 190 173 188
R15 168 187 188
R16 187 173 188
R17 152 150 10k
R18 154 152 10k
R19 186 0 8k
R1X 113 110 170
R2 112 147 339
R20 159 168 15
R21 158 173 15
R22 127 125 5
R23 126 128 5
R24 160 172 229
R25 162 172 229
R26 135 134 178
R27 135 136 178
R28 167 153 188
R29 153 172 188
R2X 113 148 339
R3 105 112 84.4
R30 167 149 188
R31 149 172 188
R32 151 149 10k
R33 153 151 10k
R34 167 183 11k
R35 183 172 11k
R36 137 0 5.5k
R37 102 178 100k
R38 178 104 100k
R39 138 170 1000
R3X 103 113 84.4
R4 111 153 168
R40 170 139 1000
R41 109 137 0.01
R42 175 143 1
R43 144 175 1
R44 176 145 1
R45 146 176 1
R4X 110 149 168
R5 163 168 52.4
R5B 149 108 813
R5XB 153 101 813
R6 161 168 52.4
R7 116 115 1.03
R8 116 117 1.03
R9 168 164 73.9k
RMID1 189 0 10MEG
RN1 0 106 0.3
RN2 0 107 0.3
ROUT1 122 154 360
RREF1 169 177 1
RREF2 177 174 1
RVCC1 141 7 10
RVEE1 142 4 10
RVN1 0 185 90k
V1 169 114 0.739
V10 179 104 0
V2 155 174 0.739
V3 169 129 0.739
V4 156 174 0.739
V5 189 124 12m
V6 167 131 0.739
V7 130 172 0.739
V8 167 133 0.739
V9 132 172 0.739
VBUF1 182 103 0
VCC1 7 168 0
VDUM1 102 101 0
VDUM2 109 184 0
VDUM3 104 108 0
VDUM4 148 154 0
VDUM5 147 150 0
VEE1 4 173 0
VOLIM1 126 154 1.7
VOLIM2 125 150 1.7
VOS1 123 180 89.53u
VOS2 140 157 109uV
.MODEL DLIM D(IS=1E-12 BV=100 RS=0.1 XTI=0 CJO=0 TT=0)
.MODEL DOUT D(IS=1E-12 BV=100 RS=0.1 XTI=0 CJO=5p TT=1e-9)
.MODEL DZNR D(IS=1E-12 BV=50 RS=10 XTI=1 CJO=0 TT=0)
.MODEL PNP1 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL PNP2 PNP(IS=9.8047E-16 BF=22.7 RB=0)
.MODEL NPN1 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPN2 NPN(IS=9.8047E-16 BF=55.6 RB=0)
.MODEL NPNLIM NPN(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL PNPLIM PNP(IS=1E-12 BF=1000 BR=1000 RB=0)
.MODEL NMOSLIM NMOS(VTO=0.5)
.MODEL PMOSLIM PMOS(VTO=-0.5)
.model DESDUP D(IS=1E-12 RS=0.001 CJO=1p VJ=0.3 TT=1e-9)
.ENDS LT6600-5
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/16/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT FB
.SUBCKT LT6650 104 103 6 102
CG1 118 0 0.05
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 35332.9
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 1.2e-7
GLINE 0 116 7 4 6e-5
GLOAD 0 116 121 6 2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.0025
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 1.2e-5
GVLIM2 0 114 104 111 5000000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IFB 102 0 1.2e-9
IILIM1 0 105 9
IILIM2 106 0 5
ITEMP 0 113 1
ITYP 104 103 5.6e-6
IVLIM2 0 114 100
IVOPT 0 116 0.4
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 33967400
ROUT1 121 4 400
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 101 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
VDUM1 0 112 1
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LT6650
*
***
*
* Copyright © Linear Technology Corp. 10/12/04. All rights reserved. [Spice3]
* Pinout (same as IC): OUTA GROUND +INA -INB VS OUTB
.SUBCKT LT6700-1 1 2 3 4 5 6
X1 3 100 5 2 1 100 LT6700_BASE
X2 100 4 5 2 6 101 LT6700_BASE
RD1 101 0 1E6
.ENDS LT6700-1
*
* Copyright © Linear Technology Corp. 10/12/04. All rights reserved. [Spice3]
* Pinout (same as IC): OUTA GROUND -INA -INB VS OUTB
.SUBCKT LT6700-2 1 2 3 4 5 6
X1 100 3 5 2 1 100 LT6700_BASE
X2 100 4 5 2 6 101 LT6700_BASE
RD1 101 0 1E6
.ENDS LT6700-2
*
* Copyright © Linear Technology Corp. 10/12/04. All rights reserved. [Spice3]
* Pinout (same as IC): OUTA GROUND +INA +INB VS OUTB
.SUBCKT LT6700-3 1 2 3 4 5 6
X1 3 100 5 2 1 100 LT6700_BASE
X2 4 100 5 2 6 101 LT6700_BASE
RD1 101 0 1E6
.ENDS LT6700-3
*
* Version 2.00 Copyright © Linear Technology Corp. 11/15/04. All rights reserved. [Spice2]
* LT6700_BASE Pin Sequence IN+ IN- VCC VEE OUT REF
.SUBCKT LT6700_BASE 3 2 7 4 6 131
CDUM1 139 4 0.01p
CDUM2 4 3 0.01p
CIBIAS1 111 0 10p
CIBIAS2 110 0 10p
CLATCH1 141 0 10p
CPROP 136 0 2e-5
CRF1 128 0 2.2e-6
DHYST1 107 108 DSW
DHYST2 107 137 DSW
DILIM1 113 115 DSW
DILIM2 115 114 DSW
DOC1 122 123 DSW
DOC2 122 121 DSW
DPROP1 124 0 DIODE
DPROP2 0 124 DIODE
DPWR1 146 125 DSW
DPWR2 126 101 DSW
DVLIMOC1 119 143 DVLIM
EGND 102 0 101 0 1
EHYST1 108 0 117 0 1E5
EIBIAS1 112 0 3 2 100
EILIM1 116 0 115 0 -100
EIN 140 0 117 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELDO2 119 0 101 120 1
EOC1 0 121 136 0 10
EOM 145 0 144 0 1
EREF1 131 0 135 127 1
EVCC1 133 0 7 0 1
EVEE1 135 0 4 0 1
EVS 147 0 146 0 1
GCMRR 0 117 138 142 1e-5
GHYST2 0 124 137 0 1
GIBIAS1 3 0 110 0 1E-6
GIBIAS2 2 0 111 0 1E-6
GILIM1 0 113 143 118 1E4
GILIM2 114 0 118 143 1E4
GIN 0 117 3 139 1
GOUTOC 143 0 128 116 1
GPROP 0 124 141 0 100000
GPSRRN 0 117 4 142 1e-5
GPSRRP 0 117 7 142 1e-5
GPWRO1 125 0 143 118 10
GPWRO2 126 0 143 118 10
GRF1 0 128 123 0 2.2
IHYST2 0 107 350
IIBIAS 0 109 0.001
ILIM1 113 0 5
ILIM2 0 114 40
IOC1 0 122 0.005
IOS 3 2 1e-12
ITYP1 7 0 5.7e-6
ITYP2 0 4 5.7e-6
IVOS 0 117 0.0005
RDUMOC 130 118 0.001
RHYST2 107 0 1k
RHYST3 137 0 1
RIBIAS1 111 0 1
RIBIAS2 110 0 1
RIBIAS3 109 111 10k
RILIM1 115 0 1
RILIM2 113 0 1
RILIM3 114 0 1
RILIMOC 118 143 0.1
RIN 117 0 1
RINCM1 138 105 1
RINCM2 106 138 1
RLATCH0 141 140 1E-4
RLATCH1 141 0 1
RMID1 142 133 1
RMID2 135 142 1
ROC1 123 0 10
ROC2 122 0 10k
RPROP1 124 0 1
RPROP2 136 124 1.307
RPWR1 125 147 1E3
RPWR2 126 102 1E3
RRF1 128 0 0.4545
RSHD7 130 6 1E-4
RVCC 7 146 1E-4
RVEE 4 101 1E-4
RVNOI 139 2 6038.65
RVOM1 144 147 1
RVOM2 102 144 1
SIBIAS1 110 109 112 0 SWBIAS
VLDO2 0 120 1.5107
VREF1 0 127 0.4
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(IS=1E-18 KF=0 XTI=0 RS=1E-8)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT6700_BASE
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* S1A S2A CA+ S3A S4A CA- OSC VDD VSS
.SUBCKT LTC1043 7 8 11 13 14 12 16 4 17
.IC V(20)=0
RIN1 16 17 1.0E9
RIN2 16 20 50
DINP 20 4 DX
DINN 17 20 DX
COSC 20 17 2.4e-11
GBIAS 20 17 POLY(2) 4 17 73 17 0.0 -4.0E-6 -8.0E-6
GINV 17 73 72 20 1.0E-1
RINV1 73 17 1.0E4
CINV1 73 17 2.2E-10
DINV1 73 74 DX
VINV1 74 17 DC -0.86
DINV2 75 73 DX
EINV2 75 17 POLY(1) 17 4 0.8 1.0
GTV 17 72 4 17 1.16E-3
RTV 72 17 1.0E3
RHYST 73 72 1.4E3
GSCS 17 76 73 17 2.5E-3
RSCS 76 17 1.0E3
DSCS 77 76 DX
VSDN2 77 17 DC -4.2
EST1 24 17 76 17 1.0
RST1 24 25 113
RST2 25 26 85
DST1 24 26 DX
CST1 25 17 1.2E-9
EST2 44 17 POLY(1) 17 76 -5 1
RST3 44 45 113
RST4 45 46 85
DST2 44 46 DX
CST2 45 17 1.2E-9
XS1A 7 11 25 4 17 X1LTC1043
XS2A 8 11 45 4 17 X1LTC1043
XS3A 13 12 25 4 17 X1LTC1043
XS4A 14 12 45 4 17 X1LTC1043
RPC 4 17 25000
.MODEL DX D IS=8e-16 RS=0 XTI=0
.ENDS LTC1043
*
.SUBCKT X1LTC1043 1 2 25 14 15 ;NESTED SUBCIRCUIT--DO NOT CALL
GSW 1 31 POLY(2) 25 15 1 31 0 0 6e-13 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 2.56E-6
RTC 33 15 995.41 TC=-0.002298
GTC 15 33 31 2 0.001
GPK1 15 50 POLY(2) 1 15 14 15 0 1.0E-3 -0.0006
RPK1 50 15 1.0E3
DPK1 50 51 DX
RPK2 51 15 1.0E4
GPK2 15 52 POLY(2) 1 15 51 15 0 1.0E-3 -1.4E-3
RPK3 52 15 1.0E3
GSV1 15 53 TABLE {V(14,15)}=
+ (3.0, 6.8E-3) (5.0, 4.15E-3) (7.0, 2.9E-3) (9.0, 2.25E-3) (10.0, 1.95E-3)
+ (12.0, 1.58E-3) (15.0, 1.23E-3) (18.0, 1.0E-3)
RSV1 53 15 1.0E3
GSV2 15 54 POLY(2) 53 15 52 15 0 0 0 0 1.0E-3
RSV2 54 15 1.0E3
GON 31 2 POLY(2) 33 15 54 15 0 0.009972 0 0 0 0 0 0 -3.437e-5
RON1 1 31 1.0E12
RON2 31 2 1.0E9
CDS 1 2 5e-13
CDG 2 15 1e-12
CSG 1 15 1e-12
.MODEL DX D IS=8e-16 RS=0 XTI=0
.ENDS X1LTC1043
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1047 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 6631.5
RD2 4 90 6631.5
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 2.4e-5
* INTERMEDIATE
GCM 0 8 12 0 4.7686E-11
GA 8 0 80 90 0.0001508
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 33324
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 285.34
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 1.9974
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.3894
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.3894
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.000176
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=9.4748E-04 VTO=-1.1)
.MODEL PM2 PMOS(KP=9.4748E-04 VTO=-1.100002)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1047
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1049 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 6631.5
RD2 4 90 6631.5
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 2.4e-5
* INTERMEDIATE
GCM 0 8 12 0 4.7686E-11
GA 8 0 80 90 0.0001508
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 33324
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 285.34
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 1.9974
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.3894
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.3894
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.000176
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=9.4748E-04 VTO=-1.1)
.MODEL PM2 PMOS(KP=9.4748E-04 VTO=-1.100002)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1049
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1050 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2122.1
RD2 4 90 2122.1
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 0.00012
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 1.4902E-10
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 10664
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 179.55
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 2.6932
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4332
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4332
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00088
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=0.0018506 VTO=-1.1)
.MODEL PM2 PMOS(KP=0.0018506 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1050
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1050A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2122.1
RD2 4 90 2122.1
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 0.00012
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 4.7124E-11
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 10664
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 179.55
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 2.6932
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4332
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4332
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00088
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=0.0018506 VTO=-1.1)
.MODEL PM2 PMOS(KP=0.0018506 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1050A
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1052CS 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLTC1052CS 3 2 7 4 6 LTC1052
.ENDS LTC1052CS
*
.SUBCKT LTC7652 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLTC7652 3 2 7 4 6 LTC1052
.ENDS LTC7652
*
.SUBCKT LTC1052 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 4421
RD2 4 90 4421
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 0.00012
CS 12 0 7.5e-12
* INTERMEDIATE
GCM 0 8 12 0 2.2619E-11
GA 8 0 80 90 2.2619E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 7025.3
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 179.55
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 1.7955
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4332
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4332
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00158
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=4.2637E-04 VTO=-1.1)
.MODEL PM2 PMOS(KP=4.2637E-04 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1052
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1053 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2122.1
RD2 4 90 2122.1
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 0.00012
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 1.4902E-10
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 10664
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 179.55
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 2.6932
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4332
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4332
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00088
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=0.0018506 VTO=-1.1)
.MODEL PM2 PMOS(KP=0.0018506 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1053
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* LTC1100(A) MODEL USES LT1101/1102 8-PIN PINOUT CONVENTION.
* FOR 16-PIN LTC1100CS SHORT 2 TO 1 AND 7 TO 8 FOR A GAIN OF 10,
* OTHERWISE GAIN=100. GAIN=10 FEATURE IS NOT AVAILABLE IN 8-PIN DEVICE.
* 8 PIN DEVICE IS FIXED GAIN=100 (LEAVE MODEL PINS 2 AND 7 OPEN).
* (RES3)
*
* GND GA IN- VN VP IN+ GB OUT
*
.SUBCKT LTC1100A 1 2 3 4 5 6 7 8
XLTC1100A 1 2 3 4 5 6 7 8 LTC1100
.ENDS LTC1100A
*
.SUBCKT LTC1100 1 2 3 4 5 6 7 8
*
R90A 1 2 225K
R9A 2 100 22.5K
RA 100 101 2.5K
RB 101 102 2.5K
R9B 102 7 22.5K
R90B 7 8 225K
*
XA 3 100 5 4 101 LTC1051
XB 6 102 5 4 8 LTC1051
.ENDS LTC1100
*
.SUBCKT LTC1051A 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLTC1051A 3 2 7 4 6 LTC1051
.ENDS LTC1051A
*
.SUBCKT LTC1051 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2122.1
RD2 4 90 2122.1
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 0.00012
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 1.4902E-10
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 10664
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 179.55
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 0
D2 20 21 DM1
VOD2 21 18 2.6932
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4332
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4332
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00088
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=0.0018506 VTO=-1.1)
.MODEL PM2 PMOS(KP=0.0018506 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=19.8)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1051
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC1151 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
X_LTC1151 3 2 7 4 6 LTC1150
.ENDS LTC1151
*
.SUBCKT LTC1150 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
* INPUT
IB1 2 7 -10P
IB2 3 7 10P
RD1 4 80 2122.1
RD2 4 90 2122.1
M1 80 2 12 12 PM1
M2 90 3 12 12 PM2
CIN 2 3 5e-12
DG1 2 7 DMG1
DG2 3 7 DMG2
C1 80 90 1.5e-11
ISS 7 12 9e-5
CS 12 0 1.2857E-11
* INTERMEDIATE
GCM 0 8 12 0 2.65e-11
GA 8 0 80 90 4.7124E-04
R2 8 0 100000
C2 1 8 3e-11
GB 1 0 8 0 106640
RO2 1 0 199
* OUTPUT
RSO 1 6 1
ECL 18 0 1 6 296.75
GCL 0 8 20 0 1
RCL 20 0 10
D1 18 19 DM1
VOD1 19 20 5.9605e-8
D2 20 21 DM1
VOD2 21 18 2.6708
*
D3A 131 70 DM3
D3B 13 131 DM3
GPL 0 8 70 7 1
VC 13 6 1.4253
RPLA 7 70 10
RPLB 7 131 1000
D4A 60 141 DM3
D4B 141 14 DM3
GNL 0 8 60 4 1
VE 6 14 1.4253
RNLA 60 4 10
RNLB 141 4 1000
*
IP 7 4 0.00071
DSUB 4 7 DM2
* MODELS
.MODEL PM1 PMOS(KP=0.0024674 VTO=-1.1)
.MODEL PM2 PMOS(KP=0.0024674 VTO=-1.1000005)
.MODEL DM1 D(IS=1e-20)
.MODEL DM2 D(IS=8e-16 BV=39.6)
.MODEL DM3 D(IS=1e-16)
.MODEL DMG1 D(IS=7E-12 N=2.31)
.MODEL DMG2 D(IS=6.3E-12 N=2.31)
.ENDS LTC1150
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM WED FEB 18 15:49:53 1998
*
*
.SUBCKT LTC1152 1 2 3 4 5 6 8 9
*
GSW1 2 119 POLY(2) 803 99 2 119 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1000000000
CIN 1 119 1.3732e-11
GRIN 1 119 1 119 1e-11
M1 11 119 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 9 11 170430 TC=-9.3925e-8
RD2 9 12 170430 TC=9.3925e-8
DI1 111 9 DI1
DI2 119 9 DI2
C1 11 12 3.8911e-13
IEE 10 4 DC 1.1735e-5
GSHDN 10 4 806 99 2.3708e-6
GA 60 99 11 12 5.8677e-6
DCP 3 9 DX
RCP 3 9 16600
CCP 3 9 1e-10
GCP 3 9 POLY(1) 806 99 1.5E-4 3.3e-5
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 2.898e-5
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 2.898e-5
RRu 605 0 112
VRu 605 0 DC 0
FCur 606 0 VRu 1.0
RCur1 606 0 1.0E
CCur 606 0 1.6e-7
GCur 99 60 606 0 1.0E-3
GCM1 99 20 POLY(2) 1 99 119 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 3.1831
ECM 111 1 20 99 3.1623e-7
RR1 6 60 0.001
R2 6 99 1000
C2 6 7 2.09e-11
GB 7 99 6 99 217570
R01 7 99 140
R02 7 50 0.1
R03 50 51 139.9
GSW2 51 5 POLY(2) 803 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
R04 5 99 1.0000e+012
VC 53 50 DC 0.95832
VE 54 50 DC -0.96137
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 714.29
ECLN 92 0 7 50 800
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 50.518
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 803 3.933e-8 0.00043745
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
RDIS1 8 3 1.0000e+012
DDIS1 801 8 DX
RDIS2 801 802 3570800
VDIS1 800 802 DC 0
EDIS 3 800 3 99 0.35
FDIS 99 803 POLY(1) VDIS1 -30E-3 50000
RDIS3 803 99 1000
DDIS2 803 804 DON
VDIS2 804 99 DC -0.801
DDIS3 805 803 DOFF
VDIS3 805 99 DC -4.195
CDIS1 803 99 5e-11
EDIS2 806 99 POLY(1) 803 99 -5.0 -1.0
RDIS4 806 99 1000000
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL M1 NMOS LEVEL=3 KP=0.00091841 VTO=1.000001 KF=0.0
.MODEL M2 NMOS LEVEL=3 KP=0.00091841 VTO=0.9999992 KF=0.0
.MODEL DI1 D IS=1.9237e-11 EG=0.17586 XTI=3
.MODEL DI2 D IS=6.4482e-12 EG=0.20832 XTI=3
.MODEL DRI D IS=8e-16 KF=0.0 RS=0 XTI=0
.MODEL DON D IS=8e-16 TT=9.9886e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOFF D IS=8e-16 TT=3.8058e-6 CJO=3e-13 RS=0 XTI=0
*
.ENDS LTC1152
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
*CCM
*
.SUBCKT LTC1250 1 2 3 4 5 ;(+IN -IN V+ V- OUT)
*
CIN 1 2 5.5e-11
GRIN 1 2 1 2 1e-11
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 356.51 TC=-2.021e-8
RD2 3 12 356.51 TC=2.021e-8
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 2.7901e-11
IEE 10 4 DC 0.0056099
GA 60 99 11 12 0.0028049
IR1 0 101 DC 1
IR2 0 102 DC 1
DR1 101 0 DRI
DR2 102 0 DRI
GRI1 99 1 101 102 7.8148e-5
IR3 0 103 DC 1
IR4 0 104 DC 1
DR3 103 0 DRI
DR4 104 0 DRI
GRI2 99 2 103 104 7.8148e-5
RRu 605 0 0.1037
VRu 605 0 DC 0
FCur 606 0 VRu 1.0
RCur1 606 0 1.0
CCur 606 607 0.45E-3
RCur2 607 0 0.2
GCur 99 60 606 0 1.0
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 7.9577
ECM 111 1 20 99 3.1623e-7
RP1 601 99 2500
CP1 60 601 3.1831e-11
RP11 60 99 10000
GP1 99 6 60 99 0.0001
R2 6 99 3350000
DRT 222 6 DX
RRT 222 99 1.8E6
C2 6 7 2.9605e-10
GB 7 99 6 99 70.258
R01 7 99 134.36
R02 7 50 0.1
R03 50 5 65.543
R04 5 99 1.0000e+012
VC 53 50 DC 1.1677
VE 54 50 DC -1.1677
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 50 99 56 3 10
GVLN 50 99 58 4 10
ECLP 91 0 7 50 429.29
ECLN 92 0 7 50 295.14
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 26124
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC -0.0026099
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 10.0
EGV 31 32 POLY(1) 3 4 -0.85 1.0
.MODEL DX D IS=8e-16 RS=0 XTI=0
.MODEL M1 NMOS LEVEL=3 KP=0.017826 VTO=1.000003 KF=0.0
.MODEL M2 NMOS LEVEL=3 KP=0.017826 VTO=0.9999973 KF=0.0
.MODEL DI1 D IS=5.25e-11 EG=-0.61495 XTI=3
.MODEL DI2 D IS=1.75e-11 EG=-0.55034 XTI=3
.MODEL DRI D IS=8e-16 KF=0 RS=0 XTI=0
*
.ENDS LTC1250
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* IN+ IN- V+ V- OUT OUTGND REF HYSTERESIS
.SUBCKT LTC1440 1 2 200 300 101 400 420 350
*
CIN 2 1 5e-12
RIN 2 1 1000000000
EOFF 3 1 POLY(1) 360 300 0.003 1.0
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.031831
GCM2 401 20 19 401 0.0020115
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(1) 200 401 -0.67896 0.5
E4N 401 33 POLY(1) 200 401 -0.67896 0.5
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
EOUT1 44 43 33 401 -1.0
VOUT1 101 44 DC 0.6749441
ROUT1 101 401 1000000000
IVDD 200 0 DC 2e-6
RVSS 300 0 1000000000
EGND 401 0 400 0 1
RGND 400 0 1000000000
