实验1 MATLAB仿真平台熟悉2（学时）实验2 动态仿真集成环境-Simulink熟悉（任务分配附后）2（学时）实验3 SPWM仿真实现2（学时）实验4 电机建模与仿真2（学时）《系统仿真》实验2 各班同学具体任务分配MATLAB/SIMULINK/ power system demo理解要求：（1）理解模型个各组成模块（反推导出数学公式）；（2）应用场合；（3）根据实际生产现场，进行相关仿真实验；（4）对实验结果进行分析(含使用FFT Analysis During Simulation分析输入输出谐波)；（5）根据中国国情进行模型修改(如将电网交流电压从60Hz, 110V改为50Hz, 220V) （6）写上班级、学号、姓名。

A4排版，检查无误后，打印，交纸质件1份，电子文档1份，由各班课代表汇总，11周交任课老师。

（7）其他3个实验FFT Analysis During Simulation频谱分析工具大家共用（分析输入输出谐波）P.Dahler, ABB® Turgi1. Switching an Inductive Circuit Using a Breaker With no Snubber10自动化1 石惠文潘亚辉This example illustrates the Ideal Switching device solution method of the Powergui block.G. Sybille (Hydro-Quebec)2. Steady-State Analysis of a Linear Circuit10自动化1 金紫君卢佩This demonstration illustrates use of the Powergui and Impedance Measurement blocks to analyze the steady-state operation of a linear electrical circuitG. Sybille (Hydro-Quebec)3. Transient Analysis of a Linear Circuit10自动化1 周洋李能慧This demonstration illustrates steady-state and transient simulation of a linear circuit and use of the Powergui blockH. Le-Huy (Universite Laval, Quebec) and G. Sybille (Hydro-Quebec)4. Three-Winding Distribution Transformer10自动化1 邹叶刘颖This demonstration illustrates the use of the linear transformer to simulate a three-winding distribution transformer rated 75 kVA - 14400/120/120 V.G. Sybille (Hydro-Quebec)5. Three-Phase Saturable Transformer10自动化1 阳莉莉徐莹莹This demonstration illustrates use of Three-phase, Powergui, and Multimeter blocks to study transformer saturation phenomenonG. Sybille (Hydro-Quebec)6.Three-Phase Core-Type Transformer10自动化1 祁梦云孙雪涵This demo illustrates use of the Three-Phase Transformer Inductance Matrix Type block to model a three-phase core-type saturable transformer. It also demonstrates that using three single-phase transformers to simulate a Yg/Yg core-type transformer is not acceptable. Gilbert Sybille (Hydro-Quebec, IREQ)7. Current Transformer Saturation10自动化1 唐朝勇陈治强This demonstration illustrates measurement distortion due to saturation of a current transformer (CT)G. Sybille (Hydro-Quebec)8. Use of Surge Arresters in Transmission System10自动化1 林勇谭冬烨This demonstration illustrates use of surge arresters in a series and shunt compensated 735 kV AC transmission systemG. Sybille (Hydro-Quebec)9. Single Phase Line - Time and Frequency Domain Testing10自动化1 丁钉邓俊杰This demonstration compares time domain and frequency domain performance of distributed parameter line model and PI section line modelG. Sybille (Hydro-Quebec)10. Three-Phase Line (DPL and PI Section) - Single-Phase Energization10自动化1 夏亚兵熊伟This demonstration compares transients obtained with a distributed parameter line model and a PI section line modelG. Sybille (Hydro-Quebec)11. Computation of R L and C Cable Parameters10自动化1 谢科袁宇Use of power_cableparam function to calculate R,L, and C cable parameters.Joseph Duron Schweizerische Bundesbahnen SBB Infrastruktur Energie Systemdesign12. Dynamic Load and Programmable Voltage Source10自动化1 刘苗阳建This example illustrates use of the 3-Phase Dynamic Load and 3-Phase Programmable Voltage Source blocksG. Sybille (Hydro-Quebec)13. Single Phase Dynamic Load Block10自动化1 黄浩彭波This example illustrates an example of a single-phase dynamic load block built with Simulink® blocks.Graham Dudgeon, Senior Consultant, The MathWorks™ Ltd14. Saturable Transformer with Hysteresis10自动化1 彭超贺如洋This demonstration illustrates simulation of hysteresis in a saturable transformerS. Casoria (Hydro-Quebec) and P. Brunelle (TransEnergie)15. Cassie and Mayr Arc Models for a Circuit Breaker10自动化1 李凌全袁慎溪P.H. Schavemaker, Power Systems Laboratory, Delft University of Technology, the Netherlands. P.H.Schavemaker@its.tudelft.nlIntroduction This demonstration illustrates use of the Cassie and Mayr arc model for simulating high voltage circuit breaker interruption16.Variable Inductance Modeling10自动化1 任一思谭有志Look under the mask of the Variable Inductance block to see how the model is implemented 17. Interfacing