Electronic devices conventional current version
For courses in basic electronics and electronic devices and circuits A user-friendly, hands-on introduction to electronic devices filled with practical applications and software simulation Electronic Devices (Conventional Current Version), 10/e, provides a solid foundation in basic analog electr...
| Otros Autores: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Harlow, England :
Pearson
[2018]
|
| Edición: | Global edition, Tenth edition |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009632535306719 |
Tabla de Contenidos:
- Cover
- Title Page
- Copyright Page
- Preface
- Acknowledgments
- Brief Contents
- Contents
- 1. Introduction to Semiconductors
- 1-1. The Atom
- 1-2. Materials Used in Electronic Devices
- 1-3. Current in Semiconductors
- 1-4. N-Type and P-Type Semiconductors
- 1-5. The PN Junction
- 2. Diodes and Applications
- 2-1. Diode Operation
- 2-2. Voltage-Current Characteristic of a Diode
- 2-3. Diode Approximations
- 2-4. Half-Wave Rectifiers
- 2-5. Full-Wave Rectifiers
- 2-6. Power Supply Filters and Regulators
- 2-7. Diode Limiters and Clampers
- 2-8. Voltage Multipliers
- 2-9. The Diode Datasheet
- 2-10. Troubleshooting
- Device Application
- 3. Special-Purpose Diodes
- 3-1. The Zener Diode
- 3-2. Zener Diode Applications
- 3-3. Varactor Diodes
- 3-4. Optical Diodes
- 3-5. The Solar Cell
- 3-6. Other Types of Diodes
- 3-7. Troubleshooting
- Device Application
- 4. Bipolar Junction Transistors
- 4-1. Bipolar Junction Transistor (BJT) Structure
- 4-2. Basic BJT Operation
- 4-3. BJT Characteristics and Parameters
- 4-4. The BJT as an Amplifier
- 4-5. The BJT as a Switch
- 4-6. The Phototransistor
- 4-7. Transistor Categories and Packaging
- 4-8. Troubleshooting
- Device Application
- 5. Transistor Bias Circuits
- 5-1. The DC Operating Point
- 5-2. Voltage-Divider Bias
- 5-3. Other Bias Methods
- 5-4. Troubleshooting
- Device Application
- 6. BJT Amplifiers
- 6-1. Amplifier Operation
- 6-2. Transistor AC Models
- 6-3. The Common-Emitter Amplifier
- 6-4. The Common-Collector Amplifier
- 6-5. The Common-Base Amplifier
- 6-6. Multistage Amplifiers
- 6-7. The Differential Amplifier
- 6-8. Troubleshooting
- Device Application
- 7. BJT Power Amplifiers
- 7-1. The Class A Power Amplifier
- 7-2. The Class B and Class AB Push-Pull Amplifiers
- 7-3. The Class C Amplifier
- 7-4. Troubleshooting.
- Device Application
- 8. Field-Effect Transistors (FETs)
- 8-1. The JFET
- 8-2. JFET Characteristics and Parameters
- 8-3. JFET Biasing
- 8-4. The Ohmic Region
- 8-5. The MOSFET
- 8-6. MOSFET Characteristics and Parameters
- 8-7. MOSFET Biasing
- 8-8. The IGBT
- 8-9. Troubleshooting
- Device Application
- 9. FET Amplifiers and Switching Circuits
- 9-1. The Common-Source Amplifier
- 9-2. The Common-Drain Amplifier
- 9-3. The Common-Gate Amplifier
- 9-4. The Class D Amplifier
- 9-5. MOSFET Analog Switching
- 9-6. MOSFET Digital Switching
- 9-7. Troubleshooting
- Device Application
- 10. Amplifier Frequency Response
- 10-1. Basic Concepts
- 10-2. The Decibel
- 10-3. Low-Frequency Amplifier Response
- 10-4. High-Frequency Amplifier Response
- 10-5. Total Amplifier Frequency Response
- 10-6. Frequency Response of Multistage Amplifiers
- 10-7. Frequency Response Measurements
- Device Application
- 11. Thyristors
- 11-1. The Four-Layer Diode
- 11-2. The Silicon-Controlled Rectifier (SCR)
- 11-3. SCR Applications
- 11-4. The Diac and Triac
- 11-5. The Silicon-Controlled Switch (SCS)
- 11-6. The Unijunction Transistor (UJT)
- 11-7. The Programmable Unijunction Transistor (PUT)
- Device Application
- 12. The Operational Amplifier
- 12-1. Introduction to Operational Amplifiers
- 12-2. Op-Amp Input Modes and Parameters
- 12-3. Negative Feedback
- 12-4. Op-Amps with Negative Feedback
- 12-5. Effects of Negative Feedback on Op-Amp Impedances
- 12-6. Bias Current and Offset Voltage
- 12-7. Open-Loop Frequency and Phase Responses
- 12-8. Closed-Loop Frequency Response
- 12-9. Troubleshooting
- Device Application
- Programmable Analog Technology
- 13. Basic Op-Amp Circuits
- 13-1. Comparators
- 13-2. Summing Amplifiers
- 13-3. Integrators and Differentiators
- 13-4. Troubleshooting
- Device Application.
- Programmable Analog Technology
- 14. Special-Purpose Integrated Circuits
- 14-1. Instrumentation Amplifiers
- 14-2. Isolation Amplifiers
- 14-3. Operational Transconductance Amplifiers (OTAs)
- 14-4. Log and Antilog Amplifiers
- 14-5. Converters and Other Integrated Circuits
- Device Application
- Programmable Analog Technology
- 15. Active Filters
- 15-1. Basic Filter Responses
- 15-2. Filter Response Characteristics
- 15-3. Active Low-Pass Filters
- 15-4. Active High-Pass Filters
- 15-5. Active Band-Pass Filters
- 15-6. Active Band-Stop Filters
- 15-7. Filter Response Measurements
- Device Application
- Programmable Analog Technology
- 16. Oscillators
- 16-1. The Oscillator
- 16-2. Feedback Oscillators
- 16-3. Oscillators with RC Feedback Circuits
- 16-4. Oscillators with LC Feedback Circuits
- 16-5. Relaxation Oscillators
- 16-6. The 555 Timer as an Oscillator
- Device Application
- Programmable Analog Technology
- 17. Voltage Regulators
- 17-1. Voltage Regulation
- 17-2. Basic Linear Series Regulators
- 17-3. Basic Linear Shunt Regulators
- 17-4. Basic Switching Regulators
- 17-5. Integrated Circuit Voltage Regulators
- 17-6. Integrated Circuit Voltage Regulator Configurations
- Device Application
- 18. Communication Devices and Methods
- 18-1. Basic Receivers
- 18-2. The Linear Multiplier
- 18-3. Amplitude Modulation
- 18-4. The Mixer
- 18-5. AM Demodulation
- 18-6. IF and Audio Amplifiers
- 18-7. Frequency Modulation
- 18-8. The Phase-Locked Loop (PLL)
- 18-9. Fiber Optics
- Answers to Odd-Numbered Problems
- Glossary
- Index.
