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. Now, electronic information engineering has covered many aspects of society, such as how to deal with all kinds of telephone signals in telephone exchanges, how to transmit our voices and even images by mobile phones, how to transmit data in the networks around us, and even how to keep the information transmission of the military secret in the information age. We can learn some basic knowledge to understand these things, and we can apply more advanced technology to develop new products.
Electronic information engineering major is to learn basic circuit knowledge and master the method of processing information with computer. First of all, we must have solid mathematical knowledge and high requirements for physics, mainly electricity; Learn many basic courses such as circuit knowledge, 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. For example, I will connect the circuit of the sensor myself, build a small communication system with a computer, visit the electronic and information processing equipment of some big companies, understand how the mobile phone signal and cable TV are transmitted, and have the opportunity to participate in large-scale engineering design under the guidance of teachers. To learn electronic information engineering, you should like to study and think, and be good at finding problems with your brain.
This has little to do with high school physics. You don't have to worry about it. Basic courses must be memorized, especially advanced mathematics, circuit principle, analog electronic technology and digital electronic technology. Don't worry, it's not difficult, and it must be easier than high school.
High frequency electronic circuit, computer technology foundation, microcomputer principle and interface, single chip microcomputer principle and application, signal and system, digital signal processing, communication principle, electromagnetic field and electromagnetic wave, information theory and coding, modern detection technology, digital image processing, automatic control theory, etc. It is also a professional course. It is also important to study systematically according to the final direction, which is the capital for your future "eating".
I wish you a bright future
Question 2: Electronic information engineering major, what will you do in the future? Electronic information engineering is a wide-ranging specialty.
A wide range of employment, technical work is mainly in the IT field, preferring computer hardware. Of course, if you are talented in software, you can also switch to software research and development. The main professional courses are divided into two categories: electronic design and communication engineering. So you can find the direction of your future study or employment in two categories.
Professional courses that need to be well studied in the direction of electronic design: circuit analysis, analog circuit, digital circuit, microcomputer principle, single chip microcomputer and EDA. . .
Communication engineering direction: communication electronic circuit, communication principle, signal system, digital signal processing, digital image processing and mobile communication technology. . .
Of course, the two directions are not completely isolated, and there is a great internal connection between courses.
If you are employed, you can also choose to do sales and human resources work in the IT industry, which requires high English and your communication skills, but not high professional knowledge. Of course, if we want to make a technical route, the wide-mouth specialty of electronic information engineering is far from deep enough for every practical technology. It is recommended to continue further study or work for two years.
I recommend employment companies: Huawei, Lucent, Asus, Lenovo, Hisense, Netcom, Telecom, Mobile and Netcom. . .
I recommend the following units for further study: Institute of Electronics, Chinese Academy of Sciences, Beihou Electronics Department, Tsinghua Electronics Department, Electronic Science and Technology Department, Xidian Electronics Department, Beihang Electronics Department, Zhongnan Electronics Department, Fudan Electronics Department, Jiaotong University Electronics Department, An Electronics Department and Huazhong University Electronic Science and Technology Department. . .
Question 3: What's the difference between applied electronics and electronic information technology? What is the direction of studying electronic information technology? It is the electronic information product manufacturing industry, software industry and integrated circuit industry. Emerging communication services, such as data communication, multimedia, Internet, telephone information services, mobile phone short messages and other services will also expand rapidly; Also worthy of attention are cultural and technological industries, such as online games. At present, there are four kinds of talents supported by information technology: troubleshooting, equipment and customer service, software and hardware installation, configuration update and system operation, monitoring and maintenance. In addition, e-commerce and interactive media, database development and software engineering are in great demand.
I am a student of applied electronic technology. I suggest you don't apply for the exam, but apply for the electronic information technology major! For reference only!
