EXPERIMENT- 1 AIM To simulate Clamper circuit using Op-Amp in PSPICE SOFTWARE REQUIRED Pspice 9.1 CIRCUIT DIAGRAM CIRCUIT DESCRIPTION R1 6 0 4.7k R2 3 0 1k C1 6 1 0.1uF D1 5 6 DIN3063
USER - HP
EXPERIMENT-1AIM
To simulate Clamper circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 6 0 4.7k
R2 3 0 1k
C1 6 1 0.1uF
D1 5 6 DIN3063
.model DIN3063 D(Is=2.989n N=1.704 Rs=3.886 Ikf=26.84 Xti=3 Eg=1.11 Cjo=2p
+ M=.3333 Vj=.75 Fc=.5 Isr=100p Nr=2 Bv=75 Ibv=5u Tt=5.771n)
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
V1 1 0 SIN(0 0.1V 1KHZ)
.INCLUDE uA741.CIR
.TRAN 0 5ms
.PROBE
.ENDTRANSFER CURVES
EXPERIMENT-2AIM
To simulate Integrator circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 1 2 10K
Rf 2 5 100K
CF 2 5 10nf
X1 0 2 3 4 5 uA741
VCC 3 0 DC 15V
VEE 0 4 DC 15V
Vi 1 0 sin(0 1V 1khz)
.INCLUDE uA741.cir
.TRAN 0.5ms 2.5ms
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-3AIM
To simulate Inverting circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 1 2 1k
RF 2 5 9k
X1 0 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
V1 1 0 SIN(0 0.1V 1KHZ)
.INCLUDE uA741.cir
.TRAN 0 3ms
.PROBE
.ENDTRANSFER CURVES
EXPERIMENT-3AIM
To simulate Low pass filter(1st order) circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
RF 5 2 5K
R1 1 6 1K
R2 2 0 2K
C 1 0 1uF
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
V1 6 0 AC 1mV
.INCLUDE uA741.CIR
.AC DEC 20 1HZ 10KHZ
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-4AIM
To simulate Low pass filter(2nd order) circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
RF 5 2 5K
R1 1 6 1K
R2 6 7 1K
R3 2 0 2K
C1 1 0 1uF
C2 1 0 1uF
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
V1 7 0 AC 0.1mV
.INCLUDE uA741.CIR
.AC DEC 20 0.1HZ 100KHZ
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-5AIM
To simulate Schmittrigger circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 5 1 50K
R2 1 0 100K
R3 2 6 1K
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE O 4 DC 12V
Vi 6 0 SIN(O 6V 1KHZ)
.INCLUDE uA741.cir
.TRAN 0 5MS
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-6AIM
To simulate Square wave generator circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
Square wave gen.
R 2 5 1K
R1 5 1 5K
R2 1 0 1K
C 2 0 1uF
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
.INCLUDE uA741.CIR
.TRAN 0 10MS
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-7AIM
To simulate subtracter circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
Subtractor
R1 6 2 10K
R2 7 1 10K
R3 7 0 1K
R4 2 5 10K
R5 1 0 10K
R6 6 7 1K
R7 7 0 1K
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
Vi 6 0 SIN(0 2 1KHZ)
.INCLUDE uA741.CIR
.TRAN 0 3MS
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-8
AIM
To simulate Weinbridge Oscillator circuit using Op-Amp in PSPICE
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
Weinbridge
R1 1 6 1K
R2 1 0 1K
R3 2 0 1K
R4 2 5 2K
C1 6 5 0.1uF
C2 1 0 0.1uF
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
.INCLUDE uA741.CIR
.TRAN 0.5us 10ms 0.3us
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-9AIM
To Simulate High Pass Filter using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
*
Rf 5 2 1.2K
R1 1 0 1K
R2 6 5 1K
R3 2 0 2K
C1 1 6 10uF
C2 6 7 10uF
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
V1 7 0 AC 1mV
.INCLUDE uA741
.AC DEC 20 O.1hz 100KHz
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-10AIM
To Simulate Adder circuit using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
*
R1 6 7 1k
R2 6 1 10K
R3 7 1 10K
R4 0 2 10K
R5 2 5 10K
R6 0 7 2K
X1 1 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
Vi 6 0 SIN(0 2 1KHz)
.INCLUDE uA741.cir
.TRANS 0 3MS
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-11AIM
To Simulate Band Pass Filter using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 7 6 1.6k
C1 6 5 0.03uF
C2 6 2 0.03uF
R2 6 0 1.6K
RF 2 5 7K
X1 0 2 3 4 5 uA741
VCC 3 0 DC 12V
VEE 0 4 DC 12V
Vin 7 0 AC 12V
.INCLUDE uA741.cir
.PROBE
.AC DEC 20 1HZ 10000KHZ
.END
TRANSFER CURVES
EXPERIMENT-12AIM
To Simulater Differentiator using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
R1 6 1 .1
C1 1 2 0.01uF
RF 2 5 10K
CF 2 5 0.001uF
X1 0 2 3 4 5 uA741
VCC 3 0 DC 15V
VEE 0 4 DC 15V
Vi 6 0 sin(0 1V 1Khz)
.INCLUDE uA741.cir
.TRAN 0 2ms
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-13AIM
To Simulate Inverting Amplifier using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
VIN 0 1 SIN (0 1 10KHz)
RL 2 0 1K
X1 0 1 0 2 OPAMP
.SUBCKT OPAMP 1 2 5 4
RIN 1 2 2MEG
RO 3 5 75
EA 3 4 2 1 1E+1
.ENDS OPAMP
.TRAN 0US 500US
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-14AIM
To Simulate Non-Inverting Amplifier using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
*
VIN 0 1 SIN (0 1 10KHz)
RL 2 0 1K
X1 1 0 0 2 OPAMP
.SUBCKT OPAMP 1 2 5 4
RIN 1 2 2MEG
RO 3 5 75
EA 3 4 2 1 1E+1
.ENDS OPAMP
.TRAN 0US 500US
.PROBE
.END
TRANSFER CURVES
EXPERIMENT-15AIM
To Simulate Voltage Follower using Op-Amp in PSPICE.
SOFTWARE REQUIRED
Pspice 9.1
CIRCUIT DIAGRAM
CIRCUIT DESCRIPTION
*
Vin 0 1 SIN (0 1 10KHz)
RL 2 0 1K
X1 1 2 0 2 OPAMP
.SUBCKT OPAMP 1 2 5 4
Rin 1 2 2MEG
RO 3 5 75
EA 3 4 2 1 1E+1
.ENDS OPAMP
.TRAN 0US 500US
.PROBE
.END
TRANSFER CURVES