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.75 1.0
IREF 300 410 1.1819E-3
RREF 410 300 1.0E3 TC=-4.6E-5
EBGR1 411 300 410 300 1.0
RBGR1 411 412 0.4
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 2.3
FSOURCE 410 300 VBGR2 3.2
FBGR2 300 415 VBGR1 250
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 1.2
RINH 350 351 200
IHYST 351 400 2e-11
DINH1 300 351 DY
DINH2 351 352 DY
EINH 352 300 420 300 1.0
GHYST1 353 300 351 300 1.0E-3
GDIFFH 300 353 420 300 1.0E-3
CHYST 353 300 2.2E-8
RHYST1 353 300 1.0E3
*DHYP 353 354 DY
*VHYP 354 300 DC -0.5
RNORM1 200 356 1.0E9
RNORM2 400 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-9
RNORM3 357 300 1.0E3
DNORM1 357 358 DY
VNORM1 358 300 DC 0.075
DNORM2 359 357 DY
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 1.0E-3
RMULT 360 300 1.0E3
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL DY D IS=8e-16 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=3.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
.ENDS LTC1440
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUT V- IN+ IN- V+
.SUBCKT LTC1441 1 2 3 4 7
XCOMP 3 4 1 7 2 LTC1441MD
.ENDS LTC1441
*
***
*
.SUBCKT LTC1441MD 1 2 101 200 300
*
* input stage
*
CIN 2 1 5e-12
RIN 2 1 1000000000
VOFF 3 1 DC 0.003
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
*
* delay stage
*
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
*
* common mode stage
*
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.0031831
GCM2 401 20 19 401 0.0020115
*
* slewrate stage
*
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(2) 200 401 300 401 -0.78347 0.5 -0.5
E4N 401 33 POLY(2) 200 401 300 401 -0.78347 0.5 -0.5
*
* phase shifter
*
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
*
* output stage
*
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
VOUT1 101 43 DC 0.015
ROUT1 101 401 1000000000
*
* supply characteristic
*
IVDD 200 300 DC 2e-6
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.75 1.0
*
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=3.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
*
.ENDS LTC1441MD
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUTA V- INA+ INB- HYST REF V+ OUTB
.SUBCKT LTC1442 1 2 3 4 5 6 7 8
XCOMP1 3 6 1 7 2 5 6 COMP1442
XCOMP2 6 4 8 7 2 5 6 COMP1442
XREF 6 2 REF1442
.ENDS LTC1442
*
***
*
.SUBCKT COMP1442 1 2 101 200 300 350 420
*
* input stage
*
CIN 2 1 5e-12
RIN 2 1 1000000000
EOFF 3 1 POLY(1) 360 300 0.003 1.0
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
*
* delay stage
*
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
*
* common mode stage
*
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.0031831
GCM2 401 20 19 401 0.0020115
*
* slewrate stage
*
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(2) 200 401 300 401 -0.78347 0.5 -0.5
E4N 401 33 POLY(2) 200 401 300 401 -0.78347 0.5 -0.5
*
* phase shifter
*
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
*
* output stage
*
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
VOUT1 101 43 DC 0.015
ROUT1 101 401 1000000000
*
* supply characteristic
*
IVDD 200 300 DC 2e-6
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.75 1.0
*
* hysteresis control input
*
* input
*
RINH 350 351 200
IHYST 351 0 1e-11
DINH1 300 351 DY
DINH2 351 352 DY
EINH 352 300 420 300 1.0
*
* difference and state dependend multiplier
*
GHYST1 353 300 351 300 1.0E-3
GDIFFH 300 353 420 300 1.0E-3
CHYST 353 300 2.2E-8
RHYST1 353 300 1.0E3
*DHYP 353 354 DY
*VHYP 354 300 DC -0.5
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-9
RNORM3 357 300 1.0E3
DNORM1 357 358 DY
VNORM1 358 300 DC 0.075
DNORM2 359 357 DY
VNORM2 359 300 DC -0.075
*
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 1.0E-3
RMULT 360 300 1.0E3
*
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL DY D IS=8e-16 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=3.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
*
.ENDS COMP1442
*
***
*
* 1.182 V bandgap reference
* with temperature drift
* referenced to Vss
*
.SUBCKT REF1442 420 300
*
IREF 300 410 1.1819E-3
RREF 410 300 1.0E3 TC=-4.6E-5
EBGR1 411 300 410 300 1.0
RBGR1 411 412 0.4
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
*
* sourcing characteristic
*
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 2.3
FSOURCE 410 300 VBGR2 3.2
*
* sinking characteristic
*
FBGR2 300 415 VBGR1 250
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 1.2
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1442
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUTA V+ INA- INA+ REF V- GND
.SUBCKT LTC1443 2 3 4 5 8 9 14
XCOMPA 5 4 2 3 9 14 COMP1443
* ADD COMPARATORS 2 to 4 HERE IF REQUIRED
XREF 8 9 REF1443
.ENDS LTC1443
*
***
*
.SUBCKT COMP1443 1 2 101 200 300 400
*$* input stage
*
CIN 2 1 5e-12
RIN 2 1 1000000000
VOFF 3 1 DC 0.003
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
*
* delay stage
*
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
*
* common mode stage
*
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.031831
GCM2 401 20 19 401 0.0020115
*
* slewrate stage
*
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(1) 200 401 -0.67896 0.5
E4N 401 33 POLY(1) 200 401 -0.67896 0.5
*
* phase shifter
*
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
*
* output stage
*
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
EOUT1 44 43 33 401 -1.0
VOUT1 101 44 DC 0.6749441
ROUT1 101 401 1000000000
*
* supply characteristic
*
*IVDD 200 0 DC 2.0e-006
RVSS 300 0 1000000000
EGND 401 0 400 0 1
RGND 400 0 1000000000
*
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.75 1.0
*
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=3.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
*
.ENDS COMP1443
*
***
*
* 1.182 V bandgap reference
* with temperature drift,
* referenced to V-
*
.SUBCKT REF1443 420 300
*
IREF 300 410 1.1819E-3
RREF 410 300 1.0E3 TC=-4.6E-5
EBGR1 411 300 410 300 1.0
RBGR1 411 412 2.0
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
*
* sourcing characteristic
*
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 2.3
FSOURCE 410 300 VBGR2 3.2
*
* sinking characteristic
*
FBGR2 300 415 VBGR1 130
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 4.2
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1443
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUTA V+ INA- INA+ REF V- HYST
.SUBCKT LTC1444 2 3 4 5 8 9 14
XCOMPA 5 4 2 3 9 360 COMP1444
* ADD COMPARATORS 2 to 4 HERE IF REQUIRED
XHYST 14 360 2 3 9 8 HYST1444
XREF 8 9 REF1444
.ENDS LTC1444
*
***
*
*$*
.SUBCKT COMP1444 1 2 101 200 300 360
* input stage
*
CIN 2 1 5e-12
RIN 2 1 1000000000
EOFF 3 1 POLY(1) 360 300 -0.003 1.0
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
*
* common mode stage
*
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.031831
GCM2 401 20 19 401 0.0020115
*
* delay stage
*
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
*
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
V4P 32 401 DC 0.335
V4N 33 401 DC -0.335
*
* phase shifter
*
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
*
* output stage
*
GO 52 50 POLY(1) 401 41 1.0E-3 1.0E-3
RO 50 52 1000
MOD 101 50 52 300 MOD L=100U W=100U
RE 52 300 0.1
*
* supply characteristic
*
IVDD 200 300 DC 1.4e-6
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
*
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=4.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL MOD NMOS LEVEL=1 VTO=0.0 KP=2.5E-2
*
.ENDS COMP1444
*
***
*
* hysteresis control section
*
.SUBCKT HYST1444 350 360 101 200 300 420
*
* input
*
RINH 350 351 200
IHYST 351 0 1e-11
DINH1 300 351 DY
DINH2 351 352 DY
EINH 352 300 420 300 1.0
*
* difference and state dependend multiplier
*
GHYST1 353 300 351 300 1.0E-3
GDIFFH 300 353 420 300 1.0E-3
CHYST 353 300 2.2E-8
RHYST1 353 300 1.0E3
*DHYP 353 354 DY
*VHYP 354 300 DC -0.5
*
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-9
RNORM3 357 300 1.0E3
DNORM1 357 358 DY
VNORM1 358 300 DC 0.075
DNORM2 359 357 DY
VNORM2 359 300 DC -0.075
*
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 1.0E-3
RMULT 360 300 1.0E3
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS HYST1444
*
***
*
* 1.221 V bandgap reference
* referenced to Vss
*
.SUBCKT REF1444 420 300
*
IREF 300 410 1.221E-3
RREF 410 300 1.0E3
*
EBGR1 411 300 410 300 1.0
RBGR1 411 412 5.0
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
*
* sourcing characteristic
*
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 2.3
FSOURCE 410 300 VBGR2 3.2
*
* sinking characteristic
*
FBGR2 300 415 VBGR1 130
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 4.2
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1444
*
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* OUTA V+ INA- INA+ REF V- HYST
.SUBCKT LTC1445 2 3 4 5 8 9 14
XCOMPA 5 4 2 3 9 360 COMP1445
* ADD COMPARATORS 2 to 4 HERE IF REQUIRED
XHYST 14 360 2 3 9 8 HYST1445
XREF 8 9 REF1445
.ENDS LTC1445
*
***
*
.SUBCKT COMP1445 1 2 101 200 300 360
*$* input stage
CIN 2 1 5e-12
RIN 2 1 1000000000
EOFF 3 1 POLY(1) 360 300 0.003 1.0
ROFF 3 1 1000000000
IB1 401 1 DC 1.25e-11
IB2 401 2 DC 7.5e-12
* delay stage
G1 401 20 3 2 21.036
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 2524.3
V1N 22 401 DC -2524.3
G2 401 23 20 401 0.001
R2 23 401 1000
R21 27 401 452.83
D2 27 23 DX
CD 23 401 4.7961e-9
* common mode stage
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.031831
GCM2 401 20 19 401 0.0020115
* slewrate stage
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 152.57
V3N 26 401 DC -152.57
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 3.0163e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(2) 200 401 300 401 -0.70596 0.5 -0.5
E4N 401 33 POLY(2) 200 401 300 401 -0.70596 0.5 -0.5
* phase shifter
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 1.2732e-5
CA 41 401 7.9577e-11
* output stage
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
VOUT1 101 43 DC 0.0
ROUT1 101 401 1000000000
* supply characteristic
IVDD 200 300 DC 1.4e-6
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.65 1.0
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL D3P D IS=1e-12 TT=7.4892e-7 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1e-12 TT=3.691e-6 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
.ENDS COMP1445
*
***
*
* hysteresis control section
*
.SUBCKT HYST1445 350 360 101 200 300 420
* input
RINH 350 351 200
IHYST 351 0 1e-11
DINH1 300 351 DY
DINH2 351 352 DY
EINH 352 300 420 300 1.0
* difference and state dependend multiplier
GHYST1 353 300 351 300 1.0E-3
GDIFFH 300 353 420 300 1.0E-3
CHYST 353 300 2.2E-8
RHYST1 353 300 1.0E3
*DHYP 353 354 DY
*VHYP 354 300 DC -0.5
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-9
RNORM3 357 300 1.0E3
DNORM1 357 358 DY
VNORM1 358 300 DC 0.075
DNORM2 359 357 DY
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 1.0E-3
RMULT 360 300 1.0E3
.MODEL DY D IS=8e-16 RS=0 XTI=0
.ENDS HYST1445
*
***
*
* 1.221 V bandgap reference
* referenced to Vss
*
.SUBCKT REF1445 420 300
*
IREF 300 410 1.221E-3
RREF 410 300 1.0E3
EBGR1 411 300 410 300 1.0
RBGR1 411 412 5.0
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
* sourcing characteristic
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 2.3
FSOURCE 410 300 VBGR2 3.2
* sinking characteristic
FBGR2 300 415 VBGR1 130
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 4.2
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1445
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
* GND V- IN+ IN- HYST REF V+ OUT
.SUBCKT LTC1540 1 2 3 4 5 6 7 8
XCOMP 3 4 8 7 2 5 1 6 COMP1540
XREF 6 2 REF1540
.ENDS LTC1540
*
***
*
.SUBCKT COMP1540 1 2 101 200 300 350 400 420
* input stage
CIN 2 1 5e-12
RIN 2 1 1.0000e+010
ROFF1 301 0 1.012 TC=-2.4e-5
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 3 1 POLY(2) 360 300 301 302 0.0 1.0 1.0
ROFF 3 1 1000000000
IBP 303 0 DC 5.3881e-11
RBP 303 0 1E6 TC=0.28374
GBP 1 401 303 0 1e-6
IBN 304 0 DC 3.2329e-11
RBN 304 0 1E6 TC=0.28374
GBN 2 401 304 0 1e-6
* delay stage
G1 401 20 3 2 12
R1 20 401 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 401 DC 129.02
V1N 22 401 DC -110.21
G2 401 23 20 401 0.001
R2 23 401 1000
CD 23 401 1.8e-12
* common mode stage
GCM1 401 19 POLY(2) 1 401 2 401 0 0.0005 0.0005
RCM1 18 401 1000
RCM2 19 401 1000000
LCM 19 18 0.031831
GCM2 401 20 19 401 0.0012012
* slewrate stage
G3 401 24 23 401 0.001
R3 24 401 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 401 DC 128.02
V3N 26 401 DC -109.21
G41 401 30 24 401 0.001
R41 30 401 1000
CR 30 401 1.7526e-7
D4P 30 32 DX
D4N 33 30 DX
E4P 32 401 POLY(1) 200 401 -0.76201 0.5
E4N 401 33 POLY(1) 200 401 -0.76201 0.5
* phase shifter
G5 401 40 30 401 0.001
R5 40 401 1000
LA 40 41 7.9577e-5
CA 41 401 4.9736e-10
* output stage
GO12 401 43 41 401 0.052083
RO12 43 401 19.2
EOUT1 44 43 33 401 -1.0
VOUT1 101 44 DC 0.7599405
ROUT1 101 401 1000000000
* supply characteristic
IVDD 200 0 DC 1e-7
RVSS 300 0 100000000
EGND 401 0 400 0 1
RGND 400 0 1000000000
FA1 51 0 VOUT1 -1
DAP 200 51 DX
DAN 53 300 DX
RGV 52 53 10
EGV 51 52 POLY(1) 200 300 -0.65 1.0
*
* hysteresis control input
*
* input
RINH 350 351 200
IHYST 351 400 2e-11
DINH1 300 351 DY
DINH2 351 352 DY
EINH 352 300 420 300 1.0
* difference and state dependend multiplier
GHYST1 353 300 351 300 1.0E-3
GDIFFH 300 353 420 300 1.0E-3
CHYST 353 300 2.2E-8
RHYST1 353 300 1.0E3
*DHYP 353 354 DY
*VHYP 354 300 DC -0.5
RNORM1 200 356 1.0E9
RNORM2 400 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-9
RNORM3 357 300 1.0E3
DNORM1 357 358 DY
VNORM1 358 300 DC 0.075
DNORM2 359 357 DY
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 1.0E-3
RMULT 360 300 1.0E3
*
.MODEL DX D IS=1e-12 RS=0 XTI=0
.MODEL DY D IS=8e-16 RS=0 XTI=0
.MODEL D3P D IS=1E-12 TT=0.0090373 CJO=3e-13 RS=0 XTI=0
.MODEL D3N D IS=1E-12 TT=0.0090409 CJO=3e-13 RS=0 XTI=0
.MODEL DOUT D IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1
*
.ENDS COMP1540
*
***
*
.SUBCKT REF1540 420 300
*
* 1.182 V bandgap reference
* with temperature drift
* referenced to Vss
*
IREF 300 410 1.1819E-3
RREF 410 300 1.0E3 TC=-4.6E-5
*
EBGR1 411 300 410 300 1.0
RBGR1 411 412 0.5
VBGR1 412 420 DC 0
RBGR2 420 300 1.0E9
* sourcing characteristic
FBGR1 300 413 VBGR1 1.0
RBGR3 413 300 1.0E3
DBGR1 413 414 DY
VBGR2 414 300 DC 1.3
FSOURCE 410 300 VBGR2 3.2
* sinking characteristic
FBGR2 300 415 VBGR1 250
RBGR4 415 300 1.0E3
DBGR2 415 416 DY
RBGR5 416 300 10
DBGR3 417 415 DY
VBGR3 417 300 DC -1.0
FSINK 300 410 POLY(1) VBGR3 0 0 1.2
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS REF1540
**
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*AMPOUT 1
*AMPIN- 2
*AMPIN+ 3
*VSS 4
*COMPIN+ 5
*REF 6
*COMPOUT 7
*VDD 8
*
.SUBCKT LTC1541 1 2 3 4 5 6 7 8
XOP 3 2 8 4 1 LTC1541_OP
XCOMP 5 6 7 8 4 LTC1541_COMP
XREF 6 8 4 LTC1541_REF
.ENDS LTC1541
*
***
*
* low power CMOS op amp
.SUBCKT LTC1541_OP 1 2 3 4 5
*
* input stage
CIN 1 2 3.8021e-12
GRIN 1 2 1 2 1e-10
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 4 11 1600000 TC=2.0469e-5
RD2 4 12 1600000 TC=-2.0469e-5
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 3.1085e-12
IEE 3 10 DC 1.25e-6
GA 60 99 11 12 6.25e-7
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.53052
ECM 111 1 20 99 3.1623e-6
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.5625e-10
GB 7 99 6 99 392160
R01 7 99 99.9
R02 7 50 0.1
R03 50 5 500
R04 5 99 5937900000
VC 53 50 DC 0.95737
VE 54 50 DC -0.93738
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 5555.6
ECLN 92 0 7 50 5555.6
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 9.3945
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 1.25e-6
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL M1 PMOS(LEVEL=3 KP=0.00013093 VTO=-0.99965 KF=1.2612e-44)
.MODEL M2 PMOS(LEVEL=3 KP=0.00013093 VTO=-1.00035 KF=1.2612e-44)
.MODEL DI1 D(IS=1.4726e-11 EG=0.83479 XTI=3)
.MODEL DI2 D(IS=1.0997e-11 EG=0.87734 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.5623e-17 RS=0 XTI=0)
*
.ENDS LTC1541_OP
*
***
*
* low power CMOS comparator
* with internal hysteresis
.SUBCKT LTC1541_COMP 1 2 101 200 300
*
* input stage
CIN_D 2 1 5e-12
CIN_CM1 1 0 3.5e-12
CIN_CM2 2 0 3.5e-12
RIN 2 1 1.1000e+011
ROFF1 301 0 1.0005 TC=6.5e-6
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 1 3 POLY(3) 301 302 1 0 2 0 0 1.0 0.00012559 0.00012559
ROFF 3 1 1000000000
IBP 303 0 DC 9.3132e-11
RBP 303 0 1E6 TC=0.16842
GBP 1 0 303 0 1e-6
IBN 304 0 DC 5.7291e-11
RBN 304 0 1E6 TC=0.16842
GBN 2 0 304 0 1e-6
*
* internal hysteresis
ITRIP 300 353 3.0E-6
RTRIP 353 300 1.0E3
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-11
RNORM3 357 300 1.0E3
DNORM1 357 358 DPC
VNORM1 358 300 DC 0.075
DNORM2 359 357 DPC
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 -1.0E-3
RMULT 360 300 1.0E3
EHYST 5 2 360 300 1.0
RHYST 5 2 1.0E9
*
* delay stage
G1 0 20 3 5 10
R1 20 0 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 0 DC 1200
V1N 22 0 DC -1200
G2 0 23 20 0 0.001
R2 23 0 1000
CD 23 0 5.3866e-9
*
* slewrate stage
G3 0 24 23 0 0.001
R3 24 0 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 0 DC 166.27
V3N 26 0 DC -109.82
G41 0 30 24 0 0.001
R41 30 0 1000
CR 30 0 8.1016e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 0 POLY(1) 200 300 -0.6976 0.5
E4N 0 33 POLY(1) 200 300 -0.6976 0.5
*
* phase shifter
G5 0 40 30 0 0.001
R5 40 0 1000
LA 40 41 3.1831e-5
CA 41 0 1.9894e-10
*
* output stage
GO11 401 42 41 0 0.025
RO11 42 401 40
DO1 42 43 DOUT
GO12 401 43 41 0 0.019994
RO12 43 401 50.015
VOUT1 101 43 DC -0.007397406
ROUT1 101 0 1000000000
*
* supply characteristic
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
IVDD 200 300 DC 2.5e-6
FA1 51 0 VOUT1 -1
DAP 200 51 DPC
RGV 52 53 9.7531
EGV 51 52 POLY(1) 200 300 -0.8 1.0
DAN 53 300 DPC
*
.MODEL DX D(IS=1e-12 RS=0 XTI=0)
.MODEL DPC D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL D3P D(IS=1e-12 TT=2.5533e-6 CJO=3e-13 RS=0 XTI=0)
.MODEL D3N D(IS=1e-12 TT=3.5654e-6 CJO=3e-13 RS=0 XTI=0)
.MODEL DOUT D(IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1)
*
.ENDS LTC1541_COMP
*
***
*
* 1.2 V bandgap reference
* with temperature drift
.SUBCKT LTC1541_REF 420 200 300
*
* reference
IREF1 300 400 1.0E-3
RREF1 400 300 1.0E3
IREF2 300 401 1.0E-3
RREF2 401 300 1.0E3 TC=-1.5E-5
GREF 300 410 POLY(2) 400 300 400 401 1.2E-3 0 0 0 0 -1.0
RREF3 410 300 1.0E3
CREF 410 300 1e-11
*
* transient characteristic
CTRAN1 200 404 1.0E-9
RTRAN1 404 300 1.0E6
GTRAN1 405 300 POLY(1) 404 300 0 0 1.0E-4
RTRAN2 405 300 1.0E3
CTRAN2 405 300 3.0E-7
GTRAN2 410 300 405 300 -2.5E-6
*
DVCP 410 409 DY
EVCP 409 300 POLY(1) 200 300 -0.725 0.7
DVCN 408 410 DY
VVCN 408 300 DC 0.908
*
* output stage
EOUT 411 300 410 300 1.0
ROUT1 411 412 1.0
VSENS 412 420 DC 0
ROUT2 420 300 1.0E9
*
* !!! required for correct initial solution due to
* !!! negative resistance characteristic of output
.NODESET V(412)=1.2
*
* sourcing characteristic
FBGR1 300 421 VSENS 10
RBGR1 421 300 1.0E3
DBGR1 421 422 DY
RBGR2 422 300 1.0E4
DBGR2 421 423 DY
VBGR1 423 424 DC 23
RBGR3 424 300 1.0E4
*
* sinking characteristic
FBGR2 300 431 VSENS -360
RBGR4 431 300 1.0E3
DBGR3 431 432 DY
RBGR5 432 300 1.0E4
DBGR4 431 433 DY
VBGR2 433 434 DC 13.5
RBGR6 434 300 1.0E4
*
GDROP 410 300 POLY(2) 422 300 432 300 0 -2.3e-7 2.18E-7
GLIM 410 300 POLY(2) 424 300 434 300 0 0 0 -1.0E-3 0 1.0E-4
*
.MODEL DY D IS=8e-16 RS=0 XTI=0
*
.ENDS LTC1541_REF
*
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/04. All rights reserved.
