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Microelectronics, An Indian Adaptation

Behzad Razavi

ISBN: 9789388991063

804 pages

INR 929

Description

Microelectronics provides a comprehensive discourse on the theory and applications of analog electronic circuits. Starting with the basic physics of semiconductors, the book goes on to discuss diodes, bipolar and MOS transistors, rectifier and amplifier circuits, sinusoidal and nonsinusoidal oscillators, frequency response of amplifiers, and finally analog filters. The book incorporates a host of pedagogical features that make the book easy to teach and learn from, including application sidebars, self-check problems with answers, and simulation problems with SPICE.

Chapter 1 INTRODUCTION TO MICROELECTRONICS

1.1 Electronics Versus Microelectronics 

1.2 Examples of Electronic Systems 

 

Chapter 2 BASIC PHYSICS OF SEMICONDUCTORS

2.1 Semiconductor Materials and Their Properties

2.2 pn Junction

2.3 Reverse Breakdown

 

Chapter 3 DIODE MODELS AND CIRCUITS

3.1 Ideal Diode

3.2 pn Junction as a Diode

3.3 Additional Examples

3.4 Large-Signal and Small-Signal Operation

3.5 Applications of Diodes

 

Chapter 4 PHYSICS OF BIPOLAR TRANSISTORS

4.1 General Considerations

4.2 Structure of Bipolar Transistor

4.3 Operation of Bipolar Transistor in Active Mode

4.4 Bipolar Transistor Models and Characteristics

4.5 Operation of Bipolar Transistor in Saturation Mode

4.6 The PNP Transistor 

 

Chapter 5 BIPOLAR AMPLIFIERS

5.1 General Considerations

5.2 Operating Point Analysis and Design

5.3 Bipolar Amplifier Topologies

 

Chapter 6 PHYSICS OF MOS TRANSISTORS

6.1 Structure of MOSFET

6.2 Operation of MOSFET

6.3 MOS Device Models

6.4 PMOS Transistor

6.5 CMOS Technology

6.6 Comparison of Bipolar and MOS Devices

 

Chapter 7 CMOS AMPLIFIERS

7.1 General Considerations

7.2 Common-Source Stage

7.3 Common-Gate Stage

7.4 Source Follower 

 

Chapter 8 CASCODE STAGES AND CURRENT MIRRORS 

8.1 Cascode Stage

8.2 Current Mirrors

 

Chapter 9 OPERATIONAL AMPLIFIER CIRCUITS AND APPLICATIONS

9.1 General Considerations

9.2 OP AMP-Based Circuits

9.3 Nonlinear Functions 

9.4 OP AMP Nonidealities

9.5 Design Examples 

 

Chapter 10 DIFFERENTIAL AND MULTISTAGE AMPLIFIERS

10.1 General Considerations

10.2 Bipolar Differential Pair

10.3 MOS Differential Pair

10.4 Cascode Differential Amplifiers

10.5 Common-Mode Rejection

10.6 Differential Pair With Active Load

10.7 Multistage Amplifiers

 

Chapter 11 FREQUENCY RESPONSE

11.1 Fundamental Concepts

11.2 High-Frequency Models of Transistors

11.3 Analysis Procedure

11.4 Frequency Response of CE and CS Stages

11.5 Frequency Response of CB and CG Stages

11.6 Frequency Response of Followers

11.7 Frequency Response of Cascode Stage

11.8 Frequency Response of Differential Pairs

 

Chapter 12 FEEDBACK 

12.1 General Considerations

12.2 Properties of Negative Feedback

12.3 Types of Amplifiers

12.4 Sense and Return Techniques

12.5 Polarity of Feedback

12.6 Feedback Topologies

12.7 Effect of Nonideal I/O Impedances

12.8 Stability in Feedback Systems

 

Chapter 13 OSCILLATORS

13.1 General Considerations

13.2 Ring Oscillators

13.3 LC Oscillators 

13.4 Phase Shift Oscillator

13.5 Wien-Bridge Oscillator

13.6 Crystal Oscillators

 

Chapter 14 OUTPUT STAGES AND POWER AMPLIFIERS

14.1 General Considerations

14.2 Emitter Follower as Power Amplifier

14.3 Push-Pull Stage

14.4 Improved Push-Pull Stage

14.5 Large-Signal Considerations

14.6 Short-Circuit Protection

14.7 Heat Dissipation

14.8 Efficiency

14.9 Power Amplifier Classes

 

Chapter 15 ANALOG FILTERS

15.1 General Considerations

15.2 First-Order Filters

15.3 Second-Order Filters

15.4 Active Filters

15.5 Approximation of Filter Response

 

Chapter 16 CMOS AMPLIFIER DESIGN

16.1 General Considerations

16.2 Operating Point Analysis and Design

16.3 CMOS Amplifier Topologies

16.4 Common-Source Topology

 

Appendix A INTRODUCTION TO SPICE