Fundamentals of Microelectronics
Download Fundamentals of Microelectronics By Behzad Razavi – Razavi relates modern circuit design from a practical perspective, combined with a sense of excitement that captures the importance of microelectronics today. He first introduces readers to the big picture of microelectronics, followed by discussions on diode models and circuits, bipolar circuits and MOS circuits. Then he provides insight into an operational amplifier as a black box, cascades and current mirrors, frequency response, analog filters and more.
Fundamentals of Microelectronics is a comprehensive book for undergraduate students of Electrical Engineering. The book comprises chapters on basic physics of semiconductors, diode models and circuits, physics of bipolar transistors, bipolar amplifiers, frequency response, and analog filters. In addition, the book consists of several diagrams, illustrations, examples and chapterwise questions to help understand the concepts better. This book is essential for electrical engineers preparing for GATE and IES.
Fundamentals of Microelectronics By Behzad Razavi – PDF Free Download
Book Details:
| Title Of The Book | Fundamentals of Microelectronics |
| Author’s Name | Behzad Razavi |
| Publishers | Behzad Razavi |
| File Size | 6.8 MB |
| File Type |
Table Of Content:
1 INTRODUCTION TO MICROELECTRONICS
1.1 Electronics versus Microelectronics
1.2 Examples of Electronic Systems
1.3 Basic Concepts
1.4 Chapter Summary
2 BASIC PHYSICS OF SEMICONDUCTORS
2.1 Semiconductor Materials and Their Properties
2.2 pn Junction
2.3 Reverse Breakdown
2.4 Chapter Summary
Problems
SPICE Problems
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
3.6 Chapter Summary
Problems
SPICE Problems
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
4.7 Chapter Summary
Problems
SPICE Problems
5 BIPOLAR AMPLIFIERS
5.1 General Considerations
5.2 Operating Point Analysis and Design
5.3 Bipolar Amplifier Topologies
5.4 Summary and Additional Examples
5.5 Chapter Summary
Problems
SPICE Problems
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
6.7 Chapter Summary
Problems
SPICE Problems
7 CMOS AMPLIFIERS
7.1 General Considerations
7.2 Common-Source Stage
7.3 Common-Gate Stage
7.4 Source Follower
7.5 Summary and Additional Examples
7.6 Chapter Summary
Problems
SPICE Problems
8 OPERATIONAL AMPLIFIER AS A BLACK BOX
8.1 General Considerations
8.2 Op-Amp-Based Circuits
8.3 Nonlinear Functions
8.4 Op Amp Nonidealities
8.5 Design Examples
8.6 Chapter Summary
Problems
SPICE Problems
9 CASCODE STAGES AND CURRENT MIRRORS
9.1 Cascode Stage
9.2 Current Mirrors
9.3 Chapter Summary
Problems
SPICE Problems
10 DIFFERENTIAL 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 Chapter Summary
Problems
SPICE Problems
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
11.9 Additional Examples
11.10 Chapter Summary
Problems
SPICE Problems
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
12.9 Chapter Summary
Problems
SPICE Problems
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
13.7 Chapter Summary
Problems
SPICE Problems
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
14.10 Chapter Summary
Problems
SPICE Problems
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
15.6 Chapter Summary
Problems
SPICE Problems
16 DIGITAL CMOS CIRCUITS
16.1 General Considerations
16.2 CMOS Inverter
16.3 CMOS NOR and NAND Gates
16.4 Chapter Summary
Problems
SPICE Problems
17 CMOS AMPLIFIERS
17.1 General Considerations
17.2 Operating Point Analysis and Design
17.3 CMOS Amplifier Topologies
17.4 Common-Source Topology
17.5 Additional Examples
17.6 Chapter Summary
Problems
SPICE Problems
Appendix A INTRODUCTION TO SPICE
Index
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