基于数字反馈控制的动态电压补偿器缓解电压暂降:仿真与实验验证

2012 IEEE 7th International Conference on Industrial and Information Systems (ICIIS) Pub Date : 2012-09-17 DOI:10.1109/ICIINFS.2012.6304776

S. Srinath, C. Kumar, M. P. Selvan

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引用次数: 1

摘要

本文研究了用动态电压补偿器(DVC)与配电系统相连接来缓解固定敏感负荷的电压暂降问题。DVC由电力电子控制器组成，保护关键负载免受供电系统中发生的干扰，并调节负载电压以防止电源中的任何凹陷。所提出的工作仅限于平衡正弦系统和独特的不使用任何变换来产生参考电压。考虑了稳态分析，并在MATLAB / SIMULINK中给出了仿真结果。采用数字信号处理器(DSP) TMS320LF2407设计了一种简单的数字反馈控制算法。参考电压是根据适当设计的LEM电压传感器的输出电压确定的，硬件简单，计算量减少。参考信号采用固定滞回带控制跟踪，DVC采用三个单相电压源逆变器(VSI)实现。

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Digital feedback control based Dynamic Voltage Compensator for voltage sag mitigation: Simulation and experimental validation

This paper deals with the voltage sag mitigation for a fixed sensitive load by using a Dynamic Voltage Compensator (DVC) connected to the distribution system. DVC consists a power electronic controller, protecting critical loads from disturbances occurring in the supply system and regulating the load voltage against any sag in the supply. The proposed work is confined to balanced sinusoidal systems and unique in not using any transformations to generate the reference voltage. The steady state analysis is considered and the simulation results are presented in MATLAB / SIMULINK. A simple digital feedback control algorithm is formulated using the digital signal processor (DSP) TMS320LF2407. The reference voltage is determined based on the output voltage of suitably designed LEM voltage sensors, leading to simple hardware with reduced computation. The reference signals are tracked using a fixed hysteresis band control and the DVC is realized using three single phase voltage source inverters (VSI).

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来源期刊

2012 IEEE 7th International Conference on Industrial and Information Systems (ICIIS)

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