*
*AMPOUT 1
*AMPIN- 2
*AMPIN+ 3
*VSS 4
*COMPIN+ 5
*COMPIN- 6
*COMPOUT 7
*VDD 8
*
.SUBCKT LTC1542 1 2 3 4 5 6 7 8
XOP 3 2 8 4 1 LTC1542_OP
XCOMP 5 6 7 8 4 LTC1542_COMP
.ENDS LTC1542
*
***
*
* low power CMOS op amp
.SUBCKT LTC1542_OP 1 2 3 4 5
*
* input stage
CIN 1 2 3.8021e-12
GRIN 1 2 1 2 1e-10
M1 11 2 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 4 11 1600000 TC=2.0469e-5
RD2 4 12 1600000 TC=-2.0469e-5
DI1 111 3 DI1
DI2 2 3 DI2
C1 11 12 3.1085e-12
IEE 3 10 DC 1.25e-6
GA 60 99 11 12 6.25e-7
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 2 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 0.53052
ECM 111 1 20 99 3.1623e-6
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 1000
C2 6 7 1.5625e-10
GB 7 99 6 99 392160
R01 7 99 99.9
R02 7 50 0.1
R03 50 5 500
R04 5 99 5937900000
VC 53 50 DC 0.95737
VE 54 50 DC -0.93738
DC1 53 55 DX
DC2 55 56 DX
DE1 57 54 DX
DE2 58 57 DX
GVC1 3 56 3 56 1.0E-4
GVE1 4 58 4 58 1.0E-4
GVC2 3 55 3 55 1.0E-5
GVE2 4 57 4 57 1.0E-5
GVLP 99 60 56 3 1
GVLN 99 60 58 4 1
ECLP 91 0 7 50 5555.6
ECLN 92 0 7 50 5555.6
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 9.3945
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
IP 3 4 DC 1.25e-6
*
GV 31 0 7 50 10
DP1 3 31 DX
DP2 33 4 DX
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.8 1.0
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL M1 PMOS(LEVEL=3 KP=0.00013093 VTO=-0.99965 KF=1.2612e-44)
.MODEL M2 PMOS(LEVEL=3 KP=0.00013093 VTO=-1.00035 KF=1.2612e-44)
.MODEL DI1 D(IS=1.4726e-11 EG=0.83479 XTI=3)
.MODEL DI2 D(IS=1.0997e-11 EG=0.87734 XTI=3)
.MODEL DRI D(IS=8.2592e-16 KF=1.5623e-17 RS=0 XTI=0)
*
.ENDS LTC1542_OP
*
***
*
* low power CMOS comparator
* with internal hysteresis
.SUBCKT LTC1542_COMP 1 2 101 200 300
*
* input stage
CIN_D 2 1 5e-12
CIN_CM1 1 0 3.5e-12
CIN_CM2 2 0 3.5e-12
RIN 2 1 1.1000e+011
ROFF1 301 0 1.0005 TC=6.5e-6
ROFF2 302 0 1
IOFF1 0 301 DC 1
IOFF2 0 302 DC 1
EOFF 1 3 POLY(3) 301 302 1 0 2 0 0 1.0 0.00012559 0.00012559
ROFF 3 1 1000000000
IBP 303 0 DC 9.3132e-11
RBP 303 0 1E6 TC=0.16842
GBP 1 0 303 0 1e-6
IBN 304 0 DC 5.7291e-11
RBN 304 0 1E6 TC=0.16842
GBN 2 0 304 0 1e-6
*
* internal hysteresis
ITRIP 300 353 3.0E-6
RTRIP 353 300 1.0E3
RNORM1 200 356 1.0E9
RNORM2 300 356 1.0E9
GNORM 300 357 101 356 1.0
CNORM 357 300 2.2E-11
RNORM3 357 300 1.0E3
DNORM1 357 358 DPC
VNORM1 358 300 DC 0.075
DNORM2 359 357 DPC
VNORM2 359 300 DC -0.075
GMULT 300 360 POLY(2) 357 300 353 300 0 0 0 0 -1.0E-3
RMULT 360 300 1.0E3
EHYST 5 2 360 300 1.0
RHYST 5 2 1.0E9
*
* delay stage
G1 0 20 3 5 10
R1 20 0 1000
D1P 20 21 DX
D1N 22 20 DX
V1P 21 0 DC 1200
V1N 22 0 DC -1200
G2 0 23 20 0 0.001
R2 23 0 1000
CD 23 0 5.3866e-9
*
* slewrate stage
G3 0 24 23 0 0.001
R3 24 0 1000
D3P 24 25 D3P
D3N 26 24 D3N
V3P 25 0 DC 166.27
V3N 26 0 DC -109.82
G41 0 30 24 0 0.001
R41 30 0 1000
CR 30 0 8.1016e-8
D4P 30 32 DX
D4N 33 30 DX
E4P 32 0 POLY(1) 200 300 -0.6976 0.5
E4N 0 33 POLY(1) 200 300 -0.6976 0.5
*
* phase shifter
G5 0 40 30 0 0.001
R5 40 0 1000
LA 40 41 3.1831e-5
CA 41 0 1.9894e-10
*
* output stage
GO11 401 42 41 0 0.025
RO11 42 401 40
DO1 42 43 DOUT
GO12 401 43 41 0 0.019994
RO12 43 401 50.015
VOUT1 101 43 DC -0.007397406
ROUT1 101 0 1000000000
*
* supply characteristic
EGND 401 0 POLY(2) 200 0 300 0 0 0.5 0.5
IVDD 200 300 DC 2.5e-6
FA1 51 0 VOUT1 -1
DAP 200 51 DPC
RGV 52 53 9.7531
EGV 51 52 POLY(1) 200 300 -0.8 1.0
DAN 53 300 DPC
*
.MODEL DX D(IS=1e-12 RS=0 XTI=0)
.MODEL DPC D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL D3P D(IS=1e-12 TT=2.5533e-6 CJO=3e-13 RS=0 XTI=0)
.MODEL D3N D(IS=1e-12 TT=3.5654e-6 CJO=3e-13 RS=0 XTI=0)
.MODEL DOUT D(IS=8.0e-7 RS=0 XTI=0.0 N=0.1 EG=0.1)
*
.ENDS LTC1542_COMP
**
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
*LTC1563-2 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp1563
* .SUBCKT SwitchB
* .SUBCKT SwitchA2
* .SUBCKT SWITCHN1563
* .SUBCKT SwitchP1563
* .SUBCKT 2inor
*8/31/04
*********************ADDED 11/3/04 ******************************************
* LPWR SUMA INVINA LPOUTA AGND V- ENB SUMB INVINB LPOUTB V+
.SUBCKT LTC1563-2 100 2 4 6 7 8 9 11 13 15 16
C1A 4 6 53.85P
C1B 13 15 39.17P
C2B 11 12 87.97P
C2A 2 10 64.24P
RI6 6 19 50K
RI18 15 14 50K
RI7 19 10 40K
RI9 14 12 40K
CPARA 2 0 4.5p
CPARB 11 0 4.5p
RI20 17 7 20K
RI19 7 18 20K
XI26 7 4 8 16 6 1 9 OPAMP1563
XI25 7 13 8 16 15 1 9 OPAMP1563
XI24 7 14 8 16 12 1 9 OPAMP1563
XI23 7 19 8 16 10 1 9 OPAMP1563
XS2 9 18 8 SwitchA2
XS1 9 16 17 SwitchA2
.ENDS LTC1563-2
*
*
*LTC1563-3 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp1563
* .SUBCKT SwitchB
* .SUBCKT SwitchA2
* .SUBCKT SWITCHN1563
* .SUBCKT SwitchP1563
* .SUBCKT 2inor
*8/31/04
**********************ADDED 11/3/04 ******************************************
*
* LPWR SUMA INVINA LPOUTA AGND V- ENB SUMB INVINB LPOUTB V+
.SUBCKT LTC1563-3 100 2 4 6 7 8 9 11 13 15 16
C1A 4 6 34.96P
C1B 13 15 26.84P
C2B 11 12 40.35P
C2A 2 10 38.80P
RI6 6 19 50K
RI18 15 14 50K
RI7 19 10 40K
RI9 14 12 40K
CPARA 2 0 4.5p
CPARB 11 0 4.5p
RI20 17 7 20K
RI19 7 18 20K
XI26 7 4 8 16 6 1 9 OPAMP1563
XI25 7 13 8 16 15 1 9 OPAMP1563
XI24 7 14 8 16 12 1 9 OPAMP1563
XI23 7 19 8 16 10 1 9 OPAMP1563
XS2 9 18 8 SwitchA2
XS1 9 16 17 SwitchA2
.ENDS LTC1563-3
*
*
***
*Gate used with the LTC1563 models
.SUBCKT 2inor 9 100 11 12 3a
XI25 100 12 N_1 SWITCHP1563
XI27 9 N_1 QB SWITCHP1563
XI26 QB 12 3a SWITCHP1563
XI24 100 QB 11 SWITCHN1563
XI23 9 QB 11 SWITCHN1563
XI22 QB 3a 11 SWITCHN1563
.ENDS 2inor
***
*Switch used with the LTC1563 models
.subckt switchP1563 1 2 3
S1 3 2 1 0 Swp
.model swp vswitch[Ron=1000 Roff=10E6 Von=0.5 Voff=2.2]
.ends switchP1563
***
*Switch used with LTC1563 models
.subckt SWITCHN1563 1 2 3
S1 3 2 1 0 SwN
.model swn vswitch[Ron=1000 Roff=10E6 Von=2.2 Voff=0.5]
.ends SWITCHN1563
***
*Switch used with the LTC1563 models
.subckt switchA2 1 2 3
S1 3 2 1 0 SwA
.model swa vswitch[Ron=10 Roff=100E8 Von=.5 Voff=2.2]
.ends switchA2
***
*Switch used with the LTC1563 models
.subckt switchB 1 2 3
S1 3 2 1 0 SwB
.model swb vswitch[Ron=10 Roff=100E8 Von=2.2 Voff=.5]
.ends switchB
***
*Op-Amp Node Assignments for use with the LTC1563 Models
*
* Noninverting Input
* | Inverting Input
* | | Negative Supply
* | | | Positive Supply
* | | | | Output
* | | | | | LP
* | | | | | | ENABLE
* | | | | | | |
.subckt OpAmp1563 1 2 11 12 25 100 9
M1 7 3 5 5 P L=3E-6 W=1200E-6
M2 6 2 5 5 P L=3E-6 W=1200E-6
RI1 7 11 1.6k
RI2 6 11 1.6k
G1 12a 5a POLY(1) (12,11) 15E-6 1E-6 ;LP
G2 12bb 5bb POLY(1) (12,11) 65E-6 8E-6 ;HS
XSW1 3a 12 12a SwitchA2
XSW2 3a 12 12b SwitchB
XSW3 3a 12a 0 SwitchB
XSW4 3a 12b 0 SwitchA2
XSW5 3a 5a 5 SwitchA2
XSW6 3a 5b 5 SwitchB
XSW7 3a 5a 0 SwitchB
XSW8 3a 5b 0 SwitchA2
XSW9 9 12b 12bb SwitchA2
XSW10 9 12bb 0 SwitchB
XS11 9 5bb 5b SwitchA2
XS12 9 5bb 0 SwitchB
V1 12 4 .75
*V2 8 11 0
*V3 9 11 0
D1 5 4 DX
Rn 3 10 700
EVOS 10 1 POLY(2) (17,15) (19,15) -.70m 1 1
*
* level shifter
*
XI10 N_3 N_2 11 12 3a 2inor
XI8 100 12 N_2 SWITCHN1563
XI9 9 12 N_3 SWITCHN1563
RI6 N_2 11 10meg
RI7 N_3 11 10meg
*
* CMRR circuitry
*
ECM 16 15 POLY(2) (0,15) (2,15) 0 .35 .35
RCM1 16 17 70E3
RCM2 17 15 10
CCM 16 17 6.43E-12
*
*PSRR circuitry
*
RPS1 18 19 4.5E3
RPS2 19 15 1
CPS 18 19 100p
EPS 18 0 POLY(1) (12,11) 0 1
*
*Internal Voltage Reference
*
E2 15 0 POLY(2) (12,0) (11,0) 0 .5 .5
GIS1 11a 11c (12,11) .035m
GIS2 11bb 11dd (12,11) .2m
XSW11 3a 12 11a SwitchA2
XSW12 3a 12 11b SwitchB
XSW13 3a 11c 11 SwitchA2
XSW14 3a 11d 11 SwitchB
XSW15 3a 11a 0 SwitchB
XSW16 3a 11b 0 SwitchA2
XSW17 3a 11c 0 SwitchB
XSW18 3a 11d 0 SwitchA2
XSW19 9 11bb 11b SwitchA2
XSW20 9 11bb 0 SwitchB
XS21 9 11dd 11d SwitchA2
XS22 9 11dd 0 SwitchB
*
*Gain Stage
*
E1a 13a 15a POLY(1) (7,6) 0 4
E1b 13bb 15bb POLY(1) (7,6) 0 8 ;HS gain
R1 13 14 5E+3
C1a 14a 14c 13.5E-12
C1b 14bb 14dd 2E-12
XSW21 3a 13 13a SwitchA2
XSW22 3a 13 13b SwitchB
XSW23 3a 15a 15 SwitchA2
XSW24 3a 15b 15 SwitchB
XSW25 3a 13a 0 SwitchB
XSW26 3a 15a 0 SwitchB
XSW27 3a 13b 0 SwitchA2
XSW28 3a 15b 0 SwitchA2
XS29 9 13b 13bb SwitchA2
XS30 9 13bb 0 SwitchB
XS31 9 15bb 15b SwitchA2
XS32 9 15bb 0 SwitchB
XS33 9 14b 14bb SwitchA2
XS34 9 14bb 0 SwitchB
XS35 9 14dd 14d SwitchA2
XS36 9 14dd 0 SwitchB
XSW29 3a 14 14a SwitchA2
XSW30 3a 14 14b SwitchB
XSW31 3a 14c 15 SwitchA2
XSW32 3a 14d 15 SwitchB
XSW33 3a 14a 0 SwitchB
XSW34 3a 14b 0 SwitchA2
XSW35 3a 14c 0 SwitchB
XSW36 3a 14d 0 SwitchA2
*
*Output Stage
*
M3 25 23 12 12 P L=3E-6 W=1400E-6
M4 25 24 11 11 N L=3E-6 W=840E-6
M5 23 23 12 12 P L=6E-6 W=.35E-6
M6 24 24 11 11 N L=6E-6 W=.21E-6
GM5a 23a 23c POLY(2)(12,11)(15,14) 8e-9 2.1E-9 1.08E-4 ;LP
GM6a 12a 12c POLY(2)(12,11)(14,15) 8e-9 2.1E-9 1.08E-4 ;LP
GM5b 23bb 23dd POLY(2)(12,11)(15,14) 5e-8 2.24E-8 1.08E-4 ;HS
GM6b 12bb 12dd POLY(2)(12,11)(14,15) 5e-8 2.24E-8 1.08E-4 ;HS
CO1 25 23 17E-12
CO2 25 24 17E-12
XSW37 3a 23 23a SwitchA2
XSW38 3a 23c 11 SwitchA2
XSW39 3a 23 23b SwitchB
XSW40 3a 23d 11 SwitchB
XSW41 3a 23a 0 SwitchB
XSW42 3a 23b 0 SwitchA2
XSW43 3a 23c 0 SwitchB
XSW44 3a 23d 0 SwitchA2
XSW45 9 23b 23bb SwitchA2
XSW46 9 23bb 0 SwitchB
XS47 9 23dd 23d SwitchA2
XS48 9 23dd 0 SwitchB
XSW47 3a 12 12a SwitchA2
XSW48 3a 12c 24 SwitchA2
XSW49 3a 12 12b SwitchB
XSW50 3a 12d 24 SwitchB
XSW51 3a 12a 0 SwitchB
XSW52 3a 12b 0 SwitchA2
XSW53 3a 12c 0 SwitchB
XSW54 3a 12d 0 SwitchA2
XS55 9 12b 12bb SwitchA2
XS56 9 12bb 0 SwitchB
XS57 9 12dd 12d SwitchA2
XS58 9 12dd 0 SwitchB
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS OpAmp1563
**
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT FB
.SUBCKT LTC1798 104 103 6 102
CG1 118 0 0.2
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 6283.18
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 7e-9
GLINE 0 116 7 4 0.00025
GLOAD 0 116 121 6 -0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.005
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 3.57e-5
GVLIM2 0 114 104 111 80000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IFB 102 0 1e-8
IILIM1 0 105 2
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 4e-6
IVLIM2 0 114 10
IVOPT 0 116 2.385
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 1358700
ROUT1 121 4 200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SWC1 104 103 115 0 SWC1
VDUM1 0 112 1
.MODEL SWC1 VSWITCH(RON=10k ROFF=1E8 VON=0.05 VOFF=0.02)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LTC1798
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LTC1798-25 104 103 6
CG1 118 0 0.2
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 6283.18
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 7e-9
GLINE 0 116 7 4 0.00025
GLOAD 0 116 121 6 -0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.005
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 3.57e-5
GVLIM2 0 114 104 111 80000000
GVLIM3 114 0 7 121 1000
GVLIMO 118 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 2
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 4e-6
IVLIM2 0 114 10
IVOPT 0 116 2.5001
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 1358700
ROUT1 121 4 200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SWC1 104 103 115 0 SWC1
VDUM1 0 112 1
.MODEL SWC1 VSWITCH(RON=10k ROFF=1E8 VON=0.05 VOFF=0.02)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LTC1798-25
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LTC1798-3 104 103 6
CG1 118 0 0.2
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 6283.18
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 7e-9
GLINE 0 116 7 4 0.00025
GLOAD 0 116 121 6 -0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.005
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 3.57e-5
GVLIM2 0 114 104 111 80000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 2
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 4e-6
IVLIM2 0 114 10
IVOPT 0 116 3.001
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 1358700
ROUT1 121 4 200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SWC1 104 103 115 0 SWC1
VDUM1 0 112 1
.MODEL SWC1 VSWITCH(RON=10k ROFF=1E8 VON=0.05 VOFF=0.02)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LTC1798-3
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LTC1798-41 104 103 6
CG1 118 0 0.2
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 6283.18
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 7e-9
GLINE 0 116 7 4 0.00025
GLOAD 0 116 121 6 -0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.005
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 3.57e-5
GVLIM2 0 114 104 111 80000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 2
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 4e-6
IVLIM2 0 114 10
IVOPT 0 116 4.1002
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 1358700
ROUT1 121 4 200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SWC1 104 103 115 0 SWC1
VDUM1 0 112 1
.MODEL SWC1 VSWITCH(RON=10k ROFF=1E8 VON=0.05 VOFF=0.02)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LTC1798-41
*
***
*
* Version 2.00 Copyright ? Linear Technology Corp. 11/18/04. All rights reserved. [Spice3]
* Pinout: IN GROUND OUT
.SUBCKT LTC1798-5 104 103 6
CG1 118 0 0.2
CILIM 107 0 10p
CREF 116 4 10p
DILIM1 107 105 DSW
DILIM2 106 107 DSW
DPWR1 111 109 DSW
DPWR2 110 103 DSW
DVLIM1 114 115 DSW
EVCC 7 0 104 0 1
EVEE 4 0 103 0 1
G1 0 118 116 102 6283.18
GILIM1 0 105 121 6 1E4
GILIM2 0 106 121 6 1E4
GILIMO 118 0 107 0 0.01
GITMPCO 104 103 113 0 7e-9
GLINE 0 116 7 4 0.00025
GLOAD 0 116 121 6 -0.2
GNOISE 0 116 108 0 1
GOUT1 0 121 118 0 0.005
GPWR1 109 0 121 6 10
GPWR2 110 0 121 6 10
GTEMP 0 116 113 112 3.57e-5
GVLIM2 0 114 104 111 80000000
GVLIM3 114 0 7 121 1000
GVLIMO 116 0 115 0 1000
IDUM1 0 108 0
IILIM1 0 105 2
IILIM2 106 0 10
ITEMP 0 113 1
ITYP 104 103 4e-6
IVLIM2 0 114 10
IVOPT 0 116 5.001
RFB1 102 6 0.01
RFB2 102 103 100000000
RG1 118 0 0.159155
RILIM1 105 0 1
RILIM2 106 0 1
RILIM3 107 0 1
RNOISE 108 0 1358700
ROUT1 121 4 200
RPWR1 109 7 1E3
RPWR2 110 4 1E3
RPWRS 111 104 1E-4
RREF 116 4 1
RSENSE 6 121 0.1
RTEMP 113 0 1 TC1=1
RVLIM2 114 0 1
RVLIM3 115 0 1
SWC1 104 103 115 0 SWC1
VDUM1 0 112 1
.MODEL SWC1 VSWITCH(RON=10k ROFF=1E8 VON=0.05 VOFF=0.02)
.MODEL DSW D(IS=1E-10 RS=0 KF=0 XTI=0)
.ENDS LTC1798-5
*
***
*
* Version 1.96 Copyright ? Linear Technology Corp. 9/27/04. All rights reserved. [Spice3]
* PINOUT: IN+ IN- VCC VEE OUT
.SUBCKT LTC1841 3 2 7 4 6
CDUM1 135 4 0.01p
CDUM2 4 3 0.01p
CHYST1 133 0 10p
CIBIAS1 109 0 10p
CIBIAS2 108 0 10p
CLATCH1 137 0 10p
COUT 6 4 1p
CPROP 132 0 4e-6
CRF1 125 0 5e-7
DILIM1 111 113 DSW
DILIM2 113 112 DSW
DIN1 3 7 DIODE
DIN2 2 7 DIODE
DIN3 4 3 DIODE
DIN4 4 2 DIODE
DOC1 120 121 DSW
DOC2 120 119 DSW
DPWR1 142 123 DSW
DPWR2 124 101 DSW
DVLIMOC1 117 139 DVLIM
EGAIN 122 0 137 0 316.228
EGND 102 0 101 0 1
EIBIAS1 110 0 3 2 100
EILIM1 114 0 113 0 -100
EIN 136 0 115 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 2 0 1
ELDO2 117 0 101 118 1
EOC1 0 119 132 133 0.03125
EOM 141 0 140 0 1
EVCC1 129 0 7 0 1
EVEE1 131 0 4 0 1
EVS 143 0 142 0 1
GCMRR 0 115 134 138 0.0001
GIBIAS1 3 0 108 0 1E-6
GIBIAS2 2 0 109 0 1E-6
GILIM1 0 111 139 116 1E4
GILIM2 112 0 116 139 1E4
GIN 0 115 3 135 1
GOUTOC 139 0 125 114 1
GPSRRN 0 115 4 138 0.0001
GPSRRP 0 115 7 138 0.0001
GPWRO1 123 0 139 116 10
GPWRO2 124 0 139 116 10
GRF1 0 125 121 0 2.2
IIBIAS 0 107 1e-5
ILIM1 111 0 5
ILIM2 0 112 25
IOC1 0 120 0.003125
IOS 3 2 1e-12
ITYP1 7 0 3.5e-6
ITYP2 0 4 3.5e-6
IVOS 0 115 0.003
RDUMOC 127 116 0.001
RHYST1 133 0 1
RIBIAS1 109 0 1
RIBIAS2 108 0 1
RIBIAS3 107 109 10k
RILIM1 113 0 1
RILIM2 111 0 1
RILIM3 112 0 1
RILIMOC 116 139 0.1
RIN 115 0 1
RINCM1 134 105 1
RINCM2 106 134 1
RLATCH0 137 136 1E-4
RLATCH1 137 0 1
RMID1 138 129 1
RMID2 131 138 1
ROC1 121 0 10
ROC2 120 0 10k
RPROP 132 122 1.307
RPWR1 123 143 1E3
RPWR2 124 102 1E3
RRF1 125 0 0.4545
RSHD7 127 6 1E-4
RVCC 7 142 1E-4
RVEE 4 101 1E-4
RVNOI 135 2 60.3865
RVOM1 140 143 1
RVOM2 102 140 1
SIBIAS1 108 107 110 0 SWBIAS
VLDO2 0 118 1.7057
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(XTI=0 AF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LTC1841
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
* PINOUT (Same as IC): OUTA VEE IN+A IN+B HYST REF VCC OUTB
.SUBCKT LTC1842 1 2 3 4 5 6 7 8
X1 3 6 7 2 1 5 6 LTC1842_BASE
X2 4 6 7 2 8 5 100 LTC1842_BASE
RDUM 100 0 1E6
.ENDS LTC1842
*
* PINOUT (same as IC): OUTA VEE IN+A IN-B HYST REF VCC OUTB
.SUBCKT LTC1843 1 2 3 4 5 6 7 8
X1 3 6 7 2 1 5 6 LTC1842_BASE
X2 6 4 7 2 8 5 100 LTC1842_BASE
RDUM 100 0 1E6
.ENDS LTC1843
*
***
* Version 1.96 Copyright © Linear Technology Corp. 11/11/04. All rights reserved. [Spice3]
.SUBCKT LTC1842_BASE 3 2 7 4 6 103 132
CDUM1 140 4 0.01p
CDUM2 4 3 0.01p
CHYST1 138 0 10p
CIBIAS1 112 0 10p
CIBIAS2 111 0 10p
CLATCH1 142 0 10p
COUT 6 4 1p
CPROP 137 0 4e-6
CRF1 129 0 5e-7
DILIM1 114 116 DSW
DILIM2 116 115 DSW
DIN1 3 7 DIODE
DIN2 2 7 DIODE
DIN3 4 3 DIODE
DIN4 4 2 DIODE
DOC1 123 124 DSW
DOC2 123 122 DSW
DPWR1 147 126 DSW
DPWR2 127 101 DSW
DVLIMOC1 120 144 DVLIM
EGAIN 125 0 142 0 316.228
EGND 102 0 101 0 1
EHYST1 109 0 145 144 1E4
EHYST3 108 0 132 103 379.473
EIBIAS1 113 0 3 2 100
EILIM1 117 0 116 0 -100
EIN 141 0 118 0 1
EINCM1 106 0 3 0 1
EINCM2 107 0 2 0 1
ELDO2 120 0 101 121 1
EOC1 0 122 137 138 0.03125
EOM 146 0 145 0 1
EREF1 132 0 136 128 1
EVCC1 134 0 7 0 1
EVEE1 136 0 4 0 1
EVS 148 0 147 0 1
GCMRR 0 118 139 143 0.0001
GIBIAS1 3 0 111 0 1E-6
GIBIAS2 2 0 112 0 1E-6
GILIM1 0 114 144 119 1E4
GILIM2 115 0 119 144 1E4
GIN 0 118 3 140 1
GOUTOC 144 0 129 117 1
GPSRRN 0 118 4 143 0.0001
GPSRRP 0 118 7 143 0.0001
GPWRO1 126 0 144 119 10
GPWRO2 127 0 144 119 10
GRF1 0 129 124 0 2.2
IIBIAS 0 110 1e-5
ILIM1 114 0 5
ILIM2 0 115 25
IOC1 0 123 0.003125
IOS 3 2 1e-12
ITYP1 7 0 3.5e-6
ITYP2 0 4 3.5e-6
IVOS 0 118 0.003
RDUMOC 131 119 0.001
RHYST1 138 0 1
RIBIAS1 112 0 1
RIBIAS2 111 0 1
RIBIAS3 110 112 10k
RILIM1 116 0 1
RILIM2 114 0 1
RILIM3 115 0 1
RILIMOC 119 144 0.1
RIN 118 0 1
RINCM1 139 106 1
RINCM2 107 139 1
RLATCH0 142 141 1E-4
RLATCH1 142 0 1
RMID1 143 134 1
RMID2 136 143 1
ROC1 124 0 10
ROC2 123 0 10k
RPROP 137 125 1.307
RPWR1 126 148 1E3
RPWR2 127 102 1E3
RRF1 129 0 0.4545
RSHD7 131 6 1E-4
RVCC 7 147 1E-4
RVEE 4 101 1E-4
RVNOI 140 2 60.3865
RVOM1 145 148 1
RVOM2 102 145 1
SHYST1 138 108 109 0 SWHYST
SIBIAS1 111 110 113 0 SWBIAS
VLDO2 0 121 1.7057
VREF1 0 128 1.182
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(XTI=0 AF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LTC1842_Base
**
***
*
* Copyright © Linear Technology Corp. 01/09/2007. All rights reserved.
*
* Note 1: For greater numerical accuracy in transient simulation, decrease  
* the maximum simulation time step.
*
* Note 2: This is a simplified model with no shutdown functionality.
*
* Node List (same as IC): GND IN1 IN2 VSS VOUT OUTRTN VDD
.SUBCKT LTC1966 1 2 3 4 5 6 7
ISUP1 7 1 1.55E-4
ISUP2 1 4 1.2E-5
GIN2 0 11 VALUE={1m*ABS(V(10)/(V(5,6)+4E-4)*MIN(V(5,6)*4.183,ABS(V(10))))}
RIN1 10 0 1E3
RIN2 11 13 3E5
DS1 13 0 DS
CIN1 10 0 1.6E-10
DS3 12 31 DS
RIN3 12 11 50
EOUT 20 0 VALUE={ABS(V(11))+V(6)}
ROUT 5 20 8.5E4
COUT 5 6 8.7E-12
GIN1 0 10 22 33 1E-3
RIN4 11 0 1E3
EVCC 31 0 VALUE={0.56*V(7,1)-0.750}
CIN2 11 0 1E-11
CS2 33 1 2.5E-12
CS1 22 1 2.5E-12
DIN1 2 7 DIN
DIN2 4 2 DIN
DIN3 4 3 DIN
DIN4 3 7 DIN
RS1 22 2 6E3
RS2 33 3 6E3
RS3 22 33 1E8
.MODEL DS D (IS=1E-16 RS=0 KF=0 XTI=0)
.MODEL DIN D (IS=1E-13 RS=0 KF=0 XTI=0)
.ENDS LTC1966
*
***
*
* Copyright © Linear Technology Corp. 01/09/2007. All rights reserved.
*
* Note 1: For greater numerical accuracy in transient simulation, decrease  * the maximum simulation time step.
*
* Note 2: This is a simplified model with no shutdown functionality.
*
* Node List (same as IC): GND IN1 IN2 VOUT OUTRTN V+
.SUBCKT LTC1967 1 2 3 5 6 7
ISUP1 7 1 3.3E-4
GIN2 0 11 VALUE={1m*ABS(V(10)/(V(5,6)+0.002)*MIN(V(5,6)*4.183+1E-6,ABS(V(10))))}
RIN1 10 0 1E3
RIN2 11 13 1.5E5
DS1 13 0 DS
CIN1 10 0 4E-11
DS3 12 31 DS
RIN3 12 11 50
EOUT 20 0 VALUE={ABS(V(11))+0.002+V(6)}
ROUT 5 20 5E4
COUT 5 6 8.7E-12
GIN1 0 10 22 33 0.001
RIN4 11 0 1E3
EVCC 31 0 VALUE={0.5*V(7,1)-0.750}
CIN2 11 0 1E-11
CS1 33 1 8E-13
CS2 22 1 8E-13
DIN1 2 7 DIN
DIN2 4 2 DIN
DIN3 4 3 DIN
DIN4 3 7 DIN
RS1 22 2 2E3
RS2 33 3 2E3
RS3 22 33 1E8
.MODEL DIN D (IS=1E-13 RS=0 KF=0 XTI=0)
.MODEL DS D (IS=1E-16 RS=0 KF=0 XTI=0)
.ENDS LTC1967
*
***
*
* Copyright © Linear Technology Corp. 01/09/2007. All rights reserved.
*
* Note 1: For greater numerical accuracy in transient simulation, decrease* the maximum simulation time step.
*
* Note 2: This is a simplified model with no shutdown functionality.
