Electrical Network Theory

I.Course Introduction (including teaching goals and requirements) within 300 words:

Circuit theory is a basic engineering course include of abroad contents and continual development. Through learning this course, students can extend their circuit theory knowledge, also know VLSI technology combined analog and digital circuit, chaos phenomena in nonlinear circuit, fault diagnosis of Analog circuits, manual neural network, etc.

II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):

Chapter one introduces some basic conceptions for reviewing and extending basic circuit conceptions.

Main contents: resistor, conductor, capacitor, linear and nonlinear circuits, time-variant and time-invariant, passive and activity, continuous-time discrete time systems.

Chapter two introduces the basic knowledge of analysis and design of RC active filter.

Main contents: the class of filters, operational amplifier, sensitivity, low-pass filter, band-pass filter, high-pass filter, duplex integrator circuit filter.

Chapter three introduces the basic knowledge of analysis and design of high-stage active filter.

Main contents: some typical approximate functions, conversion of filter function, simulated inductor, frequency dependent negative resistor, LF filter, RC filter based on current conveyer, transconductance-C filter.

Chapter four introduces the analysis method of switched network, relate to three method of circuit analysis contained of switches.

Main contents: general switched network analysis, a state averaging method of DC-DC converter, the analysis of quasi-resonant converter, ideas of sampled-data system, the analysis of switched capacitor network.

Chapter five introduces nonlinear resistance circuit, presents the analysis and synthesize method of piece-wise linear resistance.

Main contents: three basic conceptions of nonlinear resistance circuit, methods of piece-wise linear, synthesize method of nonlinear resistance circuit.

Chapter six introduces qualitative and quantitative analysis for dynamic nonlinear circuit, include of phase plane analysis, equilibrium point and limit cycle, Liapunov direct method, perturbation, averaging method, harmonic balance method.

Main contents: one-stage nonlinear circuit, phase space, trajectory, equilibrium point, a linearization for nonlinear circuit equation and equilibrium point types, liapunov direct method, periodic solution and limit cycle, perturbation method, averaging method, harmonic balance method.

Chapter seven introduces the conceptions of bifurcation, quasi-periodic oscillation and chaos on nonlinear circuit.

Main contents: bifurcation in nonlinear circuit, quasi-periodic oscillation in nonlinear circuit, and chaos phenomena in nonlinear circuit.

Chapter eight introduces fault diagnosis of Analog circuits.

Main contents: the class of fault diagnosis of Analog circuits, fault dictionary method, k-fault diagnosis, and sub-network diagnosis method.

Chapter nine introduces principle of two circuits realizing manual neural network.

Main contents: Hopfield manual neural network circuit model, neural network A/D converter, neural networks for solving systems of linear equations and related problems.

Chapter ten introduces network theorems and techniques.

Main contents: number and formulation of independent equations in networks, loops analysis revisited, node analysis revisited, network theorems linerarity and superposition.

Chapter ten introduces sinusoidal steady-state analysis

Main contents: sinusoidal sources, use of the phasor transform : applications, power in the sinusoidal steady-state, three-phase circuits: principles and definition.

Chapter ten introduces transitory analysis

Main contents: impulse response of first order circuits, impulse higher order circuits, the Laplace transform in circuit theory, laplace transform for network analysis.

Chapter ten introduces circuit synthesis and frequency response

Main contents: resonance, design of elemental resonance circuits, elementary filters.

III.Teaching Schedule: