SPICE MODEL of NJU7051V in SPICE PARK. English Version is http://www.spicepark.net. Japanese Version is http://www.spicepark.com by Bee Technologies.

1. Device Modeling Report
COMPONENTS: OPERATIONAL AMPLIFIER
PART NUMBER: NJU7051V
MANUFACTURER: NEW JAPAN RADIO
REMARK TYPE: (CMOS OPAMP)
Bee Technologies Inc.
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

2. SPICE MODEL
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
VSS 4 5 IN2
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

3. MOSFET MODEL
Pspice model
Model description
parameter
LEVEL
L Channel Length
W Channel Width
KP Transconductance
RS Source Ohmic Resistance
RD Ohmic Drain Resistance
VTO Zero-bias Threshold Voltage
RDS Drain-Source Shunt Resistance
TOX Gate Oxide Thickness
CGSO Zero-bias Gate-Source Capacitance
CGDO Zero-bias Gate-Drain Capacitance
CBD Zero-bias Bulk-Drain Junction Capacitance
MJ Bulk Junction Grading Coefficient
PB Bulk Junction Potential
FC Bulk Junction Forward-bias Capacitance Coefficient
RG Gate Ohmic Resistance
IS Bulk Junction Saturation Current
N Bulk Junction Emission Coefficient
RB Bulk Series Resistance
PHI Surface Inversion Potential
GAMMA Body-effect Parameter
DELTA Width effect on Threshold Voltage
ETA Static Feedback on Threshold Voltage
THETA Modility Modulation
KAPPA Saturation Field Factor
VMAX Maximum Drift Velocity of Carriers
XJ Metallurgical Junction Depth
UO Surface Mobility
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

4. Output Voltage Swing
Simulation result
Simulation
Evaluation Circuit
U14
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
OUT
VSS 4 5 IN2
V2 V3 V1
NJU7051
1.45 1.55 R1
1MEG 3
0
Compasion Table
Measurement Simulation %Error
VOM (V) 2.94 2.939 -0.034
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

5. Input Current
Simulation result
Simulation
Evaluation Circuit
U2
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
out2
VSS 4 5 IN2
NJU7051 V9
V2 V1
3
0Vdc 0Vdc
0
Compasion Table
Measurement Simulation % Error
Ib (pA) 1 1.002 0.2
IOS (pA) 1 0.995 -0.5
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

6. Input Offset Voltage
Simulation result
Simulation
Evaluation Circuit
U1
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
OUT
VSS 4 5 IN2
V1 NJU7051 V2
3
0
0
Compasion Table
Measurement Simulation %Error
VOS (mV) 2 1.973 -1.35
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

7. Open loop Voltage Gain
Simulation result
Simulation
Evaluation Circuit
U1
IN1 1 8 NC
IN
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
OUT
VSS 4 5 IN2
V1
VOFF = 0
NJU7051 V3
VAMPL = 0
FREQ = 0 3
AC = 1m
DC = -1.9730m
0
Compasion Table
Measurement Simulation %Error
Av (dB) 90 90.309 0.343
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

8. Unity Gain Frequency
Simulation result
Simulation
Evaluation Circuit
R1
100k
U1
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
IN OUT
VSS 4 5 IN2
V2
R2 10
NJU7051
C1
1k
VOFF = 0 10p
V1 VAMPL = 0
FREQ = 0
DC = 47.097m
AC = 1m
0
0
Compasion Table
AV=40dB,CL=10pF Measurement Simulation %Error
Ft(MHz) 0.1 0.104 4
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

9. Common-Mode Rejection Ratio
Simulation result
Simulation
ACM=1.8269/202.062m
Evaluation Circuit
U3
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
V2
-1.973m VSS 4 5 IN2
V3
3
NJU7051
V1
VOFF = 0
VAMPL = 0.5
FREQ = 1
AC = 1m
DC = 0
0
CMRR = AV/ACM
Compasion Table
Measurement Simulation %Error
CMRR (dB) 70 71.1844 1.691
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005

10. Slew Rate
Simulation result
Simulation
Evaluation Circuit
U1
IN1 1 8 NC
IN- 2 7 VDD
+ -
IN+ 3 6 OUT
OUT
V1 = 0 VSS 4 5 IN2
V2 = 3 V1
NJU7051
TD = 50u 3 V13
TR = 10n
TF = 10n
PW = 1m
PER = 10m
0
Compasion Table
Measurement Simulation % Error
SR (V/us) 0.05 0.048 -4
All Rights Reserved Copyright (C) Bee Technologies Inc. 2005