Electronic information engineering is a modern technology such as the application of computers for electronic information control and information processing disciplines, the main study of information acquisition and processing, electronic complimentary and information systems design, development, application and integration. Nowadays, electronic information engineering has covered many aspects of society, like how to deal with all kinds of telephone signals in the telephone exchange bureau, how to transfer our voice and even images on the cell phone, how to transfer data in the network around us, and even how to protect the confidentiality of the information transfer of the army in the informationization era, etc. All of them are involved in the application of electronic information engineering technology. We can recognize these things through the study of some basic knowledge, and be able to apply more advanced technology for the research and development of new products.
Electronic information engineering is mainly to learn the basic circuit knowledge, and master the use of computers and other methods of processing information. First of all, we must have a solid knowledge of mathematics, the requirements of physics is also very high, and is mainly electrical; to learn a lot of knowledge of circuits, electronics, signals and systems, computer control principles, communication principles and other basic courses. Learning electronic information engineering own hands-on design, connect some circuits and combined with computer experiments, hands-on and the use of tools is also a relatively high demand. For example, you can connect the sensor circuits by yourself, set up a small communication system with a computer, visit the electronic and information processing equipment of some large companies, understand how cell phone signals and cable TV are transmitted, etc., and have the opportunity to participate in the design of large-scale projects under the guidance of the teacher. Learning electronic information engineering, we must like to study and think, good at brainstorming to find problems.
This is not a big connection with high school physics, you don't have to worry about, learn the basic courses by heart, especially high math, circuit principles, analog electronics, digital electronics, these are the foundation of the must learn, don't worry, not difficult, must be easier than high school.
High-frequency electronic circuits, basic computer technology, microcomputer principles and interfaces, microcontroller principles and applications, signals and systems, digital signal processing, principles of communication, electromagnetic fields and electromagnetic waves, information theory and coding, modern detection technology, digital image processing, automatic control theory, etc. is a professional course is also very important, according to the direction of the last systematic study, this is your future! The "food" of the money.
I wish you a bright future
Question 2: learning electronic information engineering, what is the future? Electronic information engineering is a wide mouth specialty
Employment range is very wide, technical work mainly in the IT field, favoring computer hardware, of course, if you have a talent for software, you can also turn to software development. The main professional courses in the discipline are divided into two categories: electronic design and communications engineering. So you can find your future direction of further study or employment in the two categories.
Electronic design direction need to learn good professional courses: circuit analysis, analog circuits, digital circuits, microcomputer principles, microcontroller, EDA.
Communication engineering direction:Communication electronic circuits, communication principles, signal system, digital signal processing, digital image processing, mobile communication technology....
Of course, the two major directions are not completely isolated, there is a great deal of intrinsic connection between the courses.
Employment can also choose to do in the IT industry sales and human resources and other work, these on the English and your communication skills require some high, on the professional knowledge of the requirements of the course is not much. Of course, if you want to engage in the technical route, electronic information engineering, a wide mouth of the depth of each practical technology is far from enough, it is recommended to continue to study or work two years after further study.
I recommend employment companies: Huawei, Lucent, Asus, Lenovo, Hisense, Netcom, Telecom, China Mobile, China Netcom.
I recommend the further study unit: Chinese Academy of Sciences Electronics Institute, Beipiao Electronics Department, Tsinghua Electronics Department, Electronic Science University Electronics Department, Xidian Electronics Department, Beihang Electronics Department, Zhongnan Electronics Department, Fudan Electronics Department, Shanghai Electronics Department, Xijiaotong Electronics Department, Huazhong University of Science and Technology Electronics Department.
Question 3: What is the difference between applied electronics and electronic information technology majors, what to learn Electronic information technology majors in the direction of the electronic information products manufacturing industry, the software industry and integrated circuits and other industries; emerging communications businesses such as data communications, multimedia, Internet, telephone information services, cell phone text messaging and other businesses will also be rapidly expanding; it is worthwhile to pay attention to the cultural and technological industries, such as online games etc. At present, the demand for information technology support personnel in troubleshooting technical problems, equipment and customer service, hardware and software installation, as well as configuration updates and system operation, monitoring and maintenance of the four categories of personnel in shortest supply. In addition, e-commerce and interactive media, database development and software engineering in demand merit very large.
