%0 Electronic Article %A Hongying Peng %A Min Liu %A Qing Mu %A Lixiang Sun %A Xing Zhang %K ADPSS %K half-step interpolation %K typical power electronics circuits %K exact power loss %K virtual power loss %K traditional interpolation algorithm %K simultaneous switching events %K instantaneous solution %K forced commutation switching instant %K advanced digital power system simulator %K power electronics electromagnetic transient simulation %K simultaneous solution %X In order to correctly simulate the simultaneous switching of power electronics circuits and to solve the problems of virtual power loss existing in the traditional interpolation algorithm, this article proposes interpolation algorithm considering simultaneous solution and instantaneous solution. After each integration, it searches for the switching events and determines the simultaneous switching. The simultaneous switching events are solved simultaneously. Instantaneous solution is carried out at forced commutation switching instant. The historical terms calculation method in instantaneous solution under different conditions is given, and the exact power loss of forced commutation switch is obtained. After processing all switching events during one time-step, the half-step interpolation is performed to eliminate numerical oscillations. The proposed algorithm is applied to the electromagnetic transient programme of advanced digital power system simulator (ADPSS), and the correctness and effectiveness of the algorithm are verified by simulation tests for typical power electronics circuits. The simulation results show that the proposed algorithm has high simulation accuracy and can satisfy requirements of power electronics simulation. %T Interpolation algorithm considering simultaneous solution and instantaneous solution for power electronics electromagnetic transient simulation %B The Journal of Engineering %D March 2019 %V 2019 %N 16 %P 972-976 %I Institution of Engineering and Technology %U https://digital-library.theiet.org/;jsessionid=16lb65shhc773.x-iet-live-01content/journals/10.1049/joe.2018.8497 %G EN