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SPICE MODEL of uPC4064C in SPICE PARK
1. Device Modeling Report
COMPONENTS: OPERATIONAL AMPLIFIER
PART NUMBER: uPC4064C
MANUFACTURER: NEC ELECTRONICS
REMARK TYPE: (OPAMP)
Bee Technologies Inc.
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
2. Spice Model
U13
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
VCC VEE
+IN2 +IN3
-IN2 -IN3
OUT2 OUT3
UPC4064_SUB
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
3. Output Voltage Swing, +Vout and –Vout
Simulation result
These simulation results are compared with +Vout
Evaluation circuit
Rload
10k Vout U13 Vout4
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
0
VCC VEE
V1 V+ V2 +IN2 +IN3
0Vdc
0Vdc -IN2 -IN3
15Vdc V3
OUT2 OUT3 0Vdc V- V4
Vout2 Vout3 0Vdc
UPC4064_SUB
-15Vdc
0
Output Voltage Swing Data sheet Simulation %Error
+Vout(V) +14 +13.96 0.285
-Vout(V) -13.6 -13.56 0.294
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
4. Input Offset Voltage
Simulation result
Evaluation circuit
Rload
2k Vout U13 Vout4
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
0 Vin4
VCC VEE VOFF = 0
Vin
VOFF = 0 VAMPL = 0
VAMPL = 0 V+ +IN2 +IN3 FREQ = 0
FREQ = 0 Vi3 AC = 0
AC = 0 -IN2 -IN3 VOFF = 0 -15Vdc DC = 0
Vin2
DC = 0 15Vdc VOFF = 0 VAMPL = 0 V-
VAMPL = 0 OUT2 OUT3 FREQ = 0
Vi Vi4
VOFF = 0 FREQ = 0 Vout2 Vout3 AC = 0 VOFF = 0
UPC4064_SUB
VAMPL = 0 AC = 0 DC = 0 VAMPL = 0
FREQ = 0 DC = 0 Vin3 FREQ = 0
AC = 0 Vi2 VOFF = 0 AC = 0
DC = 0 VOFF = 0 VAMPL = 0 DC = 0
VAMPL = 0 FREQ = 0
FREQ = 0 AC = 0
AC = 0 DC = 0
DC = 0
0
Measurement Simulation Error
Vos
10 mV 9.985 mV 0.15 %
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
5. Slew Rate, +SR, -SR
Simulation result
Evaluation circuit
Rload
2k Vout U13 Vout4
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
0 Vin4
VCC VEE
V1 = 0 Vin Vi4
V2 = 13 VOFF = 0
TD = 0 V+ +IN2 +IN3 VAMPL = 0
TR = 10n Vi3 FREQ = 0 V1 = 0
TF = 10n -IN2 -IN3 VOFF = 0 AC = 0 V2 = 13
V1 = 0 Vin2
PW = 5u 15Vdc V2 = 13 VAMPL = 0 DC = 0 TD = 0 Vof f 4
PER = 500u Vof f TD = 0 OUT2 OUT3 FREQ = 0 V- TR = 10n
Vi
-9.985m VOFF = 0 TR = 10n Vout2 Vout3 AC = 0 TF = 10n -9.985m
UPC4064_SUB
VAMPL = 0 TF = 10n V1 = 0 Vin3 DC = 0 PW = 5u
FREQ = 0 PW = 5u V2 = 13 -15Vdc PER = 500u
AC = 0 Vi2 PER = 500u Vof f 2 TD = 0 Vof f 3
DC = 0 VOFF = 0 -9.985m TR = 10n
VAMPL = 0 TF = 10n -9.985m
FREQ = 0 PW = 5u
AC = 0 PER = 500u
DC = 0
0
Data sheet Simulation %Error
Slew Rate(v/us)
3V/us 2.936V/us 2.13
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
6. Input current Ib, Ibos
Simulation result
Evaluation circuit
Rload
2k Vout U13 Vout4
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
0 Vin4
VCC VEE VOFF = -9.985m
Vin
VOFF = -9.985m VAMPL = 0
VAMPL = 0 V+ +IN2 +IN3 FREQ = 0
FREQ = 0 Vi3 AC = 0