Simulink® Models with SimPowerSystems™10自动化1 甘飞朱晔IntroductionIn this demo, we use the Synchronous machine blocks as an example to show the interfaces between Simulink® and SimPowerSystems™. There are two similar circuits shown in parallel. The top circuit model shows the starting of a a synchronous machine using blocksfrom the SimPowerSystems library. The circuit below it is identical in all respects, but for a custom-built model of the Synchronous machine.18.Six-Pulse Cycloconverter10自动化1 谢海鹏滕浩This demonstration illustrates a six-pulse cycloconverter driving a static load.Graham Dudgeon, Senior Consultant, The MathWorks™ I nc. Igor Braverman, Senior Consultant, The MathWorks™ Inc.19.Speed Control of a DC Motor Using BJT H-Bridge10自动化1 陈佳蕾徐坤This demonstration illustrates simulation of a H bridge used to generated a chopped voltage and control speed of a DC motor, in open loop, in both directions.Gilbert Sybille (Hydro-Quebec)20.Zener Diode Regulator10自动化1 张慧林龙幸开This example presents a model of the zener diode used in a voltage regulator21.Full Wave Rectifier10自动化2 杨柳茂刘芳This demonstration illustrates use of the Ideal Switching Device solution method to simulate a full wave rectifier using ideal diodes.G. Sybille (Hydro-Quebec)22.Single-Phase Rectifier10自动化2 朱玲易琪This demonstration illustrates use of the Universal Bridge, Multimeter, and Discrete System blocks G. Sybille (Hydro-Quebec)23.Three-Phase Rectifier10自动化2 周葱向玲This demonstration illustrates the use of the Diode block to simulate a three-phase rectifier and compares continuous vs. discrete simulations G. Sybille (Hydro-Quebec)24.Three-Phase Thyristor Converter10自动化2 李彬艳魏雪环This demonstration illustrates the use of the Universal Bridge block to simulate a three-phase six-pulse converter and harmonic analysis using the Powergui/FFT tool.H. Le-Huy (Universite Laval, Quebec)25.Ideal Switch - Inductive Current Chopping10自动化2 郭箫吟隋永波This example illustrates the effect of current chopping in an inductive circuitG. Sybille (Hydro-Quebec)26.MOSFET Converter10自动化2 胡旋邓仲全This example illustrates the use of the MOSFET in a Zero-Current Quasi-Resonant Switch converter K. Al-Haddad (Ecole de Technologie Superieure, Montreal)27.GTO Buck Converter10自动化2 童斌肖栋才This example illustrates the use of the GTO-thyristor in the buck converter topology28.Single-Phase PWM Inverter10自动化2 谭佳谭卓This demonstration illustrates use of the IGBT/Diode block in voltage-sourced converters. It also demonstrates harmonic analysis of PWM waveforms using the Powergui/FFT tool.G. Sybille (Hydro-Quebec)29.DC/DC and DC/AC PWM Converters10自动化2 赵拔秦铭阳This demonstration illustrates use of the Universal Bridge and Discrete PWM Pulse Generator blocks. It also demonstrates harmonic analysis of PWM waveforms using the Powergui/FFT tool.G. Sybille and P. Giroux (Hydro-Quebec)30.Three-Phase Two-Level PWM Converters10自动化2 姜宇李文捷This demonstration illustrates use of the Universal Bridge and Discrete PWM Pulse Generator blocks. It also demonstrates harmonic analysis of PWM waveforms using the Powergui/FFT tool. G. Sybille and P. Giroux (Hydro-Quebec)31.AC/DC Three-Level PWM ConverterThis AC-DC Converter demo illustrates the operation of the Three-Level Bridge block. P. Giroux ; G. Sybille Hydro-Quebec (IREQ)32.Three-Phase SV-PWM Converter10自动化2 黄帅戚保林Open-loop speed control of an induction motor using constant V/Hz principle and a space vector (SV) PWM technique. Pierre Giroux, Hydro-Quebec (IREQ)33.Five-Cell Multi-Level ConverterThis demonstration illustrates a five-cell multi-level converter driving a static load. Graham Dudgeon, Senior Consultant, The MathWorks™ Inc.34.Multilevel Multiphase Space-Vector PWM10自动化2 赵弈博任义Oscar Lopez, Jacobo Alvarez, Jesus Doval-Gandoy and Francisco Freijedo, Electronics Technology Department University of Vigo, Spain. olopez@uvigo.es35.Three-Phase Three-Level PWM ConverterThis demonstration illustrates simulation of a three-phase, three-level inverter and discrete three-phase PWM