电测与仪表2016,Vol.53Issue(14):28-33,6.
一种改进硬件在环仿真稳定性与精度的接口算法
An interface algorithm of improved the stability and accuracy of the power hardware in loop simulation
摘要
Abstract
Hybrid real-time simulation technology is also called power hardware in loop ( PHIL) simulation technolo-gy, as a new simulation technology , has received widespread attention .Its reliability and accuracy have been proved to be the effective means of power system planning , design , installation testing and new energy grid test .Its stability and accuracy , however , are the key indicators of PHIL simulation technology .This paper firstly established the kilo-watt PHIL simulation platform , then established a mathematic model of the first-order linear PHIL simulation system , and analyzed its stability and accuracy , according to several different power interface algorithms are studied and com-pared.In the end, a suitable power interface algorithm is put forward .The validity and accuracy of the proposed pow-er interface algorithm are verified through the simulation test .With a strong engineering use value , it provides the bas-ic security and a good platform for the hardware in research and development of the loop simulation technology .关键词
功率硬件在环/接口算法/稳定性/精度Key words
PHIL/interface algorithm/stability/accuracy分类
信息技术与安全科学引用本文复制引用
马智远,刘欣,尹晨旭,崔晓飞,许中..一种改进硬件在环仿真稳定性与精度的接口算法[J].电测与仪表,2016,53(14):28-33,6.基金项目
用户侧电能质量问题及治理机理研究与仿真展示 ()
