1) Feeder Fault Location
馈线故障测距
2) fault location
故障测距
1.
Study on fault location for distribution lines based on wavelet fuzzy neural network;
基于小波模糊神经网络配网馈线故障测距的研究
2.
An optimal combined transmission line fault location technique based on travelling wave principles;
基于行波原理的优化组合故障测距技术
3.
Traveling wave fault location system based on wavelet transform;
基于小波变换的行波故障测距系统
3) fault locating
故障测距
1.
Research on the EHV long-line fault locating;
超高压长线路故障测距研究
2.
Application of distributed wavelet neural network based on multi-information in electric power system fault locating;
多信息量分布式小波神经网络在电力系统故障测距中的应用
3.
Research on fault locating of power traction system with series compensation;
带串联电容补偿装置的电力牵引网故障测距研究
4) fault range finding
故障测距
1.
A kind of new fault range finding system applied in 750 kV transmission line was introduced.
该系统以电流电压混合行波为电气量,以小波变换技术为分析工具,实现了精度小于500m的故障测距,弥补了对终端线路单纯采用电流行波测距的不足。
2.
On the basis of describing the principles of fault range finding with one and two-terminal traveling wave method, the paper mainly discusses the basic theories of wavelet transform and modulus maximal value which are applied in fault range finding of traveling wave.
在介绍单端和双端行波法故障测距原理的基础上,着重讨论小波变换的基本理论及其模极大值理论在行波测距中的应用,提出故障暂态分量奇异性的基本判据和补充判据。
3.
This paper presents a fault range finding device based on Kalman Filtering.
本文介绍了一种运用卡尔曼滤波进行故障测距的装置,通过在500KV,376。
5) fault distance measurement
故障测距
1.
A new fault distance measurement method of avoiding transition resistance;
一种可避免过渡电阻影响的故障测距新方法
补充资料:馈线
馈线
feeder
kulX一on该线(f eeder)连接天线与发射机或接收机,用以恢送射颇能t的传愉线.发射机的射颇能量通过恢线输送至天线的过程称为馈电,所以馈线通常也称镇电线。 对馈线的主要技术要求有:①馈线与两端连接物之间要匹配,损耗要小,传翰效率要高,②馈线应具备相应的绷带宽度,能承受相应的发射功率能谱;③馈线不应有天线效应,即不辐射或接收电磁波,④施工时,馈线接头安装完后要达到规定的电压驻波系数要求,与两端连接物接触要良好;⑤需要充干澡空气的该线还要注意保持规定的气压,要定期检查是否向外翻气和向内漏水;⑥馈线上下两端的外导体要良好接地(通常接于铁塔架上)。 随所用射频颇段不同,馈线形式也各异,如平衡传箱线,同轴电缆,同轴形、矩形、回形、椭四形波导管等。另外,馈线内外导体之间还有实芯(全介质坟充绝缘)和空芯(介质和空气混合绝缘)之分,实芯比空芯损耗大,但无需充干操空气,多用于无线电中继区间较短、空气中腐蚀性成分严重以及馈线损失要求不商的场合。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条