I am learning applied electronic technology, suggest that you do not report, or report electronic information technology professional it!
I'm a student of Applied Electronics Technology!
Question 4: What is electronic information engineering? What do you do after coming out of the main electronic information engineering profession this profession training engaged in electronic technology (equipment) and information systems research, design, manufacturing and management of senior engineering talents. Students in addition to learning public **** basic courses, the main courses are: circuit theory, signals and systems, analog electronics, digital electronics, sensing technology, television technology, digital signal processing, information theory and coding, micro-computer technology, EDA technology, microcontroller principles and applications, optoelectronics technology, principles of communication, mobile communications, fiber optic communications, voice processing technology, multimedia technology, Digital Image Processing, etc. After graduation, students can be engaged in design, technology development, system operation and maintenance, and scientific research in electronic technology or information system in research and design institutes, enterprises and institutions. With the deepening of social informatization, most of the industries need electronic information engineering professionals, and the salary is very high. After graduation, students can be engaged in the design of electronic equipment and information systems, application development and technical management. For example, to do electronic engineers, design and development of some electronic and communication devices; to do software engineers, design and development of hardware-related software; to do the project manager, planning some of the large systems, which requires a high level of experience and knowledge; you can also continue to further study to become a teacher, engaged in scientific research, and so on.
Problem 5: electronic information technology in the end what is done Electronic Information Science and Technology
Business Training Objectives:
Business Training Objectives: The professional training of the basic theory and basic knowledge of electronic information science and technology, subject to rigorous scientific experimental training and preliminary training in scientific research, to be able to work in electronic information science and technology, computer science and technology and related fields and administrative departments in the field of electronic information science and technology, computer science and technology and related fields. Technology and related fields and administrative departments engaged in scientific research, teaching, science and technology development, product design, production technology or management of electronic information science and technology senior specialists.
Cultivation requirements: the students of this program mainly study the basic theories and technologies of electronic information science and technology, receive training in scientific experimentation and scientific thinking, and have the basic ability to conduct applied research and technological development in this discipline and interdisciplinary.
Graduates should obtain the following aspects of knowledge and ability:
1. Master the basic theory and basic knowledge of mathematics, physics, etc.;
2. Master the basic theory, basic knowledge and basic skills and methods of electronic information science and technology, computer science and technology, etc.;
3. Understand the general principles and knowledge of the similar specialties;
4. Be familiar with the national electronic information industry policy and domestic and foreign laws and regulations on intellectual property rights;
5. Understand the theoretical frontiers, application prospects and latest development of electronic information science and technology, as well as the development of the electronic information industry;
6. Master the data query, literature search and the use of modern information technology to obtain the relevant information of the basic methods; Have certain technical design, summarize, organize and analyze the experimental results, write papers and participate in academic exchanges.
Main Courses:
Main Disciplines: Electronic Science and Technology, Computer Science and Technology.
Main Courses: Principles of Circuit Analysis, Electronic Circuits, Digital Circuits, Algorithms and Data Structures, and Computer Fundamentals.
