*////////////////////////////////////////////////////////////////////// * (C) National Semiconductor, Corporation. * Models developed and under copyright by: * National Semiconductor, Corporation. *///////////////////////////////////////////////////////////////////// * Legal Notice: * The model may be copied, and distributed without any modifications; * however, reselling or licensing the material is illegal. * We reserve the right to make changes to the model without prior notice. * Pspice Models are provided "AS IS, WITH NO WARRANTY OF ANY KIND" *//////////////////////////////////////////////////////////////////// .SUBCKT CLC450 3 2 6 7 4 * CLC450 MACROMODEL * * PINOUT ORDER IS +IN -IN OUT VCC VEE * 3 2 6 7 4 * !!!!!!!! * NOTE !!! CIRCUIT CURRENTLY SET-UP FOR 5V OPERATION!!! * !!!!!!!!ADJUST VALUES BELOW PER TOTAL SUPPLY VOLTAGE * * BEGIN ADJUSTMENTS * * TOTAL SUPPLY VOLTAGE RSL C7 F1 * 5 VOLTS 1910 1.10E-11 0.75 * 10 VOLTS 1285 0.83E-11 1.00 * * FOR 5 VOLTS TOTAL * USE THESE THREE LINES RSL 11 23 1910.0 C7 14 0 1.10E-11 F1 0 11 V10 0.75 * * FOR 10 VOLTS TOTAL * USE THESE THREE LINES *RSL 11 23 1825.0 *C7 14 0 0.83E-11 *F1 0 11 V10 1.00 * *Note:During Transient Analysis, if the input or output common mode *voltage range falls outside of range for the device, pspice *simulation may not be able to finish. To resume simulation, *correct these conditions and try again"** *Note:Many convergence problems during simulations can be resolved *by proper selection of "RELTOL" using a ".OPTIONS" statement. *See pspice manuals for more information"** * * END ADJUSTMENTS V3 7 5 1.7 V4 1 4 1.7 V5 54 2 0.002 D1 1 54 _D1_MOD D2 54 5 _D1_MOD D3 3 5 _D1_MOD D4 1 3 _D1_MOD R1 3 0 0.76E6 E10 45 27 3 0 0.996 E6 43 0 30 0 1.0 E7 28 0 32 0 1.0 E8 8 0 26 0 1.0 V10 45 39 0.0 R3 54 49 195.0 C2 54 0 1.35E-12 C3 3 0 1.35E-12 R8 11 0 6.45E5 E2 23 13 37 0 1.0 RD1 37 0 1.0E18 D6 11 12 _D6_MOD E1 12 0 23 0 1.0 C6 23 0 1.30E-12 G3 0 14 23 0 0.01 R10 14 0 100.0 G4 0 15 14 0 0.001 R11 15 0 1000.0 C8 15 0 1.0E-14 R4 42 27 1000.0MEG D10 12 11 _D6_MOD I1 0 40 1.068E-4 E3 22 23 37 0 1.0 I3 0 38 1.0E-3 D7 4 21 _D18_MOD R14 57 24 1.0 R15 56 24 1.0 G6 0 26 24 0 3.0E-3 D8 34 7 _D5_MOD V9 34 22 1.9 R21 35 15 1.0 D18 4 20 _D18_MOD D5 38 0 _D5_MOD V11 37 38 -0.89465 R16 26 25 1.0 L1 25 0 5.3E-7 RL1 25 0 50.0E3 C4 6 0 2.0E-12 I4 0 46 1.0E-4 V7 18 58 -0.45 V8 59 19 -0.45 E14 58 17 37 0 -1.0 E15 17 59 37 0 -1.0 I5 0 48 1.0E-4 G7 0 32 4 0 1.10E-3 D11 35 18 _D5_MOD RD11 35 18 1.0E6 G8 0 30 7 0 1.10E-3 R24 30 29 1.0 L2 29 0 7.962E-7 RL2 29 0 50.0E3 R25 32 31 1.0 L3 31 0 7.962E-7 RL3 31 0 50.0E3 I2 0 41 1.068E-4 D12 19 35 _D5_MOD RD12 19 35 1.0E6 G9 17 7 7 35 8.51E-2 G10 4 17 35 4 8.51E-2 R26 7 17 11.76 R27 17 4 11.76 G11 20 4 35 17 8.51E-2 G12 21 4 17 35 8.51E-2 D15 4 36 _D5_MOD D13 7 20 _D5_MOD D14 7 21 _D5_MOD V12 13 36 1.9 E4 42 0 0 33 1.0E6 R29 33 43 1.0 R30 33 28 1.0 R31 33 8 1.0 R32 42 33 1.0 D9 40 0 _D9_MOD L5 49 39 4.0E-9 E5 42 27 41 40 1.259 D16 41 0 _D9_MOD D17 46 0 _D17_MOD D19 48 0 _D17_MOD L6 17 6 5.0E-9 I6 0 50 1.0E-4 I7 0 51 1.0E-4 D20 50 0 _D20_MOD D21 51 0 _D20_MOD G1 0 3 51 50 0.00410 G2 0 2 48 46 0.00335 I8 0 2 5.0E-6 I9 3 0 3.0E-6 I10 7 4 1.40E-3 R13 7 4 25.0E3 E12 56 0 54 0 1.0 E13 57 0 3 0 1.0 .MODEL _D1_MOD D IS=1.0E-16 .MODEL _D5_MOD D IS=1.0E-15 .MODEL _D6_MOD D IS=9.5E-17 .MODEL _D9_MOD D IS=1.0E-16 KF=2.56E-17 .MODEL _D17_MOD D IS=1.0E-16 KF=3.2E-18 .MODEL _D18_MOD D BV=50.0 IS=1.0E-15 .MODEL _D20_MOD D IS=1.0E-16 KF=1.8E-17 .ENDS