Electronic circuit design and application / / Stephan J. G. Gift and Brent Maundy
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| Autore: |
Gift Stephan J. G.
|
| Titolo: |
Electronic circuit design and application / / Stephan J. G. Gift and Brent Maundy
|
| Pubblicazione: | Cham, Switzerland : , : Springer, , [2022] |
| ©2022 | |
| Edizione: | Second edition. |
| Descrizione fisica: | 1 online resource (676 pages) |
| Disciplina: | 621.3815 |
| Soggetto topico: | Electronic circuits - Computer simulation |
| Electronic circuit design - Computer programs | |
| Embedded computer systems | |
| Persona (resp. second.): | MaundyBrent |
| Nota di bibliografia: | Includes bibliographical references and index. |
| Nota di contenuto: | Intro -- Preface to the First Edition -- Text Philosophy -- Text Features -- Text Overview -- Closing Remarks -- Preface to the Second Edition -- Acknowledgments -- Contents -- About the Authors -- Chapter 1: Semiconductor Diode -- 1.1 Theory of Semiconductors -- 1.1.1 Energy Levels -- 1.1.2 Intrinsic (Pure) Semiconductor -- 1.1.3 Extrinsic (Impure) Semiconductor -- 1.1.3.1 n-Type Material -- 1.1.3.2 p-Type Material -- 1.2 Current Flow in Semiconductor Diodes -- 1.2.1 Zero Bias -- 1.2.2 Reverse-Biased Diode -- 1.2.3 Forward-Biased Diode -- 1.3 General Characteristic of a Diode -- 1.3.1 Breakdown Region -- 1.3.2 Diode Specifications -- 1.4 Diode Types -- 1.4.1 Zener Diodes -- 1.4.2 Signal Diodes -- 1.4.3 Power Diodes -- 1.4.4 Varactor Diodes -- 1.4.5 Light-Emitting Diodes -- 1.4.6 Photodiodes -- 1.4.7 PIN Diodes -- 1.4.8 Schottky Diodes -- 1.5 Diode Circuits -- 1.5.1 DC Circuits -- 1.5.2 Clippers -- 1.5.3 Clampers -- 1.5.4 Half-Wave Rectifier -- 1.5.5 Full-Wave Rectifier -- 1.5.6 Bridge Rectifier -- 1.5.7 Zener Diode Regulators -- 1.5.7.1 Fixed Supply Voltage and Variable Load -- 1.5.7.2 Variable Supply Voltage and Fixed Load -- 1.5.7.3 Variable Supply Voltage and Load -- 1.6 Applications -- 1.6.1 1.3V Supply from 5V -- 1.6.2 9V Supply from 12V -- 1.6.3 Battery Charger -- 1.6.4 Polarity Indicator -- 1.6.5 Light Meter -- 1.6.6 Blown Fuse Indicator -- 1.6.7 Diode Tester -- 1.6.8 Emergency Phone-Line Light -- 1.6.9 Phone Alert -- 1.6.10 Lead-Acid Battery Monitor -- 1.6.11 Zener Diode Regulator Using a Voltage Doubler -- 1.6.12 Regulated Supply Using the TL431A -- 1.6.13 Research Project 1 -- 1.6.14 Research Project 2 -- Bibliography -- Chapter 2: Bipolar Junction Transistor -- 2.1 Transistor Construction and Operation -- 2.2 Transistor Configurations -- 2.2.1 Common Emitter Configuration -- 2.2.1.1 Common Emitter Input Characteristic. |
| 2.2.1.2 Common Emitter Transfer Characteristic -- 2.2.1.3 Common Emitter Mutual Characteristic -- 2.2.1.4 Common Emitter Output Characteristics -- 2.2.2 Common Base Configuration -- 2.2.2.1 Common Base Input Characteristics -- 2.2.2.2 Common Base Transfer Characteristic -- 2.2.2.3 Common Base Mutual Characteristic -- 2.2.2.4 Common Base Output Characteristics -- 2.2.3 Common Collector Configuration -- 2.2.3.1 Common Collector Transfer Characteristic -- 2.2.3.2 Common Collector Output Characteristics -- 2.3 Common Emitter Amplifier -- 2.3.1 Transistor Amplifying Action -- 2.3.2 Fixed Biasing -- 2.3.3 Amplification -- 2.3.4 Circuit Analysis -- 2.4 Alternative Biasing Methods -- 2.4.1 Voltage Divider Biasing -- 2.4.2 Current Feedback Biasing -- 2.4.3 Biasing Using a Bipolar Supply -- 2.5 Common Base Amplifier -- 2.5.1 Voltage