The main practical teaching links: including production internship, thesis, etc., generally arranged 10 - 20 weeks. Beijing University, Beijing Normal University, Beijing Union University, Beijing University of Posts and Telecommunications, China Agricultural University, Beijing Forestry University, Beijing Institute of Machinery Industry, Beijing
Tianjin Nankai University, Civil Aviation Institute of China, Tianjin Normal University
Hebei Province North China Electric Power University, Hebei Institute of Technology, Hebei University, Yanshan University, Hebei Normal University, Langfang Normal College, Hebei Agricultural University
Shanxi Province Shanxi University, North China Institute of Technology, Yanbei Normal College, Shanxi Normal University
Inner Mongolia Autonomous Region, Inner Mongolia University, Inner Mongolia University of Technology
Liaoning Province Liaoning University, Dalian Maritime University, Shenyang University, Shenyang Institute of Chemical Technology, Shenyang Institute of Technology
Jilin Province, Jilin University, Northeast Normal University, Changchun Jilin University, Northeast Normal University, Changchun University of Science and Technology, Jilin Agricultural University, Northeast Electric Power College, Jilin College 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 College
Shanghai Fudan University, East China Normal University, Shanghai University, Shanghai University of Science and Technology
Jiangsu Province Nanjing, China p>
Jiangsu Province 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 Shipbuilding Industry Institute, Nanjing Engineering Institute, Nantong Normal College
Zhejiang Province, Ningbo University, Hangzhou Institute of Electronic Industry, Zhejiang Engineering Institute, Wenzhou Normal College, Zhejiang University, Zhejiang Institute of Science and Technology
Anhui Province University of Science and Technology of China, Huaibei Coal Teachers College, Fuyang Normal College, Wanxi College, Anqing Normal College
Fujian Province Xiamen University, Fujian Normal University, Quanzhou Normal College
Jiangxi Province Shangrao Teachers College, Jinggangshan Teachers College, Yichun College, Nanfang Metallurgical College
Shandong Province Shandong University, Ocean University of China, Yantai University, Qingdao University, Shandong University of Science and Technology, Shandong University of Science and Technology, Shandong University of Science and Technology, Shandong University of Technology Shandong University, Qingdao University, Shandong University of Science and Technology, Qingdao Institute of Architecture and Engineering, Laiyang Agricultural College, Shandong University of Science and Technology, Shandong Agricultural University, Shandong Normal University
Henan Province Jiaozuo Institute of Technology, Zhengzhou Engineering College, Henan Agricultural University, Luoyang Normal College, Zhengzhou University, Henan University, Nanyang Normal College
...... >>
Question 6: What exactly do I study in the electronics program? Hello, I hope to help you
Electronics major, is the name of the discipline. The details of the basic courses of the discipline, specialized knowledge, arrangement of elective courses and the link to the internship part are described below. So that more people understand the specialization and develop good objectives.
With lifelong education, quality education, personality education as the basis, to cultivate moral, intellectual and physical all-round development, knowledge, ability, quality and coordinated development, can independently analyze and solve problems, adapt to the "electrical engineering and automation" in the field of work, and in the computer application of technology expertise in the broad, composite, intermediate technical workers with innovative ability. Intermediate skilled workers with innovative ability. [1]
Basic Courses
Moral Education, Language, Mathematics and Basic Applied Skills, English, Physics, Basic Computer Application, Physical Education, Career Guidance.
Specialized Courses
1. Mechanical Drawing Learning the basic knowledge and methods of engineering drawing, projection principles, views, sections, profiles, parts drawings, assembly drawings, axonometric drawings, so that the students can draw simple parts drawings, assembly drawings, and have the ability to read views and draw control engineering drawings. 2、 Basic Electricity Study the basic principles and basic laws of electric circuits. Students will 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 concept of magnetic circuit, and be able to carry out the calculation of simple magnetic circuit. To study the basic structure and principles of commonly used electrical instruments. Students will master the use of DC and AC instruments and meters. Will analyze the general troubleshooting methods of simple commonly used electrical instrumentation, can correctly use the electrical instrumentation, and cultivate students to deal with data, the ability to solve practical problems.
3, basic analog electronics to learn the basic electronic devices and basic amplifier circuit principle, characteristics and main parameters, amplifier circuits and feedback circuits commonly used in the analysis, design methods, integrated operational amplifiers, structure, characteristics, technical specifications, the basic connection and typical applications of the circuit, understanding of power amplifiers, sinusoidal oscillator and DC power supply regulator principle of operation. For students to correctly analyze the circuit and maintenance of the instrument to lay a foundation. [1]
Through the experiment, students master the structure, working principle, and use of commonly used instruments and meters. Master the characteristics of commonly used electronic devices and the main parameters of the test method, and can be reasonably selected. General electronic circuit wiring, testing, fault analysis and the ability to analyze the results of the experiment. For the study of computer, and digital instrumentation to lay a solid foundation.
