Worked examples in basic electronics /

Worked Examples in Basic Electronics.

Détails bibliographiques
Cote:Libro Electrónico
Auteur principal: Crane, P. W.
Format: Électronique eBook
Langue:Inglés
Publié: Oxford ; New York : Pergamon Press, [1967]
Édition:First edition].
Collection:Commonwealth and international library.
Sujets:
Electronics > Problems, exercises, etc.
�Electronique > Probl�emes et exercices.
Electronics
Problems and Exercises
exercise books.
Problems and exercises
Problems and exercises.
Probl�emes et exercices.
Accès en ligne:Texto completo
Table des matières:
  • Front Cover; Worked Examples in Basic Electronics; Copyright Page; Table of Contents; Acknowledgements; Preface; CHAPTER 1. Derivation of Basic Formulae; 1.1. Voltage Amplification Factor of a Resistance- loaded Triode Valve; 1.2. Stage Gain of a Resistance-Capacitance Coupled Voltage Amplifier (Low Audio-frequency Working); 1.3. Stage Gain of a Resistance-Capacitance Coupled Voltage Amplifier (Medium Audio-frequency Working); 1.4. Stage Gain of a Resistance-Capacitance Coupled Voltage Amplifier (High Audio-frequency Working)
  • 1.5. To Show that the Gain-Bandwidth Product is Constant for a Resistance-Capacitance Coupled Pentode Amplifier1.6. Stage Gain of a Transformer-coupled Voltage Amplifier (Low Audio-frequency Working); 1.7. Stage Gain of a Transformer-coupled Voltage Amplifier (Medium Audio-frequency Working); 1.8. Stage Gain of a Transformer-coupled Voltage Amplifier (High Audio-frequency Working); 1.9. Stage Gain of a Tuned Radio-frequency Voltage Amplifier at Resonance; 1.10. Stage Gain of a Transformer-coupled Radio-frequency Voltage Amplifier (Tuned Secondary); 1.11. Miller Effect
  • 1.12. Maximum Theoretical Efficiency of a Transformer-coupled Class A Power Amplifier1.13. Maximum Power Output of a Transformer-coupled Class A Power Amplifier; 1.14. Maximum Undistorted Power Output of a Transformer-coupled Class A Power Amplifier; 1.15. Amplitude Distortion in a Triode; 1.16. Class B Push-Pull Amplifier as a means of Reducing Second Harmonic Distortion; 1.17. Power Output of a Class B Push-Pull Amplifier; 1.18. Efficiency of a Class B Push-Pull Amplifier; 1.19. Cathode Follower; 1.20. Grounded Grid Triode Amplifier; 1.21. Negative Feedback in Amplifiers
  • 1.22. Effect of Negative Feedback on Amplifier Distortion1.23. Tuned Anode Oscillator; 1.24. General Theorem for Tuned Oscillators with no Mutual Coupling; 1.25. Colpitt's Oscillator; 1.26. Wein Bridge Resistance-Capacitance Oscillator; 1.27. Voltage and Current Gains of a Common-base Transistor Amplifier; 1.28. Voltage and Current Gains of a Common-emitter Transistor Amplifier; 1.29. Deflection Sensitivity of an Electrostatic Cathode-ray Tube; CHAPTER 2. Networks and Circuits; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 3. Electron Ballistics; WORKED EXAMPLES; PROBLEMS WITH ANSWERS
  • CHAPTER 4. Valve and Transistor CharacteristicsWORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 5. Low-frequency Amplification; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 6. Radio-frequency Amplification; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 7. Negative Feedback and Cathode Follower; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 8. Oscillators; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 9. Transistors; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 10. Electronics Measurements; WORKED EXAMPLES; PROBLEMS WITH ANSWERS; CHAPTER 11. Transmission Lines; WORKED EXAMPLES

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