Partial Discharge Pattern Detected by New Design Partial Discharge Sensors

Muhammad Sukri Habibi Daulay, U. Khayam
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引用次数: 1

Abstract

This research discusses the design and testing of the bowtie antenna as a partial discharge sensor (PD). In this design, there are three types of bowtie antennas which are simulated with high frequency structure simulator (HFSS) software with various shapes and sizes, namely double layer bowtie antenna with edge modification, doube layer bowtie antenna with middle slice modification and single layer bowtie antenna with edge modification. The three bowtie antennas are designed to get the frequency of response according to the frequency of PD appearance. The three of bowtie antenna is designed with FR4_epoxy substrate which has dimensions of length and width of the substrate is 160 mm and 54 mm, thickness of 1.6 mm which then process the bowtie antenna will be implemented on printed cicuit board (PCB) material. Antenna characteristics which include return loss (RL), bandwidth and voltage standing wave ratio (VSWR) will be seen from the results based on simulation and measurement results using a vector network analyzer (VNA). Testing of the three bowtie antennas is done using needle-plane electrodes. Then the antenna is connected to the oscilloscope so that the signal captured by the antenna can be detected. The measurement of the three bowtie antennas was carried out at three voltage levels namely 6 kV, 6.5 kV and 7 kV. So, it can be known the PD pattern detected by new design antenna as PD sensor. It can also be known sensitivity of the three antennas as the best in detecting PD signals on each antenna with increasing voltage levels that have been determined and reviewed from the side of the antenna characteristic parameters obtained based on the simulation results and antenna measurement results using VNA.
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新设计的局部放电传感器检测局部放电模式
本研究讨论了作为局部放电传感器的领结天线的设计与测试。本设计采用高频结构模拟器(HFSS)软件对三种不同形状和尺寸的领结天线进行仿真,分别是边缘修饰的双层领结天线、中间切片修饰的双层领结天线和边缘修饰的单层领结天线。设计了三个领结天线,根据PD出现的频率得到响应频率。三领结天线采用FR4_epoxy基板设计,基板的长度和宽度分别为160 mm和54 mm,厚度为1.6 mm,然后将领结天线的加工实现在印刷电路板(PCB)材料上。基于矢量网络分析仪(VNA)的仿真和测量结果,可以看到天线的特性,包括回波损耗(RL)、带宽和电压驻波比(VSWR)。三个领结天线的测试是用针平面电极完成的。然后将天线连接到示波器上,这样就可以检测到天线捕获的信号。三个领结天线的测量在6 kV、6.5 kV和7 kV三个电压水平下进行。因此,可以将新设计的天线检测到的PD方向图称为PD传感器。从基于仿真结果和VNA天线测量结果得到的天线特性参数方面,确定并审查了各天线随着电压电平的增加而检测PD信号,这三种天线的灵敏度也是最好的。
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