What is the major of electrical engineering?

The main courses of electrical engineering major include circuit principle, analog electronic technology, digital electronic technology, microcomputer principle and application, signal and system, automatic control principle, motor and transmission, power electronics technology, electric drive automatic control system, electric control technology and PLC application, microcomputer control technology and power supply technology.

Electrical engineering is one of the core disciplines in modern science and technology, and it is also an indispensable key discipline in today's high-tech field. For example, it is the great progress of electronic technology that promotes the arrival of the information age based on computer network and will change the life and work mode of human beings.

(1) Extended reading of main courses of electrical engineering;

I. Training requirements

1, four combinations of the whole culture

Strong electricity is dominant, strong and weak electricity are combined, electrical technology and electronic technology are combined, software and hardware are combined, and components and systems are combined. The trained students have strong system concept, rich basic knowledge and strong engineering practice and innovation ability.

2. Five steps of basic experiment

The experimental teaching of specialized basic courses adopts a new teaching mode, that is, to set up experimental courses and contents for the purpose of cultivating students' practical ability and innovation ability.

Professional basic experiments are divided into five training platforms from primary to advanced, which enable students to receive a series of comprehensive and designed trainings, such as electronic engineering practice, electrical and electronic measurement and experimental technology, electronic circuit design and CPLD and electronic CAD technology, integrated technology of single chip microcomputer application, and integrated design of electronic circuits.

3. Professional experiments focus on ability.

The new model of professional experimental teaching aims at cultivating students' engineering practice ability, scientific research ability and innovation ability.

Professional experiments are divided into course experiments (such as motor experiments, microcomputer technology experiments, power electronics and computer control technology experiments, etc.). ) and independent professional comprehensive experiments (power system relay protection comprehensive experiment, power system comprehensive automation experiment, power system detection experiment, power system comprehensive design, hydropower station operation simulation training, etc.). ) according to the purpose of ability training.

4. Knowledge horizon and frontier

Offering characteristic elective courses reflecting new technologies, new equipment and new mechanisms in the field of electrical engineering and automation, as well as elective courses introduced across disciplines, so as to broaden students' horizons and understand the current scientific frontier.

Second, the employment prospects

This major came into being in the 1970s. At first, in Oxford University, the DC control mode was realized for the first time. At that time, the driving voltage of the actuator was DC and the control voltage was DC. The working mode of automation system is very simple and rough, and its accuracy is also very low.

However, the control mode of DC is widely known because of its long history, and people will naturally think of using DC to control AC actuators.

With the emergence and maturity of high-power electronic devices such as transistors, high-power transistors and field effect transistors, and the establishment of weak and strong current control systems based on modern mathematics and matrix algebra, electronic technology and automation have reached a new historical height.

Although China has not been in the forefront of the world in this respect, with the improvement of China's comprehensive national strength and the increase of foreign exchanges, we have gradually narrowed the gap with developed countries. Representative ones are: 300 billion computer development successes per second; Master nanotechnology; Application of simulation technology.

What courses are there in electrical engineering and automation?

The courses of electrical engineering and automation are:

1. Power system automation: Power system automation mainly includes real-time monitoring of regional dispatching, substation automation and load control. The automation of management system is realized by computer. The main projects include power industry planning management, financial management, production management, personnel and labor management, data retrieval, design and construction, etc.

2. Power system relay protection: The development of power system relay protection has gone through several stages, such as electromechanical type, rectifier type, transistor type, integrated circuit type, etc., and now it has developed into microcomputer protection stage. The development history of microcomputer relay protection refers to relay protection based on digital computers (including microcomputers). It originated in Britain, Australia and the United States in the middle and late 1960s.

3. Embedded system: it is a kind of "special computer system completely embedded in the controlled equipment and designed for specific applications". According to the definition of the British Institute of Electrical Engineers, an embedded system is a control, monitoring or auxiliary device, machine or equipment used for factory operation. Unlike general computer systems such as personal computers, embedded systems usually perform predefined tasks with specific requirements.

