FPGA Based Hardware Implementation of Fault Detection for Microgrid Applications

机译：基于FPGA的MicroGrid应用故障检测的硬件实现

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This paper describes hardware implementation for fault detection on a power grid using FPGA. The fault detector implements a Haar wavelet algorithm to detect the fault, the fault is indicated by a change of phase angle and amplitude on sinusoidal wave. Sinusoidal wave on the grid must be sampled into a digital value using an analog to digital converter (ADC), then the ADC's value transferred into a wavelet block in the FPGA. The wavelet block in FPGA will calculate the data measured by ADC using Haar wavelet algorithm, and detect the fault by change in the ADC's sampling value. The calculation of Haar wavelet implements a systolic array processor, and the data fault simulation will be generated by a modelling software.

机译：本文介绍了使用FPGA对电网故障检测的硬件实现。故障检测器实现了哈尔小波算法来检测故障，故障由正弦波上的相位角和幅度的变化表示。必须使用模数转换器（ADC）对网格上的正弦波进行对数字值进行采样，然后将ADC的值传输到FPGA中的小波块中。 FPGA中的小波块将使用HAAR小波算法计算ADC测量的数据，并通过ADC的采样值的变化来检测故障。 HAAR小波的计算实现了一个收缩系统阵列处理器，并且将由建模软件生成数据故障仿真。

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《International Symposium on Electronics and Smart Devices》|2017年|356p|共4页
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Surya Ramadhan; Farkhad Ihsan Hariadi; Adang Suwandi Ahmad;
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中图分类 TP18-53;
关键词
Fault Detection; Wavelet Transform; Wavelet Hardware Implementation;

机译：故障检测;小波变换;小波硬件实现;
入库时间 2022-08-20 23:12:20

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FPGA Based Hardware Implementation of Fault Detection for Microgrid Applications

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