What is the main study of electromechanical majors?

Electromechanical professional direction of employment

Electromechanical major is to learn what, what is the direction of employment, the following is I help you to organize the 3.8 Women's Day leadership speech, only for reference, we take a look at it.

Electromechanical professional employment direction article 1

A, mechanical design, manufacturing and automation

Professional courses

Mechanical manufacturing process, mechanical system design, electromechanical control system analysis and design, mechanical manufacturing equipment design, CNC technology and applications.

Employment Direction

Generally speaking, students majoring in Mechanical Design and Manufacturing and its Automation, after mastering the basic knowledge, basic principles and more proficient professional practice skills necessary for the specialty, the direction of employment is roughly as follows:

(1) Engaged in the preparation and implementation of mechanical design and manufacturing and processing process regulations;

(2) Engaged in mechanical, Electrical, hydraulic, pneumatic and other control equipment maintenance and repair work;

(3) engaged in the design of process tooling, manufacturing work;

(4) engaged in CNC machine tools, machining centers and other high-intelligence equipment programming and operation work;

(5) engaged in the application of mechanical CAD/CAM technology;

(6) engaged in the mechanical design and manufacture of on-site technical management work;

(6) engaged in mechanical design and manufacturing

(7) Engaged in the sales and service of electromechanical products.

(8) Elementary skills in clamping, turning or electrician;

(9) Preparation and implementation of mechanical design and manufacturing process procedures;

(10) Use, maintenance, repair and management of electromechanical equipment;

(11) Selection, design, manufacture and debugging of process fixtures;

(12) Operation of numerically-controlled machines, machining centers and other highly intelligent equipment;

(13) mechanical design and manufacturing production site technology management;

(14) application of mechanical CAD/CAM;

(15) application of computer processing text, charts, data and information, design of mechanical and electrical drawings, the preparation of CNC machining programs. And so on

To see which area you are interested in and have the ambition to delve into and innovate in this field, that is the most sufficient motivation.

Employment Prospects

Mainly to the front line of industrial production in the field of machinery manufacturing design and manufacturing, scientific and technological development, applied research, operation and management and sales and other aspects of the work. Employment distribution of the most five provinces and cities: Beijing, Shanghai, Zhejiang, Liaoning, Shandong.

State-owned enterprises 34.35%, 14.68% of graduate students, 12.59% of private and private enterprises, 1.10% of other institutions, 1.23% of institutions of higher education 1.24%, scientific research and design units 7.94%, 12.14% of the three-funded enterprises, 3.54% of the army, secondary schools and other teaching units, 0.99%, go abroad 1.43%, the independent entrepreneurship 0.43%, financial units 0.25%, medical and health units 0.08%.

Electrical Engineering and Automation

Professional Courses

Major Courses: Electrical Machines and Drag, Factory Electrical Control Technology, Power Electronic Technology, Power Electronic Technology Internship, Microcontroller Technology, PLC Technology, Electronic Engineering Drawing, Factory Power Supply and Distribution Technology, Comprehensive Practical Training in Electronic Technology, Electrical Equipment, Intensive Reading in English, and Professional English.

Employment Direction

1. Power plant (including various companies, factories in the distribution room

2. Software development (especially microcontroller or EDA, etc.)

3. PLC (largely industrial control direction, to build the operating platform, etc.)

4. Various mines, or metal smelting sites (for the automation of the maintenance of the equipment, the operation of the equipment, etc.)

5. p>

5. go to school as a teacher

6. do sales work (specializing in selling their own professional-related things)

7. civil servants, each profession can be

8. a variety of what the Institute

9. product design, that is, the design of hardware circuits

10. automation professional employment direction is very broad, carefully observe life I know a lot of automation equipment. However, to do the design has a future, do sales have "money" way, do maintenance is the working class, belong to the service industry ......

11. Automation options are wide-ranging, learn a good microcontroller and PLC where all eat well, good English, if the foreign enterprises is not impossible ......

Employment Prospects

Electrical engineering and automation graduates have a broad technical theory foundation and more solid professional knowledge, with strong basic electrical engineering skills and good practical training in electrical engineering, with a strong ability to innovate, and have a certain degree of application of market economy, scientific research, scientific and technological development and organization and management capabilities. Graduates can be employed in all kinds of power plants, power supply departments of electric power systems, electric power survey, design and research units, electric power management and other departments, i.e., electric power bureaus, design institutes and engineering bureaus.

Mainly engaged in electrical engineering-related system operation, automatic control, power electronics, information processing, test and analysis, research and development, economic management, as well as the application of electronic and computer technology and other fields of work. Electrical automation is more widely used in factories, so to speak, electrical automation is the only thing that can not be missing in the factory, is the pillar of the factory ah! If you are more proficient in electrical automation, the employer immediately want you, no matter what unit, preferably electronic factories, because electronic factories use automation, programming, design every day.

Three, electronic information engineering

Professional understanding

Electronic information engineering is a modern technology for the application of computers and other 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. 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 voice 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. You can recognize these things through some basic knowledge and be able to apply more advanced technology for research and development of new products.

Career direction

1. communication direction 2. programmers: including C, C++, VB, etc. 3. software direction: C#, Java used to do the website, as well as the application software development 4. hardware direction: microcontroller, DSP digital signal processing. 5. embedded direction: ARM 6. network direction 7. database direction

Career prospects

Employment outlook

Engaged in microcontroller (8-bit 8051 series, 32-bit ARM series, etc.), FPGA (CPLD), digital logic circuits, microcomputer interfaces (serial port, parallel port, USB, PCI) development, higher requirements will write the driver, will write the underlying application.