Question 4: What is electronic information engineering? What do you mainly do after you come out? Electronic information engineering majors train senior engineering and technical personnel engaged in the research, design, manufacture and management of electronic technology (equipment) and information systems. In addition to basic courses, students mainly take the following courses: circuit theory, signal and system, analog electronic technology, digital electronic technology, sensing technology, television technology, digital signal processing, information theory and coding, microcomputer technology, EDA technology, principle and application of single chip microcomputer, optoelectronics technology, communication principle, mobile communication, optical fiber communication, voice processing technology, multimedia technology, digital image processing and so on. After graduation, students can go to research and design institutes, enterprises and institutions to engage in the design, technology development, system operation and maintenance, scientific research and other work of electronic technology or information systems. With the deepening of social informatization, most industries need high-paid electronic information engineering professionals. After graduation, students can engage in the design, application development and technical management of electronic equipment and information systems. For example, being an electronic engineer, designing and developing some electronic and communication equipment; Be a software engineer, design and develop all kinds of hardware-related software; Being a project supervisor and planning some large-scale systems requires high experience and knowledge; You can also continue to study as a teacher and engage in scientific research.
Question 5: What exactly is the major of electronic information science and technology?
Business development goals:
Business training objectives: This major trains senior professionals in electronic information science and technology who have basic theories and knowledge of electronic information science and technology, received rigorous scientific experimental training and preliminary scientific research training, and can engage in scientific research, teaching, scientific development, product design, production technology or management in electronic information science and technology, computer science and technology and related fields and administrative departments.
Business training requirements: Students in this major mainly study the basic theory and technology of electronic information science and technology. After training in scientific experiments and scientific thinking, they have the basic ability of applied research and technology development in this discipline and interdisciplinary subjects.
Graduates should have the following knowledge and abilities:
1. Master the basic theories and knowledge of mathematics and physics;
2. Master the basic theories, knowledge, skills and methods of electronic information science and technology and computer science and technology;
3. Understand the general principles and knowledge of similar majors;
4. Familiar with national electronic information industry policies and domestic and foreign intellectual property laws and regulations;
5. Understand the theoretical frontier, application prospect and latest development trends of electronic information science and technology, as well as the development of electronic information industry;
6. Master the basic methods of information inquiry, document retrieval and obtaining relevant information by using modern information technology; Have certain skills in technical design, summary, collation and analysis of experimental results, writing papers and participating in academic exchanges.
Main course:
Main subjects: electronic science and technology, computer science and technology.
Main courses: circuit analysis principle, electronic circuit, digital circuit, algorithm and data structure, computer foundation, etc.
Main practical teaching links: including production practice and graduation thesis. , usually arranged in 10-20 weeks.
Study time: four years
Degree awarded: Bachelor of Science or Engineering.
Similar majors: electronic information science and technology, optical information science and technology, information security, photoelectric technology, telecommunication engineering and management, electronic commerce and legal information and computing science, electronic technology application, electronic technology application and communication technology.
Distribution organization:
Peking University, Beijing Normal University, Beijing Union University, Beijing University of Posts and Telecommunications, China Agricultural University, Beijing Forestry University, Beijing Institute of Machinery.
Tianjin Nankai University, Civil Aviation Institute of China, Tianjin Normal University
Hebei North China Electric Power University, Hebei Institute of Technology, Hebei University, Yanshan University, Hebei Normal University, Langfang Normal University, Hebei Agricultural University.
Shanxi University, North China University of Science and Technology, Yanbei Normal University, Shanxi Normal University.
Inner Mongolia University, Inner Mongolia Autonomous Region, Inner Mongolia University of Technology
Liaoning University, Dalian Maritime University, Shenyang University, shenyang institute of chemical technology and shenyang ligong university.
Jilin University, Northeast Normal University, changchun university of science and technology, Jilin Agricultural University, northeast china institute of electric power, Jilin Institute of Architecture and Engineering, Beihua University.
Heilongjiang University, Harbin Institute of Technology, Harbin Engineering University, Heilongjiang Institute of Science and Technology, Daqing Petroleum Institute, Harbin Normal University, Mudanjiang Normal University.
Shanghai Fudan University, East China Normal University, Shanghai University, Shanghai University of Science and Technology
Jiangsu Nanjing University, Yangzhou University, Nanjing University of Aeronautics and Astronautics, China University of Mining and Technology, Jiangsu University, Nanjing University of Technology, Huaiyin Teachers College, East China Institute of Shipbuilding Industry, Nanjing University of Science and Technology, Nantong Teachers College.
Ningbo University, Hangzhou Institute of Electronic Technology, Zhejiang Institute of Engineering, Wenzhou Normal University, Zhejiang University, Zhejiang Institute of Science and Technology.
Anhui University of Science and Technology, Huaibei Coal Teachers College, Fuyang Teachers College, Wanxi University, Anqing Teachers College.
