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E-Book

E-Book, Englisch, 194 Seiten, Web PDF

Pridham / Hiller Solid-State Circuits

Electrical Engineering Divison
1. Auflage 2013
ISBN: 978-1-4831-3678-3
Verlag: Elsevier Science & Techn.
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Electrical Engineering Divison

E-Book, Englisch, 194 Seiten, Web PDF

ISBN: 978-1-4831-3678-3
Verlag: Elsevier Science & Techn.
Format: PDF
 Kopierschutz: 1 - PDF Watermark

Solid-State Circuits provides an introduction to the theory and practice underlying solid-state circuits, laying particular emphasis on field effect transistors and integrated circuits. Topics range from construction and characteristics of semiconductor devices to rectification and power supplies, low-frequency amplifiers, sine- and square-wave oscillators, and high-frequency effects and circuits. Black-box equivalent circuits of bipolar transistors, physical equivalent circuits of bipolar transistors, and equivalent circuits of field effect transistors are also covered. This volume is divided into three sections comprised of 11 chapters and begins with an introduction to the basic physics of bulk semiconductors, diodes, and transistors, along with the construction and characteristics of devices and integrated circuits. Physics is kept to the minimum necessary for the understanding of devices. Attention then turns to the fundamental use of semiconductors in rectifier, amplifier, and oscillator circuits. The high frequency use of transistors is given consideration, and in all examples designs from device characteristics are included. The remaining chapters focus on the development of equivalent circuits of transistors. This approach highlights the alternating current operation of devices, and some of the more sophisticated circuits using semiconductor devices are demonstrated. This book will be of interest to students and practitioners of electronics and electrical engineering.

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Autoren/Hrsg.

Pridham, G. J.
Hiller, N.

Weitere Infos & Material

1;Front Cover;1
2;Solid-State Circuits;4
3;Copyright Page;5
4;Table of Contents;6
5;Introduction;8
6;List of Symbols;10
7;Chapter 1.
Basic Physical Concepts;12
7.1;1.1. Composition of Matter;12
7.2;1.2. Conduction of Electricity;13
8;Chapter 2.
Semiconductor Devices;19
8.1;2.1. The pn Junction;19
8.2;2.2. The Bipolar Transistor;20
8.3;2.3. The Junction Field Effect Transistor;21
8.4;2.4. The Metal Oxide Semiconductor Transistor;22
9;Chapter 3.
Construction and Characteristics of Semiconductor Devices;24
9.1;3.1. The pn diode;24
9.2;3.2. Voltage Reference Diodes;27
9.3;3.3. Point-contact Diodes;27
9.4;3.4. Bipolar Transistors;28
9.5;3.5. Junction Field Effect Transistors;40
9.6;3.6. Metal Oxide Semiconductor Transistors;44
9.7;3.7. Design Examples on Chapter 3;46
10;CHAPTER 4.
Integrated Circuits;48
10.1;4.1. Types of Integrated Circuits;48
10.2;4.2. Integrated Circuit Production Processes;49
10.3;4.3. Active Circuit Components;54
10.4;4.4. Passive Integrated Circuit Components;59
10.5;4.5. Realization of an Integrated Circuit;62
11;CHAPTER 5.
Rectification and Power Supplies;67
11.1;5.1. Rectifier Circuits;67
11.2;5.2. Smoothing Circuits;71
11.3;5.3. Stabilized Power Supplies;73
11.4;5.4. Design Examples on Chapter 5;74
12;CHAPTER 6.
Low-frequency Amplifiers;78
12.1;6.1. Types of Amplifiers;78
12.2;6.2. Field Effect Transistor Voltage Amplifier;78
12.3;6.3. Bipolar Transistor Current Amplifier;82
12.4;6.4. Bipolar Transistor Voltage Amplifier;87
12.5;6.5. Bipolar Transistor Power Amplifier;88
12.6;6.6. Feedback;94
12.7;6.7. Design Examples on Chapter 6;99
13;CHAPTER 7.
Sine- and Square-wave Oscillators;104
13.1;7.1. Field Effect Transistor RC Oscillator;104
13.2;7.2. Bipolar Transistor RC Oscillator;106
13.3;7.3. Field Effect Transistor Tuned Drain Oscillator;108
13.4;7.4. Bipolar Transistor, Tuned Collector Oscillator;109
13.5;7.5. Field Effect Transistor Astable Multivibrator;111
13.6;7.6. Bipolar Transistor Astable Multivibrator;113
13.7;7.7. Design Examples on Chapter 7;115
14;CHAPTER 8.
High-frequency Effects and Circuits;119
14.1;8.1. Limitations of Field Effect Transistor at High Frequency;119
14.2;8.2. Limitations of Bipolar Transistors at High Frequency;119
14.3;8.3. High-frequency Field Effect Transistor Amplifier;122
14.4;8.4. High-frequency Bipolar Transistor Amplifier;124
14.5;8.5. High-frequency Field Effect Transistor Oscillator;126
14.6;8.6. High-frequency Bipolar Transistor Oscillator;128
14.7;8.7. Design Examples on Chapter 8;130
15;CHAPTER 9.
Black-box Equivalent Circuits of Bipolar Transistors;137
15.1;9.1. Types of Black-box Equivalent Circuits;137
15.2;9.2. The h Equivalent Circuit;138
15.3;9.3. Transistor Circuit Configurations;141
15.4;9.4. The y Equivalent Circuit;149
15.5;9.5. Use of the y Equivalent Circuit;152
16;CHAPTER 10. Physical Equivalent Circuits of Bipolar Transistors;162
16.1;10.1. The T Equivalent Circuit;162
16.2;10.2. Use of the T Equivalent Circuit;166
16.3;10.3. The Hybrid-p Equivalent Circuit;174
16.4;10.4. Use of Hybrid-p Equivalent Circuit;178
17;CHAPTER 11. Equivalent Circuit of Field Effect Transistors;185
17.1;11.1. The Field Effect Transistor Equivalent Circuit;185
17.2;11.2. Field Effect Transistor Circuit Configurations;186
17.3;11.3. Further Applications of the Equivalent Circuit;189
18;Index;194

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