Degree awarded: engineering
Bachelor's degree system: four years
1. Cultivate applied engineering talents with modern electronic technology theory, electronic system design principles and methods, strong computer, foreign language and corresponding engineering technology application ability, and be able to engage in scientific research, product design, process manufacturing, application development and technical management of various electronic equipment and information systems.
Second, graduation requirements
Complete the relevant contents of the Moral Education Implementation Plan, the Physical Education Implementation Plan and the Aesthetic Education Implementation Plan, and establish the ambition and sense of responsibility to strive for the prosperity of the country and the prosperity of the nation; Understand the basic knowledge of physical education, master the basic skills of scientific physical exercise, develop good physical exercise habits, maintain physical and mental health and physical quality, and reach the standard of college students' physical health. Establish a correct and progressive aesthetic view, and have certain literary, artistic and humanistic qualities; Through the study of professional related courses, I have mastered the basic theory and knowledge of electronic information engineering, accepted the basic training of electronic information engineering practice, and have the basic abilities of information collection, signal processing, signal transmission, electronic information system design, application development and so on.
Graduates should have the following knowledge and abilities:
1. Master the basic theory and knowledge of electronic information engineering.
1. 1 Master the theoretical basis of mathematics and physics;
1.2 master the basic knowledge of engineering drawing, and be able to read and draw general engineering drawings;
1.3 master basic theories and knowledge such as signal and system, electronic technology, electromagnetic field and electromagnetic wave, information theory and computer foundation.
2 master the analysis, design, development and testing methods of electronic systems, signal processing and information transmission.
2. 1 How to use related instruments and equipment:
2.2 Master relevant development software, programming language and development test methods.
3. Have the basic ability to comprehensively apply scientific theory and engineering technology to analyze and solve engineering problems 3. 1. Have the initial ability to research, develop, design, technically transform or innovate electronic information products, technologies and equipment;
3.2 Have a strong sense of innovation.
4. Be familiar with the principles, policies and regulations of the national electronic information industry, and understand the basic knowledge of enterprise management.
5. Understand the theoretical frontier, application prospect, development trend and industry demand of electronic equipment and information system.
6. Have good logical thinking ability, scientific research and practical work ability, good organization and management ability, strong language expression and communication ability, good team consciousness and cooperation spirit.
7. Master a foreign language, be able to read foreign books and periodicals of this major smoothly, have basic knowledge of listening, speaking and writing, master the basic methods of literature retrieval and information inquiry in Chinese (foreign), and have the ability to obtain information.
Third, the main disciplines
Electronic science and technology, information and communication engineering
Fourth, the core curriculum.
Professional core courses: circuit principle, analog electronic technology L, digital electronic technology, signal and system, principle and application of single chip microcomputer and microcomputer, communication principle, high-frequency electronic circuit, digital signal processing, EDA technology and VHDL design.
Circuit principle (29040 1 1050): the main contents of this course include time domain analysis method of DC resistance circuit, first-order and second-order dynamic circuit, phasor analysis of sinusoidal steady-state circuit, symmetrical three-phase circuit analysis, asymmetric three-phase circuit concept, coupled inductance circuit analysis, general analysis method of non-sinusoidal periodic current circuit-harmonic method, two-port network equation and its. Through the study of this course, students can master the basic theoretical knowledge, basic analysis methods and preliminary experimental skills of circuits, and lay a foundation for the subsequent circuit theory courses and work in the field of electrical engineering.
Analog Electronic Technology I (29 1550 1040): The main contents of this course include the working principle, characteristics and main parameters of commonly used electronic devices, three basic amplifier circuits, differential amplifier circuit, feedback amplifier circuit, sine wave oscillator circuit, integrated operation circuit, power amplifier circuit and DC. Through the study of this course, students can master the basic theoretical knowledge and basic analysis methods of electronic circuits, cultivate their preliminary ability to read drawings, and lay a foundation for the subsequent electronic courses and work in the field of electronic related engineering.
