Training objectives

Cultivate broad-caliber, compound senior engineering and technical talents and management talents with solid basic knowledge of natural science, good basic knowledge of humanities and social sciences, basic knowledge of management science and comprehensive ability of foreign languages, engaged in operation and control of power system and electrical equipment, research and development, automatic control, information processing, experimental analysis, power electronic technology, electromechanical integration, economic management and computer application, knowledge innovation ability, innovative spirit and international competitiveness.

Training requirements

Students in this major mainly study the technical basis and professional knowledge of electrician technology, electronic technology, information control and computer. The main characteristics of this major are the combination of strong and weak electricity, electrical technology and electronic technology, software and hardware, components and systems, management science and engineering technology. Students receive basic training in electrician, electronics, information, control and computer technology, and have the comprehensive ability to engage in the operation, research and development and management of power systems and electrical equipment.

There are two modular courses in this major, and students can choose one of them.

Graduates should have the following knowledge and abilities:

1, with solid basic knowledge of mathematics, physics and other natural sciences, good foundation of humanities and social sciences, management science and comprehensive ability of foreign languages;

2. Systematically master the necessary technical basic theoretical knowledge in this professional field, mainly including electrician theory, electronic technology, information processing, automatic control theory, computer software and hardware basic theory and application, etc.

3. Accept good engineering practice training and be proficient in computer application;

4. Have good literature retrieval and reading ability, and understand the frontier development trend of this major;

5, with strong scientific research, scientific and technological development and organizational management capabilities.

Professional core curriculum

Calculation method, engineering electromagnetic field and wave, signal analysis and processing, electrical engineering, control theory, microcomputer principle and application, power electronics technology, electrical appliance principle and application.

Module 1: power system steady-state analysis, power system transient analysis, power plant electrical system, high voltage technology, relay protection and automatic device, power technology and economic foundation, power information technology.

Module 2: electrical equipment CAD technology, electrical equipment modeling and analysis, electromechanical motion control system, electrical equipment computer control technology, modern drive technology, automatic control components.

Teaching characteristic course

Bilingual teaching courses: the application of DSP in motion control system, DC drive, power system operation control, electromechanical integration technology Matlab and electromechanical system simulation, modern permanent magnet motor theory and control, programmable controller system.

Original foreign language textbook course: mechatronics technology

Research-oriented courses: DC drive, theory and application of linear motor, computer control system of motor and application of power electronics technology in power system.

Discussion course: automatic control components

The planned educational system is 4 years.

Minimum credit for graduation 160+4+5.

Be awarded a bachelor's degree in engineering

Secondary description

Minor: 30 credits, of which 20.5 credits are required for courses marked with * * and 9.5 credits are required for elective courses. Choose from courses marked with * * and modules.

Double major/double degree: 70.5 credits, of which "* *" in "professional course" is optional 15.5 credits, and "professional course" is optional 55 credits.

Curriculum and credit allocation

1. Public course 48+5 credits

(1) Five Ideological and Political Courses 1 1.5+2 credits

02 1e 00 10 ideological and moral cultivation and legal basis 2.52-1/autumn and winter

02 1E0020 Outline of Modern History of China 2.5 2- 1 1 Spring and Summer

02 1E0030 introduction to Mao Zedong Thought, Deng Xiaoping Theory and Theory of Three Represents 4 3-2 2 autumn and winter

02 1E0040 introduction to the basic principles of Marxism 2.5 2- 1 3 autumn and winter

02 1 1008 1 situation and policy +2 credits

(2) 5.5+3 credits for military sports.

03 1E0020 Sports I 10-2 1 autumn and winter

03 1E0030 Sports II 10-2 1 Spring and Summer

03 1E0040 Sports Ⅲ10-22 Autumn and Winter

03 1E0050 sports Ⅳ10-22 spring and summer

03 1E00 10 Military Theory 1.5 1- 1 2 Summer

03 1 1002 1 military training +2 credits 1 short term.

03 1 10080 physical fitness test in the third academic year I+0.5 credits.