4. Control theory: Control theory tells the theoretical research results with new concepts and ideas in system control science and its application research results in various fields, especially in high-tech fields, but it is seriously out of touch in the civil field, that is, in real life.

5. Power electronics technology: Power electronics technology is a new type of electronic technology applied in the power field, that is, the technology using power electronic devices (such as thyristors, GTO, IGBT, etc.). ) to convert and control electric energy. The "power" power transformed by power electronics technology can be as large as several hundred MW or even GW, or as small as several W or even below1W. Different from information electronic technology which focuses on information processing, power electronic technology is mainly used for power conversion.

"3" What courses are there for electrical engineering and automation specialty?

Main course:

Advanced mathematics, probability theory and mathematical statistics, linear algebra, complex variable function and field theory, descriptive geometry and engineering drawing, college physics, C language programming, circuit, engineering electromagnetic field, database programming, electrical engineering, digital electronic technology foundation, numerical calculation method, visual programming (Delphi or VC++), analog electronic technology foundation, microcomputer principle and interface technology application, automatic control theory.

Signal and system analysis, power plant power system foundation, computer network, power electronics technology, single chip microcomputer principle, programmable controller, power plant electrical part, thermal power plant, power system analysis, high voltage technology, power system planning, power system telecontrol and dispatching automation, optimization method, power system relay protection, integrated circuit protection control and signal, CAD design, power market theory and application, power system automatic control device.

(3) Extended reading of main courses of electrical engineering.

Main practical teaching links:

Including circuit and electronic technology experiment, electronic technology practice, metalworking practice, computer software practice and hardware practice, power plant and power station (such as Three Gorges and Gezhouba) production practice and graduation design.

Business development goals:

This major trains broad-caliber "compound" senior engineering and technical personnel who can work in the fields of system operation, automatic control, power electronics technology, information processing, experimental analysis, research and development, economic management and computer technology application related to electrical engineering.

Reference Network —— Electrical Engineering and Automation

〈〉〉〉〉〉〉〉〉〉〉〉〉〉〉〉𝶹𝶹𝶹𝶹〉〉㋅ 1297

Main subjects: electrical engineering, control science and engineering, computer science and technology. Main courses: circuit theory, information and electronic technology, power electronics sub-technology, automatic control principle, microcomputer principle and application, electrical engineering, electrical engineering, power system analysis, motor design, high and low voltage electrical appliances, motor control, intelligent electrical appliance principle and application, power system relay protection, integrated automation of power system, building power supply and distribution, etc.

The main course of electrical engineering and automation specialty.

Main subjects: electrical engineering, control science and engineering, computer science and technology, etc.

Main courses: circuit principle, electronic technology foundation, computer principle and application, computer software foundation, control theory, motor and drive, power electronic technology, signal analysis and processing, electric drive control system, industrial process control and automation instrument, etc. Senior students can set flexible modules and elective courses in their major direction according to social needs.

Third, the main practical teaching links: including the basic experiment of circuit and electronics, electronic technology practice, professional comprehensive experiment, computer practice, curriculum design, production practice and graduation design.

4. Main experiments: motion control experiment, automatic control experiment, computer control experiment, test instrument experiment, power electronics experiment, etc.

What are the compulsory courses for electrical engineering and automation specialty?

Electrical engineering and its automation involve many fields, such as power electronics technology, computer technology, electromechanical technology information and network control technology, electromechanical integration technology and so on. It is a comprehensive subject, and its main characteristics are strong and weak electricity, mechatronics and the combination of software and hardware. This major trains senior engineers with basic knowledge of engineering technology and corresponding professional knowledge of electrical engineering, basic training of electrical electronics, system control and computer technology, and basic ability to solve technical analysis and control problems of electrical engineering. This major trains broad-caliber "compound" senior engineering and technical personnel who can work in the fields of system operation, automatic control, power electronics technology, information processing, experimental analysis, research and development, economic management and computer technology application related to electrical engineering.

