Syllabus of Applied Electronics (I):

Syllabus of Applied Electronics (II):

Tentative Syllabus of Applied Electronics (II)
Week 1: Introduction of the course and related simulation program.
Week 2: Review of BJT models and analysis of BJT basic amplifiers(I)
Week 3: Analysis of BJT basic amplifiers(II) and design of a BJT amplifier (Home work: Design I)
Week 4: Review of MOSFET models and analysis of basic MOSFET amplifiers (I)
Week 5: Analysis of basic MOSFET amplifiers (II) (Home work: Design II)
Week 6: Output stage and power amplifier (I)
Week 7: Output stage and power amplifier (II); circuit design with OP (I)
Week 8: circuit design with OP (II)
Week 9: Review of design ideas; midterm examination
Week 10: Cascode stages and current mirrors; Model of a BJT differential pair (Home work: Design III)
Week 11: MOSFET differential amplifier
Week 12: Active loading differential amplifier
Week 13: Multistage amplifiers; Frequency response of an amplifier (I) (Home work: Design IV)
Week 14: Frequency response of an amplifier (II)
Week 15: Frequency response of an amplifier (III) (Home work: Design V)
Week 16: Feedback (only an introduction)
Week 17: Final report
Week 18: Final examination
The content may be subject to change due to the real situation in class.

Text Book:"Microelectronics, 2nd ed." by B. Razavi, Wiley.

Reference: Semiconductor Devices, Physics and Technology, by S. M. Sze, 1985, John Wiley &Sons

The Art of Electronics, 2^nd ed., by P. Horowitz & W. Hill

"Microelectronic Circuits, 6 ed." by Sedra/Smith, Oxford University Press.

 

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