Electronics major is the name of the subject.
Curriculum:
Basic courses
Moral education, Chinese, mathematics and basic application skills, English, physics, computer application basics, physical education, and employment guidance.
Professional courses
1. Mechanical Drawing: Learn the basic knowledge and methods of engineering drawing, projection principles, views, sections, profiles, parts drawings, assembly drawings, and axonometric drawings, so that students can Able to draw simple parts drawings and assembly drawings, and have the ability to read views and draw control engineering drawings. 2. Basic electricians learn the basic principles and basic rules of circuits. Enable students to master the calculation and basic analysis methods of DC circuits, AC circuits and first-order dynamic circuits, understand the concepts of non-sinusoidal periodic current circuits, second-order dynamic circuits and the basic concepts of magnetic circuits, and be able to perform calculations of simple magnetic circuits. Learn the basic structure and principles of commonly used electrical instruments. To enable students to master the use of DC and AC instruments and meters. Students will be able to analyze common troubleshooting methods for simple commonly used electrical instruments, be able to use electrical instruments correctly, and develop students' ability to process data and solve practical problems.
3. Basics of analog electronic technology. Learn the principles, characteristics and main parameters of basic electronic devices and basic amplifier circuits, common analysis and design methods of amplifier circuits and feedback circuits, and the structure, characteristics and technology of integrated operational amplifiers. Indicators, basic connections and typical application circuits, and understand the working principles of power amplifiers, sine wave oscillators and DC regulated power supplies. To lay the foundation for students to correctly analyze circuits and repair instruments. [1]
Through experiments, students can master the structure, working principles and usage of commonly used instruments and meters. Master the testing methods for the characteristics and main parameters of commonly used electronic devices, and be able to choose them appropriately. Ability to wire, test, analyze faults of general electronic circuits and analyze experimental results. Lay a solid foundation for learning computers and digital instruments.
4. Basics of digital electronic technology. 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 preliminary design capabilities. Understand the basic principles of pulse generation and shaping circuits, A/D, D/A conversion, and the external leads of typical integrated blocks.
5. Through the study of electrical wiring and electrical safety, 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 principles 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 electric drive, and receive necessary basic skill training. Be familiar with the basic knowledge of electric motors, understand the working principles of electric motors, and be able to analyze common faults of electric motors.
Learn the structure, principles, specifications, models and uses of commonly used control electrical appliances, master the basic links of relay contactor control circuits, analyze and design general control circuits, and be familiar with the uses and work of general production machinery and electrical equipment. Basic knowledge of principles, installation, commissioning, operation and maintenance. Learn the basic structure, working principles and operating characteristics of transformers, AC and DC motors and control motors.
8. Electrical drawing recognition Through learning, students can master the methods and principles of electrical drawing; commonly used words and graphic symbols of electrical and electronic components; and be able to correctly read and draw electrical and electronic circuit schematic diagrams and installation diagrams.
9. Electronic Design Automation Through the teaching of this course, students will be familiar with and master the use of one version of electronic circuit CAD and electronic circuit workbench software. Ability to use a computer to draw circuit diagrams and design corresponding printed circuit boards.
10. Web page production and design. Use common web page production software for web page production and design, complete personal web page production, and be able to publish relevant information online.
11. Learn the basic principles and main parameters of thyristors in power electronics technology. Enable students to master the basic principles of commonly used silicon controlled rectifier circuits and active inverter circuits, waveform drawing methods, thyristor protection and parallel connection, thyristor trigger circuits, and understand the basic principles of thyristor passive inverter, AC voltage regulation and other circuits, Waveform analysis and main parameter effects, and ability to install and use general controllable rectification equipment.
12. Single-chip microcomputer technology. Learn the characteristics, structural components, and working principles of each component of single-chip microcomputer. Enable students to master the characteristics and composition of microcontrollers, the working principles of each part, microprocessors, memory principles, methods of exchanging information between CPU and peripherals, and methods of interrupt processes; learn the input/output process, sampling principles A/D and D/ A application, how to use commonly used I/O interface chips; learn assembly language and programming methods; learn the application and development of microcontroller hardware systems.