Xiamen University, Fujian Normal University, Quanzhou Normal University, Fujian Province
Jiangxi Shangrao Teachers College, Jinggangshan Teachers College, Yichun University, Southern Metallurgy College.
Shandong University, China Ocean University, Yantai University, Qingdao University, Shandong University of Science and Technology, Qingdao Institute of Civil Engineering and Architecture, Laiyang Agricultural College, Shandong University of Technology, Shandong Agricultural University and Shandong Normal University.
Henan Jiaozuo Institute of Technology, Zhengzhou Institute of Technology, Henan Agricultural University, Luoyang Normal University, Zhengzhou University, Henan University and nanyang normal College.
......& gt& gt
Question 6: What do you major in electronics? Hello, I hope I can help you.
Electronic major is the name of the subject. The following is a detailed introduction of basic courses, professional knowledge, arrangement of elective courses and practice links. Let more people know about this major and cultivate good goals.
On the basis of lifelong education, quality education and personality education, we will cultivate generous, compound and innovative intermediate technical workers with computer application expertise, who can develop morally, intellectually and physically in an all-round way, develop their knowledge, ability and quality in a coordinated way, analyze and solve problems independently, adapt to all the work in the field of "Electrical Engineering and Automation". [ 1]
Elementary course
Moral education, Chinese, mathematics and application foundation, English, physics, computer application foundation, physical education, employment guidance.
Professional courses
1, mechanical drawing learns the basic knowledge and methods of engineering drawing, projection principle, views, sectional views, sectional views, part drawings, assembly drawings and axonometric drawings, so that students can draw simple part drawings and assembly drawings, and have the ability to read views and draw control engineering drawings. 2. Learn the basic principles and laws of the circuit. Make students master the calculation and basic analysis methods of DC circuit, AC circuit and first-order dynamic circuit, understand the concepts of non-sinusoidal periodic current circuit, second-order dynamic circuit and the basic concepts of magnetic circuit, and calculate simple magnetic circuit. Understand the basic structure and principle of common electrical instruments. Make students master the use of DC and AC instruments. Can analyze the common troubleshooting methods of simple and commonly used electrical instruments, can use electrical instruments correctly, and cultivate students' ability to process data and solve practical problems.
3. Learn the principles, characteristics and main parameters of basic electronic devices and basic amplification circuits, common analysis and design methods of amplification circuits and feedback circuits, integrate the structure, characteristics, technical indicators, basic connections and typical application circuits of operational amplifiers, and understand the working principles of power amplifiers, sine wave oscillators and DC regulated power supplies. It lays a foundation for students to correctly analyze circuits and maintain instruments. [ 1]
Through experiments, students can master the structure, working principle and usage of commonly used instruments and meters. Master the test methods of common electronic device characteristics and main parameters, and choose them reasonably. Have the ability of wiring, testing, fault analysis and experimental result analysis of general electronic circuits. Lay a solid foundation for learning computers and digital instruments.
4. Learn the basic laws of common logic algebra, the composition and analysis methods of common gate circuits, combinational logic circuits, flip-flops and sequential circuits, and have the ability of preliminary design. Understand the pulse generation and shaping circuit, the basic principle of A/D and D/A conversion, and the external leads of typical integrated blocks.
5. Electrical wiring and electrical safety Through learning, students can master the basic knowledge of electrical safety and understand electrical wiring and construction methods.
6. Electronic Measurement Through the study of this course, students can master the basic knowledge of commonly used electrical and electronic instruments, and master their basic structure, working principle and measurement methods.
7. Motor and Electrical Control Through the teaching of this course, students can acquire the knowledge, basic theory and basic calculation ability of motor and electrical transmission, and receive the necessary basic skills training. Familiar with the basic knowledge of motor, understand the working principle of motor and analyze the common faults of motor.
Learn the structure, principle, specifications, models and uses of common control appliances, master the basic links of relay contactor control circuit, analyze and design general control circuit, and be familiar with the basic knowledge of the use, working principle, installation, debugging, operation and maintenance of general production machinery and electrical equipment. Understand the basic structure, working principle and working characteristics of transformers, AC, DC motors and control motors.