*
* Node List (same as IC): GND IN1 IN2 VOUT OUTRTN V+
.SUBCKT LTC1968 1 2 3 5 6 7
ISUP1 7 1 2.3E-3
GIN2 0 11 VALUE={0.001*ABS(V(10)/(V(5,6)+0.002)*MIN(V(5,6)*4.183+1E-6,ABS(V(10))))}
RIN1 10 0 1E3
RIN2 11 13 1.5E5
DS1 13 0 DS
CIN1 10 0 1.5E-11
DS3 12 31 DS
RIN3 12 11 50
EOUT 20 0 VALUE={ABS(V(11))+0.002+V(6)}
ROUT 5 20 1.25E4
COUT 5 6 8.7E-12
GIN1 0 10 22 33 0.001
RIN4 11 0 1E3
EVCC 31 0 VALUE={0.5*V(7,1)-0.750}
CIN2 11 0 1E-11
CS1 33 1 8E-13
CS2 22 1 8E-13
DIN1 2 7 DIN
DIN2 4 2 DIN
DIN3 4 3 DIN
DIN4 3 7 DIN
RS1 22 2 2E3
RS2 33 3 2E3
RS3 22 33 1E8
.MODEL DIN D (IS=1E-13 RS=0 KF=0 XTI=0)
.MODEL DS D (IS=1E-16 RS=0 KF=0 XTI=0)
.ENDS LTC1968
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
* Mon Jun 19 13:49:59 2000
*# INP 1
*# INN 2
*# VDD 3
*# VSS 4
*# OUTP 5
*# SHDN 8
*
.SUBCKT LTC2050 1 2 3 4 5 8
*
* input stage
GSW1 2 119 POLY(2) 812 99 2 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
GSW2 1 119 POLY(2) 813 99 1 119 0 0 1e-12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW1 2 119 1.0000e+010
RGSW2 1 119 1.0000e+012
CIN 1 119 1.0753e-11
GRIN 1 119 1 119 8.3195e-12
M1 11 119 10 10 M1 L=100U W=100U
M2 12 111 10 10 M2 L=100U W=100U
RD1 3 11 ROVD1 5000
RD2 3 12 ROVD2 5000
DI1 111 3 DI1
DI2 119 3 DI2
C1 11 12 4.681e-12
IEE 10 4 DC 0.0004
GSHDN 10 4 813 99 8.0808e-5
GA 60 99 11 12 0.0002
*
* common mode rejection
GCM1 99 20 POLY(2) 1 99 119 99 0 0.0005 0.0005
RCM1 21 99 1000
RCM2 20 99 1000000
LCM 20 21 19.894
ECM 111 1 20 99 3.1623e-7
*
* frequency shaper
RR1 6 60 0.001
*
* output stage
R2 6 99 4460000
C2 6 7 2e-10
GB 7 99 6 99 594.75
R01 7 99 1
R02 7 50 0.1
R03 50 51 18.526
GSW3 51 5 POLY(2) 812 99 51 5 0 0 1e-9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+ 0 0 0 0 0 0 2.56e-6
RGSW3 51 5 1.0000e+010
R04 5 99 5937900000
*
VC 53 50 DC 0.1
DVCP 53 3 DVC
VE 54 50 DC -0.0892
DVCN 4 54 DVC
*
ECLP 91 0 7 50 833.33
ECLN 92 0 7 50 833.33
DCLP 91 90 DX
DCLN 90 92 DX
VLIM 90 0 DC 0
FB 7 99 VLIM 20334
*
* supply characteristic
EGND 99 0 POLY(2) 3 0 4 0 0 0.5 0.5
DSUB 4 3 DX
GIP 3 4 POLY(1) 99 812 1.2723e-5 7.8e-5
*
GV 31 0 7 50 10
DP1 3 31 DVC
DP2 33 4 DVC
RGV 32 33 9.7531
EGV 31 32 POLY(1) 3 4 -0.08 1.0
*
* shutdown stage
RDIS1 99 8 5000000
RDIS2 8 808 100
CDIS1 808 99 3e-12
GREF 4 801 3 4 0.0003
RREF 801 4 1000
GDIS 99 803 808 801 -0.01
RDIS3 803 99 10000
VDIS2 804 99 DC -0.08
VDIS3 805 99 DC -4.921
DDIS2 803 804 DVC
DDIS3 805 803 DVC
EDIS 810 99 803 99 1
RDIS5 810 812 2715.2
RDIS6 812 811 1694.6
DDIS4 810 811 DVC
CDIS3 812 99 1e-8
EDIS2 813 99 POLY(1) 812 99 -5.0 -1.0
RDIS7 813 99 1000000
*
.MODEL DX D(IS=8.2592e-16 RS=0 XTI=0)
.MODEL DVC D(IS=8.2592e-16 RS=0 XTI=-2.1 N=0.1 EG=0.1)
.MODEL M1 NMOS(LEVEL=3 KP=0.035531 VTO=1 KF=4.2237e-25)
.MODEL M2 NMOS(LEVEL=3 KP=0.035531 VTO=0.9999993 KF=4.2237e-25)
.MODEL ROVD1 RES(TC1=-2.8274e-7)
.MODEL ROVD2 RES(TC1=2.8274e-7)
.MODEL DI1 D(IS=1.05e-10 EG=0.10592 XTI=3)
.MODEL DI2 D(IS=3.5e-11 EG=0.10592 XTI=3)
.ENDS LTC2050
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6) SHDN_L(8)
.SUBCKT LTC2051 3 2 7 4 6 8
CCM1 170 175 0.531915
CCM2 169 170 0.531915
CG1 169 166 1n
CG2 166 175 1n
CG3 167 175 1.30634e-7
CG4 169 167 1.30634e-7
CG5 172 175 1.30634e-7
CG6 169 172 1.30634e-7
CG7 173 175 1e-10
CG8 169 173 1e-10
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 187 0 10p
CPSN1 169 186 1e-6
CPSN2 186 175 1e-6
CPSP 189 0 10p
CPSP1 169 188 1e-6
CPSP2 188 175 1e-6
CVCC 147 0 1E5
CVEE 148 0 1E5
CVM 183 0 1E5
DVLIM1 185 149 DVLIM
DVLIM2 150 185 DVLIM
DVNF 151 0 DVNOI
DVNFX 152 0 DVNOIX
EICM1 160 0 2 0 1
EICM2 161 0 3 0 1
EILIM1 125 122 185 162 1E5
EILIM2 124 120 185 162 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 138 0 185 162 1E5
EPWR2 139 0 185 162 1E5
ESRLIM1 144 146 103 105 0
ESRLIM2 143 145 105 103 0
ESRLIM3 143 141 165 164 33.4315
ESRLIM4 144 142 164 165 33.4315
EVCC 169 0 147 0 1
EVEE 175 0 148 0 1
EVNOI1 107 108 0 153 1
EVNOI2 109 107 151 152 1
FVLIM1 185 0 VVLIM1 -1E7
FVLIM2 185 0 VVLIM2 1E7
GCM1 169 171 178 183 0.000562341
GCM2 175 171 178 183 0.000562341
GCM3 175 170 171 183 6.2832
GCM4 169 170 171 183 6.2832
GCMO1 175 167 170 175 6.2832
GCMO2 167 169 169 170 6.2832
GG1 169 166 165 164 0.0210057
GG2 175 166 165 164 0.0210057
GG3 175 167 166 183 10
GG4 169 167 166 183 10
GG5 175 172 167 183 6.2832
GG6 169 172 167 183 6.2832
GG7 175 173 172 183 6.2832
GG8 169 173 172 183 6.2832
GILIM 166 0 129 0 0.01
GINOI1 103 0 0 130 1m
GINOI2 110 0 0 131 1m
GOUT1 185 169 169 177 0.0333333
GOUT2 175 185 177 175 0.0333333
GPSN1 169 187 4 175 0.000562341
GPSN2 175 187 4 175 0.000562341
GPSN3 169 186 187 183 6.2832
GPSN4 175 186 187 183 6.2832
GPSNO1 185 169 169 186 0.0333333
GPSNO2 175 185 186 175 0.0333333
GPSP1 169 189 7 169 0.000562341
GPSP2 175 189 7 169 0.000562341
GPSP3 169 188 189 183 6.2832
GPSP4 175 188 189 183 6.2832
GPSPO1 185 169 169 188 0.0333333
GPSPO2 175 185 188 175 0.0333333
GPWR1 136 0 185 162 100
GPWR2 137 0 185 162 100
GSHD3 4 7 119 0 1
GZP1 175 176 173 183 0.1
GZP2 169 176 173 183 0.1
GZP3 175 177 176 183 0.1
GZP4 169 177 176 183 0.1
HIN1 113 164 VIN1 100
HIN2 118 165 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 2.5e-11
IBIAS2 103 0 2.5e-11
IDUM1 153 0 0
IDUM2 131 130 0
IPWR 7 4 0.0008
ISLEW 111 0 10mA
IVNF 0 151 1A
IVNFX 0 152 1A
LCM1 169 127 15.9154
LCM2 128 175 15.9154
LCMX 126 171 100
LPSN1 169 132 1.59155e-8
LPSN2 133 175 1.59155e-8
LPSP1 169 134 1.59155e-8
LPSP2 135 175 1.59155e-8
LZP1 169 154 1.59314e-13
LZP2 155 175 1.59314e-13
LZP3 169 156 1.59314e-13
LZP4 157 175 1.59314e-13
Q1 164 106 116 0 NPN1
Q2 165 104 112 0 NPN1
RCM1 127 171 1k
RCM2 171 128 1k
RCM3 170 175 0.159155
RCM4 169 170 0.159155
RCMX 126 0 0.1
RG1 169 166 84657000
RG2 166 175 84657000
RG3 167 175 0.159155
RG4 169 167 0.159155
RG5 172 175 0.159155
RG6 169 172 0.159155
RG7 173 175 0.159155
RG8 169 173 0.159155
RICM1 160 178 1k
RICM2 161 178 1k
RILIM 129 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 130 0 6038.65
RINOI2 131 0 6038.65
ROUT1 169 185 30
ROUT2 185 175 30
ROUT3 184 162 0.01
RPSN1 132 187 1k
RPSN2 187 133 1k
RPSN3 169 186 0.159155
RPSN4 186 175 0.159155
RPSP1 134 189 1k
RPSP2 189 135 1k
RPSP3 169 188 0.159155
RPSP4 188 175 0.159155
RPWR1 136 169 1E6
RPWR2 137 175 1E6
RSENSE 162 185 0.01
RSHD1 119 0 1
RSHDN 8 7 1E9
RVCC 147 7 100
RVEE 148 4 100
RVH1 169 183 1k
RVH2 183 175 1k
RVNOI 0 153 6038.45
RZP1 176 155 10
RZP2 154 176 10
RZP3 169 154 0.01001
RZP4 155 175 0.01001
RZP5 177 157 10
RZP6 156 177 10
RZP7 169 156 0.01001
RZP8 157 175 0.01001
SHD1 140 119 8 4 SHDN
SHD2 140 119 7 4 SHDN2X
SHD7 159 184 8 4 SHDNOX
SHD8 159 6 7 4 SHDNO2
SILIM1 129 123 122 0 SILIM
SILIM2 129 121 120 0 SILIM
SPWR1 7 136 138 0 SPWR
SPWR2 4 137 139 0 SPWRX
SSRLIM1 164 165 141 0 SSRLIM
SSRLIM2 164 165 142 0 SSRLIM
VILIM1 125 0 20
VILIM2 124 0 20
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 0.5u
VSHDN 140 0 0.000796
VSRLIM1 145 0 2
VSRLIM2 146 0 2
VVLIM1 169 149 1.2235
VVLIM2 150 175 1.1285
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=0.30V VOFF=0.50V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=0.50V VOFF=0.30V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.30V VOFF=0.50V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=0.50V VOFF=0.30V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.49279e-13)
.ENDS LTC2051
*
***
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LTC2052 3 2 7 4 6
CCM1 169 174 0.531915
CCM2 168 169 0.531915
CG1 168 165 1n
CG2 165 174 1n
CG3 166 174 1.30634e-7
CG4 168 166 1.30634e-7
CG5 171 174 1.30634e-7
CG6 168 171 1.30634e-7
CG7 172 174 1e-10
CG8 168 172 1e-10
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 186 0 10p
CPSN1 168 185 1e-6
CPSN2 185 174 1e-6
CPSP 188 0 10p
CPSP1 168 187 1e-6
CPSP2 187 174 1e-6
CVCC 147 0 1E5
CVEE 148 0 1E5
CVM 182 0 1E5
DVLIM1 184 149 DVLIM
DVLIM2 150 184 DVLIM
DVNF 151 0 DVNOI
DVNFX 152 0 DVNOIX
EICM1 160 0 2 0 1
EICM2 161 0 3 0 1
EILIM1 125 122 184 162 1E5
EILIM2 124 120 184 162 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 138 0 184 162 1E5
EPWR2 139 0 184 162 1E5
ESRLIM1 144 146 103 105 0
ESRLIM2 143 145 105 103 0
ESRLIM3 143 141 164 163 33.4315
ESRLIM4 144 142 163 164 33.4315
EVCC 168 0 147 0 1
EVEE 174 0 148 0 1
EVNOI1 107 108 0 153 1
EVNOI2 109 107 151 152 1
FVLIM1 184 0 VVLIM1 -1E7
FVLIM2 184 0 VVLIM2 1E7
GCM1 168 170 177 182 0.000562341
GCM2 174 170 177 182 0.000562341
GCM3 174 169 170 182 6.2832
GCM4 168 169 170 182 6.2832
GCMO1 174 166 169 174 6.2832
GCMO2 166 168 168 169 6.2832
GG1 168 165 164 163 0.0210057
GG2 174 165 164 163 0.0210057
GG3 174 166 165 182 10
GG4 168 166 165 182 10
GG5 174 171 166 182 6.2832
GG6 168 171 166 182 6.2832
GG7 174 172 171 182 6.2832
GG8 168 172 171 182 6.2832
GILIM 165 0 129 0 0.01
GINOI1 103 0 0 130 1m
GINOI2 110 0 0 131 1m
GOUT1 184 168 168 176 0.0333333
GOUT2 174 184 176 174 0.0333333
GPSN1 168 186 4 174 0.000562341
GPSN2 174 186 4 174 0.000562341
GPSN3 168 185 186 182 6.2832
GPSN4 174 185 186 182 6.2832
GPSNO1 184 168 168 185 0.0333333
GPSNO2 174 184 185 174 0.0333333
GPSP1 168 188 7 168 0.000562341
GPSP2 174 188 7 168 0.000562341
GPSP3 168 187 188 182 6.2832
GPSP4 174 187 188 182 6.2832
GPSPO1 184 168 168 187 0.0333333
GPSPO2 174 184 187 174 0.0333333
GPWR1 136 0 184 162 100
GPWR2 137 0 184 162 100
GSHD3 4 7 119 0 1
GZP1 174 175 172 182 0.1
GZP2 168 175 172 182 0.1
GZP3 174 176 175 182 0.1
GZP4 168 176 175 182 0.1
HIN1 113 163 VIN1 100
HIN2 118 164 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 2.5e-11
IBIAS2 103 0 2.5e-11
IDUM1 153 0 0
IDUM2 131 130 0
IPWR 7 4 0.0008
ISLEW 111 0 10mA
IVNF 0 151 1A
IVNFX 0 152 1A
LCM1 168 127 15.9154
LCM2 128 174 15.9154
LCMX 126 170 100
LPSN1 168 132 1.59155e-8
LPSN2 133 174 1.59155e-8
LPSP1 168 134 1.59155e-8
LPSP2 135 174 1.59155e-8
LZP1 168 154 1.59314e-13
LZP2 155 174 1.59314e-13
LZP3 168 156 1.59314e-13
LZP4 157 174 1.59314e-13
Q1 163 106 116 0 NPN1
Q2 164 104 112 0 NPN1
RCM1 127 170 1k
RCM2 170 128 1k
