基于仿真的TBSC/TBSR动态负载无功补偿

2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC) Pub Date : 2020-10-07 DOI:10.1109/I-SMAC49090.2020.9243473

M. Hans, Manoj Kumar Nigam, Maheshwari D. Mirajkar, Brijesh Patel

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引用次数: 0

摘要

利用电子元件进行电力无功补偿的先进控制方法是二元电流控制法。该方法允许有足够数量的补偿支路，以建立对电力系统无功功率的精细和精确控制。该方法由晶闸管二进制开关电容器(TBSC)和晶闸管二进制开关电抗器(TBSR)组成，它们是在晶闸管开关电容器(TSC)和晶闸管控制电抗器(TCR)系列的基础上形成的。TSC的银行，TCR以二进制形式排列，即以2的倍数分割银行。本文介绍了三种拓扑结构:1)TBSC; 2) TBSR; 3) TBSC-TBSR用于动态负载的无功补偿。在第三种拓扑结构中，TBSC给出的过量KVAR被TBSR吸收。仿真结果表明，所提出的拓扑结构能够实现无功补偿。

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Simulation based reactive power compensation by using TBSC/TBSR for dynamic load

The advanced control method for electric reactive power compensation with the help of electronics components is binary current control method. This method allows a sufficient number of compensating branches to establish a fine and precise control of reactive power in electrical system. This method consists of Thyristor binary switched capacitor (TBSC) and Thyristor binary switched reactor (TBSR), which are based on the series of Thyristor switched capacitor (TSC) and Thyristor controlled reactor (TCR). The bank of TSC, TCR arranged in binary form i.e. split bank in multiple of two. For harmonic elimination use transient free switching of TBSC, TBSR In this paper three topologies are explained 1) TBSC 2) TBSR 3) TBSC-TBSR for reactive power compensation of dynamic load. In the third topology excessive KVAR given by TBSC is absorbed by TBSR. The simulation results show that the proposed topologies can achieve reactive power compensation.

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2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC)

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