Rapid synchronization technique for enhanced low voltage ride-through operation of a distributed energy resource

2015 9th International Conference on Power Electronics and ECCE Asia (ICPE-ECCE Asia) Pub Date : 2015-06-01 DOI:10.1109/ICPE.2015.7167902

Rohit Parashar, V. Agarwal

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Abstract

A rapid grid synchronization technique is proposed for enhanced low voltage ride-through (LVRT) operation of voltage source inverter based distributed energy resource (DER). The proposed synchronization method aims at enhancing the LVRT capability by providing fast information of the fundamental positive and negative sequence components of the grid voltage vector. This is achieved by a novel pre-filter, based on complex frequency integrators, which is capable of faster fundamental voltage sequence separation. This information is crucial for optimal and accurate current reference generation during LVRT. Improved dynamics of the prefilter also allow higher phase lock loop (PLL) bandwidth compared to existing pre-filter based synchronization techniques. The higher bandwidth of the PLL based on proposed pre-filter allows for fast fundamental positive sequence grid voltage vector angle tracking which is crucial for a current controller in the synchronous reference frame. The method is implemented on TMS320F28335 controller, and key results are presented.

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增强分布式能源低压穿越运行的快速同步技术

提出了一种基于分布式能源的电压源逆变器增强低压穿越(LVRT)运行的快速电网同步技术。所提出的同步方法旨在通过快速提供电网电压矢量的基本正、负序分量信息来增强LVRT的能力。这是通过一种基于复频率积分器的新型预滤波器实现的，该滤波器能够更快地分离基频电压序列。这些信息对于在LVRT过程中产生最佳和准确的电流参考至关重要。与现有的基于预滤波器的同步技术相比，改进的预滤波器动态特性还允许更高的锁相环(PLL)带宽。基于所提出的预滤波器的锁相环的更高带宽允许快速的基本正序网格电压矢量角跟踪，这对于同步参考系中的电流控制器至关重要。该方法在TMS320F28335控制器上实现，并给出了关键结果。

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2015 9th International Conference on Power Electronics and ECCE Asia (ICPE-ECCE Asia)

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