GD0U-B-11-213 《现代电路分析》教学大纲 Modern Circuit Analysis Syllabus 课程编号1610109总学时36理论36实验/上机0 学分2开课单位信息学院开课系电子工程系修订时间2006年1月1日 Course Introduction Content of course The main contents in this course has:The application pulls the Laplace transformation proceeds electric circuit analysis,apply the topology and matrix the electric circuit analyzes and the analytic appearance in network changes the method of deal. Study the profession:The electronics information engineering. Take theourse first:Electric circuit analysis,line algebra,signal and system Textbook:Linear and nonlinear circuits,Leon O.Chua,McGraw-Hill Press. 1.The property and the mission of the course The modern electric circuit analysis course is a profession lesson of the electricity electronics profession.Its main mission is an application to pull the Laplace transformation proceeds the electric circuit the analysis and apply the diagram talks about to proceed with matrix the electric circuit analyzes and the analytic appearance in network changes the method ofdeal. 2.Basic request of the course Pass this curricular study,make the student control the analytic and basic theories,basic method in electric circuit in solution in method in applied mathematics
GDOU-B-11-213 《现代电路分析》教学大纲 Modern Circuit Analysis Syllabus 课程编号 1610109 总学时 36 理论 36 实验/上机 0 学分 2 开课单位 信息学院 开课系 电子工程系 修订时间 2006 年 1 月 1 日 Course Introduction Content of course The main contents in this course has: The application pulls the Laplace transformation proceeds electric circuit analysis, apply the topology and matrix the electric circuit analyzes and the analytic appearance in network changes the method of deal. Study the profession: The electronics information engineering. Take the course first: Electric circuit analysis, line algebra, signal and system Textbook: Linear and nonlinear circuits, Leon O. Chua, McGraw-Hill Press. 1. The property and the mission of the course The modern electric circuit analysis course is a profession lesson of the electricity, electronics profession. Its main mission is an application to pull the Laplace transformation proceeds the electric circuit the analysis and apply the diagram talks about to proceed with matrix the electric circuit analyzes and the analytic appearance in network changes the method of deal. 2. Basic request of the course Pass this curricular study, make the student control the analytic and basic theories, basic method in electric circuit in solution in method in applied mathematics. 1
3.Applying to the profession Electronics information engineering. 4.Curricular contact of this course and others Take first the course:Electric circuit analysis,line algebra,signal and system:Follow-up course:Not line electric circuit analysis,electric circuit and system. 5.Assign when content of course arrange,request,learn and homework Chapter 1 THE LAPLACE TRANSFORM(C) 1.1 The Step and Impulse Functions:The Physical Significance of and () PracticalConsiderations,Scaling.Time-Shifting,The Sifting Property 1.2 The Laplace Transform:Transform Pairs,Convergence 1.3 Operational Transforms:Linearity,Differentiation,Integration,Time Shifting Frequency,Shifting,Scaling,Convolution,Periodic Functions,Initial and Final Values 1.4 The Inverse Laplace Transform:Real and Distinct Poles,Complex Conjugate Poles, Repeated,Real Poles,Repeated Complex Pole Pairs,Improper Rational Functions 1.5 Application to Differential Equations:The Forced and Natural Response Components,the Network Function H(s) 1.6 Application to Cireuit Analysis:Circuit Element Models,Circuit Analysis Using Laplace Transforms 1.7 Convolution:Graphical Convolution,Numerical Convolution Chapter 2 NETWORK FUNCTIONS(C) 2.1 Complex Frequency:Complex Exponential Signals,An Illustrative Example. Generalized,Impedance and Admittance.s-Domain Circuit Analysis 2.2 Network Functions:Zeros and Poles,Physical Interpretation of Zeros and Poles, Procedure for Finding Network Functions 2