Divider Biasing -- 2.5.2 Constant Current or Fixed Bias -- 2.5.3 Biasing Using a Bipolar Supply -- 2.6 Common Collector Amplifier -- 2.6.1 Voltage Divider Biasing -- 2.6.2 Constant Current or Fixed Biasing -- 2.6.3 Biasing Using a Bipolar Supply -- 2.7 Transistor Operating Limits and Specifications -- 2.8 Applications -- 2.8.1 Microphone Preamplifier 1 -- 2.8.2 Microphone Preamplifier 2 -- 2.8.3 Speaker Protection Circuit -- 2.8.4 Bench Power Supply -- 2.8.5 Electronic Fuse -- 2.8.6 Blown Fuse Indicator -- 2.8.7 Telephone Monitor -- 2.8.8 Audio Mixer -- 2.8.9 Power Zener Diode -- 2.8.10 Adjustable Zener Diode -- 2.8.11 Diode Tester -- 2.8.12 Dry Soil Indicator -- 2.8.13 Lie Detector -- 2.8.14 Research Project 1 -- 2.8.15 Research Project 2 -- Bibliography -- Chapter 3: Field-Effect Transistor -- 3.1 Operation of JFET -- 3.2 JFET Characteristics -- 3.3 JFET Parameters -- 3.4 Using the JFET as an Amplifier -- 3.4.1 Common Source Configuration -- 3.4.1.1 Fixed-Bias Configuration -- 3.4.1.2 Self-Bias -- 3.4.1.3 Voltage Divider Biasing. | |
| 3.4.1.4 Biasing Using Bipolar Supply -- 3.4.2 Common Drain Configuration -- 3.4.2.1 Biasing Using Bipolar Supply -- 3.4.3 Common Gate Configuration -- 3.4.3.1 Biasing Using Bipolar Supply -- 3.5 MOSFET -- 3.5.1 Depletion-Type MOSFET -- 3.5.2 Enhancement-Type MOSFET -- 3.5.3 MOSFET Parameters -- 3.6 MOSFET Amplifiers -- 3.6.1 Depletion-Type MOSFET Common Source Amplifier -- 3.6.2 Depletion-Type MOSFET Common Drain Amplifier -- 3.6.3 Depletion-Type MOSFET Common Gate Amplifier -- 3.6.4 Enhancement-Type MOSFET Common Source Amplifier -- 3.6.5 Enhancement-Type MOSFET Common Drain Amplifier -- 3.6.6 Enhancement-Type MOSFET Common Gate Amplifier -- 3.7 Applications -- 3.7.1 Headphone Amplifier -- 3.7.2 JFET Preamplifier -- 3.7.3 Crystal Microphone Lead Extender -- 3.7.4 JFET DC Voltmeter -- 3.7.5 JFET AC Voltmeter -- 3.7.6 MOSFET Amplifier -- 3.7.7 DC Motor Speed Controller -- 3.7.8 Light Dimmer -- 3.7.9 Adjustable Timer -- 3.7.10 Research Project 1 -- 3.7.11 Research Project 2 -- 3.7.12 Research Project 3 -- Bibliography -- Chapter 4: BJT and FET Models -- 4.1 h-Parameters and the BJT -- 4.2 Analysis of a Common Emitter Amplifier Using h-Parameters -- 4.2.1 Common Emitter Amplifier with Partial Decoupling -- 4.2.1.1 Bootstrapping -- 4.2.1.2 Alternative Amplifier Configuration -- 4.2.2 Common Emitter Amplifier with Collector-Base Feedback Bias -- 4.3 Analysis of the Common Collector Amplifier Using h-Parameters -- 4.3.1 Bootstrapping -- 4.4 Analysis of the CB Amplifier Using h-Parameters -- 4.5 y-Parameters and the FET -- 4.6 Analysis of the Common-Source JFET Amplifier -- 4.7 Analysis of the Common-Drain JFET Amplifier -- 4.8 Analysis of the Common-Gate JFET Amplifier -- 4.9 Depletion MOSFET Common-Source Amplifier -- 4.10 Depletion MOSFET Common-Drain Amplifier -- 4.11 Depletion MOSFET Common-Gate Amplifier. | |
| 4.12 Enhancement MOSFET Common-Source Amplifier -- 4.13 Enhancement MOSFET Common-Drain Amplifier -- 4.14 Enhancement MOSFET Common-Gate Amplifier -- 4.15 Applications -- 4.15.1 Linear AC Voltmeter -- 4.15.2 Audio Mixer -- 4.15.3 Bootstrapped Source Follower Using a JFET -- 4.15.4 Bootstrapped Source Follower Using a MOSFET -- 4.15.5 Research Project 1 -- 4.15.6 Research Project 2 -- Bibliography -- Chapter 5: Multiple Transistor and Special Circuits -- 5.1 Cascaded Amplifiers -- 5.1.1 Direct Coupled High-Gain Configurations -- 5.1.1.1 