摘要近年来,卫星产品呈现出电子设备高度集成化,系统工作频带不断拓宽,系统发射 功率大、接收设备灵敏度高、天线数量多的特点,整星电磁兼容的问题日益突出。本文 把耦合度和方向图作为优化的目标函数,对偶极子天线布局进行了优化,编写了基于 HFSS-Matlab-Api 脚本和 Matlab 遗传算法工具箱的优化程序,并特别地对遗传算法进行 并行处理来提高计算能力,最后把算法所得的最优解与理论值进行比较,验证了遗传算 法在天线优化布局上的准确性和可行性,从而实现在设计阶段完成对整星的电磁兼容设 计。这对卫星产品的优化设计具有重要意义。77309
毕业论文关键词 电磁兼容 HFSS 遗传算法 耦合度 方向图
毕 业 设 计 说 明 书 外 文 摘 要
Title Research on EMC Simulation of Whole-Satellite
Abstract In recent years, satellite products present some characteristics such as high degree of electronic equipment integration, working frequency band of the system continue to be broken, great transmission power, high sensitivity of receiving equipment and large number of antenna。 Electromagnetic compatibility problems of whole-satellite have become more and more prominent。 In this paper, we use the coupling degree and radiation pattern as the objective functions, optimize the layout of the dipole antenna。 The optimization procedure based on the HFSS-Matlab-Api scripts and Matlab genetic algorithm toolbox, and in particular use the parallel process of genetic algorithm to improve the computing ability。 Finally, we compare the optimal solution of the algorithm with the theoretical value, verify the accuracy and feasibility of the genetic algorithm in optimization of the antenna layout。 This achieves the completion of whole-satellite EMC design during the design phase。 It has an important significance in the optimum design of satellite products。
Keywords EMC HFSS Genetic Algorithm Coupling Radiation Pattern
本科毕业设计说明书 第 I 页
目 次
1 绪论 1
1。1 研究背景及意义 1
1。2 电磁兼容的基本概念 1
1。3 电磁兼容的发展历史 2
1。3。1 国外电磁兼容的发展历史 2
1。3。2 国内电磁兼容的发展历史 2
1。4 电磁兼容发展趋势 3
1。5 研究内容 3
1。6 本文的各章节安排 3
2 基于 HFSS 软件的偶极子天线设计 5
2。1 HFSS 简介 5
2。2 HFSS 设计流程 5
2。3 偶极子天线设计 6
2。4HFSS-Matlab-Api 偶极子天线设计 HFSS整星电磁兼容EMC仿真分析研究+程序:http://www.youerw.com/tongxin/lunwen_88843.html