2024 3rd International Symposium on Semiconductor and Electronic Technology(ISSET 2024)
​A.Prof. Hua Ye, University of Chinese Academy of Sciences ,China was Invited as the TPC!

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A.Prof. Hua Ye, University of Chinese Academy of Sciences, China


In order to realize the application of simulation calculation tools in the construction of new energy power system, the theoretical research and tool development of electromagnetic transient real-time edge calculation based on FPGA are carried out, the laboratory test environment of self-developed FPGA rtlab is constructed. The simulation platform of laboratory power electronic AC/DC distribution system is also constructed. It has solved the technical problems such as digital image management of power quality of high proportion new energy distribution network, broadband nonlinear oscillation of fully electrified ship/aerospace system, synchronous stability and full life cycle operation and maintenance. It is focusing on the development of 100% new energy heavy industrial load energy supply Park and digital twin system of new energy electromagnetic propulsion system. The relevant achievements can be applied to large-scale digital control scenarios such as new energy transportation, construction and industrial energy consumption.

叶华副教授,中国科学院电工研究所,研究方向:电力系统建模与仿真算法;柔性交直流电网;配电系统弹性与恢复;新能源并网技术;电力系统稳定分析与控制;电力系统暂态稳定分析。为实现仿真计算工具应用于新能源电力系统的构建,开展了基于FPGA的电磁暂态实时边缘计算理论研究及其工具研制,构建了自研FPGA-RTLab的实验室测试环境,并建设了实验室电力电子化交直流配用电系统仿真平台。解决了高比例新能源配电网电能质量数字镜像治理、全电化舰船/航空航天系统宽频非线性振荡、同步稳定、全生命周期运维等技术难题,正集中研制100%新能源重工业负荷供能园区、新能源电磁推进系统数字孪生系统,相关成果可应用于大规模新能源交通、建筑、工业用能等数字化管控场景。