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基于戴维宁定理的MMC子模块等效数学模型的研究 被引量:4

Research of equivalent mathematical model of MMC sub-modules based on Thevenin's theorem
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摘要 模块化多电平换流器(Modular Multilevel Converter,MMC)的每个子模块都包含两个电力电子开关元件IGBT。随着系统模块数的增加,仿真的速度大大降低,如何在有限的资源中实现MMC的实时仿真成为了仿真系统的瓶颈。根据IGBT在MMC中的工作原理,把IGBT等效为两个不同状态的等效电阻,然后根据戴维宁等效定理建立MMC子模块的等效数学模型。最后在Matlab/Simulink环境下进行该数学模型的仿真,并与采用器件模型的仿真结果进行了对比。仿真结果表明该数学模型在一定的误差范围内可以取代MMC子模块的物理模型,具有一定的实用性。 Every sub-module of modular multilevel converter contains two IGBTs. With increase the number of system module, the simulation speed is greatly reduced, how to realize the MMC in limited resource becomes the bottleneck of the simulation system of real-time simulation. According to the working principle of IGBT in the sub-module of MMC, the equivalence model of IGBT is two different resistors. Then this paper uses the Thevenin's theorem to build the equivalent mathematic model of sub-module. The correctness of the established sub-module is proved with Matlab/Simulink. Compared with the circuit which uses the device model, the simulation results show that the mathematical model can replace the physical model of MMC sub-module in a certain error range. It has a certain practicality.
作者 刘喜梅 李梅航 朱炯
机构地区 青岛科技大学自动化与电子工程学院
出处 《电力系统保护与控制》 EI CSCD 北大核心 2014年第18期101-104,共4页 Power System Protection and Control
关键词 模块化多电平换流器 子模块 戴维宁定理 等效数学模型 MATLAB SIMULINK modular multilevel converter sub module Thevenin's theorem equivalent mathematic model Matlab/Simulink
分类号 TM721.1 [电气工程—电力系统及自动化]
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  • 1Peralta J, Saad H, Dennetire S, et al. Detailed and averaged models for a 401 - level MMC-HVDC system [ J ]. IEEE Transactions on Power Delivery, 2012, 27 (3) : 1501 - 1508.
  • 2Gnanarathna U N, Gole A M, Jayasinghe R P. Efficient modeling of modular multilevel HVDC converters (MMC) on electromagnetic transient simulation pro- grams [ J ]. IEEE Transactions on Power Delivery, 2011, 26 (1): 316 -324.
  • 3Mahseredjian J, Dennetire S, Dub L, et al. On a new approach for the simulation of transients in power systems [ J]. Electric Power Systems Research, 2007, 77 (11): 1514-1520.
  • 4Ouquelle H, Dessaint L A, Casoria S. An average val- ue model based design of a deadbeat controller for VSC- HVDC transmission link [ C ]. Canada: 2009 IEEE Power Energy Society General Meeting, 2009: 1 -6.
  • 5Saad H, Peralta J, Dennetire S, et al. Dynamic aver- aged and simplified models for MMC-based HVDC transmission systems [ J]. IEEE Transactions on Power Delivery, 2013, 28 (3) : 1723 -1730.
  • 6REN W, SLODERBECK M. Interfacing issues in real-time digital simulators[J]. IEEE Trans on Power Delivery, 2011, 26(2): 1221- 1230.
  • 7DARGAHIM, GHOSH A. Controlling current and voltage type interfaces in power-hardware-in the loop simulations[J], lET Power Electronics, 2014, 7(10): 2618-2627.
  • 8REN W, STEURER M, BALDWIN T L. Improve the stability and the accuracy of power hardware-in-the-loop simulation by selecting appropriate interface algorithms [J]. IEEE Trans on Industry Applications, 2008, 44(4) : 1286-1294.
  • 9PARAN S, EDRINGTON C S, VURAL B. Investigation of HIL interfaces in nonlinear load studies[C]// North American Power Symposium NAPS ), September 9 1i, 2012, Champaign, USA: 8p.
  • 10PARAN S, EDRINGTON C S. Improved power hardware in the loop interface methods via impedance matcbing[C]//IEEE Electric Ship Technologies Symposium (ESTS), April 22 24, 2013, Arlington, USA: 342- 346.

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电力系统保护与控制
2014年 第18期

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