(1) electronic engineering course.

Electronic circuit and system

Fundamentals of Analog Electronic Technology Fundamentals of Digital Electronic Technology

Practical technology of making CPLD with Protel electronics

Microcomputer principle microcomputer interface

EWB circuit design VHDL programming

Sensor principle single chip microcomputer principle

Information and signal processing

information theory

Signals and Systems

Digital signal processing DSP programming

Random signal processing digital image processing

Language signal processing signal detection

Automatic control principle programmable controller

Communication and Information Engineering

Communication principle high frequency circuit

Phase-locked technology microwave technology

Program-controlled switched optical fiber communication

Computer network computer communication

web design

Multimedia technology design and paper

Curriculum design single chip microcomputer programming

Security design of radio frequency identification system for graduation thesis

⑵ What courses do electronic information engineering majors mainly study?

Professional courses include:

Circuit foundation, electronic circuit foundation, computer composition principle, C language programming, single chip microcomputer technology, sensor and detection technology, electronic product production and maintenance, electronic product drawing and plate making, electronic instrument measurement technology, computer network technology.

Embedded (ARM) technology, DSP technology, intelligent instrument technology, surface mount (SMT) technology, electronic design automation, electronic product marketing, electronic technology practice, electronic equipment assembly practice, electronic information comprehensive practice, mechanical engineering, etc.

(2) Extended reading of electronic engineering courses.

Electronic information engineering has involved many aspects of society. Students majoring in this major may have a feeling that they have learned a lot, but there is no specific direction. This is similar to automation major, even more complicated than automatic learning. Study computer, communication engineering, electronic science and technology, control science and other professional courses.

Of course, in the process of learning electronic information engineering, we also need to learn advanced mathematics, linear algebra, probability statistics, college physics and other basic courses. Moreover, in the learning process of this major, practical ability is as important as theoretical knowledge, so people with strong practical ability will learn this major better.

Therefore, electronic information engineering is an interdisciplinary major, which often has the characteristics of learning more and more. Therefore, the key to learning this major is to find the direction you are interested in during your school study and study hard.

(3) What are the professional courses of electronic information engineering?

Electronic information engineering courses include circuit theory series, computer technology series, information theory and coding, signals and systems, digital signal processing, introduction to information security, electromagnetic field theory, automatic control principle, sensing technology and so on.

Main practical teaching links: including course experiment, computer training, course design, production practice, graduation design, etc. Generally, it is required that the practice teaching link should be no less than 30 weeks.

Knowledge and skill requirements:

1, systematically master the extensive technical basic theoretical knowledge in this professional field, and adapt to the extensive work scope of electronic information engineering;

2, master the basic theory and experimental technology of electronic circuits, and have the basic ability to analyze and design electronic equipment;

3. Master the basic theory and general application methods of information acquisition and processing, and have the basic ability to design, integrate, apply and simulate information systems by computer;

4, understand the basic principles, policies and regulations of the information industry, understand the basic knowledge of enterprise management;

5. Understand the theoretical frontiers of electronic equipment and information systems, and have the initial ability to research and develop new systems and technologies;

6. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

(4) What courses do electronic information engineering majors need to study?

Electronic information engineering Electronic information engineering is one of the important foundations and pillars of the information industry. Based on the theory of special circuit system, signal and subordinate information processing, electromagnetic field and microwave, it studies the processing and exchange of various information such as voice, characters, images and remote sensing information, as well as the transmission of wireless, cable and optical cable, and studies and develops various electronic and information systems on this basis. The main contents of this major are: * the theory and technology of processing, transmission, exchange and detection of various information, various telecommunication systems and networks; * Theory and technology of circuit theory, electronic system design and application, system simulation and integrated circuit design automation; * microwave theory and technology, antenna and electromagnetic compatibility theory and technology; * Electronic circuit application technology, computer application technology, information processing application technology and electromagnetic wave application technology. This major includes the State Key Laboratory of Microwave and Digital Communication, the Intelligent Graphics and Images Department of the State Key Laboratory of Intelligent Technology and Systems, and the Electronic Design Automation (EDA) laboratory. And there are many advanced instruments and equipment. The scope of work that graduates of this major adapt to is: the research and teaching of signal processing, transmission, exchange and detection technology, the research, production and application of electronic equipment and systems, the application and development of electronic technology and computer technology, and the research, application and development of microwave technology.

5] What are the professional courses of electronic information engineering?

Main courses: circuit theory series, computer technology series, information theory and coding, signal and system, digital signal processing, electromagnetic field capacitance theory, automatic control principle, sensing technology, etc.

Freshman: advanced mathematics, college physics, college English, engineering drawing, computer foundation.

Sophomore: Signals and Systems, Analog Circuits, College English, High Frequency Circuits, EDA, Probability Theory and Mathematical Statistics.

Junior year: digital signal processing, digital compression, communication principle, digital circuit, microcomputer principle, scientific English.

Senior year: electronic practice, graduation project

The design courses offered by different schools may be different, but they are still similar.

Main practical teaching links: including course experiment, computer training, course design, production practice, graduation design, etc. Generally, it is required that the practice teaching link should be no less than 30 weeks.

[6] What are the specialized courses for electronic information engineering? Thank you.