RCM3 169 174 0.159155
RCM4 168 169 0.159155
RCMX 126 0 0.1
RG1 168 165 84657000
RG2 165 174 84657000
RG3 166 174 0.159155
RG4 168 166 0.159155
RG5 171 174 0.159155
RG6 168 171 0.159155
RG7 172 174 0.159155
RG8 168 172 0.159155
RICM1 160 177 1k
RICM2 161 177 1k
RILIM 129 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 130 0 6038.65
RINOI2 131 0 6038.65
ROUT1 168 184 30
ROUT2 184 174 30
ROUT3 183 162 0.01
RPSN1 132 186 1k
RPSN2 186 133 1k
RPSN3 168 185 0.159155
RPSN4 185 174 0.159155
RPSP1 134 188 1k
RPSP2 188 135 1k
RPSP3 168 187 0.159155
RPSP4 187 174 0.159155
RPWR1 136 168 1E6
RPWR2 137 174 1E6
RSENSE 162 184 0.01
RSHD1 119 0 1
RVCC 147 7 100
RVEE 148 4 100
RVH1 168 182 1k
RVH2 182 174 1k
RVNOI 0 153 6038.45
RZP1 175 155 10
RZP2 154 175 10
RZP3 168 154 0.01001
RZP4 155 174 0.01001
RZP5 176 157 10
RZP6 156 176 10
RZP7 168 156 0.01001
RZP8 157 174 0.01001
SHD2 140 119 7 4 SHDN2X
SHD8 159 6 7 4 SHDNO2
SILIM1 129 123 122 0 SILIM
SILIM2 129 121 120 0 SILIM
SPWR1 7 136 138 0 SPWR
SPWR2 4 137 139 0 SPWRX
SSRLIM1 163 164 141 0 SSRLIM
SSRLIM2 163 164 142 0 SSRLIM
VILIM1 125 0 20
VILIM2 124 0 20
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 0.5u
VSHD7 159 183 0
VSHDN 140 0 0.000796
VSRLIM1 145 0 2
VSRLIM2 146 0 2
VVLIM1 168 149 1.2235
VVLIM2 150 174 1.1285
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.49279e-13)
.ENDS LTC2052
*
***
*
* Copyright © Linear Technology Corp. 12/13/2005. All rights reserved.
* 
* Note: This model should be used for TRAN analysis only! Do not use for AC or NOISE analysis.
*
* Pinout (Same as IC): EN/ -IN +IN V- REF RG OUT V+
.SUBCKT LTC2053 1 2 3 4 5 6 7 8
RG1 24 0 1591550
CG1 24 0 1.4E-6
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG3 25 0 5E-6
DIN1 2 8 DIN
DIN2 3 8 DIN
DIN3 4 3 DIN
DIN4 4 2 DIN
RSHDN 8 1 1E7
GG1 0 24 VALUE={4E-3*TANH(V(23))}
MOUT1 8 26 27 27 NOUT
MOUT2 4 26 27 27 POUT
DOUT1 26 27 DOUTP
DOUT2 27 26 DOUTN
GOUT 0 26 VALUE={1m*TANH(V(25))}
ROUT1 8 26 2E5
ROUT2 26 4 2E5
RA 23 0 5
DVL1 29 24 DVLIM
DVL2 29 0 DVLIM
SIN1 3 11 71 76 SIN
SIN2 2 12 71 76 SIN
SIN3 11 21 72 76 SIN
SIN4 12 5 72 76 SIN
CIN1 11 12 1E-9
CIN2 21 5 1E-9
VSW1 71 0 PULSE(0 1 0 5u 5u 150u 330u)
VSW2 72 0 PULSE(0 1 165u 5u 5u 145u 330u)
EICML 75 0 VALUE={V(8)-1.6}
GGAIN 0 23 VALUE={(V(21,6)+1.58E-6*V(8,4))}
GPWR 8 4 VALUE={8E-6+7.5E-4*(0.5+0.5*TANH(10*(1.5-V(1,4))))}
DICML 21 75 DIN
SSD1 7 27 1 4 SSD
RINZ 6 4 5E6
GVOS 0 23 28 0 -1E-5
RVOS 28 0 1 TC1=0.005
IVOS 0 28 1
CPAR1 12 4 1E-13
ESHD 76 0 VALUE={0.5+0.5*TANH(3*(V(1,4)-1.75))}
.MODEL SIN VSWITCH(RON=1k ROFF=1E9 VON=0.8 VOFF=0.2)
.MODEL SSD VSWITCH(RON=10 ROFF=1E9 VON=1.25 VOFF=1.75)
.MODEL NOUT NMOS(KP=1 VTO=10M)
.MODEL POUT PMOS(KP=1 VTO=-10M)
.MODEL DOUTP D(KF=0 RS=0 IS=1.6036E-8)
.MODEL DOUTN D(KF=0 RS=0 IS=1.6036E-8)
.MODEL DIN D(IS=1E-14 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.ENDS LTC2053
*
***
*
* Version 2.0 Copyright © Linear Technology Corp. 10/19/05. All rights reserved.
*
.SUBCKT LTC2055 3 2 7 4 6 ;(+IN -IN V+ V- OUT)
XLTC2055 3 2 7 4 6 LTC2054
.ENDS LTC2055
*
* Version 1.66 Copyright ? Linear Technology Corp. 5/14/04. All rights reserved. [Spice2]
* Node List: IN+(3) IN-(2) VCC(7) VEE(4) OUT(6)
.SUBCKT LTC2054 3 2 7 4 6
CCM1 169 174 2
CCM2 168 169 2
CG1 168 165 1n
CG2 165 174 1n
CG3 166 174 2.5e-6
CG4 168 166 2.5e-6
CG5 171 174 2e-7
CG6 168 171 2e-7
CG7 172 174 1e-10
CG8 168 172 1e-10
CIN1 3 2 0.1f
CIN2 0 3 0.1f
CIN3 2 0 0.1f
CPSN 186 0 10p
CPSN1 168 185 2
CPSN2 185 174 2
CPSP 188 0 10p
CPSP1 168 187 2
CPSP2 187 174 2
CVCC 147 0 1E5
CVEE 148 0 1E5
CVM 182 0 1E5
DIN1 108 7 DIODE
DIN2 103 7 DIODE
DIN3 4 108 DIODE
DIN4 4 103 DIODE
DVLIM1 184 149 DVLIM
DVLIM2 150 184 DVLIM
DVNF 151 0 DVNOI
DVNFX 152 0 DVNOIX
EICM1 160 0 2 0 1
EICM2 161 0 3 0 1
EILIM1 125 122 184 162 1E5
EILIM2 124 120 184 162 -1E5
EIN1 106 0 105 0 1
EIN2 104 0 103 0 1
EPWR1 138 0 184 162 1E5
EPWR2 139 0 184 162 1E5
ESRLIM1 144 146 103 105 0
ESRLIM2 143 145 105 103 0
ESRLIM3 143 141 164 163 4.99998
ESRLIM4 144 142 163 164 4.99998
EVCC 168 0 147 0 1
EVEE 174 0 148 0 1
EVNOI1 107 108 0 153 1
EVNOI2 109 107 151 152 1
FVLIM1 184 0 VVLIM1 -1E7
FVLIM2 184 0 VVLIM2 1E7
GCM1 168 170 177 182 0.000316228
GCM2 174 170 177 182 0.000316228
GCM3 174 169 170 182 6.2832
GCM4 168 169 170 182 6.2832
GCMO1 174 166 169 174 6.2832
GCMO2 166 168 168 169 6.2832
GG1 168 165 164 163 0.00314159
GG2 174 165 164 163 0.00314159
GG3 174 166 165 182 10
GG4 168 166 165 182 10
GG5 174 171 166 182 6.2832
GG6 168 171 166 182 6.2832
GG7 174 172 171 182 6.2832
GG8 168 172 171 182 6.2832
GILIM 165 0 129 0 0.01
GINOI1 103 0 0 130 1m
GINOI2 110 0 0 131 1m
GOUT1 184 168 168 176 0.025
GOUT2 174 184 176 174 0.025
GPSN1 168 186 4 174 0.000316228
GPSN2 174 186 4 174 0.000316228
GPSN3 168 185 186 182 6.2832
GPSN4 174 185 186 182 6.2832
GPSNO1 184 168 168 185 0.025
GPSNO2 174 184 185 174 0.025
GPSP1 168 188 7 168 0.000316228
GPSP2 174 188 7 168 0.000316228
GPSP3 168 187 188 182 6.2832
GPSP4 174 187 188 182 6.2832
GPSPO1 184 168 168 187 0.025
GPSPO2 174 184 187 174 0.025
GPWR1 136 0 184 162 100
GPWR2 137 0 184 162 100
GSHD3 4 7 119 0 1
GZP1 174 175 172 182 0.1
GZP2 168 175 172 182 0.1
GZP3 174 176 175 182 0.1
GZP4 168 176 175 182 0.1
HIN1 113 163 VIN1 100
HIN2 118 164 VIN2 100
HIN3 116 117 VIN3 100
HIN4 112 115 VIN4 100
IBIAS1 105 0 8e-13
IBIAS2 103 0 8e-13
IDUM1 153 0 0
IDUM2 131 130 0
IPWR 7 4 0.00014
ISLEW 111 0 10mA
IVNF 0 151 1A
IVNFX 0 152 1A
LCM1 168 127 22.7364
LCM2 128 174 22.7364
LCMX 126 170 100
LPSN1 168 132 3.1831
LPSN2 133 174 3.1831
LPSP1 168 134 3.1831
LPSP2 135 174 3.1831
LZP1 168 154 1.59314e-13
LZP2 155 174 1.59314e-13
LZP3 168 156 1.59314e-13
LZP4 157 174 1.59314e-13
Q1 163 106 116 0 NPN1
Q2 164 104 112 0 NPN1
RCM1 127 170 1k
RCM2 170 128 1k
RCM3 169 174 0.159155
RCM4 168 169 0.159155
RCMX 126 0 0.1
RG1 168 165 318310000
RG2 165 174 318310000
RG3 166 174 0.159155
RG4 168 166 0.159155
RG5 171 174 0.159155
RG6 168 171 0.159155
RG7 172 174 0.159155
RG8 168 172 0.159155
RICM1 160 177 1k
RICM2 161 177 1k
RILIM 129 0 1
RIN1 108 3 0.1
RIN2 103 2 0.1
RINOI1 130 0 60.3865
RINOI2 131 0 60.3865
ROUT1 168 184 40
ROUT2 184 174 40
ROUT3 183 162 0.01
RPSN1 132 186 1k
RPSN2 186 133 1k
RPSN3 168 185 0.159155
RPSN4 185 174 0.159155
RPSP1 134 188 1k
RPSP2 188 135 1k
RPSP3 168 187 0.159155
RPSP4 187 174 0.159155
RPWR1 136 168 1E6
RPWR2 137 174 1E6
RSENSE 162 184 0.01
RSHD1 119 0 1
RVCC 147 7 100
RVEE 148 4 100
RVH1 168 182 1k
RVH2 182 174 1k
RVNOI 0 153 467633
RZP1 175 155 10
RZP2 154 175 10
RZP3 168 154 0.01001
RZP4 155 174 0.01001
RZP5 176 157 10
RZP6 156 176 10
RZP7 168 156 0.01001
RZP8 157 174 0.01001
SHD2 140 119 7 4 SHDN2X
SHD8 159 6 7 4 SHDNO2
SILIM1 129 123 122 0 SILIM
SILIM2 129 121 120 0 SILIM
SPWR1 7 136 138 0 SPWR
SPWR2 4 137 139 0 SPWRX
SSRLIM1 163 164 141 0 SSRLIM
SSRLIM2 163 164 142 0 SSRLIM
VILIM1 125 0 10
VILIM2 124 0 10
VILIM3 123 0 10000
VILIM4 121 0 -10000
VIN1 114 113 0
VIN2 114 118 0
VIN3 117 111 0
VIN4 115 111 0
VINPUT 114 0 100
VNF 109 110 83.3788uV
VOS 105 110 3u
VSHD7 159 183 0
VSHDN 140 0 0.000139
VSRLIM1 145 0 0.5
VSRLIM2 146 0 0.5
VVLIM1 168 149 1.1485
VVLIM2 150 174 1.1335
.MODEL NPN1 NPN(BF=1E11 BR=1E11 AF=0 KF=0 XTI=0 CJC=1f CJE=1f CJS=1f )
.MODEL SHDN VSWITCH(ROFF=1E7 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80V VOFF=2.00V)
.MODEL SHDNO2 VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00V VOFF=1.80V)
.MODEL SHDN2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.10V VOFF=0.90V)
.MODEL SHDN2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.90V VOFF=1.10V)
.MODEL SBIAS VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SBIAS2 VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIASX VSWITCH(ROFF=1E7 RON=0.001 VON=1.00V VOFF=0.80V)
.MODEL SBIAS2X VSWITCH(ROFF=1E7 RON=0.001 VON=0.80V VOFF=1.00V)
.MODEL SSRLIM VSWITCH(ROFF=1E7 RON=0.01 VON=-0.1 VOFF=0.5)
.MODEL SILIM VSWITCH(ROFF=1E7 RON=0.001 VON=-3V VOFF=0.4V)
.MODEL SPWR VSWITCH(ROFF=1G RON=0.1 VON=12V VOFF=-12V)
.MODEL SPWRX VSWITCH(ROFF=1G RON=0.1 VON=-12V VOFF=12V)
.MODEL DIODE D(KF=0 RS=0)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DIDEAL D(KF=0 RS=0 XTI=0)
.MODEL DVNOI D(RS=0 KF= 1.15602e-11)
.ENDS LTC2054
*
***
*
*
.SUBCKT LTC6079 3 2 7 4 6 ; IN+ IN- VCC VEE OUT
XLTC6079 3 2 7 4 6 LTC6078
.ENDS LTC6079
*
* Copyright © Linear Technology Corp. 08/01/05. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LTC6078 3 2 7 4 6
CCMRR 126 109 0.3p
CG1 117 0 1E-6
CG3 118 0 2.43E-5
CG5 122 0 1E-7
CIN2 4 3 9pF
CIN3 2 4 9pF
CIN4 7 3 9pF
CIN5 2 7 9pF
CPSRR1 110 119 100p
CPSRR2 111 123 100p
DIN1 3 7 DIN
DIN2 2 7 DIN
DIN3 4 3 DIN
DIN4 4 2 DIN
DOUT1 127 6 DOUTP
DOUT2 6 127 DOUTN
DVL1 112 117 DVLIM
DVL2 112 0 DVLIM
DVNF 113 0 DVNOI
DVNFX 114 0 DVNOIX
EICM 126 0 VALUE={(V(3)+V(2))/2}
EVEE 125 0 4 0 1
EVLIM1 120 0 7 0 1
EVLIM2 124 0 4 0 1
FPWR1 7 0 VVLIM1 -1
FPWR2 0 4 VVLIM2 1
GCM2 0 121 126 4 5.62E-9
GCMRRO 0 108 121 0 1
GG1 0 117 VALUE={0.01*TANH(V(23))}
GG3 0 118 117 0 6.2832
GG5 0 122 118 0 6.2832
GGAIN 0 23 108 2 500
GINX 0 108 3 0 1
GOUT 0 127 VALUE={1m*tanh(V(24))}
GPSRR 0 128 7 4 1E-9
GPSRRO 108 0 128 0 1
GVNOI1 0 108 115 0 1
GVNOI2 108 0 113 114 1
GZP1 0 24 122 0 0.1
IBIASDEF1 0 3 0.2pA
IBIASDEF2 0 2 0.2pA
IDUM1 115 0 0
IOS 3 2 0.1pA
ITYP 7 4 54uA
IVNF 0 113 1
IVNFX 0 114 1
IVOS 0 108 10E-6
LZP2 116 0 1.47E-5
MOUT1 119 127 6 6 NOUT
MOUT2 123 127 6 6 POUT
RA 23 0 0.14
RCMRR 121 0 1k
RCMRR2 109 121 3k
RG1 117 0 159.159k
RG3 118 0 0.159155
RG5 122 0 0.159155
RINX 108 0 1
ROUT1 127 125 1E4
RPSRR1 128 0 1k
RPSRR2 128 110 3k
RPSRR3 128 111 3k
RVNOI 115 0 15.56k
RZP1 24 116 10
RZP4 116 0 140
VVLIM1 119 120 0
VVLIM2 123 124 0
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=0.5 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=1.15E-11)
.MODEL DOUTP D(IS=4.62E-5 KF=0 RS=0)
.MODEL DOUTN D(IS=4.62E-5 KF=0 RS=0)
.ENDS LTC6078
*
***
*
* Copyright ? Linear Technology Corp. 4/15/05. All rights reserved.