4, basic digital electronics technology to learn the basic laws of common logic algebra, common gate circuits, combinational logic circuits, flip-flops, timing circuits and analysis of the composition of the method, and has the ability to preliminary design. Understand the pulse generation and shaping circuits, A/D, D/A conversion of the basic principles and typical integrated block of the external lead terminals.
5, electrical wiring and electrical safety through the study, so that students master the basic knowledge of electrical safety, understanding of electrical wiring and construction methods.
6, electronic measurement through the study of this course, so that students master the basic knowledge of commonly used electrical and electronic instrumentation, master its basic structure, working principle and measurement methods.
7, motor and electrical control through the teaching of this course, so that students get the motor and power drag knowledge, basic theory and basic computing ability, and by the necessary basic skills training. Familiar with the basic knowledge of electric motors, understand the working principle of electric motors, and analyze the common faults of electric motors.
Study the structure, principle, specifications, models and uses of commonly used control appliances, master relay contactor control line of the basic links, general control line analysis, design and familiar with the general production of mechanical power equipment and the use of the principle of operation, installation, commissioning operation and maintenance of the basic knowledge. Learning transformers, AC and DC motors and control motors of the basic structure, operating principles and operating characteristics.
8, electrical drawing through the study so that students master electrical drawing methods, principles; commonly used electrical and electronic components, text and graphic symbols; can correctly read and draw electrical and electronic circuit schematic diagrams, installation drawings.
9, electronic design automation through the teaching of this course, so that students are familiar with and master a version of electronic circuit CAD and electronic circuit bench software. Can use the computer to draw circuit diagrams and design the corresponding printed circuit board.
10, web page production and design of the use of commonly used web page production software for web page production and design, to complete the production of personal web pages, to be able to do on the Internet release of relevant information.
11, power electronics to learn the basic principles of thyristor, the main parameters. To enable students to master the commonly used silicon controlled rectifier circuit and the basic principles of active inverter circuit, ...... >>
Question 7: What is electronic information engineering? 1. electronic information engineering according to the school enrollment program, there are engineering and science two professional degrees. 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, Signals and Systems, Digital Signal Processing, Electromagnetic Field Theory, Principles of Automatic Control, Sensing Technology and so on.
Problem eight: electronic information engineering major to learn what software I will electronic information to learn things to introduce it,
In accordance with the order of my learning introduction.
The first half of freshman year: computer fundamentals (mandatory)
The second half of freshman year: C language (mandatory) The most basic language, must master.
The first half of the sophomore year: Matlab (elective) is mainly drawing, most of them are related to signals
The second half of the sophomore year: Protel (elective) drawings, and finally generate PCB diagrams, according to which you can make a circuit board. If you want to engage in the electronics industry, you must understand.
workbanch (self-study) connected to the circuit diagram, the software provides a variety of chips, op amps and so on. You can use this software to simulate the phenomenon before the circuit welding. (Not 100% accurate, oh, practice makes perfect. The real masters do not use this, just get started with can be used.)
The first half of the third year: assembly language (mandatory)
Microcontroller (mandatory), the two electronic professional rice bowl. It's a good idea to learn it well.
The second half of the third year: VHDL This is also quite useful, once I used it as a calculator to.
The first half of the fourth year: PLC did not learn in depth, only used it to do some basic tests. The teacher said that the performance of things done by PLC is relatively good.
I can only remember so much, maybe the order will be reversed. But generally and computer related to learn so much, the rest of the information you more online or library check. I'm not sure if you're going to be able to get a good deal on this, but I'm sure you'll be able to get a good deal on this. Then, the experimental class must be done properly, usually more hands, and the teacher to make good relations. Study hard, and cheer up!
