电测与仪表
電測與儀錶
전측여의표
Electrical Measurement & Instrumentation
2015年
17期
12-16
,共5页
蒋存波%焦阳%杨家志%王怀红%钟亚洲
蔣存波%焦暘%楊傢誌%王懷紅%鐘亞洲
장존파%초양%양가지%왕부홍%종아주
智能检测%在线实时检测%绝缘性能劣化度%剩余寿命
智能檢測%在線實時檢測%絕緣性能劣化度%剩餘壽命
지능검측%재선실시검측%절연성능열화도%잉여수명
intelligent detection%online real-time detection%insulation deterioration degree%remaining life
为满足PWM调速等脉冲电应力下电气绝缘材料劣化程度和剩余寿命在线评估需要,研究不同劣化程度下绝缘材料漏电流及其变化规律。首先利用脉冲电应力加速老化实验装置通过加速老化寿命实验测试绝缘薄膜试样在该加速应力条件下的平均寿命和最低寿命,然后依据寿命模型制作一批经过预老化的试样,通过降低脉冲幅值和保持加速因子频率不变的方法适当延缓预老化试样劣化速度,实验表明在观察区间内漏电流质心与初始漏电流的偏离度、漏电流与观察区间质心的离散度、漏电流的变化斜率都与劣化相关联,以这三个参数定义的绝缘劣化度可以较好的描述绝缘性能的劣化程度。
為滿足PWM調速等脈遲電應力下電氣絕緣材料劣化程度和剩餘壽命在線評估需要,研究不同劣化程度下絕緣材料漏電流及其變化規律。首先利用脈遲電應力加速老化實驗裝置通過加速老化壽命實驗測試絕緣薄膜試樣在該加速應力條件下的平均壽命和最低壽命,然後依據壽命模型製作一批經過預老化的試樣,通過降低脈遲幅值和保持加速因子頻率不變的方法適噹延緩預老化試樣劣化速度,實驗錶明在觀察區間內漏電流質心與初始漏電流的偏離度、漏電流與觀察區間質心的離散度、漏電流的變化斜率都與劣化相關聯,以這三箇參數定義的絕緣劣化度可以較好的描述絕緣性能的劣化程度。
위만족PWM조속등맥충전응력하전기절연재료열화정도화잉여수명재선평고수요,연구불동열화정도하절연재료루전류급기변화규률。수선이용맥충전응력가속노화실험장치통과가속노화수명실험측시절연박막시양재해가속응력조건하적평균수명화최저수명,연후의거수명모형제작일비경과예노화적시양,통과강저맥충폭치화보지가속인자빈솔불변적방법괄당연완예노화시양열화속도,실험표명재관찰구간내루전류질심여초시루전류적편리도、루전류여관찰구간질심적리산도、루전류적변화사솔도여열화상관련,이저삼개삼수정의적절연열화도가이교호적묘술절연성능적열화정도。
In order to meet the needs of online evaluation of the electrical insulating materials’ deterioration degree and remaining life under the pulse electrical stress, the leakage current and its change rule of the insulating materials under different deterioration degrees are researched.At first, the average life and lowest life of insulating film samples under the condition of corresponding accelerated stresses are determined through the accelerated aging experiments by using the pulse electrical stress accelerated aging experimental device.Then, a batch of pre-aging samples are created based on the aging model and the deterioration speed of the pre-aging samples is delayed by decreasing the pulse am-plitude and keeping the frequency of accelerated factors invariant.The results of experiment show that the deviation degree between leakage current’ s centroid and initial leakage current, the dispersion of leakage current and centroid of observation interval and the slope of leakage current are all related with the deterioration in the observation interval. The insulating deterioration which is defined by these three parameters can describe the deterioration degree of insula-ting property.