Electronics from theory into practice. Volume 2, Operational amplifiers, oscillators and digital techniques /

Electronics - From Theory into Practice, Second Edition, Volume 2: Operational Amplifiers, Oscillators and Digital Techniques is part of a series of publications that tackles concerns in integrating electronics theory with practical application. The text first covers negative feedback amplifiers, al...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Fisher, J. E. (Jack Edward) (Autor), Gatland, H. B. (Howard Bruce) (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford : Pergamon Press, 1976.
Edición:Second edition.
Colección:Applied electricity & electronics division.
Pergamon international library of science, technology, engineering, and social studies.
Temas:
Electronics.
�Electronique.
electronic engineering.
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Operational Amplifiers, Oscillators and Digital Techniques; Copyright Page; Table of Contents; Preface to Volume 2; Design Examples; Chapter 6. Negative Feedback Amplifiers; 6.1. Introduction; 6.2. Feedback Connections; 6.3. Examples of Series-Parallel Feedback Systems; 6.4. Applications of Parallel-Series Feedback; 6.5. Examples of Parallel-Parallel Feedback; 6.6. Example of Series-Series Feedback; 6.7. Instrumentation using Feedback Amplifiers; 6.8. Low-input Resistance Amplifier; 6.9. Automatic Zeroing; 6.10. Stabilization against Oscillation.
  • 6.11. Active Resistor-Capacitor FiltersChapter 7. Power Supplies; Introduction; 7.1. The Basic Rectifier; 7.2. The Full-wave Rectifier; 7.3. Effect of Load Capacitance; 7.4. L-C Smoothing Filter; 7.5. Choke Input Filter; 7.6. Voltage Multipliers; 7.7. Voltage Stabilization; 7.8. Semiconductor Stabilizer Diodes; 7.9. Emitter Follower as a Voltage Stabilizer; 7.10. Closed-loop System; 7.11. Current Limitation; 7.12. Application of Operational Amplifiers as Voltage Regulators; 7.13. Fully Integrated Regulators; Chapter 8. Oscillators; Introduction.
  • 8.1. Sinusoidal Oscillators-Basic Considerations8.2. Negative Resistance; 8.3. Amplitude Stabilization; 8.4. Survey of Feedback L-C Oscillators; 8.5. The Tuned Drain Oscillator; 8.6. Colpitts Oscillator using a Bipolar Transistor; 8.7. Resistance-Capacitance Oscillators; 8.8. Wien Bridge Oscillator; 8.9. Closed-loop Level Control; 8.10. Frequency Stability; 8.11. The Series Resonant Oscillator; Chapter 9. Waveform Generators; Introduction; 9.1. Multivibrators-General Survey of the Three Types; 9.2. Transistor Switching; 9.3. Speed of Transistor Switching; 9.4. Bistable Multivibrator.
  • 9.5. Triggering9.6. Alternative Gating Methods; 9.7. Emitter-coupled BMV; 9.8. Symmetrical Trigger BMV; 9.9. Complementary Bistable Networks; 9.10. Integrated Circuit Bistables; 9.11. Monostable Multivibrators; 9.12. The Direct Coupled MMV; 9.13. Asymmetrical MMV; 9.14. Integrated Circuit MMV; 9.15. Astable Multivibrators; 9.16. Emitter-coupled AMV; 9.17. Complementary AMV; 9.18. Integrated Circuit AMV; 9.19. Voltage-controlled AMV; 9.20. Pulse Generators; 9.21. Linear Sweep Generators; 9.22. Use of a Constant-current Generator; 9.23. Sawtooth Generator using Avalanche Switching.
  • 9.24. Miller Timebase Generator9.25. Reduction of Recovery Time; 9.26. Integrated Circuit Waveform Generator/VCO; Chapter 10. Digital Techniques; Introduction ; 10.1. Interface Elements; 10.2. Basic Combinational Logic Elements; 10.3. Basic Identities for Logic Variables; 10.4. Example-Data Handling; 10.5. Exclusive OR; 10.6. NAND Bistable; 10.7. Examples; 10.8. Clocked Bistable; 10.9. Delta Modulator; 10.10. Master-Slave JK Bistable; 10.11. Flip-flop Binary Counters; 10.12. Decoding; 10.13. Decade Counter; 10.14. Counter Applications; Chapter 11. Some General Design Considerations.

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