Measurement and control technology and instrumentation professional good employment

Basic academic system: four years | Enrollment object: | Education: Junior College | Specialty code: 080301

Cultivation goal

Cultivation goal

Cultivation goal: This specialty cultivates professional knowledge, practical ability, comprehensive quality of the all-round development of professional skills in the field of measurement, control and instrumentation, mastery of the basic theory of the field, expertise and professional skills, mastery of information acquisition, transmission, processing and application of technical methods, with the integration of measurement and control technology in the field of instrumentation integrated design and application of complex engineering and scientific talents can be able to national economic sectors, the application of technology integration and instrumentation. Professional skills, master information acquisition, transmission, processing and application of technical methods, with measurement and control of the field of technology integration and instrumentation design and application of the ability of composite engineering talents, can be engaged in various sectors of the national economy in the field of measurement, control and instrumentation, scientific research, design and manufacturing, technology development, applied research, quality control and production management.

Cultivation Requirements: Students of this major mainly study the theory of measurement, instrument design and the basis of measurement and control system integration technology, and study the theory and technology basis of optics, mechanical engineering, electronics and computer science, automatic control related to measurement, control and instrumentation, and receive the basic training of modern measurement and control technology through a variety of teaching segments and engineering practice, so as to have the ability of measurement and control system and instrumentation design, development and integration. The program is designed to provide graduates with the ability to design, develop and integrate measurement and control systems and instruments.

Graduates are expected to acquire the following knowledge and abilities:

1. to master the basic theories and professional knowledge of measurement theory, measurement and control technology, measurement and control system and instrument analysis, design and integrated application;

2. to master the basic skills and methods of analyzing and solving the practical problems in the field of measurement, control and instrumentation, and to have the ability to apply the knowledge of the fields of optics, mechanics, electronics, computer technology, control and other fields in a comprehensive manner, Computer technology, control and other fields of knowledge ability;

3. critical thinking, innovative consciousness and the basic ability of scientific research;

4. familiar with domestic and foreign product quality control and production safety policies and regulations, the current domestic and foreign technical norms and standards commonly used in this field have a certain degree of understanding, familiar with the basic knowledge of the market economy, enterprise management;

6. Have good professional ethics, professionalism and sense of social responsibility;

7. Have a solid foundation in the natural sciences, good humanistic qualities, and strong verbal and written expression, communication and teamwork ability;

8. Have the ability to communicate and exchange information, and the ability to communicate and exchange ideas with others.

8. A sense of lifelong learning and the ability to acquire new knowledge.

Main disciplines: Instrumentation Science and Technology, Control Science and Engineering, Optical Engineering, Information and Communication Engineering.

Core knowledge areas: mathematical and physical fundamentals, sensing and information acquisition, measurement theory and test technology, test signal processing, computer technology, measurement and control bus and data communication, control theory and control technology, instrument design and manufacturing, instrument performance testing and evaluation, measurement and control system analysis, design and integration.

Examples of Core Courses:

Example 1: Fundamentals of Electric Circuits (64 hours), Computer Architecture and Logic Design (64 hours), Fundamentals of Electronic Circuits (64 hours), Signals and Systems (48 hours), Principles of Automatic Control (52 hours), Microcomputer Systems and Interfaces (48 hours), Engineering Mechanics (54 hours), Engineering Optics (56 hours), Introduction to Information and Communication Networks (56 hours). Introduction to Information and Communication Networks (56 hours), Introduction to Instrument Science and Technology (16 hours), Sensor Technology (56 hours), Fundamentals of Precision Mechanical Design (64 hours), Intelligent Instrument Design Technology (56 hours), Analysis and Processing of Test Signals (48 hours), Error Theory and Data Processing (34 hours), Modern Control Theory (34 hours), and Navigation and Positioning Control and Application (32 hours). No less than 12 credit hours of elective courses in the discipline and specialty.

Example 2: Fundamentals of Circuit Analysis (68 credit hours), Signals and Systems (68 credit hours), Experiments in Circuits, Signals and Systems (15 credit hours), Fundamentals of Analog Electronics (60 credit hours), Digital Circuits and Logic Design (46 credit hours), C Programming (45 credit hours), Principles of Microcomputers and System Design (78 credit hours), Experiments in Electronic Circuits (I, II, III credit hours) ( (23 hours), digital signal processing (46 hours), electromagnetic fields and electromagnetic waves (46 hours), RF analog circuits (46 hours), the theoretical basis of automatic control (46 hours), sensors and signal conditioning (60 hours), electronic measurement technology (54 hours), microcontroller principles and programming (54 hours), automatic testing technology (54 hours), software technology (54 hours), measurement, control and instrumentation, measurement and instrumentation, and the basics of software technology (54 hours). (54 hours), measurement control and instrumentation new technology lectures (16 hours), disciplines and professional elective courses not less than 22 credits.

