英文版培养方案--电子科学与技术.doc

Electronic Science and Technology Cultivating scheme for Master's Degree 1.Introduction Electronic science and technology is a comprehensive interdisciplinary of the physical electronics, microelectronics, circuits and systems and related technologies. Recently, with the development of electronic science and technology, it has become the foundation of national economy and defense information technology and promoted the development of the information and communication, the computer technology, control science, instrumentation technology, etc. It focuses on the science and technology problems of electronic circuits basic theory, photoelectron materials and devices, semiconductor and integrated circuit, nuclear electronics circuit and instrument system, embedded computer system and automatic control system, and so on. The research content mainly includes: theory and application of modern circuit and system; detection, acquisition, amplification transformation and data processing technology of weak signal; Research and development of intelligent instruments and equipment; The design of embedded computer application system and SOC system; Acquisition and processing of nuclear signal; The research and development of nuclear radiation detector; The design of new type of semiconductor photoelectron materials and devices and its optimization of performance, etc. With nearly 30 years development in our university ， electronic science and technology has formed in an characteristic discipline direction of development and application of embedded system, design of circuit system, development of nuclear electronics and intelligent instrument, semiconductor optoelectronic devices, signal detection and automatic control system and undertaken the National High-tech R&D Program (863 Program), the National Defense Scientific Research, the National Natural Science Foundation of China, and other major scientific projects. Then, it has Formed a complete architecture from research and development of semiconductor devices, design of circuit, development of instrument and system design and industrialization application. 2.Research Fields ⑴The design of circuit system and automatic control According to the theory of modern circuit system and CAD technology, it aims at developing and researching analog and digital system design technology, the design of embedded system and the implementation of FPGA, the design of VLSI circuit system and composite sensing and detection system, fault diagnosis of electrical parameters, etc. It also researches the advanced control theory such as adaptive control and neural network contro, and solves of the control and optimization problems of automation equipment and production process. ⑵The design of nuclear electronics circuit and system Around with the acquisition and processing of nuclear signal, it studies on the basic theory of nuclear electronics and design of circuit system, including detection, amplification, collection, conversion and data processing for weak signal, the precision measurement technology of electronics for the randomness of nuclear information, statistics or single features, differen kinds of radiation detectors and the relevant electronic circuit design, and the design and development of radiation detection instrument system. ⑶The semiconductor devices and microelectronics On the basis of studies on semiconductor materials preparation and device design and performance testing technology, it carries out researches on the photovoltaic materials and device and semiconductor lighting materials and devices, which are based upon GaAs, GaN, SiC, Si photoelectricity and the radiation detection materials and devices, new oxide micro-nano structure material and devices, mid-infrared antimonide thermal photovoltaic cells, Si thin-film batteries, etc. The design and development of application system for relevant devices are also based on it. Based on CMOS manufacturing technology, the application of EDA design tool to carry out application work on chip design and development related to semiconductor device. 3.Training Goals ⑴Moral character, rigorous style of study, with strong dedication and the spirit of unity and cooperation, actively serve the national construction, social responsibility sense. ⑵ The business level and ability requirements: master the solid basic theory of electronic technology subject and specialized knowledge and skills, understand the development level of this technology in theory and application, familiar with the research direction of related discipline development trends at home and abroad, and has a broad knowledge background. Master a foreign language, has a good ability of listening and speaking of foreign language and academic writing. To the integrated use of electronic engineering, control theory, software programming and system simulation technology in the research and development work design of DSP and embedded system, testing technology and intelligent instruments, modern information and communication network, automatic control technology and semiconductor materials and devices. ⑶Good quality, rigorous scientific attitude, practical and realistic style of study and theory with practical work style. ⑷Health of body and mind in good condition. 4.Course Setting Category Degree Courses Course Number Course Name Traditional Semester Hour s Credit s 1 24 2 √ 2 1218010108 Chinese Culture 1209010108 Teaching Chinese as a Foreign Language 96 4 √ Numerical 24 2 √ 24 2 √ 24 2 √ 24 2 √ 24 2 √ 24 2 √ 24 2 √ 24 2 √ 24 2 √ Analysis Modern Circuit Theory & CAD Technology Academic Forefront of Electronic Science and 3 4 √ Technology Principle and Application of Embedded System Weak Signal Detection & Non-Degree Courses Processing Real-time Operating System and Programming Nuclear Electronics and Intelligent Instrument Semiconductor Physics and Devices Design Technology FPGA Compulsory Part Graduate Credits 5.Course Description of Literature Review 1 Degree Proposal 1 24 √ √ 5 (I)Numerical Analysis 1.Course Objectives: This is an important foundation course of electronic science and technology, and surveying and mapping engineering ， etc. Through this course, we can master common and effective methods of numerical linear algebra, calculus and ordinary differential equations; grasp the real problems start from the mathematical problem, then the problem will be converted into a numerical mathematics problem, and then use the related scientific and engineering computing methods or developed numerical methods for the numerical problem solving; understand the working methods that the computer and mathematical software as a tool ,the mathematical models as the basis to the simulation studies lay a solid theoretical and methodological basis for the subsequent specialized basic courses, specialized courses. 2.Course Content: This course mainly studies using the computer numerical methods to solve mathematical problems and theories, the main object of study is the numerical algorithm of linear algebra, calculus and ordinary differential equations, as well as the basic concepts and design methods of calculus of scientific computing software. At the same time, through the analysis of an example to introduce numerical analysis in the applied field of electronic science and technology, surveying and mapping engineering, etc. The course contents mainly include: the concept of absolute error, relative error and effective digital and the impact on the numerical calculation; the various interpolation and approximation methods such as Lagrange, cubic spline, orthogonal polynomials, least squares method of curve fitting; numerical integration and numerical differentiation; numerical solution of nonlinear equations; numerical solution of algebraic equations and Monte Carlo simulation methods. Requirement that the theoretical study combined with experiment teaching,interpolation and function approximation, numerical integration methods and numerical differentiation, numerical solution of ordinary differential equations initial value problem, solution of equations, linear equations of iterative method, eienvalues and eigenvectors calculations, Monte Carlo simulation and other sectors require students in extracurricular experiments carried out on the machine programming. 3.Teaching Methods : Intensive classes , Practice and Discussion. 4.Evaluation: examination, coursework (including numerical experiments report). 5.Prerequisites: "Higher Mathematics", "Linear Algebra", "Fundamentals of Programming" (II)Modern Circuit Theory & CAD Technology 1. Course Objectives: (1) Through this course, students are familiar with the basic theory of modern circuit design, circuit analysis basic method of calculating the actual skills and scientific experiments, master the simulation, application design capabilities of digital and hybrid systems; (2) computer-aided analysis and design methods to learn, understand the function of a variety of CAD-aided design software; Analysis (3) master the use of PSpice and other CAD computer-aided software design techniques and operational applications; (4) students of dialectical thinking ability, establish a scientific theory with practical ideas and improve students' ability to analyze and solve problems. 2. Course Content: This course introduces the basic concepts of circuit, the selection circuit electronic components of the structure and use; focuses on teaching using computer-aided CAD softwares like PSpice to analyze and simulate circuit element model, the semiconductor device base , the basic unit of analog integrated circuit, feedback amplifier circuit ,integrated operational amplifier and application circuit,generation and processing circuit circuit pulse waveform, provide a theoretical basis for circuit design methods, the means of achieving and analog circuit fault diagnosis. 3. Teaching Methods:Intensive classes, practice and discussion. 4. Evaluation: examination, curriculum design report 5.Prerequisites: Analog Electronics, Digital Electronic Technology, Circuit Analysis, SCM Principles and Applications (III) Principles and Application of Embedded Systems 1. Course Objectives: ⑴ Learning and mastering the basic concepts,composition principle, operating system of several mainstream embedded systems; ⑴ Learning ARM architecture to know about kernel hardware and instruction system of 32-bit embedded system, master the general ARM application development technology and development methods; 2. Course Content: ARM framework is a dominant 32-bit microprocessor / microcontroller framework for embedded system applications. This course is based on the 32-bit ARM architecture,teaching the concept of embedded systems, embedded system hardware architecture, instruction system, embedded system hardware design, embedded systems hardware co-development technology, ARM-based embedded systems development practices and development environment. It focus on principle of embedded processors, hardware configuration, software design and design examples. It requires students to master the basic concepts of embedded systems and application development,typical embedded system chip structure, performance and instruction.Understanding the mechanism of typical embedded operating system and hardware reduction method.Under the support of the embedded development environment ,control methods and practice basic means of embedded system. 3. Teaching methods:Intensive classes , Practice and Discussion. 4. Evaluation: examination, curriculum design report 5. Prerequisites: SCM Principles and Applications , Microcomputer Principle and Interface Technology ,C Language Programming (IV) Weak Signal Detection and Processing 1. Course Objectives: (1)Learning the basic concepts of weak signal and noise; control the analysis of noise source and noise; (2)Learning the method of weak signal detection , interference suppression, weak signal processing circuit, the correlation detection method, adaptive noise cancellation method. (3) Learning the basis of random signal and parameter estimation theory; (4)Learning of modern spectral estimation, adaptive filtering, high-end signal analysis, linear transformation and nonlinear transformation of time-frequency signal analysis and other modern signal processing methods. 2.Course Content: Learning weak signal detection and random noise basics,the analysis of noise sources and noise characteristics of the amplifier;learning noise and interference suppression method, lock-in amplifier design, sampling integral and numerical average processing method, correlation detection method, adaptive noise cancellation method. Learning stochastic signal, parameter estimation theory, modern spectral estimation, adaptive filtering, high-end signal analysis, linear transformation and nonlinear transformation method of time-frequency signal analysis. 3. Teaching methods: Intensive classes and discussion. 4. Evaluation: examination, reading report (or essay) 5. Prerequisites: Stochastic Processes, Signals and Systems, Digital Signal Processing