Introduction
Chapter 1 Diodes and Applications
1.1 Introduction
1.2 Ideal Diodes
1.3 Practical Diodes
1.4 Physical Operation of Junction Diodes
1.4.1 Diode Junction
1.4.2 Forward.Biased Condition
1.4.3 Reverse.Biased Condition
1.4.4 Breakdown Condition
1.5 Charactcristics of Practical Diodes
1.5.1 Forward.Biased Region
1.5.2 Reverse.Biased Region
1.5.3 Breakdown Region
1.6 Zener Diodes
1.7 Light.Emitting Diodes
1.8 Applications of Diodes
1.8.1 Diode Rectifiers
1.8.2 Clippers
1。8.3 Output Filters for Rectifiers
Chapter 2 Amplifiers
2.1 Bipolar Junction Transistor
2.1.1 Principle
2.1.2 Input and Output Characteristics
2.2 Low-frequency Amplifiers
2.2.1 DC Biasing Circuits
2.2.2 Analyzing Methods of Amplifiers
2.2.3 Common-Emitters
2.2.4 Emitter Followers
2.3 Field-Effect Transistors
2.4 Cascaded Amplifiers
2.4.1 Input Resistance
2.4.2 Output Resistance
2.4.3 Voltage Gain of the Multi-stage Amplifier
2.4.4 Frequency Response of the RC-coupled Amplifier
2.5 Active Sources and Differential Amplifiers
2.5.1 Internal Structure of Differential Amplifiers
2.5.2 BJT Current Sources
2.5.3 Characteristics of Differential Amplifiers
2.5.4 Differential Amplifier Circuit
2.6 Power Amplifiers
2.6.1 Classification of Power Amplifiers
2.6.2 Class B Complementary Push-pull Amplifiers
2.6.3 Complementary Class AB Push-Pull Amplifiers
Chapter 3 Feedback Amplifiers
3.1 The Basic Concept of Feedback Amplifiers
3.2 The Principle of Negative Feedback
3.3 Feedback Topologies
3.4 Identifying the Type of Negative Feedback Amplifier
3.5 Approximate Calculation of Af
Chapter 4 Oscillators
4.1 Principles of Oscillators
4.1.1 Frequency Stability
4.1.2 Amplitude Stability
4.2 Phase-Shift Oscillators
4.3 Wien-Bridge Oscillators
4.4 Colpitts Oscillators
4.5 Hartley Oscillators
4.6 Crystal Oscillators
Chapter 5 Operational Amplifiers
5.1 Characteristics of Ideal Op-Amps
5.2 Analysis of Circuits with Ideal Op-Amp
5.2.1 Inverting Amplifier
5.2.2 Noninverting Amplifier
5.2.3 Differential Amplifier
5.3 Applications
5.3.1 The Integrator
5.3.2 The Differentiator
5.3.3 Noninverting Summing Amplifier
5.3.4 Inverting Summing Amplifier
5.3.5 Addition-Subtraction Amplifier
5.4 Active Filters
5.4.1 Low-Pass Filter
5.4.2 High-pass Active Filter
5.4.3 Bandpass Filter
5.5 Comparator
5.5.1 Basic Inverting Schmitt Trigger
5.5.2 Voltage Transfer Characteristic
Chapter 6 Introductory Digital Concepts
6.1 Digital and Analog Quantities
6.2 Binary Digitals. Logic Levels and Digital Waveforms
6.2.1 Binary Digits
6.2.2 Logic Levels
6.2.3 Digital Waveforms
6.2.4 The Pulse
Chapter 7 Number Systems. Operations. and Codes
7.1 Binary-to-Decimal Conversion
7.2 Decimal-to-Binary Conversion
7.3 Binary Addition
Chapter 8 Logic Gates
8.1 The Basic Logic Gates
8.2 Fixed-Function Logic
Chapter 9 Boolean Switching Algebra
9.1 Boolean Operations and Expressions
9.2 Laws and Rules of Boolean Algebra
9.2.1 Laws of Boolean Algebra
9.2.2 Rules of Boolean Algebra
9.3 DeMorgan's Theorems
9.4 Simplification Using Boolean Algebra
9.5 Boolean Expressions and Truth Tables
9.5.1 The Sum-of-Products (SOP) Form
9.5.2 The Product-of-Sums (POS) Form
9.5.3 The truth table
9.6 The Karnaugh Map
Chapter 10 Combinational Logic
10.1 Definition of Combinational Logic
10.2 Functions of Combinational Logic
10.2.1 Adders
10.2.2 Encoders
10.2.3 Multiplexers
Chapter 11 Latches. Flip-Flops and Timers
11.1 Latches
1 1.1.1 The S-R (Set-Reset) Latch
11.2 Flip-Flops
11.2.1 The Edge-Triggered S-R Flip-Flop
11.2.2 The Edge-Triggered D Flip-Flop
11.2.3 The Edge-Triggered J-K Flip-Flop
11.2.4 Flip-Flop Applications
11.3 One-shots
11.4 The Astable Multivibrator
Chapter 12 Counters and Shift Registers
12.1 Counters
12.1.1 Asynchronous Counters
12.1.2 Synchronous Counters
12.2 Shift Registers
Appendix A Testing Solid-state Components
Appendix B Answers to All the Problems