Chapter 65438 Basic Concepts and Components of +0 Circuit 1 Circuit and Circuit Model1.2 Basic Variables of Circuit 2 1.2 1 Current and Voltage 2 1.2 Power and Energy 4 60. 6 1.3. 1 Kirchhoff current law 7 1.3.2 Kirchhoff voltage law 8 1.4 resistor10/.5 ideal voltage source and ideal current source12/kloc.

Chapter II Equivalent Transformation of Circuits 23 2. 1 Concept of Equivalent Transformation 23 2.2 Connection of Resistors 24 2.2. 1 Series Connection of Resistors 24 2.2.2 Parallel Connection of Resistors 25 Series Connection of Resistors 29 2.2.4 Equivalent Transformation of Star Resistor Network and Triangle Resistor Network 29 2.3 Connection and Equivalent Transformation of Power Supply 34 2.3./Kloc-0

Chapter III Basic Analysis Method of Circuits 43 3. 1 Graph Theory Foundation 43 3. 1 Graph Basic Concept 43 3. 1 Tree Basic Concept 44 3.2 Independence of Kirchhoff Equation 46 3.3 Grid Analysis 47 3.4 Node Analysis 52 3.5 Loop Analysis 56 * 3.6 Cut Set Analysis Method 60 3.7 Resistance Circuit Analysis with Operational Amplifier 66

Chapter IV Basic Theorem of Circuit 73 4. 1 Homogeneous Theorem and Superposition Theorem 73 4. 1 Homogeneous Theorem 73 4. 1.2 Superposition Theorem 74.2 Substitution Theorem 78 4.3 Thevenin Theorem and Norton Theorem 80 4.3. 1 Thevenin Theorem 814. .2 Norton Theorem 88 4.4 Maximum Power Transfer Theorem 9 1 4.5 * Tellegen Theorem 93 4.6 * Reciprocity Theorem 95 4.7 Duality Principle 100 Summary of this chapter1exercise 102.

Chapter 5 DC dynamic circuit analysis 106 5. 1 dynamic element 106 5. 1 capacitive element 106 5. 1.2 inductive element1.

Chapter VI Analysis of Non-DC Dynamic Circuit 146 6. 1 analysis of sinusoidal AC dynamic circuit 146 6. 1 sinusoidal voltage (current) 146 6. 1.2 Effective value1.

Chapter VII Analysis of Sinusoidal Steady-state Circuits 16 1 7. 1 617.2 Phasor Method Basis 162 7.3 Kirchhoff Law Phasor Form16777.3./. The phasor form of 167 7.3.2 Kirchhoff's voltage law (KVL) 167 7.4 phasor model 169 7.4. 1 phasor form of basic element volt-ampere relationship 169 7.4.2 impedance and admittance.

Chapter VIII Three-phase Circuit 202 8. 1 Overview of Three-phase Circuit 202 8.2 Connection of Three-phase Circuit 203 8.2. 1 Connection of Three-phase Power Supply 203 8.2 Connection of Three-phase Load 205 8.3 Calculation of Symmetric Three-phase Circuit 205 8.4 Calculation of Asymmetric Three-phase Circuit 208.5 Power of Three-phase Circuit 209 Overview of this chapter 2655

Chapter 9 Frequency Response of Circuit 2 14 9. 1 Response of Steady-State Circuit under Sinusoidal Excitation 2 14 9. 1 Response of Steady-State Circuit under Sinusoidal Excitation of the Same Frequency 2 14 9. 1.2 Response of Steady-State Circuit under Sinusoidal Excitation of Different Frequencies 2/. Network function 2169.3 frequency response of RLC circuit 2 18 9.4 resonance 22 1 series resonance 22 1 9.4.2 parallel resonance 223 9.5 response of steady-state circuit excited by non-sinusoidal periodic function 224 *9.6 bode diagram 228 * 9.7 filter 232 9.7

Chapter 10 circuit analysis with coupling inductor and ideal transformer 24 1 10. 1 volt-ampere relation of coupling inductor 24110/0 coupling inductor 241/kloc-0. 0. Decoupling equivalent circuit of terminal coupling inductor (T-type circuit decoupling) 245 10.3 Circuit analysis with coupling inductor 247 10.3. 1 series coupling inductor 247 10.3.2 Parallel coupling inductor 24910.

1 1 two-port network 259 1 1 two-port network 2591.2 volt-ampere relationship of two-port network 259 1 1.2/kloc. 5438+0.2.2 Mixing Matrix and Transmission Matrix of Two-port Network 2611.2.3 Relationship between the parameter matrices 263 1 1.3 Equivalent circuit of two-port network 2641/kloc. 0000000038+0.3 Series-parallel connection and parallel-series connection in two-port network 268 1 1.4.4 Cascade in two-port network 268 Overview of this chapter 269 Exercise 269

Chapter 12 Laplace transform and its application 273 12. 1 laplace transform 273 12. 1 laplace transform definition 27312.10.2 Laplace transform of common signals 275.

Chapter 13 Introduction to Nonlinear Circuits 289 13. 1 nonlinear resistor 28913./volt-ampere characteristics of nonlinear resistor 289 13. 1 .2 Series and parallel connection of nonlinear resistors 29 Nonlinear capacitive element and inductive element 293 13.2 1 nonlinear capacitive element 293 13.2.2 nonlinear inductive element 294 13.3 analysis of nonlinear resistive circuit 294 13.3. 10 nonlinear resistive.

Chapter 14 Application of simulation software Multisim 10.0 in circuit analysis 3041kloc-0/simulation software Multisim10.030414.1.

Appendix Comparison of Chinese and English Nouns 3 17 References 322