Students mainly study broad engineering technical foundation and certain professional knowledge in electrician technology, electronic technology, information control and computer technology. The main features are the combination of strong current and weak current, electrical technology and electronic technology, software and hardware, components and systems. Students receive basic training in electrical and electronics, information control and computer technology, and have the basic ability to solve technical problems of electrical engineering analysis and control.

Main subjects: electrical engineering, computer science and technology, control science and engineering.

Main courses: circuit principle, electronic technology foundation, electrotechnics, power electronics technology, electric drive and control, computer technology, signal and system, control theory, etc.

Mechatronics-belongs to the School of Mechanical Engineering.

Mechatronics is also called mechatronics, and its English name is Mechatronics. It consists of the first half of English mechanics and the second half of electronics. Mechatronics first appeared in the supplement of Japanese magazine Mechanical Design of 197 1. With the rapid development of mechatronics technology, the concept of mechatronics has been widely accepted and applied by us. With the rapid development and wide application of computer technology, electromechanical integration technology has made unprecedented development. Nowadays, mechatronics technology is a technology closely related to mechanical and microelectronic technology, and its development makes the cold machine humanized and intelligent.

Mechanical aspects: mechanical drawing, mechanical design, engineering materials, engineering mechanics, numerical control programming technology, autoCAD, Mastercam software, C#

Electrician: programmable controller PLC, single chip microcomputer, automatic control principle, digital circuit, electrician, electronics.

Practical courses: electric drive, PLC, single chip microcomputer, fitter, general lathe, milling, planing, CNC lathe, milling and machining center.

Mechatronics is a wide-caliber specialty with a wide range of applications. During school, students should not only learn various theoretical knowledge such as machinery, electrical and electronic, computer technology, control technology, detection and sensing, but also participate in various skills training and national vocational qualification examination, which fully embodies the characteristics of attaching importance to skills training. After graduation, students mainly face enterprises and companies in the Pearl River Delta, engaged in processing and manufacturing, household appliances production and after-sales service, the use and maintenance of CNC machining machines and equipment, the design, production, transformation and technical support of property automation management systems and electromechanical products, as well as the installation, debugging, maintenance, sales and management of electromechanical equipment.

1. Main work: installation, debugging, maintenance, sales and management of electromechanical integration equipment; Numerical control transformation of ordinary machine tools.

2. Auxiliary work: design, production, transformation and technical services of mechatronics products.

//dqjsw . cn/a/xingyexienwen/xingye yanjiu/20 10/03 15/4057

What subjects do you major in electrical engineering and automation?

Main subjects: electrical engineering, control science and engineering, computer science and technology. Main courses: circuit theory, information electronics technology, power electronics technology, automatic control principle, microcomputer principle and application, electrical engineering foundation, electrical engineering, electrical system analysis, motor design, high and low voltage electrical appliances, motor control, intelligent electrical appliance principle and application, power system relay protection, integrated automation of power system, building power supply and distribution, etc.

The major of electrical engineering and its automation requires basic theories and knowledge in the fields of motor and its control, electrical appliance and its control, power system and its automation, and building electrical engineering, and can design, manufacture, develop, test, analyze and learn. Comprehensive management, automatic control, power electronics technology, production management and computer technology application of compound senior engineering and technical personnel.

(7) Extended reading of main courses of electrical engineering:

Training objectives of electrical engineering and automation specialty;

1. has a solid knowledge of mathematics, physics, chemistry and other natural sciences, and has good basic knowledge of humanities, social sciences and management sciences and comprehensive foreign language ability.

2. Systematically master the basic technology and theoretical knowledge in this field, including electrical theory, electronic technology, information processing, control theory, basic principles and applications of computer software and hardware, etc.

3. Get good engineering practice training and good computer application ability.

4. Have 1-2 professional knowledge and skills, and understand the frontier development trend of this discipline.

5. Have strong adaptability to work, and have certain practical working ability in scientific research, scientific and technological development and organization and management.

Network —— Electrical Engineering and Automation Specialty

What courses are there in electrical engineering?