* Pinout: OUT V- IN- IN+ V+
.SUBCKT LTC6101 1 2 3 4 5
CG1 117 0 2.9E-7
CG3 118 0 5E-7
CIN1 3 2 4p
CIN2 2 4 4p
CIN3 3 5 4p
CIN4 5 4 4p
CPSRR1 114 119 10p
DIN1 5 112 DIN
DIN2 112 113 DIN
DIN3 113 22 DIN
DIN4 21 22 DIN
DIN5 22 21 DIN
DVL1 116 117 DVLIM1
DVL2 116 0 DVLIM2
DZ1 3 5 DZNR
DZ2 2 1 DZNR
EVLIM1 119 0 5 0 1
EVLIM2 120 0 VALUE={V(5)-4}
GG1 0 117 VALUE={4*TANH(V(23))}
GG3 0 118 117 0 6.2832
GGAIN 0 23 111 22 1.5625m
GINX1 0 111 21 0 1
GOUT 0 121 118 0 10m
GPSRR 0 122 5 2 3.162E-11
GPSRRO 111 0 122 0 1
GPWR 5 2 115 0 1E-6
IBIAS1 21 0 100n
IBIAS2 22 0 100n
IOS 21 22 2n
ISUPTC 0 115 1
IVOS 0 111 150u
MCUR 1 6 3 3 PCUR
MOUT1 119 121 6 6 NOUT
MOUT2 120 121 6 6 POUT
RA 23 0 1k
RG1 117 0 16K
RG3 118 0 0.159155
RIN1 21 4 5k
RIN2 22 3 5k
RINX1 111 0 1
ROUT1 119 121 200
ROUT2 121 120 200
RPSRR1 122 0 1k
RPSRR2 122 114 10k
RPWR 2 5 440k
RSUPTC 115 0 210 TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=1E-3)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.7m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LTC6101
*
***
*
*
.SUBCKT LTC6240 3 2 7 4 6 ; IN+ IN- VCC VEE OUT
XLTC6240 3 2 7 4 6 LTC6241
.ENDS LTC6240
*
.SUBCKT LTC6242 3 2 7 4 6 ; IN+ IN- VCC VEE OUT
XLTC6242 3 2 7 4 6 LTC6241
.ENDS LTC6242
*
* Copyright © Linear Technology Corp. 12/22/05. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LTC6241 3 2 7 4 6
IBIASDEF2 0 2 7E-13
IBIASDEF1 0 3 1.2E-12
RG1 24 0 6E3
CG1 24 0 1E-6
GCMRR 0 51 50 4 6.31E-9
RCMRR 51 0 1E3
GPSRR 0 53 7 4 3.2E-9
RPSRR1 53 0 1E3
GG3 0 26 24 0 6.2832
RG3 26 0 0.159155
CG3 26 0 1.45E-6
RVNOI 41 0 1E3
CIN3 2 4 1.5pF
CIN2 4 3 1.5pF
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 3 7 DIN
DIN2 2 7 DIN
GZP1 0 28 26 0 0.1
RZP1 28 29 10
RZP4 29 0 45
LZP2 29 0 3.11E-7
GG5 0 27 30 0 6.2832
RG5 27 0 0.159155
CG5 27 0 8E-8
DIN3 4 3 DIN
DIN4 4 2 DIN
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 9.2
GG1 0 24 VALUE={15*TANH(V(21))}
MOUT1 77 27 6 6 NOUT
MOUT2 44 27 6 6 POUT
CIN4 7 3 1.5pF
CIN5 2 7 1.5pF
DVL1 25 24 DVLIM
DVL2 25 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 3E-13
RCMRR2 52 51 3E3
RPSRR2 53 54 3E3
CPSRR1 54 7 5E-12
RPSRR3 53 55 3E3
CPSRR2 55 4 2E-11
GZP2 0 30 28 0 0.1
RZP2 30 31 10
RZP3 31 0 45
LZP1 31 0 3.11E-7
GITYP 7 4 VALUE={1.15E-3+1.4E-4*V(7,4)}
CIN1 3 2 0.5p
GLIM1 7 77 VALUE={MIN(0.03,0.0333*V(7,77))}
GLIM2 44 4 VALUE={MIN(0.03,0.0333*V(44,4))}
GB 0 27 VALUE={3.14*(V(7)+V(4))}
GINX 0 21 VALUE={V(3,2)+V(41)+V(42,43)+V(51)+V(53)-3E-5}
GINOI 2 3 41 0 8E-8
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=3.15E-12)
.ENDS LTC6241
*
***
*
* Copyright © Linear Technology Corp. 08/17/06. All rights reserved.
* Pinout: IN+ IN- VCC VEE OUT
.SUBCKT LTC6244 3 2 7 4 6
IBIASDEF2 0 2 0.5E-12
IBIASDEF1 0 3 0.3E-12
RG1 22 0 4000
CG1 22 0 1E-6
GCM2 0 51 50 4 3E-9
RCMRR 51 0 1E3
GPSRR 0 53 7 4 3E-9
RPSRR1 53 0 1E3
RVNOI 41 0 1.8E3
CIN3 2 4 1.05E-12
CIN2 4 3 1.05E-12
DVNF 42 0 DVNOI
IVNF 0 42 1
DIN1 3 7 DIN
DIN2 2 7 DIN
GG5 0 25 22 0 6.2832
RG5 25 0 0.159155
CG5 25 0 2E-8
DIN3 4 3 DIN
DIN4 4 2 DIN
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
RINX 21 0 12
GG1 0 22 VALUE={40*TANH(V(21))}
MOUT1 31 26 6 6 NOUT
MOUT2 32 26 6 6 POUT
CIN4 7 3 1.05E-12
CIN5 2 7 1.05E-12
DVL1 23 22 DVLIM
DVL2 23 0 DVLIM
EICM 50 0 VALUE={(V(3)+V(2))/2}
CCMRR 50 52 3E-13
RCMRR2 52 51 2k
RPSRR2 53 54 3E3
CPSRR1 54 7 3E-12
RPSRR3 53 55 3E3
CPSRR2 55 4 3E-12
GITYP 7 4 VALUE={5E-3+2E-4*V(7,4)}
CIN1 3 2 3.5E-12
GIN 0 21 VALUE={V(3,2)+V(41)+V(42,43)+V(51)+V(53)+40E-6}
GLIM1 7 31 VALUE={MIN(0.035,0.02*V(7,31))}
GLIM2 32 4 VALUE={MIN(0.035,0.02*V(32,4))}
GB 0 26 VALUE={3.14*(V(7)+V(4))}
GG2 0 26 25 0 6.2832
RG2 26 0 0.159155
CG2 26 61 8E-7
RRG2 61 0 3E-2
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10m)
.MODEL DIN D(KF=0 RS=0 IS=1E-16)
.MODEL DVLIM D(BV=4 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF=1.65E-11)
.ENDS LTC6244
*
***
*
* Copyright © Linear Technology Corp. 09/15/2005. All rights reserved.
* Pinout (same as IC, without Pin 1): -IN +IN V- REF RG OUT V+
.SUBCKT LTC6800 2 3 4 5 6 7 8
DIN1 3 8 DIN
DIN2 4 3 DIN
DIN3 2 8 DIN
DIN4 4 2 DIN
IBIAS1 3 0 3.5E-9
IBIAS2 2 0 4.5E-9
CIN1 3 2 4p
GIN 0 10 VALUE={V(3)-V(2)+V(5)}
RIN 10 0 1
GVNOI 10 0 12 0 1
RVNOI 12 0 1.37E6
CVNOI 12 0 1E-11
EVLIN 11 0 VALUE={V(8)-2}
DVLIN 10 11 DIN
IDUM1 0 12 0
DIN5 5 8 DIN
DIN6 4 5 DIN
IBIAS3 5 0 4E-9
ITYP 8 4 6.74E-4
GCMRR 0 10 VALUE={2.239E-6*(((V(3)+V(2))/2)-V(4))}
GPSRR 0 10 VALUE={1.585E-6*(V(8)-V(4))}
GG1 0 23 10 6 1
RG1 23 0 5.85
RG2 24 0 1.591E6
GG2 0 24 VALUE={0.022*TANH(V(23))}
CG1 24 0 1E-6
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG2 25 0 1E-5
GOUT 0 26 VALUE={1E-3*TANH(V(25))}
ROUT 26 44 1E4
MOUT1 8 26 7 7 NOUT
MOUT2 4 26 7 7 POUT
EVEE 44 0 4 0 1
DOUT1 26 7 DOUT
DOUT2 7 26 DOUT
DVL1 30 24 DVLIM
DVL2 30 0 DVLIM
DIN7 6 8 DIN
DIN8 4 6 DIN
IBIAS4 6 0 4E-9
RCUR 8 4 34000
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=5 VTO=1m)
.MODEL DIN D(IS=1E-13 KF=0 RS=0)
.MODEL DVLIM D(BV=0.8 IS=1E-10 KF=0 RS=0)
.MODEL DOUT D(IS=5E-5 RS=0 KF=0)
.ENDS LTC6800
*
***
*
* Copyright © Linear Technology Corp. 01/08/2007. All rights reserved.
*
*LTC6910-1 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp6910
* .SUBCKT SwitchA
* .SUBCKT SwitchN
* .SUBCKT SwitchP
* .SUBCKT nand2in
* .SUBCKT nand3in
* .SUBCKT inverter
* 8/19/04
************************ADDED 11/4/04 **********************************
* Main network description
* OUT AGND VIN V- G0 G1 G2 V+
.subckt LTC6910-1 OUT AGND IN 27 G0 G1 G2 VPLUS
R2 14 IN 10K
R10 22 IN 10K
R9 21 IN 10K
R8 20 IN 10K
R7 19 IN 10K
R5 17 IN 10K
R4 16 IN 10K
R3 15 IN 10K
R1 IN 13 10K
R6 18 IN 10K
R11 24 23 50K
R12 25 24 30K
R13 26 25 10K
R14 OUT 26 10K
R15 VPLUS AGND 10K
R16 AGND 27 10K
RI71 G2A 27 100K
RI73 G0A 27 100K
RI72 G1A 27 100K
XI21 6 27 VPLUS 12 inverter
XI22 G0A 27 VPLUS 3 inverter
XI23 G1A 27 VPLUS 2 inverter
XI24 G2A 27 VPLUS 1 inverter
XI18 G0A G1A G2A 27 VPLUS 9 nand3in
XI19 G0A G1A 1 27 VPLUS 4 nand3in
XI20 3 2 1 27 VPLUS 6 nand3in
XI17 3 2 27 VPLUS 5 nand2in
XI16 4 1 27 VPLUS 7 nand2in
XI15 2 1 27 VPLUS 8 nand2in
XI14 G1A G2A 27 VPLUS 10 nand2in
XI13 5 G2A 27 VPLUS 11 nand2in
C1 OUT 23 1.6PF
XI53 AGND 23 27 VPLUS OUT OPAMP6910
MI54 13 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI63 14 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI62 15 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI61 16 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI60 17 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI59 18 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI58 19 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI57 20 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI56 21 8 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI55 22 6 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI67 24 9 23 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
MI66 25 10 23 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U PD=105.000U
MI65 26 11 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI64 OUT 12 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
XI76 G2 VPLUS G2A SWITCHN
XI75 G1 VPLUS G1A SWITCHN
XI74 G0 VPLUS G0A SWITCHN
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS LTC6910-1
*
*
*LTC6910-2 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp6910
* .SUBCKT SwitchA
* .SUBCKT SwitchN
* .SUBCKT SwitchP
* .SUBCKT nand2in
* .SUBCKT nand3in
* .SUBCKT inverter
* 8/19/04
****************************************ADDED 11/3/04 ***************************************
* Main network description
* OUT AGND VIN V- G0 G1 G2 V+
.subckt LTC6910-2 OUT AGND IN 27 G0 G1 G2 VPLUS
R11 24 23 40K
R12 25 24 20K
R13 26 25 10K
R14 OUT 26 10K
R2 14 IN 10K
R10 22 IN 10K
R9 21 IN 10K
R7 19 IN 10K
R4 16 IN 10K
RI27R3 15 IN 10K
R1 IN 13 10K
R6 18 IN 10K
R15 VPLUS AGND 10K
R16 AGND 27 10K
RI70 G2A 27 100K
RI69 G1A 27 100K
RI68 G0A 27 100K
XI21 6 27 VPLUS 12 inverter
XI24 G2A 27 VPLUS 1 inverter
XI23 G1A 27 VPLUS 2 inverter
XI22 G0A 27 VPLUS 3 inverter
XI18 G0A G1A G2A 27 VPLUS 9 nand3in
XI19 G0A G1A 1 27 VPLUS 4 nand3in
XI20 3 2 1 27 VPLUS 6 nand3in
XI17 3 2 27 VPLUS 5 nand2in
XI16 4 1 27 VPLUS 7 nand2in
XI15 2 1 27 VPLUS 8 nand2in
XI14 G1A G2A 27 VPLUS 10 nand2in
XI13 5 G2A 27 VPLUS 11 nand2in
C1 OUT 23 1.6PF
MI63 13 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI62 15 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI61 16 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI60 19 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI59 21 8 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI58 22 6 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI57 14 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI56 18 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI55 25 10 23 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U PD=105.000U
MI54 26 11 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI53 OUT 12 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI52 24 9 23 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
XI64 AGND 23 27 VPLUS OUT OPAMP6910
XI67 G0 VPLUS G0A SWITCHN
XI66 G1 VPLUS G1A SWITCHN
XI65 G2 VPLUS G2A SWITCHN
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS LTC6910-2
*
*
*LTC6910-3 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp6910
* .SUBCKT SwitchA
* .SUBCKT SwitchN
* .SUBCKT SwitchP
* .SUBCKT nand2in
* .SUBCKT nand3in
* .SUBCKT inverter
* 8/19/04
******************************** ADDED 11/3/04 ******************************
*Internal resistor network, logic, gain-related switches
* Main network description
* OUT AGND VIN V- G0 G1 G2 V+
.subckt LTC6910-3 OUT AGND IN 27 G0 G1 G2 VPLUS
R2 14 IN 10K
R9 21 IN 10K
R7 19 IN 10K
R4 16 IN 10K
RI27R3 15 IN 10K
R1 IN 13 10K
R6 18 IN 10K
R14 OUT 26 10K
R15 VPLUS AGND 10K
R16 AGND 27 10K
RI70 27 G2A 100K
RI69 G1A 27 100K
RI68 G0A 27 100K
XI24 G2A 27 VPLUS 1 inverter
XI23 G1A 27 VPLUS 2 inverter
XI21 N_1 27 VPLUS 12 inverter
XI22 G0A 27 VPLUS 3 inverter
XI20 3 2 1 27 VPLUS N_1 nand3in
C1 OUT 23 1.6PF
XI52 N_2 27 27 VPLUS 11 nand2in
XI63 27 27 27 VPLUS N_2 nand2in
MI62 18 G1A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI61 19 G1A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI60 21 G0A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI59 26 11 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI58 OUT 12 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI57 13 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI56 14 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI55 15 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI54 16 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
XI64 AGND 23 27 VPLUS OUT OPAMP6910
XI67 G2 VPLUS G2A SWITCHN
XI66 G1 VPLUS G1A SWITCHN
XI65 G0 VPLUS G0A SWITCHN
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS LTC6910-3
*
*
*LTC6911-1 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp6910
* .SUBCKT SwitchA
* .SUBCKT SwitchN
* .SUBCKT SwitchP
* .SUBCKT nand2in
* .SUBCKT nand3in
* .SUBCKT inverter
* 8/19/04
********************* ADDED 11/3/04 ***********************************************
*Main Network Description
* INA AGND INB G0 G1 G2 V+ OUTB V- OUTA
.subckt LTC6911-1 INA AGND INB G0 G1 G2 VPLUS OUTB 27 OUTA
R10 22 INA 10K
R2 14 INA 10K
R9 21 INA 10K
R8 20 INA 10K
R7 19 INA 10K
R5 17 INA 10K
R4 16 INA 10K
R3 15 INA 10K
R1 INA 13 10K
R6 18 INA 10K
RI87B 22B INB 10K
RI86B 14B INB 10K
RI85B 21B INB 10K
RI84B 20B INB 10K
RI83B 19B INB 10K
RI82B 17B INB 10K
RI81B 16B INB 10K
RI80B 15B INB 10K
RI79B INB 13B 10K
RI78B 18B INB 10K
R11 24 23 50K
R12 25 24 30K
R13 26 25 10K
R14 OUTA 26 10K
R15 VPLUS AGND 10K
R16 AGND 27 10K
R11B 24B N_1 50K
R12B 25B 24B 30K
R13B 26B 25B 10K
R14B OUTB 26B 10K
R15B VPLUS AGND 10K
R16B AGND 27 10K
RI94 G0A 27 100K
RI93 G1A 27 100K
RI92 G2A 27 100K
XI21 6 27 VPLUS 12 inverter
XI24 G2A 27 VPLUS 1 inverter
XI23 G1A 27 VPLUS 2 inverter
XI22 G0A 27 VPLUS 3 inverter
XI20 3 2 1 27 VPLUS 6 nand3in
XI18 G0A G1A G2A 27 VPLUS 9 nand3in
XI19 G0A G1A 1 27 VPLUS 4 nand3in
XI17 3 2 27 VPLUS 5 nand2in
XI16 4 1 27 VPLUS 7 nand2in
XI15 2 1 27 VPLUS 8 nand2in
XI14 G1A G2A 27 VPLUS 10 nand2in
XI13 5 G2A 27 VPLUS 11 nand2in
C1 OUTA 23 1.6PF
CI88 OUTB N_1 1.6PF
XI53 AGND 23 27 VPLUS OUTA OPAMP6910
XI54B AGND N_1 27 VPLUS OUTB OPAMP6910
MI55 22 6 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI54 13 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI63 14 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI62 15 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI61 16 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI60 17 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI59 18 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI58 19 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI57 20 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI56 21 8 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI77B 22B 6 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI76B 13B G2A N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI75B 14B G2A N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI74B 15B G2A N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI73B 16B G2A N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI72B 17B G2A N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI71B 18B 7 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI70B 19B 7 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI69B 20B 7 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI68B 21B 8 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI67 24 9 23 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
