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Analog Electronic Circuits

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Overview

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Analog Electronic Circuits is a basic course for the international students majoring in Electronic Information Engineering. Through the study of commonly used electronic devices and analog circuits, the international students can acquire the basic knowledge, basic theories and basic skills of analog electronic technology, laying a good foundation for the follow-up courses and in-depth study of this content.

Syllabus

  • Chapter 1 Semiconductor Diodes
    • 1-1 Semiconductor Materials
    • 1-2 Extrinsic Materials
    • 1-3 Semiconductor Diode
    • 1-4 Characteristics of Semiconductor Diode
    • 1-5 Resistance Levels
    • 1-6 Diode Equivalent Circuits
  • Chapter 2 Diode Applications
    • 2-1 Load-line analysis
    • 2-2 Equivalent Model Analysis
    • 2-3 Half-Wave and Full-Wave Rectification
    • 2-4 Clippers
    • 2-5 Zener Diodes
  • Chapter 3 Bipolar Junction Transistors
    • 3-1 Transistor Operation
    • 3-2 Common-Emitter Configuration
    • 3-3 Equivalent Model for the Transistor
  • Chapter 4 DC Biasing —— BJTs
    • 4-1 Fixed-Bias Circuit
    • 4-2 Load-Line Analysis
    • 4-3 Emitter Bias
    • 4-4 Voltage-Divider Bias
    • 4-5 DC Bias with Voltage Feedback
  • Chapter 5 BJT AC Analysis
    • 5-1 BJT Transistor Model
    • 5-2 Common-Emitter Fixed-Bias Configuration
    • 5-3 Common-Emitter Voltage-Divider Configuration
    • 5-4 Common-Emitter Emitter-Bias Configuration
    • 5-5 Emitter-Follower Configuration
    • 5-6 Common-Base Configuration
    • 5-7 Effect of RL and RS
    • 5-8 Cascaded Systems
    • 5-9 RC-Coupled Amplifiers and Cascode Connection
  • Chapter 6 Field-Effect Transistors
    • 6-1 JFETs-1
    • 6-2 JFETs-2
    • 6-3 MOSFETs
  • Chapter 7 FET Biasing
    • 7-1 Fixed-Bias Configuration
    • 7-2 Self-Bias Configuration
    • 7-3 Voltage-divider Biasing
    • 7-4 Feedback Biasing for E-MOSFET
  • Chapter 8 FET Amplifiers
    • 8-1 FET Small Signal Model
    • 8-2 JFET Fixed-Bias Configuration
    • 8-3 JFET Self-Bias Configuration
    • 8-4 Voltage-Divider Configuration
    • 8-5 Source-Follower Configuration
    • 8-6 Common-Gate Configuration
    • 8-7 Cascade Configuration
  • Chapter 9 BJT and FET Frequency Response
    • 9-1 General Frequency Considerations
    • 9-2 Bode Plot
    • 9-3 Low-Frequency Response
    • 9-4 Miller Effect Capacitance
    • 9-5 High-Frequency Response
    • 9-6 Beta Variation
  • Chapter 10 Operational Amplifiers
    • 10-1 Differential Amplifier Circuit
    • 10-2 Differential and Common-Mode Operation
    • 10-3 Op-Amp Basics
  • Chapter 11 Op-Amp Applications
    • 11-1 Operational Circuits
    • 11-2 Comparator Circuits
  • Chapter 12 Power Amplifiers
    • 12-1 Introduction of Power Amplifiers
    • 12-2 Class B Amplifier
  • Chapter 13 Feedback Circuits
    • 13-1 Feedback Concepts and Connection Types
    • 13-2 Practical Feedback Circuits
  • Test

    Taught by

    Nanjing University of Posts and Telecommunications

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