13. Programmable Controllers Learn the composition principles, hardware components and working principles of each component of programmable controllers, master the programming languages ????and programming methods of commonly used programmable controllers, so that students can perform PLC Preliminary design of the system.
14. Factory Power Supply Through the study of this course, students will be familiar with all aspects of the factory power distribution system and the basic structure, working principles and functions of primary and secondary electrical equipment, and can correctly analyze small and medium-sized factory power supply. Primary and secondary wiring diagrams of power distribution systems, master the preliminary ability to calculate electric load and short-circuit current, and be able to understand electrical installation diagrams, master the design methods and basic contents of workshop power substations, distribution lines and electrical lighting, and have Basic knowledge of safe use of electricity and conservation of electricity.
15. Sensor Principle and Application This course mainly teaches the basic concepts and basic knowledge of detection and conversion technology. Through teaching, students can understand the basic structure, working principle and application of sensing, and have the ability to select, test and adjust sensors. Ability to understand the working principles of commonly used measurement circuits in detection systems, detection devices, signal transformation, signal processing and stabilization methods of the working process and parameters of related interface circuits.
Elective courses
1. Marketing teaches basic knowledge of economic law, allowing students to understand economic contracts, trademarks, patents, ownership and foreign-related legal systems. Learn the basic knowledge of marketing to enable students to understand marketing strategies, market research and forecasting methods and means. Learn the basic knowledge of public relations so that students can understand the role and methods of carrying out public relations investigations, public relations publicity, public relations communication and some comprehensive public relations activities. 2. Enterprise Management The enterprise management part of this course mainly introduces the organization of the production process, labor quotas, plan management, quality management, cost funds and profits, etc. The technical and economic part mainly introduces the principles and methods of technical and economic analysis, so that students can understand how to Organically combine technology and economics, thereby possessing the basic ability of technical and economic analysis and comprehensive evaluation.
3. Introduction to Environmental Protection Learn the basic knowledge of ecology and environmental protection. To enable students to understand the importance of ecological balance, environmental protection and the principles and methods of waste treatment.
4. AUTOCAD 2000 Through the study of this course, students can understand modern design methods, master computer-aided design technology and the use of AutoCAD software packages, and master two-dimensional drawing, two-dimensional editing, and three-dimensional surfaces. Knowledge of models, three-dimensional editing coordinate systems, etc.; and obtain corresponding national certificates.
5. VB6.0 This course is based on Visual Basic 6.0 and teaches the basic concepts, basic theories and programming methods of programming languages, enabling students to understand and master visual computer programming methods and be able to write independently Application programs, combined with related technologies such as databases and API functions, to design and develop small and medium-sized systems.
Through the study of this course, students can master high-level language programming and visual programming functions, master visual programming skills and techniques, and lay the foundation for students to further self-study Visual Basic programming.
6. Chemical common sense: Learn the basic knowledge of chemistry; understand the performance and application of commonly used simple chemical production equipment; understand the simple chemical production process. To enable students to understand the causes of corrosion and protective measures.
Internship session
(1) Metalworking internship learns the basic operations of fitters and understands the basic knowledge of metalworking; by making small workpieces, students learn to use common tools and measuring tools for fitters, and enable students to understand machinery Processing methods and processes.
(2) Internship for internal and external electricians to learn the selection of commonly used lamps, installation and maintenance of lighting circuits, and the correct use of electrical instruments and meters. And carry out the design, installation and debugging of multimeters. Enable students to master electrician safety technology, electric shock first aid knowledge, and master the use of commonly used electrician tools and electrician testing instruments.
Learn the installation and maintenance of internal and external wiring projects and the wiring and debugging of electrical equipment.
Enable students to master basic operating skills. Learn the installation of lighting fixtures, installation and wiring of single-phase and three-phase electricity meters.