:)
Question 9: electronic information engineering can do what work Electronic information engineering is a computer application of modern technology for electronic information control and information processing disciplines, the main study of information acquisition and processing, electronic equipment and information systems design, development, application and integration. Nowadays, electronic information engineering has covered many aspects of society, like how to deal with all kinds of telephone signals in the telephone exchange bureau, how the cell phone transmits our voices and even images, how the network around us transmits the data, and even how to keep the confidentiality in the information transmission of the army in the informationization era, etc. All of them have to involve in the application of the technology of electronic information engineering. We can recognize these things through the study of some basic knowledge, and be able to apply more advanced technology for the research and development of new products.
Electronic information engineering is mainly to learn the basic circuit knowledge, and master the use of computers and other methods of processing information. First of all, we must have a solid knowledge of mathematics, the requirements of physics is also very high, and is mainly electrical; to learn a lot of knowledge of circuits, electronics, signals and systems, computer control principles, communication principles and other basic courses. Learning electronic information engineering own hands-on design, connecting some circuits and experiments combined with the computer, hands-on and the use of tools is also a relatively high demand. Such as connecting their own sensor circuits, using computers to set up a small communication system, but also visit some of the large companies of electronic and information processing equipment, understanding of cell phone signals, cable TV
With the deepening of social informatization, the majority of various industries need electronic information engineering professionals, and the salary is very high. After graduation, students can engage in the design of electronic equipment and information systems, application development, and technology management. For example, to do electronic engineers, design and development of some electronic and communication devices; to do software engineers, design and development of a variety of hardware-related software; to do the project manager, planning a number of large systems, which requires a high level of experience and knowledge; you can also continue to study to become a teacher, engaged in scientific research, and so on.
Setting up this specialty of the university is very much, Tsinghua University, the Department of Electronic Engineering with the specialty, and the implementation of the six-year plan years of undergraduate - master's coordinated training program. Beijing University of Posts and Telecommunications is also the main training of this type of talent school. The general science and technology colleges and comprehensive universities have set up the specialty, are very popular, the admission score line is relatively high compared to other specialties.
I think the employment of electronic information is good
Although it is not as high as the employment rate in 2002 or so
But we can also see that the overall employment of electronic two years of the country is not
very good!
But the overall bad our school electronics have such employment I think
has been very good
General class will have more than ten to find a job, and are signed in
The Yangtze River Delta and the Pearl River Delta economically developed areas
Shanghai, Shenzhen, Dongguan, etc.
We can be a good example of this.
We can look at other colleges and universities in this province
Hefei University of Technology is very good, at least in this province (the University of Science and Technology needless to say)
Its employment should be very good, because I know that the employment work of the school is very good
A lot of effort and money is paid so that there are a lot of companies that recruit freshmen in their schools
The quality of the freshmen is also very good, but the quality of the students is also very good.
The quality of their freshmen is also very good,
Anhui University is 211, but in science and technology can be said to be not good I think at most and our school is similar
I have a high school classmate in the Anhui University of Electronic and Information Engineering, their employment is a mess and I think
The school's school spirit is not very good I have been to a few times the impression of the Anhui University is very bad.
But Anhui University also has the advantage, this also needless to say
I am 02 electronic, (work in Shanghai), I do not like Huainan
But I have feelings for Anli
I think as long as you pay the basis of the return, must be willing to spend the time
Now we have a lot of electronic can not find a job is
Now we have a lot of electronic can not find work is
I think it's important to spend some time now so that you don't regret it later.
Popular analysis: This is a broader-caliber specialization in electronics and information engineering, this professional students mainly learn signal acquisition and processing, electronic equipment and information systems and other aspects of professional knowledge, by the basic training of electronic information engineering practice, he will be a powerful promoter of mankind's entry into the information age of the 21st century.
Employment prospects: mainly engaged in various types of electronic equipment and information systems research, design, manufacturing, application and development work.
