晶闸管控制电抗器(TCR)与间断相位控制(DPC)开关的谐波抑制

2021 IEEE 6th International Conference on Computing, Communication and Automation (ICCCA) Pub Date : 2021-12-17 DOI:10.1109/iccca52192.2021.9666423

M. Asghar

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引用次数: 0

摘要

晶闸管控制电抗器(TCR)广泛用于电力系统的电压控制和稳定性控制，但传统的TCR在线路电流中引入了高次谐波。先前采用了基于双电抗器的半波控制方案，但该方案仅适用于上半波控制范围。在这项工作中，使用了不连续相位控制(DPC)，并提出了几种电路拓扑来控制无功(感应)功率。双绕组和三电感两种结构都适合于高磁通的电抗器。提出了一种不同量级的多级反应器结构，在几乎整个控制范围内提供非常低的THD。在这种情况下，对特定的电抗器对进行开关，使控制处于控制范围的上半部分，以保持THD小于10%。第四种配置也被提出，其中使用等量的反应堆。与积分周期控制一样，通断控制用于粗控制，而与传统TCR一样，通过相位控制实现精细控制。利用MATLAB/Simulink软件进行了分析，结果验证了所提方案的正确性。

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Thyristor Controlled Reactors (TCR) and Harmonic Suppression by Discontinuous Phase Controlled (DPC) Switching

Thyristor controlled reactors (TCR) are extensively used in power system to control the voltage and stability but the conventional TCR introduce high-order harmonics in the line current. Earlier, two-reactor based half-wave control scheme was used but this scheme is good for upper-half control range only. In this work, discontinuous phase control (DPC) is used and several circuit topologies are proposed to control reactive (inductive) power. Both double winding and three-inductor configurations are found good for reactors of high-density magnetic flux. A configuration of multistage reactor of different magnitudes is proposed which offers very low THD over almost the whole control range. In this case, the switching of a particular reactor pair is done such that the control lies in the upper-half control range only to maintain THD less than 10%. Fourth configuration is also proposed where reactors of equal magnitude are used. Like integral cycle control, on-off control is used for coarse control and fine control is achieved by phase control like a conventional TCR. The analysis is done with MATLAB/Simulink software and the results verify the proposed schemes.

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来源期刊

2021 IEEE 6th International Conference on Computing, Communication and Automation (ICCCA)

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