03 1 10090 Physical Fitness Test II +0.5 credit for the fourth academic year

(3) 9 credits for foreign languages

05 1F00 10 College English Ⅱ 32-21autumn and winter

05 1F0020 college English Ⅲ 3 2-21spring and summer

05 1F0030 college English Ⅳ 32-22 autumn and winter

To implement the management mode based on CET-4, students must pass CET-4 and get 9 credits of foreign language courses. At the same time, you should take courses with "F" in the course number to improve your foreign language level and application ability.

(4) 5 credits for computer science.

1) Take one of the following courses, with 3 credits.

2 1 10 10 c++ Programming Fundamentals and Experiments 3 2-2 1 Spring and Summer

2 1 1G0020 C Programming Fundamentals and Experiments 3 2-2 1 Spring and Summer

2) Choose a course with 2 credits in subsequent courses.

2 1 1G0060 University Computer Fundamentals 21.5-1autumn and winter

2 1 1G0050 Linux application technology foundation 21.5-1spring and summer

211G010 Computer Hardware Fundamentals 2 1.5- 1 Spring and Summer

And other courses with "G" in the course number (excluding basic programming and experimental courses).

(5) Introduction 2 credits

Students can choose to participate in the introduction courses and freshman seminars offered by various majors at will, and get 2 credits.

(6) Other general courses 15 credits.

3 credits for history and culture (courses with "H" in the course number);

Take 3 credits for literature and art (courses with "I" in the course number);

Take 3 credits of Economics and Society (courses with "L" in the course number);

Test communication and leadership 1.5 credits (courses with "j" in the course number);

Scientific research with 1.5 credits (courses with "k" in the course number);

Take 3 credits of Technology and Design (courses with "M" in the course number). This major recommends elective courses:

10 1m 00 10 electrical and electronic engineering training1.51-kloc-0/2 autumn.

2. 47 credits for specialized courses

(1) 7 compulsory courses of natural science 19.5 credits.

06 1B0200 linear algebra 2.52- 1 1 autumn and winter

06 1B0 170 calculus Ⅰ 4.54-1autumn and winter

06 1B0 180 calculus Ⅱ 21.5-1/spring

06 1B00 10 ordinary differential equation11-0/spring

06 1B0 190 calculus ⅲ1.51-1summer.

06 1B02 1 1 College Physics (I) I44-01Spring and Summer

06 1B022 1 college physics (1) Ⅱ 44-02 autumn and winter

(2) Engineering technical requirements 10 course, 19.5 credits.

08 1C0 130 engineering drawing 2.52-1/autumn and winter

08 1C0 16 1 engineering training (B) 1.5 0-3 1 spring and summer.

Circuit principle 10 1C0040 (1) I * * 4-02 autumn and winter

10 1C0060 circuit principle experiment (I) I * * 0.50-12 winter

10110 fundamentals of analog electronic technology ** 3 3-0 2 winter

Circuit principle of101c0050 (a) Ⅱ * * 2-02 spring

10 1C0070 circuit principle experiment (Ⅰ) Ⅱ * *10-22 spring

10 1C0 120 basic experiment of analog electronic technology ** 1 0-2 2 spring

10 1C0 130 fundamentals of digital electronic technology ** 3 3-0 2 spring

10 1C0 140 Basic Experiment of Digital Electronic Technology ** 1 0-2 2 Summer

(3) 8 credits for specialized elective courses

Attend a course with a "B" or "C" in the course number. This major suggests taking the following courses.

06 1B0020 complex variable function and integral transformation1.51-1summer

06 1B0090 partial differential equation 22-0 1 summer

06 1B0030 probability theory 1.5 1.5-0.2 autumn

06 1B0 160 stochastic process 1.5 1.5-0 2 winter

06 1B0 100 mathematical statistics 1.5 1.5-0.2 spring

06 1B0240 University Physics Experiment 1.5 0-3 2 Spring and Summer

3. 55 credits for specialized courses

(1) 8 compulsory courses with 26.5 credits.

