Handbook of simplified solid-state circuit desing /

By:

John D. Lenk

Publication details: HallEdition: 2Description: 429 páginas Ilustraciones, Tablas y Gráficas 22.5 cm x 15 cmISBN:

0133817075

Contents:

PREFACE chapter one BASIC DESIGN RULES 1-1. How to use this book 1-2. Interpreting datasheets 1-3. Determining parameters at different frequencies 1-4. Temperature-related design problems 1-5. Using load lines in simplified design 1-6. Basic bias schemes 1-7. Practical design techniques 1-8. Practical transistor mounting techniques chapter two AUDIO AMPLIFIERS 2-1. Basic audio amplifiers 2-2. Basic audio amplifier with emitter bypass 2-3. Basic audio amplifier with partially bypassed emitter 2-4. Direct coupled voltage amplifier 2-5. Transformerless multistage audio amplifiers 2-6. Examples of transformerless direct-coupled audio amplifiers 2-7. Complementary power amplifiers with short-circuit protection 2-8. Multistage audio amplifier with transformer coupling 2-9. Operating and adjustment controls 2-10. Audio filters 2-11. Audio circuit test procedures 2-12. Frequency response of audio circuits 2-13. Analyzing design problems with test results chapter three OPERATIONAL AMPLIFIERS WITH INTEGRATED CIRCUITS 3-1. Basic IC operational amplifier 3-2. Design considerations for frequency response and gain 3-3. Interpreting IC data sheets 3-4. Integrated-circuit operational amplifier 3-5. Integrated-circuit summing amplifier 3-6. Integrated-circuit integration amplifier 3-7. Integrated-circuit differentiation amplifier 3-8. Integrated-circuit narrow bandpass amplifier 3-9. Integrated-circuit wide bandpass amplifier 3-10. Integrated-circuit unity gain amplifier 3-11. Unity gain with fast response 3-12. Integrated-circuit high input impedance amplifier 3-13. Integrated-circuit difference amplifier 3-14. Integrated-circuit voltage-to-current converter 3-15. Integrated-circuit voltage-to-voltage amplifier 3-16. Integrated-circuit low-frequency sine-wave generator 3-17. Operational amplifier test procedures chapter four RADIO-FREQUENCY CIRCUITS 4-1. Resonant circuits 4-2. Basic RF amplifier design approaches 4-3. Power amplifiers and multipliers 4-4. Using datasheet graphs to design RF amplifier networks 4-5. Using sampled y-parameter techniques to design RF networks 4-6. Voltage amplifiers 4-7. Frequency mixers and converters 4-8. Detectors 4-9. Discriminator and ratio detector 4-10. AVC-AGC circuit 4-11. Radio-frequency circuit test procedures chapter five WAVEFORMING AND WAVESHAPING CIRCUITS 5-1. Basic design considerations for oscillators 5-2. LC and crystal-controlled oscillators 5-3. RC oscillator 5-4. Twin-T RC oscillator 5-5. Blocking oscillator 5-6. Multivibrator 5-7. Modification of square waves 5-8. Modification of sine waves 5-9. Waveforming and waveshaping test procedures chapter six POWER-SUPPLY CIRCUITS 6-1. Basic solid-state power supply 6-2. Zener diode regulation 6-3. Extending Zener voltage range 6-4. Extending Zener current range 6-5. Overload protection 6-6. Feedback regulator 6-7. Feedback regulator for input voltage variations 6-8. Switching regulator 6-9. DC-DC converter 6-10. Power-supply circuit test procedures

Summary: This second edition of the HANDBOOK OF SIMPLIFIED SOLID-STATE CIRCUIT DESIGN carries through all of the features that made the first edition so successful. That is, the second edition provides a simplified, step-by-step approach to solid-state circuit design. All the chapters in the second edition have been expanded or enlarged to include new material. Existing data has been up-dated to reflect current design trends. Also, much of the existing material from the first edition has been revised for clarification and/or simplification. No previous design experience is required to use the design data and techniques described in this second edition. As in the original, the basic approach of the second edition is to start all design problems with approximations or rules-of-thumb for the selection of components on a trial value basis, assuming a specific design goal and a given set of conditions. Then, using these approximate values in experimental test circuits, the desired results (gain, frequency response, impedance match, etc.) are produced by varying the test component values. The second edition concentrates on simple, practical approaches to circuit design, not on circuit analysis or model circuits. Theory is kept to a minimum, and appears only where required to understand the design steps. Thus, the reader need not memorize elaborate theories or understand abstract mathe-matics to use the design data. With any solid-state circuit, it is possible to apply certain guidelines for the selection of component values. These rules can be stated in basic equations, requiring only simple arithmetic for their solution.

