VHDL simulation of reset automatic block, 64 bit latch block, and test complete blocks for PD detection circuit system using FPGA

2010 IEEE Control and System Graduate Research Colloquium (ICSGRC 2010) Pub Date : 2010-06-22 DOI:10.1109/ICSGRC.2010.5562530

Emilliano, C. Chakrabarty, A. Ghani, A. Ramasamy

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Abstract

This paper is purely a model to determine the design circuit to implement Partial Discharge (PD) detection in FPGA technology. The research shall involve ISE Simulator version 10.1i (Xilinx) and ISE Xilinx Synthesized Technology (XST) using Very high integrated circuit Hardware Description Language (VHDL) programming to evaluate the use of Field Programming Gate Array (FPGA) for the detection and counting of partial discharge signals in high voltage underground cable. The impulse signals at the input data have very fast rise time in the range of 1 ns to 2 ns. The output signals of peak detector block, 64 bit BCD counter with reset block and reset automatic block is processed using reset automatic block and 64 bit latch block for keep output data in LCD to constant when the 64 bit BCD counter block is reset and return to zero again until update new data again. The combination of all blocks of PD detection circuit system is tested by using ISE simulator. In the next stage, this method will be implemented on a lab simulation scale for testing and validation.

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VHDL仿真复位自动块、64位锁存块，并测试完整块，用于PD检测电路系统的FPGA实现

本文纯粹是一个模型来确定在FPGA技术中实现局部放电检测的设计电路。该研究将涉及ISE模拟器版本10.1i (Xilinx)和ISE Xilinx综合技术(XST)，使用高集成电路硬件描述语言(VHDL)编程来评估现场编程门阵列(FPGA)在高压地下电缆局部放电信号检测和计数中的使用。输入数据处的脉冲信号上升时间非常快，在1 ~ 2 ns的范围内。利用复位自动块和64位锁存块对峰值检测器块、带有复位块和复位自动块的64位BCD计数器的输出信号进行处理，使LCD中的输出数据在64位BCD计数器块复位时保持不变，并再次归零，直到再次更新新数据。利用ISE模拟器对PD检测电路系统各模块的组合进行了测试。在下一阶段，该方法将在实验室模拟规模上实施，以进行测试和验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2010 IEEE Control and System Graduate Research Colloquium (ICSGRC 2010)

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