Grade 2007 electrical engineering and its automatic training scheme

Open class group | close class group

Public * * * Basic Compulsory Course

Physical experiment (2)

Probability and mathematical statistics

Basic principles of Marxism

Outline of modern Chinese history

College Physics (2)

Sports (3)

Advanced Mathematics A (1)

military theory

Sports (1)

Foundation of Computer Culture

College Chinese

Ideological and moral cultivation and legal basis

Sports (2)

Fundamentals of Computer Technology

Advanced Mathematics A (2)

linear algebra

College Physics A (1)

Physical experiment 1

Introduction to * * * * Thought, * * * Theory and "* * *" Important Thought

Sports (4)

College students employment guidance

Network resources and information retrieval

Compulsory course foundation

Circuit principle 2

Circuit experiment

Analog Electronics Technique

Fundamentals of Engineering Drawing and Computer Aided Design C (1)

complex function and integral transform

Circuit principle 1

Engineering Drawing and CAD C Basis (2)

Digital Electronic Technique

Electronic technology experiment

Principle of Automatic Control

Microcomputer Principle and Interface Technology

ground rule

Military training

Cognitive practice

Electronic practice

Metalworking practice b

Professional required course

engineering electromagnetic field

electromechanics

power electronic technology

Electrical control and PLC technology

Steady-state analysis of power system

Transient analysis of power system

The electrical part of the power plant

Power system relay protection

Power system automation device

High voltage insulation engineering

Microcomputer relay protection for power system

professional practice

Course design of electronic technology

Course design of high voltage and insulation technology

Course design of electrical part in power plant

Course design of power system analysis

Curriculum Design of Power System Relay Protection

Microcomputer monitoring training for substation

field management

graduation field work

Graduation design (thesis)

Professional elective

principle and application of single chip microcomputer

Control system simulation

Embedded system and its application

Automatic instrumentation and process control

virtual instrument

Introduction to electric power engineering

Power Quality Analysis and Control

New energy power generation technology

Distribution automation

On-line insulation detection technology

Power system overvoltage

Dispatching, Operation and Control of Power System

Power system marketing

Automation of electric power system

Specialty English

School public elective course

Class group planning class group

College English (3)

College Russian (3)

College Japanese (3)

College Japanese (1)

College Russian (2)

College Russian (1)

College English (2)

College English (1)

College Japanese (2)

College English (4)

College Russian (4)

College Japanese (4)

What are the professional courses of electrical engineering and automation?

1. electrical engineering and automation main disciplines: electrical engineering, control science and engineering, computer science and technology.

2. Main courses of electrical engineering and automation: circuit theory, electronic technology, power electronics technology, automatic control principle, microcomputer principle and application, electrician foundation, electromechanics, electrotechnics, power system analysis, motor design, high and low voltage appliances, motor control, intelligent appliance principle and application, power system relay protection, power system integrated automation, building power supply and distribution, etc.

What are the specialized courses of "pick-up" electrical specialty?

Electrical automation technology (expert)

main course

Circuit principle, computer drawing technology, power and drag, self-tuning control principle, power system principle, power electronics technology, thermal equipment, etc.

Power supply technology (expert)

main course

English, advanced mathematics, linear algebra, circuit principle, power electronics technology, microcomputer principle and application, power system, industrial electrical equipment, electric energy measurement and instrument, etc.

Applied electronic technology (expert)

main course

English, advanced mathematics, college physics, basic circuit analysis, microcomputer principle and application, motor and drive, computer control, CAD electronic measurement, TV principle and maintenance, etc.

Electromechanical integration technology (junior college)

main course

Electromechanical transmission design, mechanical design, engineering mechanics, mechanical design basis, electromechanical integration system design, mechanical manufacturing technology principle, hydraulic transmission and control, programmable controller, etc.

Power plants and power systems (experts)

main course

Circuit principle, power electronics technology, automatic control, microcomputer principle, electromechanics, power system analysis, power system relay protection device, power system automation, power plant substation electrical part, high voltage technology, etc.