电力系统保护与控制
電力繫統保護與控製
전력계통보호여공제
POWER SYSTM PROTECTION AND CONTROL
2014年
18期
101-104
,共4页
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
模塊化多電平換流器%子模塊%戴維寧定理%等效數學模型%Matlab/Simulink
모괴화다전평환류기%자모괴%대유저정리%등효수학모형%Matlab/Simulink
modular multilevel converter%sub module%Thevenin's theorem%equivalent mathematic model%Matlab/Simulink
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。
模塊化多電平換流器(Modular Multilevel Converter,MMC)的每箇子模塊都包含兩箇電力電子開關元件IGBT。隨著繫統模塊數的增加,倣真的速度大大降低,如何在有限的資源中實現MMC的實時倣真成為瞭倣真繫統的瓶頸。根據IGBT在MMC中的工作原理,把IGBT等效為兩箇不同狀態的等效電阻,然後根據戴維寧等效定理建立MMC子模塊的等效數學模型。最後在Matlab/Simulink環境下進行該數學模型的倣真,併與採用器件模型的倣真結果進行瞭對比。倣真結果錶明該數學模型在一定的誤差範圍內可以取代MMC子模塊的物理模型,具有一定的實用性。
모괴화다전평환류기(Modular Multilevel Converter,MMC)적매개자모괴도포함량개전력전자개관원건IGBT。수착계통모괴수적증가,방진적속도대대강저,여하재유한적자원중실현MMC적실시방진성위료방진계통적병경。근거IGBT재MMC중적공작원리,파IGBT등효위량개불동상태적등효전조,연후근거대유저등효정리건립MMC자모괴적등효수학모형。최후재Matlab/Simulink배경하진행해수학모형적방진,병여채용기건모형적방진결과진행료대비。방진결과표명해수학모형재일정적오차범위내가이취대MMC자모괴적물리모형,구유일정적실용성。
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.
