摘要
高功率暗室电磁兼容测试对人体存在强微波射频的辐射危害,因此一般采用暗室的方式进行测试,暗室内配备有微波吸收装置。在进行测试时,我们需对大型待测物(SUT:System Under Test)进行辐射点迹规划,以满足辐射区域的要求。本文将探讨在三维软件场景中仿真现实测试环境,对SUT辐射覆盖点迹进行智能规划路径的设计,以优化这一路径规划测试过程,提升测试效率和质量。
High power darkroom electromagnetic compatibility testing poses a strong microwave and radio frequency radiation hazard to the human body,so it is generally conducted in a darkroom equipped with microwave absorption devices.When conducting testing,we need to plan radiation points for large objects under test(SUT:System Under Test)to meet the requirements of the radiation area.This article will explore the design of intelligent path planning for SUT radiation coverage points in a simulated real-world testing environment in a 3D software scene,in order to optimize the path planning and testing process,improve testing efficiency and quality.
作者
许波
黄世杰
陈智超
李想
吴雨薇
Xu Bo;Huang Shijie;Chen Zhichao;Li Xiang;Wu Yuwei(Chengdu SIWI Power Electronic Technology Co.,Ltd.,Chengdu,China)
出处
《科学技术创新》
2025年第17期207-210,共4页
Scientific and Technological Innovation
关键词
大功率暗室射频辐射测试
辐射点迹规划
电磁兼容(MEC)测试
high-power dark radio-frequency radiation testing
radiation points trace planning
electromagnetic compatibility(MEC)testing
