Principles of Automatic Control
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Principles of Automatic Control Course Credits School Pre-requisite Principles of Lecturer Automatic Control 4.5 72 Hours School of Course type Automation Higher Mathematics, Linear Algebra, Complex Analysis and Integral Transformation Yingle Fan Xiaodong Zhao Code Compulsory Course description Principles of automatic control is an important specialized and fundamental curriculum of electrical engineering and automation, automation techniques, mechanical-electrical techniques and other majors. Through the study of this curriculum, students can grasp basic theory of analysis and design of simple control system and lay a solid foundation for the further study of following professional courses. Syllabus 1. Introduction; 2. Mathematical model of the linear system; 3. Time-domain analysis of linear systems; 4. Root-locus method; 5. Frequency-response method; 6. Correction of linear system; 7. Analysis of digital control system; 8. Analysis of nonlinear system Assessment Text book Attendance (10%) Weekly assignments (30%) Final exam(60%) <Principles of Automatic Control>(Second Edition), An-ke Xue, Dong-liang Peng, Xue-ting Chen, Xi-an Dianzi University Publishing House, 2007. Recommended reading list < Principles of Automatic Control >(Fifth Edition), Shou-song Hu, Science Press, 2007. Principles of Microcomputer and Interface Technique Course Credits School Pre-requisite Principles of Microcomputer Farong Gao Lecturer and Interface Qingshan She Technique 4 64 Hours Code School of Compulsory Course type Automation Fundamentals of Computer Application, Analog Electronic Technology, Pulse and Digital Circuits Course description Principle of microcomputer and interface technique is an important specialized and fundamental curriculum for the majors of automation, electrical engineering and automation, and electronic information technology and instruments. From the curriculum, students can master the fundamental constitutes and working principles of the microcomputer, get familiar with the assembly language programming methods as well as the principles and applications of the common interface technology. Thus students can lay a solid foundation for the subsequent soft and hardware courses. Syllabus 1. Introduction to microcomputer; 2. 8086/8088 CPU architecture; 3. Instruction set; 4. Assembly language programming; 5. Memory; 6. I/O interfaces and bus; 7. Interrupt system; 8. Counter/Timer; 9. Parallel I/O interface; 10. A/D、D/A conversion; 11. Serial communication Assessment Attendance (10%) Weekly assignments (30%) Final exam(60%) Text book < Principles of Microcomputer and Interface Technique>(Fourth Edition), Heqin Zhou, Xiuqing Wu, University of Science and Technology of China Press, 2008. Recommended reading list <The Intel Microprocessors Architecture,Programming,and Interfacing >( Sixth Edition), B. B. Barry, Publishing House of Electronics Industry, 2004. Power System Automation Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Power System Huimin Gao Lecturer Automation Hongfei Xiao 3 48 Hours Code School of Compulsory Course type Automation Higher Mathematics, Circuits,Power System Analysis Power system automation is a main course of Power System and Automation major. Basic problems of power system automation are required to be understood preliminarily through the course. Some fundamental principles and methods are required to master, such as excitation control system of synchronous generator, adjustment of power system frequency, voltage and reactive power control, grid dispatching automation, distribution management system, and so on. 1. Automatic parallel of synchronous generator; 2. Excitation control system of synchronous generator; 3. Adjustment of power system frequency and active power; 4. Adjustment of voltage and reactive power control; 5. Power system dispatching Automation; 6.Distribution management system; 7. Substation Automation Attendance (10%) Weekly assignments (30%) Final exam(60%) < Power System Automation >( Second Edition), Ying Sun, Kui Wang, China Electric Power Press, 2007. < Principle of automatic devices of power system >( Forth Edition), Guan-cheng Yang, China Electric Power Press, 2007. Computer Network and Communication Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Computer Network Yunyuan Gao Lecturer and Communication Wujia Yu 3 48 Hours Code School of Compulsory Course type Automation Higher Mathematics, College Physics, Circuits Computer Network and Communication is an important specialized and fundamental curriculum of automation, electrical engineering and automation, computer, communication and other majors. The basic concept and working principle involved in computer network techniques and engineering are introduced systematically in the course. The course cultivates the theoretical foundation of further study of network infrastructure construction, integrated wiring technology and engineering, network technology and engineering and network application. Principle and realization technology of data communication; Network system structure; Principles of LAN, WAN; Network interconnection principle; TCP/IP protocol; Network management; Network security Attendance (10%) Weekly assignments (30%) Final exam(60%) <Computer network> (fifth edition), Xi-ren Xie, Electronic Industry Press, 2008. 1.<Computer network and internet>, Douglas E. Comer, Sheng Lin(Translation), Mechanical Industry Press, 2005. 2.