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Chapter 1: Voltage, Current, Power, and Sources Language: EnglishTable of contents:
1.1 Introduction
1.2 International System of Units
1.3 Charge, Voltage, Current, and Power
1.4 Independent Sources
1.5 Dependent Sources
1.6 Elementary Signals
Summary
Problems
Chapter 2: Circuit Laws
2.1 Introduction
2.2 Circuit
2.3 Resistor
2.4 Ohm’s Law
2.5 Kirchhoff’s Current Law (KCL)
2.6 Kirchhoff’s Voltage Law (KVL)
2.7 Series and Parallel Connection of Resistors
2.8 Voltage Divider Rule
2.9 Current Divider Rule
2.10 Delta-Wye (Delta-Y) Transformation and Wye-Delta (Y-Delta) Transformation
2.11 PSpice and Simulink
Summary
Problems
Chapter 3: Circuit Analysis Methods
3.1 Introduction
3.2 Nodal Analysis
3.3 Supernode
3.4 Mesh Analysis
3.5 Supermesh
3.6 PSpice and Simulink
Summary
Problems
Chapter 4: Circuit Theorems
4.1 Introduction
4.2 Superposition Principle
4.3 Source Transformations
4.4 Thevenin’s Theorem
4.5 Norton’s Theorem
4.6 Maximum Power Transfer
4.7 PSpice
Summary
Problems
Chapter 5: Operational Amplifier Circuits
5.1 Introduction
5.2 Ideal Op Amp
5.3 Sum and Difference
5.4 Instrumentation Amplifier
5.5 Current Amplifier
5.6 Analysis of Inverting Configuration
5.7 Analysis of Noninverting Configuration
5.8 PSpice and Simulink
Summary
Problems
Chapter 6: Capacitors and Inductors
6.1 Introduction
6.2 Capacitors
6.3 Series and Parallel Connection of Capacitors
6.4 Op Amp Integrator and Op Amp Differentiator
6.5 Inductors
6.6 Series and Parallel Connection of Inductors
6.7 PSpice and Simulink
Summary
Problems
Chapter 7: RC and RL Circuits
7.1 Introduction
7.2 Natural Response of RC Circuit
7.3 Step Response of RC Circuit
7.4 Natural Response of RL Circuit
7.5 Step Response of RL Circuit
7.6 Solving General First-Order Differential Equations
7.7 PSpice and Simulink
Summary
Problems
Chapter 8: RLC Circuits
8.1 Introduction
8.2 Zero Input Response of Second-Order Differential Equations
8.3 Zero Input Response of Series RLC Circuit
8.4 Zero Input Response of Parallel RLC Circuit
8.5 Solution of the Second-Order Differential Equations to Constant Input
8.6 Step Response of a Series RLC Circuit
8.7 Step Response of a Parallel RLC Circuit
8.8 General Second-Order Circuits
8.9 PSpice and Simulink
Summary
Problems
Chapter 9: Phasors and Impedances
9.1 Introduction
9.2 Sinusoidal Signals
9.3 RMS Value
9.4 Phasors
9.5 Impedance and Admittance
9.6 Phasor-Transformed Circuit
9.7 Kirchhoff’s Current Law and Kirchhoff’s Voltage Law for Phasors
9.8 Series and Parallel Connection of Impedances
9.9 Delta-Wye (Delta-Y) and Wye-Delta (Y-Delta) Transformation
9.10 PSpice and Simulink
Summary
Problems
Chapter 10: Analysis of Phasor-Transformed Circuits
10.1 Introduction
10.2 Phasor-Transformed Circuits
10.3 Voltage Divider Rule
10.4 Current Divider Rule
10.5 Nodal Analysis
10.6 Mesh Analysis
10.7 Superposition Principle
10.8 Source Transformation
10.9 Thevenin Equivalent Circuit
10.10 Norton Equivalent Circuit
10.11 Transfer Function
10.12 PSpice and Simulink
Summary
Problems
Chapter 11: AC Power
11.1 Introduction
11.2 Instantaneous Power, Average Power, Reactive Power, Apparent Power
11.3 Complex Power
11.4 Conservation of AC Power
11.5 Maximum Power Transfer
11.6 Power Factor Correction (PFC)
11.7 PSpice and Simulink
Summary
Problems
Chapter 12: Three-Phase Systems
12.1 Introduction
12.2 Three-Phase Sources
12.3 Balanced Y-Y Circuit
12.4 Balanced Y-Delta Circuit
12.5 Balanced Delta-Delta Circuit
12.6 Balanced Delta-Y Circuit
12.7 PSpice and Simulink
Summary
Problems
Chapter 13: Magnetically Coupled Circuits
13.1 Introduction
13.2 Mutual Inductance
13.3 Dot Convention and Induced Voltage
13.4 Equivalent Circuits
13.5 Energy of Coupled Coils
13.6 Linear Transformer
13.7 Ideal Transformer
13.8 PSpice and Simulink
Summary
Problems
Chapter 14: The Laplace Transform
14.1 Introduction
14.2 Definition of the Laplace Transform
14.3 Properties of the Laplace Transform
14.4 Inverse Laplace Transform
14.5 Solving Differential Equations Using the Laplace Transform
14.6 PSpice and Simulink
Summary
Problems
Chapter 15: Circuit Analysis in the s-Domain
15.1 Introduction
15.2 Laplace-Transformed Circuit Elements
15.3 Laplace-Transformed Circuit
15.4 Nodal Analysis
15.5 Mesh Analysis
15.6 Thevenin Equivalent Circuit in the s-Domain
15.7 Norton Equivalent Circuit in the s-Domain
15.8 Transfer Function
15.9 Convolution
15.10 Linear, Time-Invariant (LTI) System
15.11 Bode Diagram
15.12 Simulink
Summary
Problems
Chapter 16: First- and Second- Order Analog Filters
16.1 Introduction
16.2 Magnitude Scaling and Frequency Scaling
16.3 First-Order LPF
16.4 First-Order HPF
16.5 Second-Order LPF
16.6 Second-Order HPF Design
16.7 Second-Order Bandpass Filter Design
16.8 Second-Order Bandstop Filter Design
16.9 Simulink
Summary
Problems
Chapter 17: Analog Filter Design
17.1 Introduction
17.2 Analog Butterworth LPF Design
17.3 Analog Butterworth HPF Design
17.4 Analog Butterworth Bandpass Filter Design
17.5 Analog Butterworth Bandstop Filter Design
17.6 Analog Chebyshev Type 1 LPF Design
17.7 Analog Chebyshev Type 2 LPF Design
17.8 MATLAB
Summary
Problems
Chapter 18: Fourier Series
18.1 Introduction
18.2 Signal Representation Using Orthogonal Functions
18.3 Trigonometric Fourier Series
18.4 Solving Circuit Problems Using Trigonometric Fourier Series
18.5 Exponential Fourier Series
18.6 Properties of Exponential Fourier Coefficients
18.7 Solving Circuit Problems Using Exponential Fourier Series
18.8 PSpice and Simulink
Summary
Problems
Chapter 19: Fourier Transform
19.1 Introduction
19.2 Definition of Fourier Transform
19.3 Properties of Fourier Transform
19.4 Fourier Transform of Periodic Signals
19.5 Parseval’s Theorem
19.6 Simulink
Summary
Problems
Chapter 20: Two-Port Circuits
20.1 Introduction
20.2 Two-Port Circuit
20.3 Conversion of Parameters
20.4 Interconnection of Two-Port Circuits
20.5 PSpice and Simulink
Summary
Problems
Answers to Odd-Numbered Questions
IndexProduct Detail:
ISBN-10: 1305635213
ISBN-13: 978-1305635210
ISBN-13: 9781305635210
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