SRI GANESH COLLEGE OF ENGINEERING AND TECHNOLOGY DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING ECP41 ELECTRONIC CIRCUITS DESIGN LABORATORY 1. a) Design and measurement of frequency response, signal handling capacity, input and output impedances of CE amplifier. b) Differential amplifier. Differential mode performance, Common mode performance and measurement of CMRR. 2. Design and measurement of frequency response, signal handling capacity, input and output impedances of Emitter follower and Darlington Pair. 3. Design and measurement of frequency response, signal handling capacity, input and output impedances of common source and common drain FET amplifier. 4. Design and measurement of frequency response, signal handling capacity, input and output impedances of cascade amplifier and Cascode amplifier. 5. To design, construct and measure the frequency response, input impedance and output impedance of (i) voltage shunt (ii) voltage series negative feedback amplifiers with and without feedback. 6. To design, construct and study the low frequency and high frequency oscillators. 7. a) To design, construct and study the RC Integrator, RC Differentiator, Clampers and Voltage Multipliers b) To design, construct and study the UJT relaxation oscillator 8. a) To design, construct and study the BJT based Astable multivibrator and Monostable multivibrator b) To design, construct and study the BJT based Bistable multivibrator and Schmitt trigger circuits. 9. a) To design, construct and study the Miller integrator and Bootstrap ramp generator b) To simulate the Bootstrap ramp generator circuit using PSPICE 10. a) To obtain the frequency Vs. power and load Vs. power characteristics of Class A power amplifier b) To obtain the frequency Vs. power and load Vs. power characteristics of Class B complementary symmetry amplifier

Electronic Circuits Design Laboratory

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Page 1: Electronic Circuits Design Laboratory

SRI GANESH COLLEGE OF ENGINEERING AND TECHNOLOGY

DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING

ECP41 ELECTRONIC CIRCUITS DESIGN LABORATORY

1. a) Design and measurement of frequency response, signal handling capacity, input and output impedances of CE amplifier. b) Differential amplifier. Differential mode performance, Common mode performance and measurement of CMRR. 2. Design and measurement of frequency response, signal handling capacity, input and output impedances of Emitter follower and Darlington Pair.

3. Design and measurement of frequency response, signal handling capacity, input and output impedances of common source and common drain FET amplifier.

4. Design and measurement of frequency response, signal handling capacity, input and output impedances of cascade amplifier and Cascode amplifier.

5. To design, construct and measure the frequency response, input impedance and output impedance of (i) voltage shunt (ii) voltage series negative feedback amplifiers with and without feedback. 6. To design, construct and study the low frequency and high frequency oscillators. 7. a) To design, construct and study the RC Integrator, RC Differentiator, Clampers and Voltage Multipliers b) To design, construct and study the UJT relaxation oscillator 8. a) To design, construct and study the BJT based Astable multivibrator and Monostable multivibrator b) To design, construct and study the BJT based Bistable multivibrator and Schmitt trigger circuits. 9. a) To design, construct and study the Miller integrator and Bootstrap ramp generator b) To simulate the Bootstrap ramp generator circuit using PSPICE 10. a) To obtain the frequency Vs. power and load Vs. power characteristics of Class A power amplifier b) To obtain the frequency Vs. power and load Vs. power characteristics of Class B complementary symmetry amplifier