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Index
Cover
Table of Contents
Title
Copyright
Preface
Introduction
1 Diodes and Applications
1.1. Semiconductor physics and current transport in pn diodes
1.2. Simplified models of the pn diode
1.3. Diode circuitry (reviewed in exercises)
1.4. Detailed model of pn diode: variable conditions and effect of temperature
1.5. Different types of diode and their functions
1.6. Exercises
2 Bipolar Junction Transistors and Applications
2.1. The transistor effect
2.2. Bipolar junction transistor (or BJT) models and types
2.3. Bipolar junction transistor in static regimes and applications of the exponential characteristic Ic(VBE)
2.4. Small-signal dynamic circuits (linear approximation)
2.5. Power amplification: classes of amplification
2.6. Bipolar transistor switching on resistive loads
2.7. Components based on the pnpn structure
2.8. Phototransistors and optically controlled components
2.9. Exercises
3 Field Effect Transistors and Applications
3.1. Operating principle of junction field effect transistors (JFET and MESFET types)
3.2. Metal oxide semiconductor field effect transistors
3.3. Types of field effect transistors and equivalent circuits
3.4. Applications of field effect transistors
3.5. Exercises
4 Amplifiers, Comparators and Other Analog Circuits
4.1. Operational amplifiers, operating principle and types
4.2. Operational amplifier models and responses
4.3. Comparators
4.4. Noise in amplifiers
4.5. Analog integrated circuits
4.6. Exercises
Appendix: Electrical Circuits
A.1. Laws of electrokinetics for linear passive elements
A.2. Definition of passive elements
A.3. Ideal sources
A.4. Conservation laws
A.5. Number of state variables and independent equations in an isolated network
A.6. Useful theorems
A.7. Circuits in non-steady state
A.8. Example of sinusoidal regime in an RLC circuit
A.9. Conclusion
Bibliography
Index
End User License Agreement
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