Page 51 - R2017-REC-ECE-UG Syllabus
P. 51
Department of ECE, REC
5. Wave shaping circuits
6. Multivibrators
SIMULATION USING PSPICE
7. Double tuned and stagger tuned amplifiers
8. Astable Multivibrator
9. Free running blocking oscillators
10. Schmitt Trigger circuit with Predictable hysteresis
11. Monostable multivibrator with emitter timing and base timing
12. Voltage and Current Time base circuits
TOTAL= 60 PERIODS
OUTCOMES:
Upon Completion of the course, the students will be able to:
• Design the feedback amplifiers needed for different applications and modify the stability and gain
parameters of the circuit
• Generate sinusoidal and non-sinusoidal signals at different frequencies
• Tune any given amplifier circuit at a particular frequency by adopting appropriate tank circuits
• Convert one form of the signal to other by using wave shaping circuits
• Simulate and analyze different types of analog circuits using PSPICE
EC17412 LINEAR INTEGRATED CIRCUITS LABORATORY L T P C
0 0 4 2
OBJECTIVES:
• To study the amplifiers and wave shaping circuits using ICs
• To understand characteristics of amplifiers and filters
• To analyze the characteristics of oscillators and multivibrators
• To acquire the basic knowledge of special function ICs
• To use PSPICE software for circuit design
LIST OF EXPERIMENTS:
Design and Implementation of
1. Inverting, Non-Inverting and Differential Amplifiers
2. Instrumentation Amplifier using op-amp
3. Wave shaping circuits (Integrator and Differentiator)
4. Filter design (LPF and HPF)
5. Multivibrators (Astable and Monostable)
6. Schmitt Trigger
7. Oscillators (Phase shift and Wein Bridge)
8. DC power supply using LM723
9. R-2R Ladder DAC
Simulation using PSPICE:
Design and Simulation of Experiments 1, 3, 4, 5, 6, 7 using PSPICE
Curriculum and Syllabus | B.E. Electronics and Communication Engineering | R2017 Page 51