generator. It also demonstrates harmonic analysis of PWM waveforms using the Powergui/FFT tool.P. Giroux and G. Sybille (Hydro-Quebec))36.Two-Level PWM Converter and Dead Time10自动化2 彭辉忠吴昊This demonstration illustrates impact of dead time on harmonic distortion of a two-level converter used in a 50 kW microturbine.G. Sybille (Hydro-Quebec)37.Neutral Point Clamp Inverter and Dead Time10自动化2 姚滋纲欧思程This demonstartion simulates dead time and semiconductor failure inside a three-level PWM converter. G. Sybille Hydro-Quebec (IREQ)38.Three-Phase 48-Pulse GTO Converter10自动化3 尹榕慧熊笑This demonstration illustrates use of three-level converters and zig-zag phase-shifting transformers in a 48-pulse square-wave GTO converter. It also demonstrates harmonic analysis using the Powergui/FFT tool. P. Giroux and G. Sybille (Hydro-Quebec)) 39.AC-DC-AC PWM Converter10自动化3 李佳妮任索This example of AC-DC-AC converter illustrates use of Universal Bridge, Multimeter, and Powergui blocks, as well as discrete control blocks of the Extras library.G. Sybille (Hydro-Quebec)40.Three-Phase Matrix Converter10自动化3 周俊高张艳This demonstration illustrates a three-phase matrix converter driving a static load and drawing unity power factor at the source.Graham Dudgeon, Senior Consultant, The MathWorks™ Ltd41.Chopper-Fed DC Motor Drive (Continuous)Case study: Chopper-Fed DC Motor Drive H. Le-Huy (Universite Laval, Quebec) 42.Chopper-Fed DC Motor Drive (Discrete)10自动化3 闵玮奇陈曦Note: This example is similar to the continuous version, but discretization allows faster simulation. H. LeHuy (Universite Laval, Quebec) and G. Sybille (Hydro-Quebec) 43.Vector Control of AC Motor DriveCase study : Variable-Frequency Induction Motor DriveH. Le-Huy (Universite Laval, Quebec)44. Stepper Motor Drive10自动化3 杨辉伍程灿A hybrid stepper motor drive. Hoang Le-Huy, Laval UniversityWarning: You need to install the Control System Toolbox in order to run this demo 45.Simplified Synchronous Machine - Speed RegulationThis demonstration illustrates the use of the simplified alternator for a load shedding test on a 2000 kVA, 600 V alternator.G. Sybille (Hydro-Quebec)46.Synchronous Machin e10自动化3 吴昊伍强胜This demonstration illustrates use of the synchronous machine associated with the Hydraulic Turbine and Governor (HTG) and Excitation System blocks and use of the Load Flow to initialize machine currentsLouis-A. Dessaint and R. Champagne (Ecole de Technologie Superieure, Montreal)47.Starting a Synchronous MotorThis demo illustrates the starting procedure for a synchronous motor.Richard Gagnon (Hydro-Quebec)48.Mechanical Coupling of Synchronous Generator with Exciter System10自动化3 刘仲范吴元凯This demonstration illustrates a Machine mechanical coupling of an excitation system. Gilbert Sybille, IREQ.49.Three-Phase Asynchronous Machine10自动化3 肖玉龙刘亚星This demonstration illustrates use of the asynchronous machine in an open-loop speed control on a 3 HP 220 V industrial motor.Louis-A. Dessaint and R. Champagne (Ecole de Technologie Superieure, Montreal) 50.Saturation in Three-Phase Asynchronous Machine10自动化3 杨立畅梓皓Effects of saturation in a three-phase asynchronous motor at various operating conditions. Jean-Nicolas Paquin and Louis-A. Dessaint (Ecole de Technologic Superiure, Montreal) 51.Single-Phase Asynchronous Machine10自动化3 严煜坤朱茂琨This demonstration illustrates operation of a single phase asynchronous motor in Capacitor-Start and Capacitor-Start-Run operation modes.H. Ouquelle and Louis-A.Dessaint (Ecole de technologie superieure, Montreal)52 Single-Phase Asynchronous Machine - Voltage Control of Auxiliary Winding 10自动化3 谭翔周睿强H.Ouquelle and Louis-A.Dessaint (Ecole de technologie superieure, Montreal)53. Single-Phase Asynchronous Machine - Vector Control of AC Drive10自动化3+兴韩涛别剑芳H.Ouquelle and Louis-A.Dessaint (Ecole de technologie superieure, Montreal)54. Permanent Magnet Synchronous Machine10自动化（兴）卜志威陈俊峰This demonstration illustrates use of the PMSM in a closed-loop speed and current control on a 1.1 kW, 3000 