Analog Circuits Theory
Course contents:
1. Course introduction (PDF)
2. Amplifier characteristics (PDF)
3. Amplifier analyis using KCL and KVL (PDF)
4. Thevenin/Norton equivalent of voltage amplifiers, and Semiconductor materials and properties (PDF)
5. PN Junction (PDF)
6. PN Junction IV characteristics (PDF)
7. Diode circuits: Voltage clipping/clamping circuits (PDF)
8. Diode circuits: Voltage controlled capacitor and BPF (PDF)
9. Diode circuits: Halfwave rectifier (PDF)
10. Diode circuits: Fullwave rectifier & Voltage regulation (PDF)
11. Diode circuits: Voltage doubler (PDF)
12. BJT: Device construction (PDF)
13. BJT: Small signal parameters-1 (PDF)
14. BJT: Small signal parameters-2 (PDF)
15. BJT: Common Emitter amplifier with simple biasing (PDF)
16. BJT: CE amplifier with voltage divider biasing (PDF)
17. BJT: CE amplifier with Emitter degeneration (PDF)
18. BJT: CB and CC amplifier (PDF)
19. BJT: Current source (PDF)
20. BJT: Current mirror(1) (PDF)
21. BJT: Current mirror(2) (PDF)
22. OPAMP based circuits(1) (PDF)
23. OPAMP based circuits(2) (PDF)
24. OPAMP based circuits(3) (PDF)
25. MOSFET (PDF)
Exams and Assignments:
1. Assignment-1 PN Junction (PDF)
2. Assignment-2 Diode circuits (PDF)
3. Midterm exam (Question) (Solution)
4. Assignment-3 BJT circuits (PDF)
Reference Textbooks:Â
1. "Analysis and Design of Analog Integrated Circuits", Paul R. Gray, Paul J. Hurst, Stephen H. Lewis, and Robert G. Meyer (5th edition).
2. "Fundamentals of Microelectronics", Behzad Razavi (2nd edition).
3. "Design of Analog CMOS Integrated Circuits", Behzad Razavi (2nd edition).
4. "Analog Integrated Circuit Design", Tony Chan Carusone, David A. Johns, and Kenneth W. Martin (2nd edition).