Digital Electronic Technology (2904025035): This course mainly includes logic algebra, logic gate circuit, combinational logic circuit, latch and flip-flop, sequential logic circuit, semiconductor memory, CPLD and FPGA, pulse waveform transformation and generation, digital-analog and analog-digital converter, etc. Through the study of this course, students can understand the basic knowledge, theory and devices of logic design, and master the basic methods of logic circuit analysis and design skillfully on this basis; Able to design and verify logic components by comprehensively applying various methods and technologies according to various design requirements put forward objectively; Improve students' logical thinking ability, practical problem solving ability and innovation ability.
Signals and Systems (50 15503035): This course mainly includes time domain analysis of continuous-time systems, orthogonal decomposition of continuous signals, frequency domain analysis of continuous-time systems, complex frequency domain analysis of continuous-time systems, system functions of continuous-time systems, time domain analysis of discrete-time systems and transform domain analysis of discrete-time systems. Through the study of this course, the students' ability to analyze and solve problems is improved, the scientific viewpoint of integrating theory with practice is established, the students' innovative consciousness and engineering practice ability are cultivated, and a solid foundation is laid for students to further study the follow-up courses.
Principle and Application of Single Chip Microcomputer and Microcomputer (52 15506035): This course mainly includes the hardware structure, working principle, instruction system, application program design, interface technology, interrupt system and application of single chip microcomputer and microcomputer. Through the study of this course, students can master the methods of hardware design, debugging and related software development of electronic system by using single chip microcomputer and microcomputer technology, cultivate students' ability of related engineering application and technological innovation, and lay a solid foundation for subsequent courses and related work.
Communication Principle (52 15002035): This course mainly introduces the basic model, basic principle, pulse code modulation and incremental modulation principle of analog communication system and digital communication system, composition of digital baseband system and digital frequency band system, information transmission principle, anti-noise performance, digital modulation and demodulation technology, optimal digital signal receiving and communication system, frequency division multiplexing and time division multiplexing principle, synchronization principle, error control coding and communication system. Through learning, students can establish a complete concept of communication system, cultivate the ability of communication system design and development, and lay a solid theoretical foundation for students to learn various communication systems.
High Frequency Electronic Circuit (52 15003035): This course introduces the basic unit circuits and systems in radio transmitting and receiving equipment, mainly including high frequency small signal resonant amplifier, high frequency power amplifier, oscillator, analog linear modulation and demodulation, analog angle modulation and demodulation, phase locked loop, frequency synthesis technology, etc. Through the study of this course, students can master the composition of wireless communication system, understand the composition, working principle and performance of each unit circuit in the system, the analysis method of the circuit and the internal relationship of various circuits, and master the ability to design and use various high-frequency circuits through experimental teaching.
Digital signal processing (55 106 16030): This course mainly includes the analysis of discrete-time signals and systems, discrete Fourier transform and its fast algorithm, and the design of FIR and IIR digital filters. Through learning, students can master the basic principles, methods and technologies of digital signal processing, cultivate their basic ability to solve technical problems of digital signal processing by MMTLAB, and understand the combination and application of digital signal processing and general DSP system, so as to lay the necessary theoretical foundation for students to engage in DSP development and professional study.
EDA Technology and VHDL Design (52 15005030): This course comprehensively and systematically introduces the features and functions of EDA, the structural principle of target devices, and the programming and development environment of hardware description languages VWDIL and VHDL. Through learning, students should master the programming method of VHDL language and the use of QuartusII and PROTEL. Understand the hardware structure, principle and characteristics of CPLD, FPGA and other programmable logic devices, be familiar with EDA design methods, cultivate students' ability to design and analyze electronic circuits automatically by computer, and lay an important foundation for future study and work.
Verb (abbreviation of verb) is the main practice teaching link.
Mechanical manufacturing training I ⅳ, social practice, scientific and technological practice, electronic technology practice, information technology practice, professional comprehensive practice, professional innovation practice, professional production practice and graduation design (thesis), etc.
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