8. Electrical Drawing enables students to master the methods and principles of electrical drawing through learning; Common words and graphic symbols of electrical and electronic components; Can correctly read and draw the schematic diagram and installation diagram of electrician and electronic circuit.
9. Electronic Design Automation Through the teaching of this course, students are familiar with and master the use of a version of electronic circuit CAD and electronic circuit workbench software. Can use computer to draw circuit diagram and design corresponding printed circuit board.
10, Web page production and design Use common web page production software to produce and design web pages, complete personal web page production, and publish relevant information online.
1 1, power electronics technology to learn the basic principle and main parameters of thyristor. Make students master the basic principles of commonly used silicon controlled rectifier circuits and active inverter circuits. & gt
Question 7: What is the major of electronic information engineering? 1. Electronic Information Engineering has two professional degrees, namely, engineering and science, according to the different enrollment plans of the school. 2. Main disciplines: electronic science and technology, information and communication engineering, computer science and technology. Main courses: 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.
Question 8: What software should the electronic information engineering major learn? Let me introduce what electronic information should learn.
Introduce them in the order I have learned.
First Half of Freshman: Computer Foundation (Compulsory)
Freshman and a half semester: C language (compulsory) is the most basic language and must be mastered.
The first half of sophomore year: Matlab (optional) mainly draws pictures, most of which are related to signals.
Second semester of sophomore year: Protel (optional) draws pictures, and finally generates PCB drawings, which can be used as circuit boards. If you want to engage in the electronics industry, you must understand.
Workbanch (self-study) connection circuit diagram, software provides various chips, operational amplifiers, etc. The software can be used to simulate this phenomenon before soldering the circuit. (Not 100% accurate, practice makes true knowledge. Real masters don't need this, but they can be used when they are just getting started. )
The first half of junior year: assembly language (compulsory)
Single chip microcomputer (compulsory) is the rice bowl of electronic specialty. You must study hard.
Second half of junior year: VHDL is also very useful. I use it as a calculator.
The first half of senior year: PLC is not deeply studied, and it is only used to do some basic experiments. The teacher said that the performance of things made by PLC is relatively better.
That's all I remember. Maybe the order will be a little reversed. But in general, there is so much computer-related learning, and you should look up the rest of the information on the Internet or in the library. Ask your brothers and sisters for advice. Then we must do a good job in the experimental class, do more work at ordinary times, and get on well with the teachers. Study hard and come on!
:)
Question 9: What can students majoring in electronic information engineering do? 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. Now, electronic information engineering has covered many aspects of society, such as how to deal with all kinds of telephone signals in telephone exchanges, how to transmit our voices and even images by mobile phones, how to transmit data in the networks around us, and even how to keep the information transmission of the military secret in the information age. We can learn some basic knowledge to understand these things, and we can apply more advanced technology to develop new products.
Electronic information engineering major is to learn basic circuit knowledge and master the method of processing information with computer. First of all, we must have solid mathematical knowledge and high requirements for physics, mainly electricity; Learn many basic courses such as circuit knowledge, 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. For example, I connected the circuit of the sensor myself, built a small communication system with a computer, visited the electronic and information processing equipment of some big companies, and learned about cell phone signals and cable TV.
With the deepening of social informatization, most industries need high-paid electronic information engineering professionals. After graduation, students can engage in the design, application development and technical management of electronic equipment and information systems. For example, being an electronic engineer, designing and developing some electronic and communication equipment; Be a software engineer, design and develop all kinds of hardware-related software; Being a project supervisor and planning some large-scale systems requires high experience and knowledge; You can also continue to study as a teacher and engage in scientific research.
There are many colleges and universities offering this major. Tsinghua University Electronic Engineering Department has this major, and it implements a six-year undergraduate-master training program. Beijing University of Posts and Telecommunications is also a school that mainly trains such talents. General universities of science and engineering and comprehensive universities have set up this major, which is very popular and the admission score is relatively high compared with other majors.
I think electronic information employment is good.
Although not as high as the employment rate around 2002.
But we can also see that the overall employment situation of electronics in the past two years is not like this.
Very good!
But overall, it's not good. There is such a job in electronics in our school, I think.
It's already very good
Generally, there are more than ten jobs in a class meeting, all of which are signed in.
Economically developed areas in Yangtze River Delta and Pearl River Delta
Shanghai, Shenzhen, Dongguan.
We can look at other universities in this province, right?
