Department of Electrical Engineering
Elective Courses
- Signals and Systems
This course stresses the relationship among the various representation of a linear system: the difference or differential equation model, the block diagram or flow graph form, the impulse-response description, the state-variable formulation, and the transfer-function characterization. This course is chosen to lead into succeeding courses in control system and communication system.
- Digital Control Lab
This course is designed to verify the theory of digital control system, Its contents include: (1)A/D and D/A converter characteristic (2)motor control system (3)encoder characteristic and its application (4)system identification and modeling (5)velocity control system (6)PID position control system (7)MATLAB digital real time control.
- Experiments for the Applications of Microprocessor
This course consists of a series of experiments for microprocessor. These experiments include: the practices of designing assembly language, I/O PORT experiments, interrupt control experiments, timer control experiments, D/A converter experiments, A/D converter experiments, step-motor control experiments, sound control experiments, LCD module control experiments, keyboard control experiments, counter display experiments.
- Simulation and Analysis of Power Electronics
The aim of this course is to familiar the simulation and analysis techniques of power electronics by using Pspice. The practice topics are (1)Diode rectifier (2)Controlled rectifier (3)Inverter (4)Chopper (5)Zero voltage and zero current switching circuit (6)Unit power factor converter
- Generating Engineering and Substation
This course includes (1)Energy conversion concepts (2)Generating equipment (3)Hydroelectric, fossil and nuclear generation (4)renewable energy (5)substation equipment (6)insulated equipment (7)experiment and preservation (8)protective coordination
- Industrial Power Distribution
This course includes (1)Design principle of industrial distribution (2)Load characteristic (3)Fault current calculation (4)protective equipment and coordination (5)Voltage variation and voltage dropping calculation (6)Power factor improvement (7)Lighting and grounding engineering
This main materials in this course include (1)Linear equations (2)Vector spaces (3)Linear transformation (4)Polynomials (5)Determinants (6)Elementary canonical forms (7)The rational and Jordan forms (8)Inner product spaces (9)Operators on inner product space (10)Bilinear forms
- Fuzzy Control Introduction
This course focuses on how to develop a basic fuzzy logic controller, which comprises four principal components (1) a fuzzification interface (FI) (2) a decision-making logic (DML) (3)a
Defuzzification interface (DFI) (4) a knowledge bass (KB),and how to application a system
This lab course aims to develop techniques for the set up and management of Internet Web sites, As well as the design and production of Web Pages. There are several themes:(1)The Microsoft Chinese personal Web server is adopted as the Web testing platform in order to set up the operation and testing environment of Web sites (2)The Microsoft FrontPage 98 is adopted as the software for Web site construction and Web page design . Practical techniques are discussed with regard to the set up and planning of FrontPage Web methods described in the FrontPage explorer (3)The FrontPage editor is the editing tool for FrontPage 98 Homepage. It includes complete teaching of basic to advanced skills (4) Management and maintenance techniques of Web sites are taught.
Algorithm is a fundamental concept of computer science. The skills of algorithm synthesis and analysis will improve both the students basic knowledge and his ability to comprehend more sophisticated courses. A knowledge of design will certainly help one to create good algorithms, yet without the tools of analysis there is no way to determine the quality of the result. In this course, we emphasis on design as well as analysis of algorithms. First, this course covers the basic design techniques: divide-and-conquer, the greedy method, dynamic programming, search and traversal, backtracking and branch-and-bound. Then it covers the more theoretical subjects: lower-bound theory, NP-completeness and approximation methods.
This course is the continuation of Electric Circuit . It introduces the analysis technique of electric circuit. Its content includes :(1)first order and second order circuit analysis technique (2)analysis technique of sinusoidal steady state circuit. (3)analysis technique of node, mesh and cut set (4)network function (5)network theory (6)dual-port circuit etc.
This course is a fundamental course of the power group and focuses on the introduction and analysis of power systems. Its content includes: (1) induction and capacity of power lines (2)equations of short, medium and long power lines (3) circuit of generator and transformer (4)power trend (5)economic allocation (6)symmetric and asymmetric fault analysis (7)system protection (8) stability analysis etc.
This course introduces the basic principles and application of computer so that students can have an accurate understanding on electronic computers. Its content includes introduction, information presentation, hardware structure, file and data process, program and program language, data communication, working system and database etc.
This course focuses on the processing technique and related theories of digital signals. Its content includes: (1) sampling of digital signals (2)discrete Fourier transform (3)Z transform analysis (4) fast Fourier transform (5) process system of analog and digital signals (6) frequency analysis (7) digital filter analysis .
This course focuses on the related theories and technology of linear system. Its content includes : (1) introduction to linear space (2) mathematical presentation of system (3)whether it is controllable and observable (4) stability of linear system (5) state feedback and state estimation.
This course focuses on the related theories and technology of digital control. It is the theory basis for micro computer control. Its content includes: (1) Z transform analysis technique (2)input output transform analysis (3) state space analysis (4)analysis and design of PID controller. (5) analysis and design of state feedback controller (6) stability analysis of digital control.
- Power Distribution Engineering
This course is a continuation of Power System and focuses on the various related problems met during the planing and operation of power distribution systems. Its content includes: (1)loading characteristics (2) design of suv station, feeder and transformer (3) calculation of pressure drop and line loss (4) voltage regulation (5) protection of power distribution system (6)reliability of power distribution system etc.
- Control and Operation of Power System
This course is a continuation of power system. Its content includes (1) characteristics of generators (2)economic operation of thermal generation plant (3) recognition of operation machine groups (4)coordination of thermal and water power generation (5)fuel estimation and planing (6)power generation control (7) cost evaluation of power purchase etc.
- Theory of Electrical Machinery
Its content includes: (1) transform theory of reference coordinates (2)operating theory of inductor and synchro (3)linear equation of inductor and synchro (4)imbalance operation of inductor and synchro (5) computer simulation of inductor and synchro etc.
This course is a combined course of related energies. Its content includes: (1)introduction to energy (2)energy sources (3) principle of energy conversion (4)energy management (5)efficient use of energy (6)policy design of energy conservation.
- Application of Micro-processor
This course focuses on the study of the structure and design principles of micro-processor systems. Its content includes: hardware structure of micro-processor system, input/output system structure, high level single chip micro-processor system, instruction set of single chip micro-processor, introduction of interface applied circuit and writing of applied equations etc.
This course focuses on the technology and related theories of linear electronics. Its content includes differential amplifier, common mode gain, negative feedback, linear operation amplifier circuit, differentiator, integrator, instrumentation amplifier etc.
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