<Computer network and data communication>, Yan-chen Xing, Posts & Telecom Press, 2008. Power system analysis Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Power system Ping Luo Lecturer analysis Lingwei Zheng 3 48 Hours Code School of Compulsory Course type Automation Circuits, Electric machinery, Engineering Electromagnetic Fields Power system analysis is an important specialized and fundamental curriculum of electrical engineering and automation. Students can have a comprehensive and profound understanding of the composition and operation of the power system, and master the analysis and calculation methods for steady state operation, electromagnetic and electromechanical transient process of the power system by learning. Through the study of this curriculum, they lay a solid foundation for the further study of following professional courses. 1. Power system introduction; 2. Mathematical model of electric power system components; 3. Steady state analysis of power system; 4. Fault analysis of power system; 5. Power system stability Attendance (10%) Weekly assignments (30%) Final exam(60%) < Power system analysis > (Fifth Edition), Zhen-xiang Han, Zhe jiang University Press, 2011. < Power system analysis > (Third Edition), Yong-yuan Yu, Qi-wen Yang, China Electric Power Press, 2007. Engineering Electromagnetics Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Engineering Ping Luo Lecturer Electromagnetics 2 32 Hours Code School of Compulsory Course type Automation Higher Mathematics, linear algebra, complex function and mathematic equation, College Physics, Circuits Engineering Electromagnetics is an important specialized and fundamental curriculum of electrical engineering and automation. Based on the electromagnetics in common physics, the curriculum aims to make students understand and master the basic natures and regularities furthermore, to develop the students' preliminary ability to use the idea of the field to analyze and judge the electromagnetic phenomena and process in electrical engineering, to make students get the quantitative calculation ability to some simple electromagnetic problems by use of the principle and method in electromagnetic. Though the study of this curriculum, students lay a solid foundation for the further study of following professional courses. 1. Introduction; 2.Vector analysis and the basics of field theory; 3. Basic principles of electrostatic field; 4. Basic principles of constant electric field; 5. Basic principles of constant magnetic field synchronous machine; 6. Time - dependent electromagnetic fields; 7. Image method Attendance (10%) Weekly assignments (30%) Final exam(60%) < Engineering Electromagnetics >, Ze-zhong Wang, Yu-sheng Jin, Bin-xian Lu, Tsinghua University Press, 2004. < Principles of Engineering Electromagnetics >, Guang-zheng Ni, Higher education Press, 2002. Basis of electrical machinery and driving Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Basis of electrical Jiajun Wang machinery and Lecturer Weijie Lin driving 4 64 Hours Code School of Compulsory Course type Automation Fundamentals of Computer Application, Analog Electronic Technology, Pulse and Digital Circuits Basis of electrical machinery and driving is an important specialized and fundamental curriculum of electrical engineering, automation techniques, and mechanical-electrical techniques and other majors. The curriculum agrees with the cultivation of the talents in electrics and information techniques. It can enhance the comprehensive ability and quality of undergraduates in electrical engineering and automation. This curriculum focuses on the basic principals and basic analytical method. The most advanced techniques at present is demonstrated in the curriculum. Though the study of this curriculum, students lay a solid foundation for the further study of following professional courses. 1. Introduction of the electrical machinery; 2. Direct-current electrical machinery; 3.Transformer; 4. Asynchronous machine; 5. Synchronous machine; 6. Selection of the electrical machinery; 7. Micro-control electrical machinery Attendance (10%) Weekly assignments (30%) Final exam(60%) 1. < Basis of electrical machinery and driving >( Third Edition), Fa-hai Li, Yan Wang, Tsinghua University Press, 2000. 2. < Basis of electrical machinery and driving >( Third Edition), Sheng-gu Gu, Mechanical Industrial Press, 1994. <Electrical machinery>(Sixth Edition), A.E. Fitzgerald, et al., Tsinghua University Press, 2003. Power Electronic Technology Course Credits School Pre-requisite Course description Syllabus Assessment Text book Recommended reading list Power Electronic Xiaogao Xie Lecturer Technology Qiang lv 3 48 Hours Code School of Course type Compulsory Automation Principles of Circuit, Analog Electronic Technology, Pulse and Digital Circuit, Fundamentals of Electrical Machinery and Drive, Principles of Automatic Control, MCU Applications 1. Students can understand functions of power electronic technology in automatic control system and electric energy conversion; 2. Students can master common power electronic devices and its trend; 3. Students can master basic theory and analyzing approaches of converting technologies such as AD/DC, AC/AC, DC/DC, DC/AC, etc 4. Students can master common analysis, design and experimental abilities of power electronic application system. 1. Introduction 2. Power electronic devices and drives 3. AC/DC-Controllable rectify circuit 4. DC/DC-Direct-current chopping circuit 5. AC/AC-Alternating-current power control circuit and AC-AC variable frequency circuit 6. DC/AC-Inverting circuit and SPWM technology 7. Soft-switch technology and PWM rectify circuit 8. Trend of power electronic technology development Attendance (10%) Weekly assignments (30%) Final exam(60%) <Power Electric Technology> (Fifth Edition). Zhao-an Wang, Jin-jun Liu, China Machine Press, 2009. <Power Converter Circuit>, Jing Shen, Zheng-nan Zhang, China Machine Press, 2008.