rpm industrial motor.Louis-A. Dessaint and R. Champagne (Ecole de Technologie Superieure, Montreal)55. Starting a DC Motor10自动化（兴）陈俊腾陈泽耀Starting of a 5 HP 240V DC motor with a three-step resistance starter.G. Sybille (Hydro-Quebec)56. Steam Turbine and Governor System - Subsynchronous Resonance10自动化（兴）谌艳华戴吉全This demonstration illustrates subsynchronous resonance (SSR) using the Steam Turbine and Governor on a series-compensated network.R. Champagne and L. Dessaint (Ecole de Technologie Superieure, Montreal)57. Emergency Diesel-Generator and Asynchronous Motor10自动化（兴）侯自亮康楷This demonstration illustrates fault and islanding of an induction motor/diesel-generator system and demonstrates the Machine Load Flow option of the Powergui. (See Chapter 2 of the User's Guide).G. Sybille (Hydro-Quebec)58. Synchronous Machine and Regulator10自动化（兴）李超李健澎Nonlinear control of a hydraulic turbine and a synchronous generator.Aime Francis Okou and Louis-A. Dessaint (Ecole de technologie superieure, Montreal) 59. Performance of Three PSS for Interarea OscillationsThis demonstration illustrates the use of the phasor solution by comparing three Power System Stabilizers (PSS) using Kundur's four-machine two-area test system.I. Kamwa (Hydro-Québec) Warning: You need to install the Control System Toolbox in order to run thisdemo60 Switched Reluctance Motor10自动化（兴）李述鹏李文强A current-controlled 60 kW 6/4 SRM drive Hoang Le-Huy, Laval University61. Brushless DC Motor Fed by Six-Step InverterThis demonstration illustrates the use of a Six-Step Switch-on mode for a trapezoidal PMSM motor rated 1kW, 3000 rpm and speed regulated.Olivier Tremblay, Louis-A. Dessaint (Ecole de technologie superieure, Montreal) 62.Single-Phase Series Compensated Network10自动化（兴）罗江欧阳钢This demonstration ilustrates frequency-domain and time-domain analysis of a series-compensated transmission systemG. Sybille (Hydro-Quebec)Contents•Circuit Description•Demonstration63. Three-Phase Series Compensated NetworkThis demonstration ilustrates use of three-phase blocks to study transients on aseries-compensated 735-kV transmission system(See case study 'Series Compensated Transmission Network' in the SimPowerSystems™ User's Guide) G. Sybille (Hydro-Quebec)64. Simple 6-Pulse HVDC Transmission System10自动化（兴）唐峰魏石磊This demonstration illustrates steady-state and transient performance of a simple 500 MW (250 kV-2kA) HVDC transmission systemG. Sybille (Hydro-Quebec)65. Three-Phase Harmonic Filter s10自动化（兴）文杰君吴继袁Pierre Giroux (Hydro-Quebec)In HVDC installations, AC harmonic shunt filters are used to:1) reduce harmonic voltages and currents in the power system,2) supply the reactive power consumed by the converter. To illustrate these concepts, a 1000-MW (500 kV, 2kA) HVDC rectifier is simulated.66. Three-Phase Active Harmonic Filter10自动化（兴）吴炜楠阳波This demonstration illustrates the use of a shunt active harmonic filter (AHF) to minimize the harmonic content propagated to the source from a non-linear load.Graham Dudgeon, Senior Consultant, The MathWorks™ Ltd67. Three-Phase Line - Single-Pole Reclosing10自动化（兴）于旭凯袁武This demonstration ilustrates the use of three-phase blocks to study phase-to-ground fault and single-pole reclosing of a 735-kV transmission line G. Sybille (Hydro-Quebec) 68. Sequence and abc_to_dq0 Transformation s10自动化（兴）章时源周健文This demonstration ilustrates use of the Three-Phase Programmable Source, abc_dq0, and Sequence Analyzer blocksG. Sybille (Hydro-Quebec)69. Three-Phase Programmable Source, V-I Measurement and Sequence Analyzer10自动化（兴）周子涵朱鸿章This demonstration ilustrates use of the 3-Phase Programmable Voltage Source, 3-Phase V-I Measurement, and Sequence Analyzer blocksG. Sybille (Hydro-Quebec)70. Three-Phase Programmable Source, PLL, Voltage and Power Measurement 10自动化自由加选This demonstration ilustrates use of the 3-Phase Programmble Voltage Source, PLL and Variable-Frequency Positive-Sequence Voltage and Power Measurement blocksG. Sybille and P. Giroux (Hydro-Quebec)。