Sr. |
Analog Circuit Design Trainers |
Pdf Specs |
1 |
RC Phase Shift
Oscillator |
OSC05 |
2 |
Measurement of input
and output offset voltage of 741 ICs. |
DM741 |
3 |
Opamp as Voltage
Follower (Buffer)-unity gain |
OPA10 |
4 |
Opamp as Inverting &
Non Inverting Amplifier |
OPA01 |
5 |
Op - Amp as Precision
Half - Wave Rectifier |
OPR01A |
6 |
Op - Amp as Precision
Full - Wave Rectifier |
OPR01B |
7 |
To measure PSRR and
CMRR of given op-amp. |
OP21 |
8 |
Opamp as Schmitt
trigger |
CMP03 |
9 |
Opamp as Astable
Multivibrator |
TIM21 |
|
Opamp as Monostable
Multivibrator |
TIM23 |
10 |
Opamp as I order Low
pass Filter |
AF01 |
|
Opamp as Band pass
filter |
AF05 |
11 |
Opamp as Wein Bridge
Oscillator |
OPO01 |
12 |
Design the following
amplifiers: |
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a. A unity gain
amplifier |
OPA10 |
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b. A non-inverting
amplifier with a gain of ’A’ |
OPA03 |
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c. An inverting
amplifier with a gain of ‘A’ |
OPA02 |
13 |
Opamp as
Integrator |
OPA09 |
14 |
Design a second order
butter-worth band-pass filter for the given higher and lower
cut-off frequencies. |
AF11B |
15 |
Design and test a
notch filter to eliminate the 50Hz power line frequency. |
AF07 |
16 |
Design and test a
function generator that can generate square wave and triangular
wave output for a given frequency. |
FGOP100 |
17 |
Opamp as Voltage
Controlled Oscillator |
OPO02 |
18 |
Design and test a Low
Dropout regulator using op-amps for a
given voltage regulation characteristic and compare the
characteristics with standard IC available in market. |
OPR04 |
19 |
Design and test an
AGC system for a given peak amplitude of sine-wave output. |
AGC100 |
20 |
Design and test a PLL
to get locked to a given frequency ‘f’.
Measure the locking range of the system and also measure the
change in phase of the output signal as input frequency is
varied within the lock range. |
PLL02 |
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