(3) Electronic internship learning the testing and selection of electronic components, and training in (tin) soldering technology. Design and manufacture electronic circuits for small electronic equipment. Students are required to draw circuit schematics and construction drawings, prepare component and material lists, and write design instructions, so that students can initially master the steps and methods of design. At the same time, students are allowed to assemble and debug electronic circuits designed by themselves, so that students are familiar with the use and maintenance knowledge of commonly used electronic instruments and equipment.
(4) Motor maintenance internship enables students to become familiar with common tools and materials for motor repair, and be able to use and select them correctly; initially master the disassembly and assembly of small squirrel-cage asynchronous motors and small transformers. Rewinding process and quality inspection after repair.
(5) Electronic automation design internship enables students to become familiar with the commands and tools of the computer-aided circuit design software PROTELD. Ability to use a computer to draw circuit diagrams and design corresponding printed circuit boards.
(6) Understanding internship Through this internship, students should understand the production process of chemical products and the characteristics of chemical production, and initially gain a perceptual understanding of the power transformation and distribution system and electric drive of chemical plants.
(7) Microcontroller internship allows students to design a small microcontroller system by themselves through practice. In order to understand the application methods of microcontroller technology in electronic equipment.
(8) PLC internship: learn how to use PLC and programmers, draw ladder diagrams, write complete programs and debug programs according to process requirements.
(9) Intensive training and certification of electrician skills. Conduct technical operation skills training required by intermediate electricians, so that students can fully master the skills, techniques and knowledge of intermediate technical levels of maintenance electricians. Be able to use electricity safely and master first aid methods for electric shock. Pass the on-the-job operation assessment approved by the professional department and be issued an electrician on-the-job operation certificate.
(10) Graduation link The purpose of the graduation link is to enable students to analyze and solve practical engineering problems through comprehensive application of the basic theories and professional knowledge they have learned, and to improve students' ability to work independently. On the premise of ensuring the mathematical requirements, the topic selection should be combined with actual production as much as possible, and students are required to complete the design tasks independently.
Graduation internship enables students to understand the process of factory power supply and distribution, production organization and management, installation, debugging, and maintenance of electrical control equipment. It can also enable students to directly participate in the production and scientific research practice activities of wireless factories, research institutes and other enterprises, so that students can understand the installation, debugging and development of electronic devices and equipment. During the internship, pay attention to using the knowledge you have learned to observe and analyze relevant practical engineering problems.
The content of the graduation project can be the electrical system design of a workshop or small factory power substation, or the design of a medium-complexity thyristor DC speed control system, or the control circuit design of production machinery and electrical equipment. It is required to draw schematic diagrams (system diagrams), layout diagrams, prepare design material lists, and prepare design instructions. Students can also develop their electronic technology application capabilities through a comprehensive electronic device design process
Professional introduction:
Employment direction
This professional direction is cultivated Possess basic theoretical knowledge and basic skills in intelligent electronic product design, quality inspection, production management, etc., and be able to engage in the design and development, quality inspection, production management, and production management of intelligent electronic products in the electronic field and on the front line of department production. Talents with application skills in sales and technical support. Graduates are mainly employed in electronic enterprises, electronics companies and public institutions engaged in the production, testing, maintenance and debugging of CNC equipment or instruments, home appliance control systems, smart toys, automotive electronics, industrial control network communication equipment, medical instruments, environmental monitoring and other products. Production management and sales work. Practical training session
Electronic skills training, comprehensive electronic training based on CNC high-fidelity power amplifiers, automatic detection technology training, comprehensive training based on AT89S51 microcontroller application and development, MP3 digital product design training , professional comprehensive training, on-the-job internship, graduation internship and graduation project.
Business training
1. Knowledge structure
⑴. Have the basic cultural knowledge of high-level electronic technology professionals.
Including basic principles of electrical circuits, basic knowledge of network theory, basic electronic technology, high-frequency electronic circuit principles, microwave and optical fiber communication knowledge, basic knowledge of computer and multimedia technology, knowledge of the use and maintenance of commonly used electronic instruments, and timely tracking of new developments in electronic technology and knowledge of cutting-edge technologies.