Microcontroller mainly with C language and assembly language development, complex to involve the development of real-time embedded operating system (ucLinux, VxWorks, uC-OS, WindowsCE, etc.), transplantation.

Most of the people engaged in electronic technology are engaged in this direction, mainly for industrial control, monitoring and so on.

2, communication direction.

One branch is engineering design, construction, commissioning (base station, room, etc.). Another branch is development, routers, switches, software, etc., to understand the 7 signaling, a variety of communications-related protocols, development platforms from ARM, DSP to Linux, Unix.

3, multimedia direction.

A variety of audio, decoding, mpeg2, mpeg4, h.264, h.263, the development platform is mainly ARM, DSP, windows.

4, power supply.

Power supply belongs to the analog circuit, including linear power supply, switching power supply, transformer and so on. Power supply is an essential part of any circuit.

5, radio frequency, microwave circuits.

Also known as radio electronic circuits. Including antennas, microwave solid-state circuits and so on, belonging to the high-frequency analog circuits. Is one of the core parts of various communication systems.

6, signal processing.

Here including image processing, pattern recognition. This requires some mathematical knowledge, mainly matrix algebra, probability and follow the process, Fourier analysis. It's fascinating to take out the components that interest us from a jumbled mass of signals, a bit of artificial intelligence. Such as the synthesis of radar signals, various transformations of images, CT scans, license plate, face and fingerprint recognition, etc.

7, microelectronics direction.

The design and manufacture of integrated circuits is divided into front-end and back-end, the front-end focus on functional design, FPGA (CPLD) development can also be counted as the front-end design, the back-end focuses on the realization of the physical layout.

For example, control circuits and protocols for audio circuits, power electronics, automobiles and airplanes.

Physics majors who work in electronics' generally favor a more applied physics orientation, which makes better use of their expertise. Examples include analog circuits, RF circuits, power supplies and even integrated circuit design.

Mechatronics professional employment direction article 2

Mechatronics technology students mainly study electrical and electronic technology, mechanical manufacturing technology, hydraulic and pneumatic technology, electromechanical equipment control technology, CNC machining process and programming, microcomputer principles and applications, programmable controllers, testing technology, CNC machine tool troubleshooting and maintenance, CAD training, CNC machine tool programming and operation CAD training, CNC machine tool programming and operation training, machine tool electrical control training, CNC machining training, hydraulics and pneumatics training, metalwork internship, electrical and electronic internship, graduation internship (design) and other courses. Mechatronics technology majors master the necessary basic knowledge and ability of drawing, mechanical, electrical and electronic technology and computer application. Master the basic theory of machining process, production process and operation skills. Skillful use of AutoCAD and other commonly used computer-aided design software to draw a variety of product assembly drawings and parts drawings; skilled preparation of CNC machine tool machining procedures, operation of ordinary CNC machine tools to process workpieces, with the installation, commissioning, the use of ordinary CNC machine tools with the basic skills; with the analysis and solution of practical problems in the production of professional as well as scientific research, the development of new technologies, new processes, new materials, the initial Ability. Have the basic knowledge of modern enterprise management and the ability of preliminary organization and management and technical guidance. They have the analyzing and calculating ability, information collection and processing ability, and good foreign language ability required by engineering students. Mechatronics technology major training in the use of mechatronics equipment and technical management of senior technical application specialists.

Employment prospects for mechatronics technology

Mechatronics is a precision machinery - electronics (including power electronics) - computer technology and other interdisciplinary cross-fertilization of the product of high-tech, but also one of the fastest-growing technology, it is the main component of advanced manufacturing technology. It is the main component of advanced manufacturing technology. Its development promotes the rapid updating of current manufacturing technology, is the product to high, precise, fast and rapid progress, so that labor productivity is rapidly improved. As China has gradually become the world's manufacturing base plus the traditional enterprises are facing large-scale technological transformation and equipment renewal, the country is in urgent need of a large number of advanced manufacturing technology professionals. Therefore, mechatronics technology graduates employment prospects are very good, and treatment is also high. Graduates are mainly engaged in various administrative, corporate and institutional machinery, electrical engineering, maintenance, installation and debugging of commonly used electrical appliances, as well as technical management and other work. Mechatronics is a broad-bore specialty with a wide range of adaptability. In addition to learning various mechanical, electrical and electronic, computer technology, control technology, testing and sensing and other theoretical knowledge during the school period, students will also participate in various skills training and national vocational qualification examinations, fully embodying the emphasis on skills training. After graduation, students are mainly oriented to enterprises and companies in the Pearl River Delta, engaged in the processing manufacturing industry, the production and after-sales service of home appliances, the use and maintenance of CNC machine tools and equipment, property automation and management systems, electromechanical product design, production, transformation, technical support, and installation of electromechanical equipment, debugging, maintenance, sales, business management and so on.

Employment direction of mechatronics technology

Mechatronics technology specializes in a wide range of applications, employment opportunities, students can be engaged in the corresponding enterprises and institutions in the operation of electromechanical equipment, maintenance, installation, debugging, mechatronics equipment design, transformation, and production management, technical management and other work. Mechatronics technology is mainly engaged in mechanical manufacturing process design and implementation, design and implementation of tooling, management and maintenance of mechatronics equipment, programming and operation of CNC machine tools and other work.