AC = 0 -IN2 -IN3 VOFF = 0 V- DC = 0
Vin2
DC = 0 15VdcVOFF = -9.985m VAMPL = 0
VAMPL = 0 OUT2 OUT3 FREQ = 0
Vi Vi4
VOFF = 0 FREQ = 0 Vout2 Vout3 AC = 0 -15Vdc VOFF = 0
UPC4064_SUB
VAMPL = 0 AC = 0 DC = 0 VAMPL = 0
FREQ = 0 DC = 0 Vin3 FREQ = 0
AC = 0 Vi2 VOFF = -9.985m AC = 0
DC = 0 VOFF = 0 VAMPL = 0 DC = 0
VAMPL = 0 FREQ = 0
FREQ = 0 AC = 0
AC = 0 DC = 0
DC = 0
0
Data sheet Simulation %Error
Ib(pA) 100(Max) 25.35 -
Ibos(pA) 5 5.04 0.8
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
7. Open Loop Voltage Gain vs. Frequency , Av-dc, f-0dB
Simulation result
Evaluation circuit
R1 Vout U13 Vout4
OUT1 OUT4
2k
-IN1 -IN4
+IN1 +IN4
Vin4
VCC VEE VOFF = 0
Vin
VOFF = 0 VAMPL = 0
VAMPL = 0 V+ +IN2 +IN3 FREQ = 0
FREQ = 0 Vi3 AC = 1m
AC = 1m -IN2 -IN3 VOFF = 0 DC = -9.985m
Vin2
DC = -9.985m 15Vdc VOFF = 0 VAMPL = 0 V-
VAMPL = 0 OUT2 OUT3 FREQ = 0
Vi Vi4
VOFF = 0 FREQ = 0 Vout2 Vout3 AC = 0 VOFF = 0
UPC4064_SUB
VAMPL = 0 AC = 1m DC = 0 -15Vdc VAMPL = 0
FREQ = 0 DC = -9.985m Vin3 FREQ = 0
AC = 0 Vi2 VOFF = 0 AC = 0
DC = 0 VOFF = 0 VAMPL = 0 DC = 0
VAMPL = 0 FREQ = 0
FREQ = 0 AC = 1m
AC = 0 DC = -9.985m
DC = 0
0
0
Data sheet Simulation %Error
f-0dB(MHz) 1 0.981 1.9
Av-dc(dB) 9000 8709 3.23
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
8. Output Short Circuit Current - Ios
Simulation result
Evaluation circuit
Rload
1 Vout U13 Vout4
V6 OUT1 OUT4
-IN1 -IN4
0
+IN1 +IN4
Vin4
VCC VEE VOFF = -6.9402m
Vin
VOFF = -9.985m VAMPL = 0
VAMPL = 0 V+ +IN2 +IN3 FREQ = 0
FREQ = 0 Vi3 AC = 0
AC = 0 -IN2 -IN3 VOFF = 0 DC = 0
Vin2
DC = 0 15VdcVOFF = -6.9402m VAMPL = 0 V-
VAMPL = 0 OUT2 OUT3 FREQ = 0
Vi Vi4
VOFF = 0 FREQ = 0 Vout2 Vout3 AC = 0 VOFF = 0
UPC4064_SUB
VAMPL = 0 AC = 0 DC = 0 -15Vdc VAMPL = 0
FREQ = 0 DC = 0 Vin3 FREQ = 0
AC = 0 Vi2 VOFF = -6.9402m AC = 0
DC = 0 VOFF = 0 VAMPL = 0 DC = 0
VAMPL = 0 FREQ = 0
FREQ = 0 AC = 0
AC = 0 DC = 0
DC = 0
0 0
Data sheet Simulation %Error
Short Circuit Current
5mA 5.034mA 0.68
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004
9. Common-Mode Rejection Voltage gain
Simulation result
Evaluation circuit
Vout U13 Vout4
OUT1 OUT4
-IN1 -IN4
+IN1 +IN4
Vin4
VCC VEE VOFF = 0
Vin
VOFF = 0 VAMPL = 0
VAMPL = 0 +IN2 +IN3 FREQ = 0
FREQ = 0 Vi3 AC = 0
AC = 0 V+ -IN2 -IN3 VOFF = 0 DC = 0
Vin2
DC = 0 VOFF = 0 VAMPL = 0
VAMPL = 0 OUT2 OUT3 FREQ = 0 V-
Vi Vi4
VOFF = 0 15Vdc FREQ = 0 Vout2 Vout3 AC = 0 VOFF = 0
UPC4064_SUB
VAMPL = 0 AC = 0 DC = 0 VAMPL = 0
FREQ = 0 DC = 0 Vin3 -15Vdc FREQ = 0
AC = 0 Vi2 VOFF = 0 AC = 0
DC = 0 VOFF = 0 VAMPL = 0 DC = 0
VAMPL = 0 FREQ = 0
FREQ = 0 AC = 0
AC = 0 DC = 0
DC = 0
V
VOFF = 0
VAMPL = 0.5
FREQ = 1
AC = 0
DC = -9.985m
0
Common mode gain=1/3.51
Common Mode Reject Ratio=8709/0.284=30665
Data sheet Simulation %Error
CMRR
31622 30665 3.02
All Rights Reserved Copyright (c) Bee Technologies Inc. 2004