SPICE MODEL of uPC4071G2 in SPICE PARK
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SPICE MODEL of uPC4071G2 in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.
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SPICE MODEL of uPC4071G2 in SPICE PARK
- 1. Device Modeling Report COMPONENTS: OPERATIONAL AMPLIFIER PART NUMBER: uPC4071G2 MANUFACTURER: NEC ELECTRONICS REMARK TYPE: (OPAMP) Bee Technologies Inc. All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 2. Spice Model All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 3. Output Voltage Swing Simulation result 20V 0V -20V -500mV -250mV 0V 250mV 500mV V(Vout) V_V1 Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut 10 k + In OU T Rl oa d V- OF FSET NU LL V+ V1 0V dc V- 15 Vd c -15 Vdc 0 Comparison table Output Voltage Swing Measurement Simulation %Error +Vout(V) 13.500 13.499 -0.007 -Vout(V) -13.500 -13.499 -0.007 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 4. Input Offset Voltage Simulation result 20V 0V -20V -5mV 0V 5mV 10mV V(Vout) V_Vin Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut 2k + In OU T Rl oa d V- OF FSET NU LL VO FF = 0 V- VA MPL = 0 V+ Vi FREQ = 0 AC = 0 -15 Vdc DC = 0 15 Vd c VO FF = 0 VA MPL = 0 Vi n FREQ = 0 AC = 0 DC = 0 0 Comparison table Measurement Simulation %Error Vos(mV) 3.000 2.992 -0.260 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 5. Slew Rate Simulation result 20V 0V -20V 0s 50us 100us 150us 200us V(Vout) Time Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut + In OU T V- OF FSET NU LL Vi V1 = -1 3.5 Vi n VO FF = 0 V2 = 13.5 V+ VA MPL = 0 TD = 0 .1m FREQ = 0 TR = 1 0n V- AC = 0 TF = 10n 15 Vd c DC = 0 PW = 1 m -15 Vdc PE R = 2m 0 Comparison table Slew Measurement Simulation %Error Rate(v/us) 13.000 12.820 -1.385 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 6. Input current Ib, Ibos Simulation result -20pA -25pA -30pA -35pA -40pA 0s 0.2ms 0.4ms 0.6ms 0.8ms 1.0ms I(Vi) I(Vin) Time Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut + In OU T Vi n V- OF FSET NU LL VO FF = 0 VA MPL = 0 FREQ = 0 V- Vi AC = 0 V+ VO FF = 0 DC = 0 -15 Vdc VA MPL = 0 FREQ = 0 15 Vd c AC = 0 V1 DC = 0 2.9 92m 0 Comparison table Measurement Simulation %Error Ib(pA) 30.000 30.065 0.217 Ibos(pA) 5.000 5.094 1.880 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 7. Open Loop Voltage Gain vs. Frequency , Av-dc, f-0dB Simulation result 120 80 40 0 1.0Hz 100Hz 10KHz 1.0MHz 100MHz DB(V(Vout)/V(Vin:+)) Frequency Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut RL + In OU T 2k V- OF FSET NU LL Vi VO FF = 0 VA MPL = 0 Vi n V+ FREQ = 0 VO FF = 0 V- AC = 0 VA MPL = 0 DC = 0 FREQ = 0 15 Vd c AC = 1 m -15 Vdc DC = 2 .992 m 0 Comparison table Measurement Simulation %Error f-0dB(MHz) 3.000 3.020 0.667 Av-dc(dB) 106.000 107.750 1.651 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008
- 8. Common-Mode Rejection Voltage gain Simulation result 10V 0V -10V 0s 1.0s 2.0s 3.0s 4.0s V(Vout) Time Evaluation circuit U1 UP C40 71 G2 OF FSET NU LL NC Ii - V+ Vo ut + In OU T V1 -2.99 2m V- OF FSET NU LL V+ V- 15 Vd c V VO FF = 0 -15 Vdc VA MPL = 0 .5 FREQ = 1 AC = 0 DC = 0 0 Common Mode Reject Ratio=20*LOG(244061.9068/9.968) = 87.7778 dB CMRR Measurement Simulation %Error (dB) 86.000 87.777 2.066 All Rights Reserved Copyright (c) Bee Technologies Inc. 2008