Specialized courses of electronic information engineering: circuit theory series, computer technology series, information theory and coding, signal and system, digital signal processing, electromagnetic field theory, automatic control principle, sensing technology, etc.

Training requirements: this major is a wide-caliber major in electronic and information engineering. Students in this major mainly study signal acquisition and processing, power plant equipment information system and other professional knowledge. With practical training in electronic and information engineering, I have the basic ability to design, develop, apply and integrate electronic equipment and information systems.

First of all, we must have solid mathematical knowledge and high requirements for physics, mainly electricity; It is necessary to learn many basic courses such as circuit knowledge, electrician foundation, electronic technology, signal and system, computer control principle, communication principle, etc. To study electronic information engineering, you have to design, connect some circuits and conduct experiments with computers. The requirements for hands-on operation and use of tools are also relatively high.

Electronic information engineering is a subject that uses modern technologies such as computers to control and process electronic information. It mainly studies the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems. Electronic information engineering has covered many aspects of society. Electronic information engineering is a major integrating modern electronic technology, information technology and communication technology.

(7) What courses should electronic information engineering major take?

Main course:

Advanced mathematics, linear algebra, probability statistics, college physics, signals and systems, college English, professional English, circuit analysis, electronic technology foundation, C language, high-frequency electronic technology, electronic measurement technology, communication technology, automatic detection technology, network and office automation technology, multimedia technology;

Single chip microcomputer technology, electronic system design technology, electronic design automation (EDA) technology, digital signal processing (DSP) technology, analog circuit, digital circuit, microcomputer principle, single chip microcomputer principle and application, ARM embedded system, automatic control, sensor principle and application, electronic electrician practice, electronic technology practice.

(7) Extended reading of electronic engineering course:

Related extension: the necessary ability of electronic information specialty

1, systematically master the extensive technical basic theoretical knowledge in this professional field, and adapt to the extensive work scope of electronic information engineering;

2, master the basic theory and experimental technology of electronic circuits, and have the basic ability to analyze and design electronic equipment;

3. Master the basic theory and general application methods of information acquisition and processing, and have the basic ability to design, integrate, apply and simulate information systems by computer;

4, understand the basic principles, policies and regulations of the information industry, understand the basic knowledge of enterprise management;

5. Understand the theoretical frontiers of electronic equipment and information systems, and have the initial ability to research and develop new systems and technologies;

6. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

7. Master the basic knowledge, theories and principles necessary for computer electronic technology;

8. Master the general production technology of electronic products and have the ability of production management of electronic products;

9. Master the maintenance and welding technology of electronic appliances, and have the ability to complete all assembly and welding of complex products according to process documents;

10, with the ability to skillfully use and maintain common electronic instruments and meters, and the ability to debug equipment and troubleshoot according to the height file;

1 1, with the basic ability of on-site installation and debugging of electronic engineering.

(8) What courses are there for electronic information engineering?

Mathematics courses: advanced mathematics, linear algebra, probability and statistics, complex variable function, mathematical equation,

English classes: college English, professional English,

Political courses: * * theory, * * thought, philosophy, political economy, legal basis, ideological and moral cultivation,

Practical courses: military training, metalworking practice, professional practice,

Circuit courses: circuit analysis, digital circuit, analog circuit, high-frequency circuit, microwave circuit, signal and system, digital signal processing, random signal analysis, image processing, electromagnetic field theory, antenna theory, communication principle, information theory, coding theory, digital communication, television principle, mobile communication, satellite communication, digital video processing and digital switching technology.

Basic knowledge of computer application technology and electronic information engineering technology, but also focus on circuit design, EDA technology, microcomputer principle and interface technology, PLC control technology and application, single chip microcomputer principle and application, embedded system and application, single chip microcomputer data transmission interface expansion technology and application, and other aspects of internship, training and professional skills training.

Professional advantages: Industry experts and enterprise elites are the guarantee of teachers. We have a national training base for electrical, electronic and automation based on embedded system, and have set up a number of teachers' mobile stations and employment bases together with large famous enterprises at home and abroad, with sufficient posts, high employment rate and good development momentum.

Training objective: to train high-end skilled professionals with the ability of electronic product assembly and debugging, who are engaged in technical operation, production management and technical support for electronic information industry manufacturing and service enterprises, and engaged in product manufacturing and testing, production process implementation, production management and technical services.

Levies main courses of electronic information engineering

The main courses are copying: advanced mathematics, linear algebra, probability statistics, college physics, signals and systems, college English, professional English, circuit analysis, electronic technology foundation, C language, high-frequency electronic technology, electronic measurement technology, communication technology, automatic detection technology, network and office automation technology, multimedia technology, single chip microcomputer technology, electronic system design technology, electronic design automation (EDA) technology, digital signal. Analog circuit, digital circuit, microcomputer principle, single chip microcomputer principle and application, ARM embedded system, automatic control, sensor principle and application, electronic electrician practice, electronic technology practice.

Network-electronic information engineering

(9) Extended reading of electronic engineering course:

Electronic information engineering is a subject that uses modern technologies such as computers to control and process electronic information. It mainly studies the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems. Electronic information engineering has covered many aspects of society. Electronic information engineering is a major integrating modern electronic technology, information technology and communication technology.