1019101calculation method 2.5 2- 1 2 spring

10 120420 engineering electromagnetic field and wave 3 2.5- 1 2 summer

10 120440 signal analysis and processing 3 2.5- 1 2 summer

10 120030 electrical engineering ** 5 4.5- 1 3 autumn and winter

10 120072 cybernetics (B) * 3.5 3- 1 3 autumn and winter

10 120430 microcomputer principle and application * 4 3.5- 1 3 autumn and winter

10 1202 10 power electronic technology I * 3 2.5- 13 spring

10 1204 10 electrical principle and application * 2.5 2- 1 3 summer

(2) Elective module courses 14.5 credits.

This major has two modules. Students must take one module, and other modules can be taken.

A. module 1 need 14.5 credits.

10 193780 power system steady-state analysis * 2.52- 1.3 spring

10 19 1032 power plant electrical system * 1.5 1.5-0.3 spring

10 19345 1 power system transient analysis * 2 2-0 3 summer

10191021high pressure technology * 2 1.5- 1 3 summer

10 193400 technical and economic basis of electric power * 2 2-0 3 summer

10 120360 relay protection and automatic device * 2.5 2- 1 4 autumn

10 19370 1 power information technology * 2 2-0 4 autumn

B. Module 2 requires 14.5 credits.

10 120400 electrical equipment CAD technology * 2.5 2- 1 3 spring

10191kloc-0/30 modeling and analysis of electrical equipment * 2.5 2- 1 3 spring

10 193580 modern drive technology * 2 2-0 3 spring

1019112/electromechanical motion control system * 2.5 2- 1 3 summer

10 193490 computer control technology for electrical equipment * 2.52- 14 Qiu

101910/51automatic control element * 2.5 2- 1 3 summer

(3) 6 credits for practical teaching.

1) 4 credits for 3 required courses.

10 1C0 100 electronic system integrated design 2 credits +2 weeks, the second short semester.

10 188060 cognitive practice 1 credit+1 week, the second short term.

1 018810 enterprise practice1credit+1 week, the third short semester.

2) Take 2 credits.

10 188 140 power system comprehensive design 2 credits +2 weeks, the third short semester.

10 188 170 comprehensive design of electrical equipment 2 credits +2 weeks, the third short semester.

10 188 130 electronic design comprehensive innovation practice 3 credits +3 weeks, the third short semester.

(4) Graduation design (thesis) requires 8 credits.

10 1890 10 graduation project (thesis) 8 credits+12 weeks, 4 spring and summer.

4. Personality course 10 credits

Students can design their own courses, and this major suggests taking the following courses 10 credits.

20 1 10040 management information system 3 2-2 2 spring and summer

10 190040 data structure and database technology 2.5 2- 1 2 summer

10 190060 software engineering 2.5 2- 1 3 autumn

10 190030 electromagnetic field numerical calculation 2.5 2- 1 3 autumn

10 1933 10 high-speed maglev transportation technology 2 2-0 3 spring

10 19002 1 programmable controller system 2.5 2- 1 3 spring

1012011operational research 2 2-0 3 spring

10 193300 electronic system design 2.5 2- 1 3 spring and summer

10 193320 intelligent control technology and its application 2 2-0 3 summer

10 120220 power electronic technology ii 1.5 1- 1 3 summer

10 193560 modern testing technology 2.52- 14 Qiu

The application of 10 193340 DSP in motion control system

Theory and control of modern permanent magnet motor.

10 19339 1 power engineering 2 2-0 4 autumn

10 193530 drive control and intelligence 2 2-0 4 autumn

1019191MATLAB and electromechanical system simulation 2.52-1April.

10 193690 theory and application of linear motor 2 2-0 4 autumn

10 19005 1 computer network and communication 2.5 2- 1 4 winter

10193710 DC transmission 2 2-0 4 winter

10 1938 10 mechatronics technology 2.5 2- 1 4 autumn

Application of power electronics technology in power system

105900 10 motor computer control system 2 2-0 4 winter

10 19 1090 power system new technology lecture 2 2-0 4 spring

10191kloc-0/60 lecture on new technology of electrical equipment 2 2-0 4 spring

10 19 1200 power system operated in the autumn of 22-2004.

5. The second classroom course +4 credits

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