⑵. Master the use and maintenance of various electronic and communication equipment
⑶. Master the basic knowledge necessary for electronic engineering majors.
⑷. Proficient in a foreign language, with English proficiency reaching college level three.
2. Ability structure
⑴. Students should have the ability to operate various electronic and communication equipment and related instruments and tools.
⑵. The ability to track new electronic technologies.
⑶. Computer network technology development capabilities.
⑷. Communication system development and maintenance capabilities.
⑸. Ability to build, manage and maintain computer rooms for communication equipment.
The department requires that students graduating from higher vocational classes should strive for four certificates: graduation certificate, College English Certificate III, National Computer Rank Examination Certificate II, and Electronic or Electrical Product Repairer Advanced Skills Appraisal Certificate.
Professional positioning
The electronic information industry is one of the four pillar industries of my country's national economy and is also an industry supported by my country's "Eleventh Five-Year Plan". Wuxi City's "Eleventh Five-Year Plan" points out that through five years of hard work, the electronic information industry will develop from the fourth among our four pillar industries to the first pillar industry. With the rapid development of the electronic information industry, the demand for applied electronic technology professionals continues to increase. Over the years, a number of applied electronic technology professionals have been cultivated relying on colleges, scientific research institutes and enterprises. However, it is inconsistent with the development needs of my country's information industry. However, there is still a big gap.
Technical methods and technical means used in the computer field. Computer technology has obvious comprehensive characteristics. It is closely integrated with electronic engineering, applied physics, mechanical engineering, modern communication technology and mathematics, and is developing rapidly.
Main course editor
Computer application basics, computer assembly and maintenance, Visual Basic language, professional English, computer graphic and animation design, computer network basics and local area network construction and management, Database development and application, advertising design and production, website construction and web design, multimedia design and production, e-commerce, network security, communication principles, etc.
2 Professional classification editor
Main categories
Including computer, electronics, communications, information, digital, automation, biomedical engineering related disciplines, including: Enterprise Information computer management, e-commerce, economic information management and computer applications, information management and information systems, computer-aided design and manufacturing, database applications and information management, microelectronic control technology, computer-aided manufacturing technology, computer system maintenance technology, electromechanical equipment and Microcomputer application, computer control technology, computer-aided design, factory computer centralized control, computer assembly and maintenance, computer graphics and image processing, computer art design, computer network engineering and management, information and communication network application technology, information and multimedia technology, multimedia and Network technology, computer network technology, advertising computer production, computer graphic processing and plate making, computer graphics, electronic engineering, computer network and software applications, network technology and information processing, numerical control technology and applications, electrical appliances and computers, information processing and automation, Computers and postal communications, computer-aided mechanical design, computers and information management, office automation technology, microcomputers and applications, electronic technology and microcomputer applications, communication technology, office automation equipment operation and maintenance, computer applications and maintenance, computer application technology, computers Communications, electronics and information technology, computer science education, computer software, computers and applications, applied electronic technology, microelectronics technology, software engineering, information engineering, electronic science and technology, computer science and technology, communication engineering, electronic information engineering, automation , biomedical engineering, network engineering, computer and automatic detection, computer application and security management, network and information security, information security, microelectronics, electronic information science and technology, information science, computational mathematics and its application software, information and computing Science, computer art design, Internet advertising design, publishing and computer editing technology, modern information technology education, educational information technology, and digital media technology.
Software
Refers to computer-related disciplines that focus on software and system development, mainly including: economic information management and computer applications, information management and information systems, and computer assistance Design and manufacturing, database application and information management, e-commerce, computer and information management, office automation technology, computer control technology, computer-aided design, and factory computer centralized control.
Network management category
Refers to computer-related disciplines that mainly focus on software and system development. The professional knowledge of this type of discipline is mainly based on network applications, mainly including: multimedia and network technology, computer network technology, computer and postal communications, computer-aided mechanical design, computer and information management, e-commerce, network engineering, computer application and security management, network and information security, Internet advertising design, computer network and software application, Network technology and information processing, information management and information systems, computer software, computers and applications, communication technology, computer communications, electronics and information technology.