Electronics - From Theory Into Practice

PrefaceDesign Examples 1. The Semiconductor Introduction 1.1. The Junction Diode 1.2. Leakage Current 1.3. Diode Transient Response 1.4. Diode Logic 1.5. Functional Survey of Diode Types 1.6. RF and Microwave Diodes 1.7. The Junction Transistor 1.8. Fundamental Current Relationships 1.9. Elementary Considerations of Frequency Effects 1.10. Voltage Breakdown 1.11. Power Dissipation 1.12. Summary of Transistor Types 1.13. Static Characteristics of the Junction Transistor 1.14. Small Signal Representation 1.15. Transistor Biasing 1.16. Transistor Amplifier Characteristics 1.17. Examples 1.18. Summary of the Characteristics of Transistor Amplifiers in Terms of h Parameters 2. SCR-UJT-FET Introduction 2.1. The Silicon-controlled Rectifier 2.2. Switching Off 2.3. Switching Characteristics 2.4. Applications 2.5. Load Effects 2.6. Thyristor Ratings 2.7. Gate Characteristic 2.8. The Unijunction Transistor 2.9. The UJT for Thyristor Triggering 2.10. A Bipolar Transistor Analogy 2.11. Field Effect Transistors 2.12. FET Amplifier Characteristics3. Integrated Circuits Introduction 3.1. Manufacturing Processes 3.2. Bipolar Integrated Circuits 3.3. Digital Logic Families 3.4. Noise Immunity 3.5. Summary of Bipolar Digital Circuits 3.6. Linear Circuits 3.7. MOS Integrated Circuits 3.8. Complementary MOS 3.9. Charge-Coupled Devices 4. Amplifiers Introduction 4.1. Power Amplifiers 4.2. Audio Power Amplifier, Class A 4.3. The Class B Push-pull Amplifier 4.4. The Capacitively Coupled Amplifier 4.5. High-frequency Performance 4.6. High-frequency Response 4.7. Asymptotic Approximation 4.8. Low-frequency Performance of Capacitively Coupled Stages 4.9. Tandem Stages 4.10. Amplifier Time Response 4.11. Zero Frequency Amplifiers 4.12. The Direct-coupled Amplifier 4.13. Drift in Transistor d.c. Amplifiers 4.14. Integrated Circuit Amplifiers 4.15. Operational Amplifier Characteristics 4.16. Types and Applications 5. Tuned Amplifiers Introduction 5.1. The Parallel-Tuned Circuit 5.2. Single-tuned Circuit Amplifier 5.3. Tunable RF Amplifier with Constant Selectivity 5.4. Cascaded Single-tuned Amplifier 5.5. Staggered-Tuned Amplifiers 5.6. Double-Tuned Circuits 5.7. Tuned Amplifiers using Bipolar Transistors 5.8. Neutralization 5.9. Integrated Circuits 6. Negative Feedback Amplifiers 6.1. Introduction 6.2. Feedback Connections 6.3. Examples of Series-Parallel Feedback Systems 6.3.1. Emitter Follower Buffer Amplifier 6.3.2. Output Stage for a Direct-Coupled Amplifier 6.3.3. Augmented Emitter Follower 6.3.4. Field Effect Source Follower 6.3.5. Operational Amplifier Voltage Follower 6.3.6. Applications of the Voltage Follower 6.3.7. The Voltage Follower Using Operational Amplifiers 6.3.8. Capacitor-Coupled Voltage Amplifier 6.3.9. Selective Amplifier Using Series-Parallel Feedback 6.4. Applications of Parallel-Series Feedback 6.4.1. Common Base Amplifier 6.4.2. Transistor Current Amplifier 6.4.3. Operational Amplifier Current Amplifiers 6.5. Examples of Parallel-Parallel Feedback 6.5.1. Performance of Parallel-Parallel Voltage Amplifier 6.5.2. Functional Operations-Integration 6.5.3. Difference Integrator 6.5.4. Double Integrator 6.5.5. Differentiation 6.6. Example of Series-Series Feedback 6.7. Instrumentation Using Feedback Amplifiers 6.7.1. Millivoltmeter 6.7.2. Transducer Amplifier 6.7.3. Difference Amplifier 6.7.4. Bridge Amplifier 6.7.5.