Electronics Circuits Amplifiers and Gates 2nd Edition by David Bugg ISBN 0750310375 9780750310376
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Product details:
ISBN 10: 0750310375
ISBN 13: 9780750310376
Author: David Bugg
Introduced more than a decade ago, the first edition of D.V. Bugg’s Electronics: Circuits, Amplifiers and Gates became widely popular for its comprehensive yet concise coverage of all the major introductory topics in electronics. Today, semiconductor chips and integrated circuits are used universally. This second edition was revised and streamlined to focus on the basic principles required to apply this extensive technology.
Electronics: Circuits, Amplifiers and Gates, Second Edition offers a complete introduction to the fundamentals of AC and DC circuits along with complex numbers, bandwidth, and operational amplifiers. It includes a description of the working principles of transistors, outlining doping and the operation of the diode, bipolar transistor, and field effect transistor. The book also features a section on digital logic and concludes with more advanced chapters describing resonance and transients and their relation through Fourier analysis.
Updated to reflect advances in the field over the past decade, Electronics: Circuits, Amplifiers and Gates, Second Edition is fully illustrated throughout with numerous worked examples and sample problems.
Table of contents:
1. VOLTAGE, CURRENT AND RESISTANCE
1.1 Basic Notions
1.2 Waveforms
1.3 Ohm’s Law
1.4 Diodes
1.5 Kirchhoff’s Laws
1.6 Node Voltages
1.7 EARTHS
1.8 Superposition
1.9 Summary
2. THEVENIN AND NORTON
2.1 Thevenin’s Theorem
2.2 How to Measure VEQ and REQ
2.3 Current Sources
2.4 Norton’s Theorem
2.5 General Remarks on Thevenin’s Theorem and Norton’s
2.6 Matching
2.7 Amplifiers
2.8 Systems
2.9 Summary
3. CAPACITANCE
3.1 Charge and Capacitance
3.2 Energy Stored in a Capacitor
3.3 The Effect of a Dielectric
3.4 Capacitors in Parallel
3.5 Capacitors in Series
3.6 The CR Transient
3.7 AC Coupling and Baseline Shift
3.8 Stray Capacitance
3.9 Integration and Differentiation
3.10 Thevenin’s Theorem Again
3.11 Summary
4. ALTERNATING CURRENT (AC): BANDWIDTH
4.1 Introduction
4.2 Power in a Resistor: RMS Quantities
4.3 Phase Relations
4.4 Response of a Capacitor to AC
4.5 Simple Filter Circuits
4.6 Power Factor
4.7 Amplifiers
4.8 Bandwidth
4.9 Noise and Bandwidth
4.10 Summary
5. INDUCTANCE
5.1 Faraday’s Law
5.2 Self-inductance
5.3 LR Transient
5.4 Energy Stored in an Inductor
5.5 Stray Inductance
5.6 Response of an Inductor to Alternating Current
5.7 Phasors
5.8 Summary
6. COMPLEX NUMBERS: IMPEDANCE
6.1 Complex Numbers
6.2 AC Voltages and Currents
6.3 Inductance
6.4 Summary on Impedance
6.5 Impedances in Series
6.6 Impedances in Parallel
6.7 Power
6.8 Bridges
7. OPERATIONAL AMPLIFIERS AND NEGATIVE FEEDBACK
7.1 Introduction
7.2 Series Voltage Feedback
7.3 Approximations in Voltage Feedback
7.4 Shunt Feedback
7.5 The Analogue Adder
7.6 The Differential Amplifier
7.7 Gain-Bandwidth Product
7.8 Offset Voltage and Bias Current
7.9 Complex Feedback Loops
7.10 Impedance Transformation
7.11 Input and Output Impedances with Feedback
7.12 Stabilised Current Supplies
7.13 Input Impedance with Shunt Feedback
7.14 Oscillation
8. INTEGRATION AND DIFFERENTIATION
8.1 Integration
8.2 The Miller Effect
8.3 Compensation
8.4 Differentiation
8.5 The Charge Sensitive Amplifier
9. THE DIODE AND THE BIPOLAR TRANSISTOR
9.1 Conductors
9.2 Semiconductors and Doping
9.3 The pn Junction Diode
9.4 The Diode as a Switch
9.5 The npn Bipolar Transistor
9.6 Simple Transistor Circuits
9.7 Voltage Amplification
9.8 Biasing
10. THE FIELD EFFECT TRANSISTOR (FET)
10.1 Gate Action
10.2 Simple FET Amplifiers
10.3 MOSFETs
10.4 Fabrication of Transistors and Integrated Circuits
10.5 CMOS
11. EQUIVALENT CIRCUITS FOR DIODES AND TRANSISTORS
11.1 Introduction: The Diode
11.2 An Equivalent Circuit for the Bipolar Transistor
11.3 The Hybrid-p Equivalent Circuit
11.4 The FET
11.5 The Common Emitter Amplifier
11.6 Performance of the Common Emitter Amplifier
11.7 Emitter Follower
11.8 FETs
12. GATES
12.1 Introduction
12.2 Logic Combinations of A and B
12.3 Boolean Algebra
12.4 De Morgan’s Theorems
12.5 The Full Adder
12.6 The Karnaugh Map
12.7 Don’t Care or Can’t Happen Conditions
12.8 Products of Karnaugh Maps
12.9 Products of Sums
12.10 Use of NOR and NAND Gates
12.11 Decoders and Encoders
12.12 Multiplexing
13. SEQUENTIAL LOGIC
13.1 The RS Flip-Flop
13.2 Clocks
13.3 The JK Flip-Flop
13.4 A Scale-of-4 Counter
13.5 State Diagrams
13.6 Trapping Sequences: Pattern Recognition
13.7 The Monostable
13.8 The Pulse Generator
14. RESONANCE AND RINGING
14.1 Introduction
14.2 Resonance in a Series LCR Circuit
14.3 Transient in a CL Circuit
14.4 Transient in the Series LCR Circuit
14.5 Parallel LCR
14.6 Poles and Zeros
15. FOURIER’S THEOREM
15.1 Introduction
15.2 A Square Wave Applied to a CR Filter
15.3 How to Find Fourier Coefficients
15.4 The Heterodyne Principle
15.5 Broadcasting
15.6 Frequency Modulation (FM)
15.7 Frequency Multiplexing
15.8 Time Division Multiplexing
15.9 Fourier Series Using Complex Exponentials
15.10 Fourier Transforms
15.11 Response to an impulse
15.12 Fourier Analysis of a Damped Oscillator
15.13 The Perfect Filter
16. TRANSFORMERS AND 3-PHASE SUPPLIES
16.1 Introduction
16.2 Energy Stored in a Transformer
16.3 Circuit Equations and Equivalent Circuits
16.4 Three Phase Systems
16.5 Balanced Loads
17. APPENDIX A: THEVENIN’S THEOREM
18. APPENDIX B: EXPONENTIALS
19. INDEX
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Tags: David Bugg, Electronics, Circuits, Amplifiers, Gates, 2nd Edition