Holdings
Cover image	Item type	Current library	Collection	Call number	Copy number	Status	Date due	Barcode
	Libro	CI Gustavo A. Madero 2 Sala General	Colección General	LCC	1	Available
	Libro	CI Gustavo A. Madero 2 Sala General	Colección General	LCC	2	Available

Incluye Referencias Bibliográficas

PREFACE

chapter one

BASIC DESIGN RULES

1-1. How to use this book

1-2. Interpreting datasheets

1-3. Determining parameters at different frequencies

1-4. Temperature-related design problems

1-5. Using load lines in simplified design

1-6. Basic bias schemes

1-7. Practical design techniques

1-8. Practical transistor mounting techniques

chapter two

AUDIO AMPLIFIERS

2-1. Basic audio amplifiers

2-2. Basic audio amplifier with emitter bypass

2-3. Basic audio amplifier with partially bypassed emitter

2-4. Direct coupled voltage amplifier

2-5. Transformerless multistage audio amplifiers

2-6. Examples of transformerless direct-coupled audio amplifiers

2-7. Complementary power amplifiers with short-circuit protection

2-8. Multistage audio amplifier with transformer coupling

2-9. Operating and adjustment controls

2-10. Audio filters

2-11. Audio circuit test procedures

2-12. Frequency response of audio circuits

2-13. Analyzing design problems with test results

chapter three

OPERATIONAL AMPLIFIERS WITH INTEGRATED CIRCUITS

3-1. Basic IC operational amplifier

3-2. Design considerations for frequency response and gain

3-3. Interpreting IC data sheets

3-4. Integrated-circuit operational amplifier

3-5. Integrated-circuit summing amplifier

3-6. Integrated-circuit integration amplifier

3-7. Integrated-circuit differentiation amplifier

3-8. Integrated-circuit narrow bandpass amplifier

3-9. Integrated-circuit wide bandpass amplifier

3-10. Integrated-circuit unity gain amplifier

3-11. Unity gain with fast response

3-12. Integrated-circuit high input impedance amplifier

3-13. Integrated-circuit difference amplifier

3-14. Integrated-circuit voltage-to-current converter 3-15. Integrated-circuit voltage-to-voltage amplifier

3-16. Integrated-circuit low-frequency sine-wave generator

3-17. Operational amplifier test procedures

chapter four

RADIO-FREQUENCY CIRCUITS

4-1. Resonant circuits

4-2. Basic RF amplifier design approaches

4-3. Power amplifiers and multipliers

4-4. Using datasheet graphs to design RF amplifier networks

4-5. Using sampled y-parameter techniques to design RF networks

4-6. Voltage amplifiers

4-7. Frequency mixers and converters

4-8. Detectors

4-9. Discriminator and ratio detector

4-10. AVC-AGC circuit

4-11. Radio-frequency circuit test procedures

chapter five

WAVEFORMING AND WAVESHAPING CIRCUITS

5-1. Basic design considerations for oscillators

5-2. LC and crystal-controlled oscillators

5-3. RC oscillator

5-4. Twin-T RC oscillator

5-5. Blocking oscillator

5-6. Multivibrator

5-7. Modification of square waves

5-8. Modification of sine waves

5-9. Waveforming and waveshaping test procedures

chapter six

POWER-SUPPLY CIRCUITS

6-1. Basic solid-state power supply

6-2. Zener diode regulation

6-3. Extending Zener voltage range

6-4. Extending Zener current range

6-5. Overload protection

6-6. Feedback regulator

6-7. Feedback regulator for input voltage variations

6-8. Switching regulator

6-9. DC-DC converter

6-10. Power-supply circuit test procedures

This second edition of the HANDBOOK OF SIMPLIFIED SOLID-STATE CIRCUIT DESIGN carries through all of the features that made the first edition so successful. That is, the second edition provides a simplified, step-by-step approach to solid-state circuit design. All the chapters in the second edition have been expanded or enlarged to include new material. Existing data has been up-dated to reflect current design trends. Also, much of the existing material from the first edition has been revised for clarification and/or simplification. No previous design experience is required to use the design data and techniques described in this second edition.

As in the original, the basic approach of the second edition is to start all design problems with approximations or rules-of-thumb for the selection of components on a trial value basis, assuming a specific design goal and a given set of conditions. Then, using these approximate values in experimental test circuits, the desired results (gain, frequency response, impedance match, etc.) are produced by varying the test component values.

The second edition concentrates on simple, practical approaches to circuit design, not on circuit analysis or model circuits. Theory is kept to a minimum, and appears only where required to understand the design steps. Thus, the reader need not memorize elaborate theories or understand abstract mathe-matics to use the design data. With any solid-state circuit, it is possible to apply certain guidelines for the selection of component values. These rules can be stated in basic equations, requiring only simple arithmetic for their solution.

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