Operational amplifier circuits /
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
London :
Heinemann,
[1987, 1986]
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Operational Amplifier Circuits; Copyright Page; Table of Contents; PREFACE; INTRODUCTION; CHAPTER 1. INVERTING AND NON-INVERTING AMPLIFIERS; 1.1 Characteristics of an ideal operational amplifier ; 1.2 Definitions ; 1.3 Circuit symbols for differential operational amplifiers; 1.4 Basic practical operational amplifier configurations: the inverting amplifier; 1.5 Review of ideal inverting operational amplifier characteristics; 1.6 Ideal non-inverting amplifier ; 1.7 Summary of some practical operational amplifier parameters
- 1.8 Differential amplifier circuits using operational amplifiers 1.9 Summing inverter ; 1.10 The real operational amplifier (introduction) ; 1.11 Additional operational amplifier configurations ; 1.12 Worked examples on multi-input configurations; 1.13 Practical operational amplifier packages; 1.14 Important review points; 1.15 Superposition theorem; 1.16 Nodal analysis; 1.17 Additional examples; CHAPTER 2. FREQUENCY RESPONSE, SLEW RATE AND BANDWIDTH; 2.1 Frequency response of the operational amplifier (introduction)
- 2.2 Operational amplifier: input signal variations (introduction)2.3 Bode approximations (introduction); 2.4 Bode approximation: multistage amplifier; 2.5 Rise time; 2.6 Small signal bandwidth; 2.7 Open loop/closed loop relationship for non-inverting amplifier circuits; 2.8 Slew rate; 2.9 Slew rate limiting of sine waves; 2.10 Full power bandwidth (large signal bandwidth); 2.11 Slew rate limiting of square wave input; 2.12 Slew rate limiting of triangular wave input; 2.13 Worked examples; 2.14 Important review points; 2.15 Problems for readers; CHAPTER 3. WAVEFORM GENERATORS; 3.1 Introduction
- 3.2 Square wave generator3.3 Basic principles of a bistable npn transistor multivibrator; 3.4 Operational amplifier as a free-running symmetrical multivibrator; 3.5 Ramp-generator theory; 3.6 Basic triangular wave generator circuit; 3.7 Triangular wave generator circuit; 3.8 Sawtooth wave generator; 3.9 Introduction to sine wave generators (oscillators); 3.10 Oscillators; 3.11 Wien bridge oscillator; 3.12 Additional worked examples; 3.13 Important review points; 3.14 Problems for readers; CHAPTER 4. POWER AMPLIFIERS AND POWER SUPPLIES; 4.1 Amplifier classification (introduction)
- 4.2 Ideal Class A direct-coupled stage4.3 Ideal Class A transformer-coupled output stage; 4.4 Ideal Class B transformer-coupled output stage; 4.5 Push-pull Class B power amplifier; 4.6 Crossover distortion; 4.7 Transistor power relationships for ideal push-pull amplifier circuit; 4.8 Disadvantages of a transformer as a phase splitter; 4.9 Complementary symmetry amplifier; 4.10 Development of a power amplifier using an operational amplifier; 4.11 Bridge amplifiers; 4.12 Integrated circuit power amplifiers; 4.13 Discrete power output stage