層級: 課程資料
媒體: 影音

11101電子學Electronics〡Offered in English


國立清華大學 電機工程學系 金雅琴

關鍵字: Electronics microelectronic device circuits

This course is an introductory course of microelectronics. We will focus on the fundamental knowledge of microelectronic circuits and emphasize the design- oriented approach... 
 Course Description 
This course is an introductory course of microelectronics. We will focus onthe fundamental knowledge of microelectronic circuits and emphasize the design-oriented approach. This course introduces the most important concepts for design of analog circuits such as semiconductor diodes and transistors, and various amplifier configurations. The frequency response, differential pairs,
multistageamplifiers are also included. By developing solid understanding of basic knowledge, learning microelectronics could be enjoyable.   
Text Books 
B. Razavi, "Fundamentals of Microelectronics," Wiley, 2008.
 A. Sedra and K. Smith, "Microelectronic circuits," 5th edition,
 Oxford university press, 2004
Teaching Method
Power point handouts are used in this class together with a tablet computer for equation derivation and additional materials. The course materials are also recorded by the software "powercam" and uploaded in LMS system for easy access. A quiz is held on a bi-weekly basis to help the students following the course schedule. The homework is also assigned bi-weekly. The students also have the opportunity to use the CAD tool (SPICE) for circuit design and verify the materials learned in the class.
1. Introduction to microelectronics (ch. 1)

  -  Examples of electronic systems
  -  Basic circuit theorems

2. Basic physics of semiconductors and diodes (ch. 2 and ch. 3)

  -  Semiconductor material properties
  -  PN junction and diodes
  -  Diode circuits and applications

3.Basic physics of transistors and their equivalent circuit models

(ch. 4 and ch. 6)

  -  Basic structures and characteristics of MOSFETs and BJTs
  -  Equivalent circuit model of MOSFETs and BJTs
  -  Large-signal and small-signal operation

4. Single-stage (multi-stage) amplifiers and frequency response

(ch. 5, ch. 7, ch. 9, and ch. 11)

  -  MOSFET and BJT amplifier topologies (CS, CG, CD, and cascode)
  -  Transfer function and Bode's plot
  -  Frequency response of different amplifiers

5. Differential amplifiers (ch. 9 and ch. 10)

  -  Basic MOS and BJT differential pairs

  -  Large-signal and small-signal analysis

  -  Current mirror and active load


前往課程 View Course