高压输电线路电磁感应取能电源优化设计
Optimization Design of Electromagnetic Induction-based Power Source for High Voltage Transmission Line
何柏娜 1代维汉 1荣博 2尉元龙 1王硕 1张东进 1孟凡涛 1黄桂春1
作者信息
- 1. 山东理工大学电气与电子工程学院,山东 淄博 255000
- 2. 山东计保电气有限公司,山东 淄博 255000
- 折叠
摘要
为解决高压输电线路在线监测装置的供电问题,利用Saber软件对CT取能电源进行优化设计.该电源利用线圈由线路获取能量,经过整流、滤波、稳压过程将其转变为可供监测设备使用的电能.其中,通过取能磁芯的选取防止电源易饱和情况;整流电路采用肖特基二极管可有效降低处理过程中的电压损失;滤波电路采用超级电容不仅能够输出波动较小的直流电压,还能够保证瞬时大功率设备的正常工作;降压电路采用闭环控制可得到稳定输出的直流电压.结果表明该CT取能电源在输电线路 5~1000 A 的电流变化范围内,铁芯不饱和,输出电压波形不发生畸变,电源能以 5V直流电压实现稳定输出,满足监测设备的供电要求.
Abstract
In order to solve power supply problem of on-line monitoring device for high voltage transmission lines,Saber software is used to optimize design of CT-based power sources.The power supply uses the coil to obtain energy from the line,and after rectification,filtering,and voltage stabilization,it is converted into electrical energy that can be used by monitoring equipment. Among them,the selection of energy-taking magnetic core prevents the source from being easily saturated.The rectifier circuit using Schottky diode can effectively reduce the voltage loss in the process.The filter circuit using super capacitor can not only output DC voltage with small fluctuation,but also ensure the normal operation of in-stantaneous high power equipment. The step-down circuit adopts closed-loop control to obtain a stable output DC voltage.The results show that the CT-based power source will not be saturated in current range of 5~1000 A of the transmission line,and the output voltage waveform will not be distorted.The source can achieve stable output with 5 V DC voltage,which meets the requirements of monitoring equipment.
关键词
取能电源/磁芯材料/超级电容/输出电压Key words
power source/magnetic core material/supercapacitor/output voltage引用本文复制引用
基金项目
山东省研究生教育质量提升计划项目(SDYAL-2022114)
山东省淄博市张店区校城融合项目(2021JSCG-0008)
出版年
2024
NETL
NSTL
维普
万方数据