3. Applying to the profession Electronics information engineering. 4. Curricular contact of this course and others Take first the course: Electric circuit analysis, line algebra, signal and system; Follow-up course: Not line electric circuit analysis, electric circuit and system. 5. Assign when content of course arrange, request, learn and homework Chapter 1 THE LAPLACE TRANSFORM (C) 1.1 The Step and Impulse Functions: The Physical Significance of u(t) and δ(t), PracticalConsiderations, Scaling, Time-Shifting, The Sifting Property 1.2 The Laplace Transform: Transform Pairs, Convergence 1.3 Operational Transforms: Linearity, Differentiation, Integration, Time Shifting, Frequency, Shifting, Scaling, Convolution, Periodic Functions, Initial and Final Values 1.4 The Inverse Laplace Transform: Real and Distinct Poles, Complex Conjugate Poles, Repeated, Real Poles, Repeated Complex Pole Pairs, Improper Rational Functions 1.5 Application to Differential Equations: The Forced and Natural Response Components, the Network Function H(s) 1.6 Application to Circuit Analysis: Circuit Element Models, Circuit Analysis Using Laplace Transforms 1.7 Convolution: Graphical Convolution, Numerical Convolution Chapter 2 NETWORK FUNCTIONS (C) 2.1 Complex Frequency: Complex Exponential Signals, An Illustrative Example, Generalized, Impedance and Admittance, s-Domain Circuit Analysis 2.2 Network Functions: Zeros and Poles, Physical Interpretation of Zeros and Poles, Procedure for Finding Network Functions 2
2.3 The Natural Response Using H(s):Critical Frequencies of Source-Free Circuits, Concluding.Remarks 2.4 The Complete Response Using H(s):The DC Steady-state Response,The AC Steady-State Response.The Complete Response.The Complete Response of RC and RL Circuits,DC Passing and AC Blocking.DC Blocking and AC Passing Chapter 3 CIRCUIT TOPOLOGY AND GENERAL CIRCUIT ANALYSIS (C) 3.1 Source transformations:The V Shift Property,The I Shift Property 3.2 Kirchhoffs laws revisited:KCL equations based on cut sets,Graph,subgraph,and loop,KVL equations based on loops 3.3 Cut sets and loops based ona tree:Tree.The fundamental cut-set matrix associated with a tree,The fundamental loop matrix associated with a tree,Relation between Qand B 3.4 linear time-invariant circuit analysis:Cut-set analysis,Loop analysis,Mesh analysis 6.Experiment the contents and requests None 7.Textbook and reference book 7.1 Textbook:Linear and nonlinear circuits,Leon O.Chua,McGraw-Hill Press. 7.2 Reference book: 1.王震字著,电路分析,科学出版社,2006年3月 2.邱关源著,电路,高等教育出版社,1998年1月 Written by:Alexander WANG 1JUN.2006 3 电子技术与计算机软件类课程组 张楚芳 王立臣 柯文彬 王骥 王震字 徐国宝 张世龙
2.3 The Natural Response Using H(s): Critical Frequencies of Source-Free Circuits, Concluding, Remarks 2.4 The Complete Response Using H(s): The DC Steady-state Response, The AC Steady-State Response, The Complete Response, The Complete Response of RC and RL Circuits, DC Passing and AC Blocking, DC Blocking and AC Passing Chapter 3 CIRCUIT TOPOLOGY AND GENERAL CIRCUIT ANALYSIS (C) 3.1 Source transformations: The V Shift Property, The I Shift Property. 3.2 Kirchhoff’s laws revisited: KCL equations based on cut sets, Graph, subgraph, and loop, KVL equations based on loops 3.3 Cut sets and loops based on a tree: Tree, The fundamental cut-set matrix associated with a tree, The fundamental loop matrix associated with a tree, Relation between Q and B 3.4 linear time-invariant circuit analysis: Cut-set analysis, Loop analysis, Mesh analysis 6. Experiment the contents and requests None 7. Textbook and reference book 7.1 Textbook: Linear and nonlinear circuits, Leon O. Chua, McGraw-Hill Press. 7.2 Reference book: 1. 王震宇著,电路分析,科学出版社,2006 年 3 月 2. 邱关源著,电路,高等教育出版社,1998 年 1 月 Written by: Alexander WANG. 1st JUN. 2006 3 电子技术与计算机软件类课程组 张楚芳 王立臣 柯文彬 王骥 王震宇 徐国宝 张世龙