The five provinces and cities with the largest employment distribution: Beijing, Guangdong, Jiangsu, Shanghai, Tianjin
Statistics on the employment distribution of graduates:
State-owned enterprises: 18.17%
Private and private enterprises: 15.79%
Organs: 13.50%
Graduate students: 13.33%
Research and design units: 8.83%
Research and design organizations: 8.83%
Other institutions: 5.90%
Three-funded enterprises: 4.55% ...... >>
Question 10: What can I do in the future if I study electronic information? Communications Engineering Business Training Objective: Business Training Objective: This specialty cultivates senior engineering and technical personnel who have the knowledge of communications technology, communications systems and communications networks, and can engage in research, design, manufacturing, operation in the field of communications and in the various sectors of the national economy and national defense industry engaged in the development and application of communications technology and equipment. Requirements for business training: Students of this program mainly study the basic theories, principles and design methods of communication systems and networks, receive basic training in communication engineering practice, and have the basic ability to engage in the design, development, testing and engineering applications of modern communication systems and networks. Graduates should acquire the following knowledge and ability: 1) master the basic theory and basic knowledge in the field of communication; 2) master the communication technology such as light wave, wireless, multimedia; 3) master the analysis and design method of communication system and communication network; 4) have the basic ability of designing, developing, testing and applying the communication system and communication network; 5) understand the basic policy, policies and regulations of the construction of the communication system and network; 6) master the basic training of literature search; 7) have the basic ability of designing, developing, testing and engineering application of modern communication system and network. Understand the basic policies, policies and regulations for the construction of communication systems and communication networks; 6. Master the basic methods of literature search and data query, and have certain scientific research and practical work ability. Main Courses: Main Disciplines: Information and Communication Engineering, Computer Science and Technology. Main Courses: series of courses on circuit theory and application, series of courses on computer technology, signals and systems, electromagnetic field theory, digital systems and logic design, digital signal processing, principles of communication. Main practical teaching links: including computer on-line training, electronic process internship, circuit comprehensive experiment, production internship, course design, graduation design and so on. Generally, no less than 30 weeks of practical teaching sessions are required. Year of study: four years Degree conferred: Bachelor of Engineering Similar majors: Microelectronics, Automation, Electronic Information Engineering, Communication Engineering, Computer Science and Technology, Electronic Science and Technology, Biomedical Engineering, Electrical Engineering and Automation, Information Engineering, Information Science and Technology, Software Engineering, Film and Television Art Technology, Network Engineering, Information Display and Photovoltaic Technology, Integrated Circuit Design and Integrated System, Photoelectric Information Engineering, Broadcasting and Television Engineering, Electrical Information Engineering, Computer Software, Electric Power Engineering and Management, Intelligent Science and Technology. Computer Software Electric Power Engineering and Management Intelligent Science and Technology Digital Media Arts Computer Science and Technology Detection, Guidance and Control Technology Electrical Engineering and Automation Digital Media Technology Information and Communication Engineering Building Electricity and Intelligence Electromagnetic Fields and Wireless Technology ==== Recommended Books=== Higher Education Examination Specialization Detailed Explanation and Fill-in Guide Starting Institutions Beijing [Comparison] Beidian Electric Power University (Beijing) [Comparison] Beijing University of Aeronautics and Astronautics [Compare] Agricultural University of China [Compare] University of Science and Technology Beijing [Compare] Beijing Institute of Technology [Compare] Beijing Institute of Technology [Compare] Beijing University of Chemical Technology [Compare] Beijing Jiaotong University [Compare] Beijing University of Posts and Telecommunications [Compare] Central University for Nationalities [Compare] Communication University of China [Compare] Beijing Union University [Compare] Beijing University of Information Science and Technology [Compare] Beifang University of Technology [Compare] Beijing Institute of Petroleum and Chemical Technology [Compare] Beijing Institute of Technology [Compare] Beijing Institute of Petroleum and Chemical Technology [Compare] Beijing Institute of Technology [Compare] Beijing Institute of Petroleum and Chemical Technology [Compare] Beijing Institute of Technology [Compare] Beijing Institute of Technology College [Compare] People's Public Security University of China