Hefei University of Technology is very good, at least in this province (not to mention the University of Technology).
Its employment should be good, because I know their school's employment work is very good.
Pay a lot of energy and money, so many companies and enterprises come to their schools to recruit fresh graduates.
The quality of their fresh graduates is also very good.
Anhui University is 2 1 1, but in science and engineering, you can't tell. I think it is about the same as our school at most.
I have a high school classmate who works in electronic information engineering of Anhui University. They are very confused about their employment, but I think.
The style of study in their school is not very good either. I have been there several times, and I have a bad impression of Anhui University.
But Anhui University also has advantages, needless to say.
I am a Class 02 electronic (working in Shanghai), and I don't like Huainan.
But I have feelings for Li.
I think as long as you pay the foundation, you will be rewarded. You must be willing to spend time.
At present, there are many cases where electronics can't find a job.
Take time now, lest you regret it later.
Hot analysis: this major is a wide-caliber major in electronic and information engineering. Students majoring in this major mainly learn professional knowledge such as signal acquisition and processing, electronic equipment and information systems, and cultivate them through the practice of electronic information engineering. He will be a powerful promoter for mankind to enter the information age in the 2 1 century.
Employment prospects: Mainly engaged in research, design, manufacture, application and development of various electronic equipment and information systems.
Five provinces and cities with the largest employment distribution: Beijing, Guangdong, Jiangsu, Shanghai and Tianjin.
Statistics on employment distribution of graduates:
State-owned enterprises: 18. 17%
Private enterprises: 15.79%
Organ: 13.50%
Postgraduate admission: 13.33%
Scientific research and design unit: 8.83%
Other institutions: 5.90%
Foreign enterprises: 4.55% > >
Question 10: What can electronic information major do in the future? Business Training Objectives of Communication Engineering: Business Training Objectives: This major aims to train senior engineering talents who have knowledge of communication technology, communication system and communication network, can engage in research, design, manufacture and operation in the field of communication, and engage in the development and application of communication technology and equipment in various departments of national economy and national defense industry. Business training requirements: Students in this major mainly study the basic theory, composition principle and design method of communication systems and communication networks, receive practical training in communication engineering, and have the basic ability to engage in the design, development, debugging and engineering application of modern communication systems and networks. Graduates should acquire the following knowledge and abilities: 1. Master the basic theory and knowledge in the field of communication; 2. Master communication technologies such as light wave, wireless and multimedia; 3. Master the analysis and design methods of communication system and communication network; 4. Have the basic ability to design, develop, debug and apply communication systems and communication networks; 5. Understand the basic principles, policies and regulations of communication system and communication network construction; 6. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability. Main courses: main subjects: information and communication engineering, computer science and technology. Main courses: circuit theory and application series, computer technology series, signal and system, electromagnetic field theory, digital system and logic design, digital signal processing, communication principle, etc. Main practical teaching links: including computer training, electronic technology practice, circuit comprehensive experiment, production practice, curriculum design, graduation design, etc. Generally, it is required that the practice teaching link should be no less than 30 weeks. Length of study: four years. Degree awarded: Bachelor of Engineering with similar major: microelectronics automation, electronic information engineering, communication engineering, computer science and technology, electronic science and technology, biomedical engineering, electrical engineering and its automation information engineering, information science and technology software engineering, film and television art and technology, network engineering, information display and photoelectric technology integrated circuit design and integration system, photoelectric information engineering, radio and television engineering, electrical information engineering calculation. Computer software power engineering and management intelligence science and technology digital media art computer science and technology detection guidance and control technology electrical engineering and its automation digital media technology information and communication engineering building electrical and intelligent electromagnetic field and wireless technology = = = recommended books = = college entrance examination professional detailed explanation and reporting guide starting institution Beijing [comparison] North China Electric Power University [Beijing] [comparison] Beijing University of Aeronautics and Astronautics [comparison] China Agricultural University [comparison] University of Science and Technology Beijing [comparison] beijing university of chemical technology [comparison] Beijing Jiaotong University [comparison] Beijing University of Posts and Telecommunications [comparison] Minzu University of China [comparison] Communication University of China [comparison] Beijing Union University [comparison] Beijing Information Science and Technology University [comparison] north china university of technology [comparison] Beijing Institute of Petrochemical Technology [comparison]