Bootstrapping -- 5.2 Darlington Pair -- 5.2.1 Darlington Pair in Common Collector Configuration -- 5.3 Feedback Pair -- 5.3.1 Feedback Pair in Emitter Follower Configuration -- 5.4 Current Sources -- 5.4.1 BJT Current Source 1 -- 5.4.2 BJT Current Source 2 -- 5.4.3 BJT Current Source 3 -- 5.4.4 JFET Current Source 1 -- 5.4.5 JFET Current Source 2 -- 5.5 Current Mirror -- 5.6 VBE Multiplier -- 5.7 Cascode Amplifier -- 5.8 Improved Emitter Follower -- 5.9 Differential Amplifier -- 5.10 BJT Switch -- 5.10.1 BJT Device Switching -- 5.10.2 BJT Switching Applications -- 5.11 FET Switch -- 5.11.1 JFET Switch -- 5.11.2 MOSFET Switch -- 5.12 Voltage-Controlled Resistor -- 5.13 Applications -- 5.13.1 Microphone Preamplifier 1 -- 5.13.2 Microphone Preamplifier 2 -- 5.13.3 Logic Probe -- 5.13.4 Telephone Use Indicator -- 5.13.5 FET Cascode Amplifier -- 5.13.6 BJT Cascode Amplifier -- 5.13.7 Touch-Sensitive Indicator -- 5.13.8 Electromagnetic Field Detector -- 5.13.9 Nickel-Cadmium Battery Charger -- 5.13.10 Audio Level Meter -- 5.13.11 Speaker to Microphone Converter -- 5.13.12 Sound to Light Converter -- 5.13.13 Low Drift DC Voltmeter -- 5.13.14 AC Millivoltmeter -- 5.13.15 High-Power Zener Diode -- 5.13.16 Improved Audio Mixer -- 5.13.17 Research Project 1 -- 5.13.18 Research Project 2 -- Bibliography. | |
| Chapter 6: Frequency Response of Transistor Amplifiers -- 6.1 BJT Low-Frequency Response -- 6.1.1 Input Coupling Capacitor -- 6.1.2 Output Coupling Capacitor -- 6.1.3 Emitter Bypass Capacitor -- 6.2 FET Low-Frequency Response -- 6.3 Hybrid-Pi Equivalent Circuit -- 6.3.1 Single Pole Transfer Function -- 6.4 Miller Effect -- 6.5 Common Emitter Amplifier -- 6.6 Common Emitter Amplifier with Local Series Feedback -- 6.7 Common Emitter Amplifier with Local Shunt Feedback -- 6.8 High-Frequency Response of the Cascode Amplifier -- 6.9 High-Frequency Response of the Common Base Amplifier -- 6.10 High-Frequency Response of the Common Collector Amplifier -- 6.11 High-Frequency Response of a Common Source FET Amplifier -- 6.12 High-Frequency Response of a Common Gate FET Amplifier -- 6.13 High-Frequency Response of a Common Drain FET Amplifier -- 6.14 High-Frequency Response of Multistage Amplifiers -- 6.15 Applications -- 6.15.1 Direct Coupled Ring-of-Three -- 6.15.2 Common Emitter Amplifier with Local Series Feedback -- 6.15.3 Common Emitter Amplifier with Local Shunt Feedback -- 6.15.4 Cascode Amplifier Using BJTs -- 6.15.5 Cascode Amplifier Using BJT and JFET -- Bibliography -- Chapter 7: Feedback Amplifiers -- 7.1 Classification of Amplifiers -- 7.1.1 Voltage Amplifier -- 7.1.2 Current Amplifier -- 7.1.3 Transconductance Amplifier -- 7.1.4 Trans-resistance Amplifier -- 7.2 Feedback Amplifier Topologies -- 7.2.1 Voltage-Series Feedback -- 7.2.2 Voltage-Shunt Feedback -- 7.2.3 Current-Series Feedback -- 7.2.4 Current-Shunt Feedback -- 7.3 Transfer Gain with Feedback -- 7.4 Gain Stabilization Using Negative Feedback -- 7.5 Increase in Bandwidth Using Negative Feedback -- 7.6 Feedback and Harmonic Distortion -- 7.7 Input Resistance -- 7.7.1 Voltage-Series Feedback -- 7.7.2 Voltage-Shunt Feedback -- 7.7.3 Current-Series Feedback -- 7.7.4 Current-Shunt Feedback. | |
| 7.8 Output Resistance. | |
| Titolo autorizzato: | Electronic Circuit Design and Application |
| ISBN: | 3-030-79375-3 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910523888003321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |