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1 | (6) |
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1.1 Electrical Quantities and SI Units |
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1.2 Force, Work, and Power |
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1.3 Electric Charge and Current |
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1.5 Energy and Electrical Power |
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1.6 Constant and Variable Functions |
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Chapter 2 Circuit Concepts |
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7 | (17) |
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2.1 Passive and Active Elements |
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2.3 Voltage-Current Relations |
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24 | (13) |
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3.2 Kirchhoff's Voltage Law |
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3.3 Kirchhoff's Current Law |
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3.4 Circuit Elements in Series |
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3.5 Circuit Elements in Parallel |
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Chapter 4 Analysis Methods |
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37 | (35) |
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4.1 The Branch Current Method |
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4.2 The Mesh Current Method |
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4.3 Matrices and Determinants |
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4.4 The Node Voltage Method |
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4.11 Thevenin's and Norton's Theorems |
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4.12 Maximum Power Transfer Theorem |
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4.13 Two-Terminal Resistive Circuits and Devices |
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4.14 Interconnecting Two-Terminal Resistive Circuits |
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4.15 Small-Signal Model of Nonlinear Resistive Devices |
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Chapter 5 Amplifiers and Operational Amplifier Circuits |
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72 | (45) |
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5.2 Feedback in Amplifier Circuits |
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5.3 Operational Amplifiers |
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5.4 Analysis of Circuits Containing Ideal Op Amps |
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5.9 Differential and Difference Amplifiers |
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5.10 Circuits Containing Several Op Amps |
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5.11 Integrator and Differentiator Circuits |
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5.16 A Simple Op Amp Model |
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5.18 Flash Analog-to-Digital Converter |
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5.19 Summary of Feedback in Op Amp Circuits |
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Chapter 6 Waveforms and Signals |
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117 | (26) |
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6.4 Time Shift and Phase Shift |
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6.5 Combinations of Periodic Functions |
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6.6 The Average and Effective (RMS) Values |
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6.7 Nonperiodic Functions |
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6.8 The Unit Step Function |
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6.9 The Unit Impulse Function |
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6.10 The Exponential Function |
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Chapter 7 First-Order Circuits |
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143 | (36) |
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7.2 Capacitor Discharge in a Resistor |
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7.3 Establishing a DC Voltage Across a Capacitor |
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7.4 The Source-Free RL Circuit |
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7.5 Establishing a DC Current in an Inductor |
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7.6 The Exponential Function Revisited |
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7.7 Complex First-Order RL and RC Circuits |
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7.8 DC Steady State in Inductors and Capacitors |
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7.9 Transitions at Switching Time |
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7.10 Response of First-Order Circuits to a Pulse |
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7.11 Impulse Response of RC and RL Circuits |
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7.12 Summary of Step and Impulse Responses in RC and RL Circuits |
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7.13 Response of RC and RL Circuits to Sudden Exponential Excitations |
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7.14 Response of RC and RL Circuits to Sudden Sinusoidal Excitations |
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7.15 Summary of Forced Response in First-Order Circuits |
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7.16 First-Order Active Circuits |
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Chapter 8 Higher-Order Circuits and Complex Frequency |
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179 | (30) |
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8.6 Generalized Impedance (R, L, C) in s-Domain |
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8.7 Network Function and Pole-Zero Plots |
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8.10 Magnitude and Frequency Scaling |
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8.11 Higher-Order Active Circuits |
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Chapter 9 Sinusoidal Steady-State Circuit Analysis |
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209 | (28) |
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9.4 Impedance and Admittance |
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9.5 Voltage and Current Division in the Frequency Domain |
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9.6 The Mesh Current Method |
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9.7 The Node Voltage Method |
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9.8 Thevenin's and Norton's Theorems |
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9.9 Superposition of AC Sources |
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237 | (29) |
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10.1 Power in the Time Domain |
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10.2 Power in Sinusoidal Steady State |
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10.3 Average or Real Power |
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10.5 Summary of AC Power in R, L, and C |
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10.6 Exchange of Energy between an Inductor and a Capacitor |
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10.7 Complex Power, Apparent Power, and Power Triangle |
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10.8 Parallel-Connected Networks |
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10.9 Power Factor Improvement |
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10.10 Maximum Power Transfer |
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10.11 Superposition of Average Powers |
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Chapter 11 Polyphase Circuits |
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266 | (25) |
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11.4 Wye and Delta Systems |
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11.6 Balanced Delta-Connected Load |
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11.7 Balanced Four-Wire, Wye-Connected Load |
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11.8 Equivalent Y- and A-Connections |
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11.9 Single-Line Equivalent Circuit for Balanced Three-Phase Loads |
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11.10 Unbalanced Delta-Connected Load |
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11.11 Unbalanced Wye-Connected Load |
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11.13 Power Measurement and the Two-Wattmeter Method |
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Chapter 12 Frequency Response, Filters, and Resonance |
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291 | (44) |
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12.2 High-Pass and Low-Pass Networks |
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12.3 Half-Power Frequencies |
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12.4 Generalized Two-Port, Two-Element Networks |
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12.5 The Frequency Response and Network Functions |
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12.6 Frequency Response from Pole-Zero Location |
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12.7 Ideal and Practical Filters |
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12.8 Passive and Active Filters |
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12.9 Bandpass Filters and Resonance |
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12.10 Natural Frequency and Damping Ratio |
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12.11 RLC Series Circuit; Series Resonance |
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12.13 RLC Parallel Circuit; Parallel Resonance |
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12.14 Practical LC Parallel Circuit |
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12.15 Series-Parallel Conversions |
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12.19 Special Features of Bode Diagrams |
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12.20 Summary of First-Order Filters |
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12.21 Second-Order Filters |
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12.22 Butterworth Filters |
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12.23 Scaling the Frequency Response of Filters |
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Chapter 13 Two-Port Networks |
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335 | (24) |
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13.3 T-Equivalent of Reciprocal Networks |
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13.5 Pi-Equivalent of Reciprocal Networks |
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13.6 Application of Terminal Characteristics |
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13.7 Conversion between Z- and Y-Parameters |
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13.10 Transmission Parameters |
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13.11 Interconnecting Two-Port Networks |
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13.12 Choice of Parameter Type |
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13.13 Summary of Terminal Parameters and Conversion |
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Chapter 14 Mutual Inductance and Transformers |
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359 | (28) |
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14.2 Coupling Coefficient |
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14.3 Analysis of Coupled Coils |
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14.5 Energy in a Pair of Coupled Coils |
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14.6 Conductively Coupled Equivalent Circuits |
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14.10 Reflected Impedance |
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Chapter 15 Circuit Analysis Using Spice and PSpice |
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387 | (38) |
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15.3 Dissecting a Spice Source File |
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15.4 Data Statements and DC Analysis |
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15.5 Control and Output Statements in DC Analysis |
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15.9 AC Steady State and Frequency Response |
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15.10 Mutual Inductance and Transformers |
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15.11 Modeling Devices with Varying Parameters |
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15.12 Time Response and Transient Analysis |
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15.13 Specifying Other Types of Sources |
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Chapter 16 The Laplace Transform Method |
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425 | (23) |
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16.2 The Laplace Transform |
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16.3 Selected Laplace Transforms |
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16.4 Convergence of the Integral |
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16.5 Initial-Value and Final-Value Theorems |
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16.6 Partial-Fractions Expansions |
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16.7 Circuits in the s-Domain |
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16.8 The Network Function and Laplace Transforms |
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Chapter 17 Fourier Method of Waveform Analysis |
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448 | (33) |
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17.2 Trigonometric Fourier Series |
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17.3 Exponential Fourier Series |
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17.7 Effective Values and Power |
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17.8 Applications in Circuit Analysis |
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17.9 Fourier Transform of Nonperiodic Waveforms |
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17.10 Properties of the Fourier Transform |
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17.11 Continuous Spectrum |
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| Appendix A Complex Number System |
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481 | (3) |
| Appendix B Matrices and Determinants |
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484 | (7) |
| Index |
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491 | |
Lisainfo e-raamatute kohta