MI66 25 10 23 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U PD=105.000U
MI65 26 11 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI64 OUTA 12 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI67B 24B 9 N_1 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
MI66B 25B 10 N_1 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U
+ PD=105.000U
MI65B 26B 11 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI64B OUTB 12 N_1 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
XI91 G0 VPLUS G0A SWITCHN
XI90 G1 VPLUS G1A SWITCHN
XI89 G2 VPLUS G2A SWITCHN
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS LTC6911-1
*
*
*LTC6911-2 SPICE Macro-model
****IMPORTANT**** Needs the following subcircuits and models found at the bottom of this library ****
***************** included in the same library file:
* .SUBCKT OpAmp6910
* .SUBCKT SwitchA
* .SUBCKT SwitchN
* .SUBCKT SwitchP
* .SUBCKT nand2in
* .SUBCKT nand3in
* .SUBCKT inverter
* 8/19/04
************************** ADDED 11.3.04 ***************************************
*
*Internal resistor network, logic, gain-related switches
*
*Main Description
* INA AGND INB G0 G1 G2 V+ OUTB V- OUTA
.subckt LTC6911-2 INA AGND INB G0 G1 G2 VPLUS OUTB 27 OUTA
R2 14 INA 10K
R10 22 INA 10K
R9 21 INA 10K
R7 19 INA 10K
R4 16 INA 10K
RI27R3 15 INA 10K
R1 INA 13 10K
R6 18 INA 10K
RI79B 14B INB 10K
RI78B 22B INB 10K
RI77B 21B INB 10K
RI76B 19B INB 10K
RI75B 16B INB 10K
RI74B 15B INB 10K
RI73B INB 13B 10K
RI72B 18B INB 10K
R15 VPLUS AGND 10K
R16 AGND 27 10K
RI84B VPLUS AGND 10K
RI83B AGND 27 10K
R11 24 23 40K
R12 25 24 20K
R13 26 25 10K
R14 OUTA 26 10K
RI92 24B 23B 40K
RI91 25B 24B 20K
RI90 26B 25B 10K
RI89 OUTB 26B 10K
RI98 27 G0A 100K
RI97 27 G1A 100K
RI96 27 G2A 100K
XI24 G2A 27 VPLUS 1 inverter
XI23 G1A 27 VPLUS 2 inverter
XI22 G0A 27 VPLUS 3 inverter
XI21 6 27 VPLUS 12 inverter
XI18 G0A G1A G2A 27 VPLUS 9 nand3in
XI19 G0A G1A 1 27 VPLUS 4 nand3in
XI20 3 2 1 27 VPLUS 6 nand3in
XI17 3 2 27 VPLUS 5 nand2in
XI16 4 1 27 VPLUS 7 nand2in
XI15 2 1 27 VPLUS 8 nand2in
XI14 G1A G2A 27 VPLUS 10 nand2in
XI13 5 G2A 27 VPLUS 11 nand2in
C1 OUTA 23 1.6PF
CI82B OUTB 23B 1.6PF
MI63 13 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI62 15 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI61 16 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI60 19 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI59 21 8 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI58 22 6 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI57 14 G2A 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI56 18 7 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI71 13B G2A 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI70 15B G2A 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI69 16B G2A 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI68 19B 7 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI67 21B 8 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI66 22B 6 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI65 14B G2A 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI64 18B 7 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI55 25 10 23 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U PD=105.000U
MI54 26 11 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U PD=201.000U
MI53 OUTA 12 23 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI52 24 9 23 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
MI88 25B 10 23B 27 N L=2U W=48U AS=216.000P AD=216.000P PS=105.000U
+ PD=105.000U
MI87 26B 11 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI86 OUTB 12 23B 27 N L=2U W=96U AS=432.000P AD=432.000P PS=201.000U
+ PD=201.000U
MI85 24B 9 23B 27 N L=2U W=24U AS=108.000P AD=108.000P PS=57.000U PD=57.000U
XI80 AGND 23 27 VPLUS OUTA OPAMP6910
XI81B AGND 23B 27 VPLUS OUTB OPAMP6910
XI95 G0 VPLUS G0A SWITCHN
XI94 G1 VPLUS G1A SWITCHN
XI93 G2 VPLUS G2A SWITCHN
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS LTC6911-2
*
*Gate used with the LTC6910/11 models
.SUBCKT inverter 1 4 8 2
XSN 1 2 4 SWITCHN
XSP 1 8 2 SWITCHP
.ENDS inverter
****
*Gate used with the LTC6910/11 models
.SUBCKT nand3in 1 2 3 4 8 5
XI6 3 7 4 SWITCHN
XI5 2 6 7 SWITCHN
XI4 1 5 6 SWITCHN
XI3 2 8 5 SWITCHP
XI2 3 8 5 SWITCHP
XI1 1 8 5 SWITCHP
.ENDS nand3in
***
*Gate used with the LTC6910/11 models
.SUBCKT nand2in 1 2 4 8 3
XI4 1 3 5 SWITCHN
XI3 2 5 4 SWITCHN
XI2 1 8 3 SWITCHP
XI1 2 8 3 SWITCHP
.ENDS nand2in
***
*Switch used with the LTC6910/11 models
.subckt switchP 1 2 3
S1 3 2 1 0 Swp
.model swp vswitch[Ron=1000 Roff=10E6 Von=0.5 Voff=2.2]
.ends switchP
***
*Switch used with the LTC6910/11 models
.subckt switchN 1 2 3
S1 3 2 1 0 SwN
.model swn vswitch[Ron=1000 Roff=10E6 Von=2.2 Voff=0.5]
.ends switchN
***
*Switch used with the LTC6910/11 models
.subckt switchA 1 2 3
S1 3 2 1 0 SwA
.model swa vswitch[Ron=10 Roff=10E8 Von=2.2 Voff=0.5]
.ends switchA
***
.subckt OpAmp6910 1 2 11 12 25
*
*Internal Op-Amp
*
M1 7 3 5 5 P L=2E-6 W=1312E-6
M2 6 2 5 5 P L=2E-6 W=1312E-6
RI1 7 8 500
RI2 6 9 500
I1 12 5 400E-6
V1 12 4 .75
V2 8 11 .6
V3 9 11 .6
D1 5 4 DX
Rn 3 10 700
EVOS 10 1 POLY(2) (17,15) (19,15) -.70m 1 1
*
* CMRR circuitry
*
ECM 16 15 POLY(2) (0,15) (2,15) 0 .35 .35
RCM1 16 17 70E3
RCM2 17 15 10
CCM 16 17 6.43E-12
*
*PSRR circuitry
*
RPS1 18 19 4.5E3
RPS2 19 15 1
CPS 18 19 100p
EPS 18 0 POLY(1) (12,11) 0 1
*
*Internal Voltage Reference
*
E2 15 0 POLY(2) (12,0) (11,0) 0 .5 .5
GIS 12 11 (12,11) .18m
*
*Gain Stage
*
E1 13 15 POLY(1) (7,6) 0 7
R1 13 14 1E+3
C1 14 15 9.78E-12
*
*Output Stage
*
M3 25 23 12 12 P L=2.5E-6 W=11200E-6
M4 25 24 11 11 N L=2.5E-6 W=5600E-6
M5 23 23 12 12 P L=2.5E-6 W=1.35E-6
M6 24 24 11 11 N L=2.5E-6 W=.525E-6
GM5 23 11 POLY(1) (15,14) 9.644E-8 2.08E-5
GM6 12 24 POLY(1) (14,15) 7.5E-8 2.08E-5
CO1 25 23 1.68E-12
CO2 25 24 1.68E-12
.MODEL P PMOS(LEVEL=2 KF=2.5E-26 KP=16E-6 VTO=-.7 LAMBDA=0.001 RD=8)
.MODEL N NMOS(LEVEL=2 KF=3.5E-28 KP=52E-6 VTO=.7 LAMBDA=0.001 RD=5)
.MODEL DX D(IS=1E-14 RS=5)
.ENDS OpAmp6910
*

* LT6703_BASE IN+ IN- VCC VEE OUT REF
.SUBCKT LT6703-2 1 2 3 4
CDUM1 139 2 0.01p
CDUM2 2 131 0.01p
CIBIAS1 111 0 10p
CIBIAS2 110 0 10p
CLATCH1 141 0 10p
CPROP 136 0 2.0E-5
CRF1 128 0 2.2E-6
DHYST1 107 108 DSW
DHYST2 107 137 DSW
DILIM1 113 115 DSW
DILIM2 115 114 DSW
DOC1 122 123 DSW
DOC2 122 121 DSW
DPROP1 124 0 DIODE
DPROP2 0 124 DIODE
DPWR1 146 125 DSW
DPWR2 126 101 DSW
DVLIMOC1 119 143 DVLIM
EGND 102 0 101 0 1
EHYST1 108 0 117 0 1E5
EIBIAS1 112 0 131 3 100
EILIM1 116 0 115 0 -100
EIN 140 0 117 0 1
EINCM1 105 0 131 0 1
EINCM2 106 0 3 0 1
ELDO2 119 0 101 120 1
EOC1 0 121 136 0 10
EOM 145 0 144 0 1
EREF1 131 0 135 127 1
EVCC1 133 0 4 0 1
EVEE1 135 0 2 0 1
EVS 147 0 146 0 1
GCMRR 0 117 138 142 1.0E-5
GHYST2 0 124 137 0 1
GIBIAS1 131 0 110 0 1E-6
GIBIAS2 3 0 111 0 1E-6
GILIM1 0 113 143 118 1E4
GILIM2 114 0 118 143 1E4
GIN 0 117 131 139 1
GOUTOC 143 0 128 116 1
GPROP 0 124 141 0 1.0E+5
GPSRRN 0 117 2 142 1.0E-5
GPSRRP 0 117 4 142 1.0E-5
GPWRO1 125 0 143 118 10
GPWRO2 126 0 143 118 10
GRF1 0 128 123 0 2.2
IHYST2 0 107 3.5E+2
IIBIAS 0 109 1.0E-3
ILIM1 113 0 5.0
ILIM2 0 114 4.0E+1
IOC1 0 122 5.0E-3
IOS 131 3 1e-12
ITYP1 4 0 5.7E-6
ITYP2 0 2 5.7E-6
IVOS 0 117 5.0E-4
RDUMOC 130 118 0.001
RHYST2 107 0 1k
RHYST3 137 0 1
RIBIAS1 111 0 1
RIBIAS2 110 0 1
RIBIAS3 109 111 10k
RILIM1 115 0 1
RILIM2 113 0 1
RILIM3 114 0 1
RILIMOC 118 143 0.1
RIN 117 0 1
RINCM1 138 105 1
RINCM2 106 138 1
RLATCH0 141 140 1E-4
RLATCH1 141 0 1
RMID1 142 133 1
RMID2 135 142 1
ROC1 123 0 10
ROC2 122 0 10k
RPROP1 124 0 1
RPROP2 136 124 1.307
RPWR1 125 147 1E3
RPWR2 126 102 1E3
RRF1 128 0 0.4545
RSHD7 130 1 1E-4
RVCC 4 146 1E-4
RVEE 2 101 1E-4
RVNOI 139 3 6038.65
RVOM1 144 147 1
RVOM2 102 144 1
SIBIAS1 110 109 112 0 SWBIAS
VLDO2 0 120 1.5107
VREF1 0 127 4.0E-1
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(IS=1E-18 KF=0 XTI=0 RS=1E-8)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT6703-2
*
***
*
* LT6703-3 OUT GND +IN VS
.SUBCKT LT6703-3 1 2 3 4
CDUM1 139 2 0.01p
CDUM2 2 3 0.01p
CIBIAS1 111 0 10p
CIBIAS2 110 0 10p
CLATCH1 141 0 10p
CPROP 136 0 2.0E-5
CRF1 128 0 2.2E-6
DHYST1 107 108 DSW
DHYST2 107 137 DSW
DILIM1 113 115 DSW
DILIM2 115 114 DSW
DOC1 122 123 DSW
DOC2 122 121 DSW
DPROP1 124 0 DIODE
DPROP2 0 124 DIODE
DPWR1 146 125 DSW
DPWR2 126 101 DSW
DVLIMOC1 119 143 DVLIM
EGND 102 0 101 0 1
EHYST1 108 0 117 0 1E5
EIBIAS1 112 0 3 131 100
EILIM1 116 0 115 0 -100
EIN 140 0 117 0 1
EINCM1 105 0 3 0 1
EINCM2 106 0 131 0 1
ELDO2 119 0 101 120 1
EOC1 0 121 136 0 10
EOM 145 0 144 0 1
EREF1 131 0 135 127 1
EVCC1 133 0 4 0 1
EVEE1 135 0 2 0 1
EVS 147 0 146 0 1
GCMRR 0 117 138 142 1.0E-5
GHYST2 0 124 137 0 1
GIBIAS1 3 0 110 0 1E-6
GIBIAS2 131 0 111 0 1E-6
GILIM1 0 113 143 118 1E4
GILIM2 114 0 118 143 1E4
GIN 0 117 3 139 1
GOUTOC 143 0 128 116 1
GPROP 0 124 141 0 1.0E+5
GPSRRN 0 117 2 142 1.0E-5
GPSRRP 0 117 4 142 1.0E-5
GPWRO1 125 0 143 118 10
GPWRO2 126 0 143 118 10
GRF1 0 128 123 0 2.2
IHYST2 0 107 3.5E+2
IIBIAS 0 109 1.0E-3
ILIM1 113 0 5.0
ILIM2 0 114 4.0E+1
IOC1 0 122 5.0E-3
IOS 3 131 1e-12
ITYP1 4 0 5.7E-6
ITYP2 0 2 5.7E-6
IVOS 0 117 5.0E-4
RDUMOC 130 118 0.001
RHYST2 107 0 1k
RHYST3 137 0 1
RIBIAS1 111 0 1
RIBIAS2 110 0 1
RIBIAS3 109 111 10k
RILIM1 115 0 1
RILIM2 113 0 1
RILIM3 114 0 1
RILIMOC 118 143 0.1
RIN 117 0 1
RINCM1 138 105 1
RINCM2 106 138 1
RLATCH0 141 140 1E-4
RLATCH1 141 0 1
RMID1 142 133 1
RMID2 135 142 1
ROC1 123 0 10
ROC2 122 0 10k
RPROP1 124 0 1
RPROP2 136 124 1.307
RPWR1 125 147 1E3
RPWR2 126 102 1E3
RRF1 128 0 0.4545
RSHD7 130 1 1E-4
RVCC 4 146 1E-4
RVEE 2 101 1E-4
RVNOI 139 131 6038.65
RVOM1 144 147 1
RVOM2 102 144 1
SIBIAS1 110 109 112 0 SWBIAS
VLDO2 0 120 1.5107
VREF1 0 127 4.0E-1
.MODEL SWHYST VSWITCH(ROFF=1E5 RON=1E-4 VON=1 VOFF=-1)
.MODEL SWLATCH VSWITCH(ROFF=1E7 RON=1E-4 VON=1.80 VOFF=2.20)
.MODEL SWLATCHX VSWITCH(ROFF=1E7 RON=1E-4 VON=2.20 VOFF=1.80)
.MODEL SWBIAS VSWITCH(ROFF=1E7 RON=1E-4 VON=2 VOFF=-2)
.MODEL SHDN VSWITCH(ROFF=1G RON=0.1 VON=1.80 VOFF=2.00)
.MODEL SHDNX VSWITCH(ROFF=1E7 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL SHDNO VSWITCH(ROFF=1000000.00 RON=0.001 VON=1.80 VOFF=2.00)
.MODEL SHDNOX VSWITCH(ROFF=1000000.00 RON=0.001 VON=2.00 VOFF=1.80)
.MODEL DSW D(IS=1E-10 RS=0 XTI=0 KF=0)
.MODEL DIODE D(IS=1E-18 KF=0 XTI=0 RS=1E-8)
.MODEL DVLIM D(IS=1E-24 KF=0 RS=0 XTI=0)
.ENDS LT6703-3
*
***
*
.SUBCKT LTC6084 3 2 7 4 6
IBIASDEF2 0 2 0.3pA
IBIASDEF1 0 3 0.2pA
RG1 24 0 55k
CG1 24 0 240E-5
GCM2 0 51 30 4 10E-9
RCMRR 51 0 1k
GPSRR 0 53 7 4 10E-9
RPSRR1 53 0 1k
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG3 25 0 0.1E-6
RVNOI 41 0 15.56k
CIN3 2 4 7pF
CIN2 4 3 7pF
DVNF 42 0 DVNOI
IVNF 0 42 10
DIN1 3 7 DIN
DIN2 2 7 DIN
GZP1 0 27 26 0 0.058
RZP1 27 28 220
RZP4 28 0 370
LZP2 28 0 4E-6
GG5 0 26 25 0 5.44
RG5 26 0 0.1159155
CG5 26 0 0.1E-8
DIN3 4 3 DIN
DIN4 4 2 DIN
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
GG1 0 24 VALUE={700*TANH(V(23))}
MOUT1 61 27 6 6 NOUT
MOUT2 62 27 6 6 POUT
CIN4 7 3 7pF
CIN5 2 7 7pF
RA 23 0 1.5
DVL1 NVL1 24 DVLIM
DVL2 NVL1 0 DVLIM
EICM 30 0 VALUE={(V(3)+V(2))/2}
CCMRR 30 52 0.1p
RCMRR2 52 51 3k
RPSRR2 53 54 3k
CPSRR1 54 7 100p
RPSRR3 53 55 3k
CPSRR2 55 4 1000p
ITYP 7 4 110µA
GGAIN 0 23 VALUE={20*V(3,2)+V(42,43)+V(51)+V(53)+10E-6}
GB 0 27 VALUE={0.02*V(7,4)}
GLIM1 7 61 VALUE={MIN(0.02,V(7,61))}
GLIM2 62 4 VALUE={MIN(0.02,V(62,4))}
.MODEL NOUT NMOS(KF=0 KP=50 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=50 VTO=1m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=2 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=5.15E-13 RS=0)
.MODEL DVNOI D(RS=0 KF=8.15E-13)
.ENDS LTC6084
*
***
*
.subckt LTC6102 1 2 3 4 5 6
CG1 117 0 2.9E-7
CG3 118 0 5E-7
CIN1 3 2 4p
CIN2 2 4 4p
CIN3 3 5 4p
CIN4 5 4 4p
CPSRR1 114 119 1.2p
DIN1 5 112 DIN
DIN2 112 113 DIN
DIN3 113 22 DIN
DIN4 21 22 DIN
DIN5 22 21 DIN
DVL1 116 117 DVLIM1
DVL2 116 0 DVLIM2
DZ1 3 5 DZNR
DZ2 2 1 DZNR
EVLIM1 119 0 5 0 1
EVLIM2 120 0 VALUE={V(5)-4}
GG1 0 117 VALUE={4*TANH(V(23))}
GG3 0 118 117 0 6.2832
GGAIN 0 23 111 22 1.5625m
GINX1 0 111 21 0 1
GOUT 0 121 118 0 10m
GPSRR 0 122 5 2 5.62e-12
GPSRRO 111 0 122 0 1
GPWR 5 2 115 0 1E-6
IBIAS1 21 0 1.5n
IBIAS2 22 0 1.5n
IOS 21 22 2n
ISUPTC 0 115 1
IVOS 0 111 20u
MCUR 1 6a 6 6 PCUR
MOUT1 119 121 6a 6a NOUT
MOUT2 120 121 6a 6a POUT
RA 23 0 800
RG1 117 0 160K
RG3 118 0 0.159155
RIN1 21 4 5k
RIN2 22 3 5k
RINX1 111 0 1
ROUT1 119 121 200
ROUT2 121 120 200
RPSRR1 122 0 1k
RPSRR2 122 114 1meg
RPWR 2 5 440k
RSUPTC 115 0 210 TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=5E-4)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.75m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LTC6102
*
***
*
****** Pinout: OUTA, OUTB, V-, +INB/V+, -INB, -INA, +INA/V+
.subckt LTC6103 1 2 3 4 5 6 7
CG1 117A 0 2.9E-7
CG3 118A 0 5E-7
CIN1 6 3 4p
CIN2 3 7 4p
CIN3 6 7 4p
*CIN4 7 7 4p ??
