Brief Table of Contents:

1. Introduction to Electronics
2. Applications of Electronic Circuits
3. Amplifier Models and Frequency Response
4. Modeling and the Operational Amplifier
5. The Semiconductor Diode and Nonlinear Modeling
6. The MOSFET
7. The BJT
8. Integrated Circuit Design
9. Integrated Circuit Design with the MOSFET
10. Integrated Circuit Design with the BJT
11. The Differential Amplifier
12. Feedback Amplifier
13. Large-Signal Circuits
14. Basic CMOS Logic Circuits

Detailed Table of Contents:

1. Introduction to Electronics

1.1 The Significance of Electronics
1.2 Electronic Circuit Design
1.3 Brief History of Electronics
1.4 Electronics Education
1.5 Level of the Textbook

2. Applications of Electronic Circuits

2.1 Amplifiers
2.2 Digital Circuits
2.3 Electronic Instrumentation
2.4 Modulation Circuits
2.5 Filters
2.6 Power Electronics
2.7 Review of Thevenin's Theorem
2.8 The Miller Effect
2.9 Transient Waveforms

3. Amplifier Models and Frequency Response

3.1 The General Model of an Amplifying Element
3.2 Gain Elements
3.3 Frequency-Dependent Factors
3.4 Low-Frequency Response of an Amplifier
3.5 High-Frequency Response of an Amplifier
3.6 Multistage Amplifiers

4. Modeling and the Operational Amplifier

4.1 Modeling
4.2 The Operational Amplifier
4.3 Op Amp Circuit Examples
4.4 Designing for a Specified Gain and Bandwidth

5. The Semiconductor Diode and Nonlinear Modeling

5.1 Semiconductor Material and Doping
5.2 The pn-Junction
5.3 Nonlinear Modeling
5.4 The Diode Equivalent Circuit
5.5 Applications of the Diode
5.6 The Breakdown or Zener Diode

6. The Mosfet

6.1 The Field-Effect Transistor
6.2 Quantitative Description of Mosfet Operation
6.3 Mathematical Description of Mosfet Device Characteristics
6.4 The Mosfet as an Amplifying Element
6.5 Other Amplifier Configurations
6.6 Biasing of Discrete MOS Stages
6.7 High-Frequency Model of the Mosfet
7. The BJT

7.1 Bipolar Junction Transistor Operation
7.2 Graphical Analysis of the BJT
7.3 Discrete Circuit Biasing
7.4 Small-Signal or Linear Models
7.5 The BJT at High Frequencies

8. Integrated Circuit Design

8.1 Comparison of Integrated to Discrete Component Circuits
8.2 Simulation in IC Design
8.3 Approximation in Circuit Design

9. Integrated Circuit Design with the Mosfet

9.1 Mosfet Current Mirrors
9.2 Amplifier Configurations for Mosfet Integrated Circuits
10. Integrated Circuit Design with the BJT

10.1 IC Biasing with Current Mirrors
10.2 High-Gain Stages Using Active Loads
10.3 Amplifier Configurations in BJT Integrated Circuits
11. The Differential Stage and the OP AMP

11.1 The Differential Amplifier
11.2 A Typical OP AMP Architecture and Specifications
11.3 A Practical OP AMP
12. Feedback Amplifiers

12.1 The Ideal Feedback Amplifier
12.2 The Practical Voltage Feedback Amplifier
12.3 Stability of Feedback Systems
13. Large-Signal Circuits

13.1 Switches
13.2 Using Semiconductor Devices in Switching Circuits
13.3 Multivibrator Circuits
13.4 The 555 Timer
14. Basic CMOS Logic Circuits

14.1 The CMOS Inverter
14.2 CMOS Logic Gates
14.3 Logic Function Realization