of Applied Electronics (I):
BASIC PHYSICS OF SEMICONDUCTORS (半導體基礎物理)
DIODE MODELS AND CIRCUITS (二極體模型及電路)
PHYSICS OF BIPOLAR JUNCTION TRANSISTORS (BJT電晶體物理)
BJT AMPLIFIERS (BJT基本放大器)
PHYSICS OF MOS TRANSISTORS (MOSFET物理)
CMOS AMPLIFIERS (CMOS放大器)
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, 2nd ed., by P. Horowitz & W.
"Microelectronic Circuits, 6 ed."
by Sedra/Smith, Oxford University Press.
Free and full-function LTSPICE XVII:http://www.linear.com/designtools/software/#LTspice