CPSRR1 114A 119A 1.2p
DIN1 7 112A DIN
DIN2 112A 113A DIN
DIN3 113A 22A DIN
DIN4 21A 22A DIN
DIN5 22A 21A DIN
DVL1 116A 117A DVLIM1
DVL2 116A 0 DVLIM2
DZ1 6 7 DZNR
DZ2 3 1 DZNR
EVLIM1 119A 0 7 0 1
EVLIM2 120A 0 VALUE={V(7)-4}
GG1 0 117A VALUE={4*TANH(V(23A))}
GG3 0 118A 117A 0 6.2832
GGAIN 0 23A 111A 22A 1.5625m
GINX1 0 111A 21A 0 1
GOUT 0 121A 118A 0 10m
GPSRR 0 122A 7 3 3.162E-11
GPSRRO 111A 0 122A 0 1
GPWR 7 3 115A 0 1E-6
IBIAS1 21A 0 100n
IBIAS2 22A 0 100n
IOS 21A 22A 2n
ISUPTC 0 115A 1
IVOS 0 111A 150u
MCUR 1 6A 6 6 PCUR
MOUT1 119A 121A 6A 6A NOUT
MOUT2 120A 121A 6A 6A POUT
RA 23A 0 800
RG1 117A 0 160K
RG3 118A 0 0.159155
RIN1 21A 7 5k
RIN2 22A 6 5k
RINX1 111A 0 1
ROUT1 119A 121A 200
ROUT2 121A 120A 200
RPSRR1 122A 0 1k
RPSRR2 122A 114 1meg
RPWR 3 7 440k
RSUPTC 115A 0 210A TC1=5m
CG1B 117B 0 2.9E-7
CG3B 118B 0 5E-7
CIN1B 5 3 4p
CIN2B 3 4 4p
CIN3B 5 4 4p
*CIN4 4 4 4p
CPSRR1B 114B 119B 1.2p
DIN1B 4 112B DIN
DIN2B 112B 113B DIN
DIN3B 113B 22B DIN
DIN4B 21B 22B DIN
DIN5B 22B 21B DIN
DVL1B 116B 117B DVLIM1
DVL2B 116B 0 DVLIM2
DZ1B 5 4 DZNR
DZ2B 3 2 DZNR
EVLIM1B 119B 0 4 0 1
EVLIM2B 120B 0 VALUE={V(7)-4}
GG1B 0 117B VALUE={4*TANH(V(23B))}
GG3B 0 118B 117B 0 6.2832
GGAINB 0 23B 111B 22B 1.5625m
GINX1B 0 111B 21B 0 1
GOUTB 0 121B 118B 0 10m
GPSRRB 0 122B 4 3 3.162E-11
GPSRROB 111B 0 122B 0 1
GPWRB 4 3 115B 0 1E-6
IBIAS1B 21B 0 100n
IBIAS2B 22B 0 100n
IOSB 21B 22B 2n
ISUPTCB 0 115B 1
IVOSB 0 111B 150u
MCURB 2 6B 5 5 PCUR
MOUT1B 119B 121B 6B 6B NOUT
MOUT2B 120B 121B 6B 6B POUT
RAB 23B 0 800
RG1B 117B 0 160K
RG3B 118B 0 0.159155
RIN1B 21B 4 5k
RIN2B 22B 5 5k
RINX1B 111B 0 1
ROUT1B 119B 121B 200
ROUT2B 121B 120B 200
RPSRR1B 122B 0 1k
RPSRR2B 122B 114B 1meg
RPWRB 3 7 440k
RSUPTCB 115B 0 210B TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=5E-4)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.75m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LTC6103
*
***
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6400-20 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.4E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/43.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 100
RG2 1a 1 100
RF1 8a 5a 1000
RF2 1a 4a 1000
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6400-20
*
***
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6400-26 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.4E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/43.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 25
RG2 1a 1 25
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 2.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6400-26
*
***
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6401-20 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.7E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/88.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 100
RG2 1a 1 100
RF1 8a 5a 1000
RF2 1a 4a 1000
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6401-20
*
***
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6401-26 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.7E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/88.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 25
RG2 1a 1 25
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6401-26
*
***
*
* Pinout (same as IC):IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6401-8 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.7E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/88.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 200
RG2 1a 1 200
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6401-8
*
***
*
.SUBCKT LTC6081 3 2 7 4 6
IBIASDEF2 0 2 0.3pA
IBIASDEF1 0 3 0.2pA
RG1 24 0 55k
CG1 24 0 240E-5
GCM2 0 51 30 4 10E-9
RCMRR 51 0 1k
GPSRR 0 53 7 4 10E-9
RPSRR1 53 0 1k
GG3 0 25 24 0 6.2832
RG3 25 0 0.159155
CG3 25 0 0.1E-6
RVNOI 41 0 15.56k
CIN3 2 4 7pF
CIN2 4 3 7pF
DVNF 42 0 DVNOI
IVNF 0 42 10
DIN1 3 7 DIN
DIN2 2 7 DIN
GZP1 0 27 26 0 0.058
RZP1 27 28 220
RZP4 28 0 370
LZP2 28 0 4E-6
GG5 0 26 25 0 5.44
RG5 26 0 0.1159155
CG5 26 0 0.1E-8
DIN3 4 3 DIN
DIN4 4 2 DIN
IDUM1 41 0 0
DVNFX 43 0 DVNOIX
IVNFX 0 43 1
GG1 0 24 VALUE={2000*TANH(V(23))}
MOUT1 61 27 6 6 NOUT
MOUT2 62 27 6 6 POUT
CIN4 7 3 7pF
CIN5 2 7 7pF
RA 23 0 1.5
DVL1 NVL1 24 DVLIM
DVL2 NVL1 0 DVLIM
EICM 30 0 VALUE={(V(3)+V(2))/2}
CCMRR 30 52 0.1p
RCMRR2 52 51 3k
RPSRR2 53 54 3k
CPSRR1 54 7 100p
RPSRR3 53 55 3k
CPSRR2 55 4 1000p
ITYP 7 4 330µA
GGAIN 0 23 VALUE={20*V(3,2)+V(42,43)+V(51)+V(53)+10E-6}
GB 0 27 VALUE={0.02*V(7,4)}
GLIM1 7 61 VALUE={MIN(0.02,V(7,61))}
GLIM2 62 4 VALUE={MIN(0.02,V(62,4))}
.MODEL NOUT NMOS(KF=0 KP=50 VTO=-1m)
.MODEL POUT PMOS(KF=0 KP=50 VTO=1m)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM D(BV=2 IS=1E-10 KF=0 RS=0)
.MODEL DVNOIX D(KF=5.15E-13 RS=0)
.MODEL DVNOI D(RS=0 KF=8.15E-13)
.ENDS LTC6081

****** Pinout: OUT  V-  IN-  IN+  V+
**************
.subckt LTC6106 1   2    3    4   5
CG1 117 0 2.9E-7
CG3 118 0 5E-7
CIN1 3 2 4p
CIN2 2 4 4p
CIN3 3 5 4p
CIN4 5 4 4p
CPSRR1 114 119 1.2p
DIN1 5 112 DIN
DIN2 112 113 DIN
DIN3 113 22 DIN
DIN4 21 22 DIN
DIN5 22 21 DIN
DVL1 116 117 DVLIM1
DVL2 116 0 DVLIM2
DZ1 3 5 DZNR
DZ2 2 1 DZNR
EVLIM1 119 0 5 0 1
EVLIM2 120 0 VALUE={V(5)-2.7}
GG1 0 117 VALUE={4*TANH(V(23))}
GG3 0 118 117 0 6.2832
GGAIN 0 23 111 22 1.5625m
GINX1 0 111 21 0 1
GOUT 0 121 118 0 10m
GPSRR 0 122 5 2 3.162E-11
GPSRRO 111 0 122 0 1
GPWR 5 2 115 0 1E-6
IBIAS1 21 0 40n
IBIAS2 22 0 40n
IOS 21 22 2n
ISUPTC 0 115 1
IVOS 0 111 150u
MCUR 1 6 3 3 PCUR
MOUT1 119 121 6 6 NOUT
MOUT2 120 121 6 6 POUT
RA 23 0 800
RG1 117 0 160K
RG3 118 0 0.159155
RIN1 21 4 5k
RIN2 22 3 5k
RINX1 111 0 1
ROUT1 119 121 200
ROUT2 121 120 200
RPSRR1 122 0 1k
RPSRR2 122 114 1meg
RPWR 2 5 440k
RSUPTC 115 0 40 TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=5E-4)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.75m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LTC6106

*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6404-1       1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.55E-9
CG3P 28 0 1.8E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/264+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-1

*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6404-2       1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.33E-9
CG3P 28 0 2E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/216.2+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 28k
RVOCM4 2 6 28k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-2

*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6404-4       1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.27E-9
CG3P 28 0 1.4E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/264+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-4

*Pinout (same as IC):    IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6406          1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.83E-9
CG3P 28 0 2.1E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.055,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.055,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/1444+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 40k
RVOCM4 2 6 30k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 1.25pF
CFILTP 9 6 1.25pF
CFILTM 10 6 1.25pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6406

*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6405       1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.64E-9
CG3P 28 0 0.18E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(3.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/964+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 37k
RVOCM4 2 6 37k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 1.25pF
CFILTP 9 6 1.25pF
CFILTM 10 6 1.25pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6405

*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V-  EN/  IN+ -OUTF +OUTF
.SUBCKT LTC6403-1       1    2   3   4    5   6    7    8     9    10 
CG1P 26 0 0.19E-8
CG3P 28 0 3.4E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 .04E-12
CPSRR2 54 6 .04E-12
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/620+5E-3)+0.9E-3}
IBIASDEF1 0 8 9u
IBIASDEF2 0 1 9u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 100
RFILTN 5 9 100
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6403-1

****** Pinout: OUT V- IN- IN+ V+
.subckt LT6106 1 2 3 4 5
CG1 117 0 2.9E-7
CG3 118 0 5E-7
CIN1 3 2 4p
CIN2 2 4 4p
CIN3 3 5 4p
CIN4 5 4 4p
CPSRR1 114 119 1.2p
DIN1 5 112 DIN
DIN2 112 113 DIN
DIN3 113 22 DIN
DIN4 21 22 DIN
DIN5 22 21 DIN
DVL1 116 117 DVLIM1
DVL2 116 0 DVLIM2
DZ1 3 5 DZNR
DZ2 2 1 DZNR
EVLIM1 119 0 5 0 1
EVLIM2 120 0 VALUE={V(5)-2.7}
GG1 0 117 VALUE={4*TANH(V(23))}
GG3 0 118 117 0 6.2832
GGAIN 0 23 111 22 1.5625m
GINX1 0 111 21 0 1
GOUT 0 121 118 0 10m
GPSRR 0 122 5 2 3.162E-11
GPSRRO 111 0 122 0 1
GPWR 5 2 115 0 1E-6
IBIAS1 21 0 40n
IBIAS2 22 0 40n
IOS 21 22 2n
ISUPTC 0 115 1
IVOS 0 111 150u
MCUR 1 6 3 3 PCUR
MOUT1 119 121 6 6 NOUT
MOUT2 120 121 6 6 POUT
RA 23 0 800
RG1 117 0 160K
RG3 118 0 0.159155
RIN1 21 4 5k
RIN2 22 3 5k
RINX1 111 0 1
ROUT1 119 121 200
ROUT2 121 120 200
RPSRR1 122 0 1k
RPSRR2 122 114 1meg
RPWR 2 5 440k
RSUPTC 115 0 40 TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=5E-4)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.75m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LT6106
*
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6403-1 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 1.9e-9
CG3P 28 0 3.4E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/620+5E-3)+0.9E-3}
IBIASDEF1 0 8 9u
IBIASDEF2 0 1 9u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 100
RFILTN 5 9 100
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6403-1
* 5/16/08
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6404-1 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.55E-9
CG3P 28 0 1.8E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/264+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-1

* 5/22/08
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6404-2 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.33E-9
CG3P 28 0 2E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/216.2+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 28k
RVOCM4 2 6 28k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-2

* 5/16/08
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6404-4 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.27E-9
CG3P 28 0 1.4E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/264+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 47k
RVOCM4 2 6 47k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 12pF
CFILTP 9 6 12pF
CFILTM 10 6 12pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6404-4
* 5/16/08
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6405 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.64E-9
CG3P 28 0 0.18E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(3.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.065,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.065,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/964+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 37k
RVOCM4 2 6 37k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 1.25pF
CFILTP 9 6 1.25pF
CFILTM 10 6 1.25pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6405

* 6/16/08
*Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6406 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.83E-9
CG3P 28 0 2.1E-9
CG5M 25 0 20E-12
CG5P 24 0 20E-12
CIN2 3 8 1p
CIN3 1 3 1p
CIN4 6 8 1p
CIN5 1 6 1p
COCM1 61 0 7p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8 3 DIN
DIN2 1 3 DIN
DIN3 6 8 DIN
DIN4 6 1 DIN
DIN5 51 8 DIN
DIN6 1 51 DIN
DIN7 8 62 DIN
DIN8 62 1 DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={0.4*TANH(V(23))}
GG3P 0 28 26 0 6.4832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1 14
GINOI1 1 0 0 44 1m
GINOI2 8 0 0 45 1m
GINX 0 22 VALUE={V(8)+3.1E-3*(0.5*(V(8)+V(1))-V(6))-V(52)+V(42,43)+V(41)-0.0m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4)+V(5))/2)+1.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4 VALUE={MIN(0.055,V(88)*0.143*V(31,4))}
GOUT2 32 5 VALUE={MIN(0.055,V(88)*0.143*V(32,5))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/1444+15E-3)+0.9E-3}
IBIASDEF1 0 8 23u
IBIASDEF2 0 1 24u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 10
RVOCM3 3 2 40k
RVOCM4 2 6 30k
RFILTP 4 10 50
RFILTN 5 9 50
CFILT 9 10 1.25pF
CFILTP 9 6 1.25pF
CFILTM 10 6 1.25pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6406
*
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6400-8 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.4E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/43.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 200
RG2 1a 1 200
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6400-8
*
*
* Pinout (same as IC): IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6400-14 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.4E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/43.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 100
RG2 1a 1 100
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6400-14
*
*
* Pinout (same as IC):IN- VOCM V+ OUT+ OUT- V- EN/ IN+ -OUTF +OUTF
.SUBCKT LTC6401-14 1 2 3 4 5 6 7 8 9 10
CG1P 26 0 0.7E-9
CG3P 28 0 20E-12
CG5M 25 0 10E-12
CG5P 24 0 10E-12
*CIN2 3 8a 1p
*CIN3 1a 3 1p
*CIN4 6 8a 1p
*CIN5 1a 6 1p
COCM1 61 0 70p
COCM3 6 2 4E-12
CPSRR1 53 3 4e-14
CPSRR2 54 6 4e-14
DIN1 8a 3 DIN
DIN2 1a 3 DIN
DIN3 6 8a DIN
DIN4 6 1a DIN
DIN5 51 8a DIN
DIN6 1a 51 DIN
DIN7 8a 62 DIN
DIN8 62 1a DIN
DVL1P 27 26 DVLIM
DVL2P 27 0 DVLIM
DVNF 42 0 DVNOI
DVNFX 43 0 DVNOIX
ESHD1 88 0 VALUE={0.5+0.5*TANH(-5*(1.2-V(3,7)))}
GG1P 0 26 VALUE={6.6*TANH(V(23))}
GG3P 0 28 26 0 6.2832
GG5M 0 25 0 28 6.4832
GG5P 0 24 28 0 6.4832
GGAINP 0 23 22 1a 14.1111
GINOI1 1a 0 0 44 1m
GINOI2 8a 0 0 45 1m
GINX 0 22 VALUE={V(8a)+3.1E-5*(0.5*(V(8a)+V(1a))-V(6))-V(52)+V(42,43)+V(41)-1.5m}
GOCM1 0 61 VALUE={V(88)*((V(2)-(V(4a)+V(5a))/2)+7.5m)+10*V(41)}
GOCM2 0 24 61 0 6.283
GOCM3 0 25 61 0 6.283
GOUT1 31 4a VALUE={MIN(0.085,V(88)*0.143*V(31,4a))}
GOUT2 32 5a VALUE={MIN(0.085,V(88)*0.143*V(32,5a))}
GPSRR 0 52 3 6 40E-7
GPWR 3 6 VALUE={V(88)*(V(3,6)/88.5+15E-3)+0.9E-3}
IBIASDEF1 0 8a 1u
IBIASDEF2 0 1a 1u
IDUM1 41 0 0
IDUM2 45 44 0
IVNF 0 42 1
IVNFX 0 43 1
MOUT1 3 24 31 31 NOUT
MOUT1M 3 25 32 32 NOUT
MOUT2 6 24 31 31 POUT
MOUT2M 6 25 32 32 POUT
RAP 23 0 1
RG1P 26 0 400k
RG3P 28 0 0.159155
RG5M 25 0 0.159155
RG5P 24 0 0.159155
RINOI1 44 0 380
RINOI2 45 0 380
RINX 22 0 1
ROCM1 61 0 100k
RPSRR1 52 0 10
RPSRR2 52 53 30
RPSRR3 52 54 30
RSHDN2 7 3 100k
RVNOI 41 0 100
RVOCM3 3 2 80k
RVOCM4 2 6 80k
* External to the amp
RG1 8a 8 100
RG2 1a 1 100
RF1 8a 5a 500
RF2 1a 4a 500
ROUTP 4a 4 12.5
ROUTN 5a 5 12.5
RFILTP 4a 10 50
RFILTN 5a 9 50
CFILT 9 10 1.7pF
.MODEL NOUT NMOS(KP=1 VTO=1M)
.MODEL POUT PMOS(KP=1 VTO=-1M)
.MODEL DIN D(IS=1E-12 KF=0 RS=0)
.MODEL DVLIM D(BV=5 IS=1E-18 KF=0 RS=0 XTI=0)
.MODEL DVNOIX D(KF=0 RS=0)
.MODEL DVNOI D(RS=0 KF= 3E-12)
.ENDS LTC6401-14
*
****** Pinout: OUT  V-  IN-  IN+  V+
**************
.subckt LT6106 1   2    3    4   5
CG1 117 0 2.9E-7
CG3 118 0 5E-7
CIN1 3 2 4p
CIN2 2 4 4p
CIN3 3 5 4p
CIN4 5 4 4p
CPSRR1 114 119 1.2p
DIN1 5 112 DIN
DIN2 112 113 DIN
DIN3 113 22 DIN
DIN4 21 22 DIN
DIN5 22 21 DIN
DVL1 116 117 DVLIM1
DVL2 116 0 DVLIM2
DZ1 3 5 DZNR
DZ2 2 1 DZNR
EVLIM1 119 0 5 0 1
EVLIM2 120 0 VALUE={V(5)-2.7}
GG1 0 117 VALUE={4*TANH(V(23))}
GG3 0 118 117 0 6.2832
GGAIN 0 23 111 22 1.5625m
GINX1 0 111 21 0 1
GOUT 0 121 118 0 10m
GPSRR 0 122 5 2 3.162E-11
GPSRRO 111 0 122 0 1
GPWR 5 2 115 0 1E-6
IBIAS1 21 0 40n
IBIAS2 22 0 40n
IOS 21 22 2n
ISUPTC 0 115 1
IVOS 0 111 150u
MCUR 1 6 3 3 PCUR
MOUT1 119 121 6 6 NOUT
MOUT2 120 121 6 6 POUT
RA 23 0 800
RG1 117 0 160K
RG3 118 0 0.159155
RIN1 21 4 5k
RIN2 22 3 5k
RINX1 111 0 1
ROUT1 119 121 200
ROUT2 121 120 200
RPSRR1 122 0 1k
RPSRR2 122 114 1meg
RPWR 2 5 440k
RSUPTC 115 0 40 TC1=5m
.MODEL NOUT NMOS(KF=0 KP=5 VTO=-10M)
.MODEL POUT PMOS(KF=0 KP=5 VTO=10M)
.MODEL PCUR PMOS(KF=0 KP=5E-4)
.MODEL DIN D(KF=0 RS=0)
.MODEL DVLIM1 D(BV=1.2 IS=1E-10 KF=0 RS=0)
.MODEL DVLIM2 D(BV=5 IS=1E-10 KF=0 RS=0)
.MODEL DZNR D(BV=10 TBV1=0.75m IS=1E-12 KF=0 RS=0 XTI=0)
.ENDS LT6106