1. Specialty Education Objective:
The goal of specialty education objective is to cultivate comprehensive development of applied engineering talents who can be engaged in electronic information and related fields of systems, equipment and devices research, design, development, manufacturing, application, maintenance, management and other work. In order to achieve the goal, students must be physically and mentally healthy and have noble moral and cultural quality, sense of social responsibility, innovative spirit and entrepreneurial consciousness, and also can master the necessary basic and professional knowledge of mathematics and natural science, and have good learning, practical, innovation and entrepreneurship ability.
2. Professional Core Course
(1) Virtual Instrument Technology
Virtual Instrument Technology mainly teaches the basic concept, technical characteristics, research status and industrial application of virtual instrument and its LabVIEW development system. Through the study of this course, students can master the basic design and development process, architecture, development interface of LabVIEW, the key technology of graphical g language, and the basic data structure, data expression method, file system and remote communication realization method of LabVIEW language. Students are trained to design simple virtual instrument system with data processing ability, data expression ability, data management ability and remote measurement and control communication ability.
(2) Circuit
Circuit mainly teaches the principles and methods of circuit models and basic circuit components, circuit structure and equivalent transformation, the establishment of micro-equations in dynamic circuits and time-domain analysis. Through the study of this course, students will master the use of circuit analysis methods to calculate circuit problems, establish an engineering perspective that integrates theory with practice, and have basic skills in circuit experiments. They can use circuit simulation software to design various related circuits, and can use simulation tools to complete simple Design and verification of circuit systems.
(3) Analog Electronic Technology
Analog Electronic Technology mainly teaches the basic theories, basic knowledge and basic skills of analog electronic technology, including commonly used semiconductor components, basic amplifier circuits, integrated operational amplifier circuits, analog signal operation circuits and signal processing circuits. Through the study of this course, students will be able to master the working principles and analysis methods of the basic unit circuits in electronic circuits, have the ability to identify and select components, and have the ability to design, debug, test and maintain common circuits.
(4) Digital Electronic Technology
Digital Electronic Technology mainly teaches the basic concepts of digital circuits and logic functions, the logic functions and electrical characteristics of basic digital circuit devices such as gate circuits and flip-flops, the correct use of TTL and CMOS devices, and the use of medium-scale integration (MSI) devices for analysis and Design and other content. Through the study of this course, students will master the basic knowledge, basic theory, basic analysis and design methods of digital electronic technology. Prepare the necessary knowledge for the follow-up professional courses and lay the necessary foundation for practical work related to digital electronic technology.
(5) Signal Analysis and Processing
Signal Analysis and Processing mainly teaches the basic theories and analysis methods of signal analysis, linear time-invariant system analysis, and digital filters. Through the study of this course, students can master the continuous and discrete signals in the time domain, frequency domain and other transform domains. Description and analysis methods, signal analysis methods through linear systems, and basic theories and design methods of digital filters, so as to have certain signal theory analysis and calculation capabilities, and lay a solid foundation for subsequent courses and professional learning.
(6) Principle of MCU and Application
Principle of MCU and Application mainly teaches the basic knowledge of software and hardware of the single-chip microcomputer system, the design and development methods of the application system, including the internal and external random-access memory and program memory of the single-chip microcomputer, timer, serial communication port, and the minimum system of the single-chip microcomputer. This course has strong practicality and practicality. Cultivate students' innovative thinking through theoretical teaching; improve students' ability to develop single-chip application systems through experiments and stimulate students' innovative ability.
(7) Communication Electronic Circuits
Communication Electronic Circuits mainly teaches the basic theories and techniques of high-frequency circuits and communication technology, the composition, working principles, performance characteristics, basic analysis methods and engineering estimation methods of various high-frequency amplifier circuits, oscillators, and modulation and demodulation circuits. Through classroom simulation demonstrations, animation demonstrations and experimental teaching, further enhance students' perceptual knowledge and rational thinking of communication electronic circuits. Through the study of this course, students can analyze complex communication hardware circuits and have the ability to analyze problems in communication hardware circuits and practice hands-on problem solving.
(8) Principle of Communication
Principle of Communication mainly teaches the basic concepts, basic methods and basic principles of communication and systems. Through the study of this course, students will master: the basic structure of the communication system; the basic principles, conditions and technology of information transmission; the basic theoretical knowledge of communication signals and information processing; the basic theoretical knowledge of source and channel coding, analog and digital modulation . This course mainly explains the basic principles and basic performance of various modulation methods and coding methods in order to lay the foundation for the research and design of new communication systems, and to master the development direction and specific technologies of communication systems.
(9)Principle of Communication
Principle of Communication takes the hierarchical structure of the computer network system as the general outline, systematically and hierarchically introduces the working principles of computer networks, including data link layer, network layer, transport layer and application layer protocols and related technologies, with emphasis on the TCP used by the Internet /IP protocol family. Through the study of this course, students can understand the main technical points of information transmission through computer networks, and lay a knowledge foundation for the development, application and maintenance of information systems in the future.