电力系统自动化2016,Vol.40Issue(15):159-167,9.DOI:10.7500/AEPS20151123006
电力系统数字物理混合仿真接口算法综述
Review on Interface Algorithms of Power Hardware-in-the-loop Simulation for Power Systems
摘要
Abstract
Power hardware‐in‐the‐loop ( PHIL) simulation , combined with the advantages of dynamic physical simulation and real‐time digital simulation , is effective for the study and analysis of complex power systems . Interface algorithm is the key to guarantee closed‐loop stability and accuracy of the simulation system . The overall structure of PHIL simulation system is presented , then the basic principle , modeling methods , existing problems and improved methods of the existing interface algorithms are analyzed in detail . The stability and accuracy of ideal transformer model interface , transmission line model interface and damping impedance method interface are verified by simulation . The application fields of various algorithms are summarized . Finally , the key technical issues to be solved and the future development direction are put forward for the interface algorithms of PHIL simulation .关键词
数字物理混合仿真/接口算法/接口稳定性/仿真精确性Key words
power hardware-in-the-loop simulation/interface algorithms/interface stability/simulation accuracy引用本文复制引用
辛业春,江守其,李国庆,王丽馨..电力系统数字物理混合仿真接口算法综述[J].电力系统自动化,2016,40(15):159-167,9.基金项目
国家电网公司科技发展计划项目(NEDU 20150002)。This work is supported by Science and Technology Development Plan of State Grid Corporation of China ( No . NEDU 20150002). ()