Example 3: Engineering Mechanics (51 hours), Engineering Graphics (80 hours), Fundamentals of Mechanical Design (85 hours), Circuits and Electronics (128 hours), Principles of Automatic Control (40 hours), Principles of Microcomputers and Their Applications (56 hours), Sensor Technology (48 hours), Error Theory and Data Processing (32 hours), Engineering Fluid Mechanics (40 hours), Thermal Engineering Fundamentals (48 hours), Instrumentation Circuit Design (40 hours), Applied Optics (40 hours), Physical Optics (48 hours), Measurement and Control Circuits (40 hours), Thermal Process Control Systems (40 hours), Automatic Inspection Technology (80 hours), Precision Instrumentation Design (40 hours), Precision Measurement Technology (80 hours), and no less than 20.5 credits of disciplines and electives.

The main practical teaching links: metalworking internship, electronics internship, internship in production enterprises, course experiments, course design, innovative practice, engineering design, graduation design (thesis), social practice and investigation.

Major experiments: sensor technology experiments, test theory and detection technology experiments, instrument design experiments, measurement system modeling and data processing experiments, intelligent instruments and networked instruments experiments, measurement and control system design experiments, instrument performance testing and evaluation.

The duration of study: four years.

Degree: Bachelor of Engineering. 0804 Material Class

Occupational Ability Requirements

Occupational Ability Requirements

Main Content of Specialized Teaching

Main Content of Specialized Teaching

Sensor Technology and Application, Electromagnetic Field and Electromagnetic Wave Technology, Intelligent Instrumentation Technology, Precision Mechanisms and Instruments, Measurement and Control Instrumentation Design, Optoelectronic Test Technology and System, and Automatic Control Theory and Systems", "Fundamentals of Automatic Control Theory", "Electrical Automatic Control", "Optical Design", "Intelligent Detection Technology", "Virtual Instrumentation and Applications" Some colleges and universities are trained according to the following professional direction: self-control, automotive electronic control technology, modern medical instrumentation, testing technology and automation devices, aircraft on-board electronic and electrical equipment maintenance and management.

Professional (Skills) Direction

Professional (Skills) Direction

Instrumentation, electronics enterprises: product development, instrumentation design and manufacturing, operation and management, metrology, testing and inspection; industrial, engineering enterprises: engineering technology, automation control, process control, instrumentation engineering.

Examples of vocational qualifications

Examples of vocational qualifications

Examples of further study majors

Employment Direction

Employment direction

Employment Direction: The main employment direction includes the following three directions:

Intelligent Instrumentation Direction

Intelligent Instrumentation Direction mainly engages in Instrumentation, electronic products, software, hardware research and development, testing, can also be engaged in the instrumentation of automatic control and other aspects of the work, which is a bias in the direction of the electronics, it is best to learn C language, assembly language, microcontroller, labview and other related practical development experience. At the beginning, the salary will not be too high, generally 5500 to 6000 (different units of wages will vary a lot). Graduate students in different places where the money is not the same. In Beijing there should be 6500 or so, this is the beginning, work a period of time later on to see your strength.

Test and measurement technology and instrumentation direction

This direction is mainly engaged in metrology, testing and inspection, quality inspection, etc., this direction of academic research component is more heavy, the general undergraduate students are more difficult to find a more suitable job.

Computer measurement and control technology direction

This direction has a highlight course is the image detection and processing, is a more computer-oriented direction, and the second has a similar place are engaged in the detection and measurement, but the computer measurement and control technology direction is more biased towards the use of computer operating platforms. Now the computer talent is in short supply, learning well is easy to find a high-paying job, the average level is about 6000.

Corresponding occupations (positions)

Corresponding occupations (positions)

The best way to learn this profession is to understand what you want to do initially, and to brush up on your GPA to get a guarantee, and to work in a way that you understand your own direction to understand the courses in this direction, and at the same time, don't be short of any other professional courses. Measurement and Control Technology and Instrumentation Development Direction Learn everything, nothing is fine, in this society with a clear division of labor means that after graduation you have to continue to learn, Measurement and Control Technology and Instrumentation is suitable for those who have a strong learning ability and serious people. Measurement and control technology and instrumentation professional was told that this is one of the best to go to graduate school, and now it seems to be true. Totally opposite company I talked to the boss, all-round ability is very high, everything to know, everything will ask. If you follow other majors, a little bit of edge can also be, but not many people understand the profession, the professional courses are not as deep as other majors, the technical side of the time is at a disadvantage. Many engineering majors require travel and are not suitable for girls. What is the direction of employment 1; intelligent instrumentation direction, I think this direction is mainly engaged in instrumentation, electronic products, software, hardware research and development, testing, you can also engage in the instrumentation of automatic control and other aspects of the work, this is a bias in the direction of the electronic, it is best to learn a good C language, assembly language, microcontroller, labview, etc. and have the relevant practical experience in the development of 2; test and measurement techniques and instruments Direction, this is mainly engaged in metrology, testing and inspection, quality inspection, etc., I think this direction of academic research component is a little heavier, the general undergraduate students are more difficult to find a more suitable job. 3; computer measurement and control technology direction, this direction has a highlight of the course is the image detection and processing, is a more biased and computer direction, and the second has a similar place are engaged in the detection and measurement, only the latter is more biased towards the use of computer operating platform.