强激光与粒子束, 2018, 30 (1): 013204, 网络出版: 2018-01-30
射频前端强电磁脉冲防护模块设计
Simulation and design of RF front end electromagnetic protection module
摘要
基于PIN二极管射频限幅的原理,分析了尖峰泄露产生的原因并提出了解决方法。在此基础上采用无源多级PIN二极管结构,提取相应防护电路的S参数,以设计优化匹配网络,研制了工作于1~200 MHz、插入损耗小于0.156 dB、响应时间小于1 ns的射频前端电磁脉冲防护模块。结合PIN二极管模型,利用ADS仿真软件对电磁脉冲防护模块限幅性能进行仿真,并对加工出来的电磁脉冲防护模块进行了测试,结果验证了各项指标满足要求。
Abstract
This paper studies the principle of radio frequency limiting of PIN, and analyzes how the spike leakage occurs in EMP protection and how to restrain it. On this basis, the structure of passive multi-stage PIN diode is adopted. Through the establishment of its field simulation model, the corresponding S parameters are extracted, and the optimal matching network is optimized. The electromagnetic pulse protection module which works at 1-200 MHz with insertion loss of less than 0.15 dB, VSWR of less than 1.4 dB, response time of less than 1ns is designed. Combined with PIN diode model, ADS simulation software is used to simulate the limiting performance of electromagnetic pulse protection module. The result shows that all the indexes meet the requirements.
李亚南, 谭志良, 宋培姣. 射频前端强电磁脉冲防护模块设计[J]. 强激光与粒子束, 2018, 30(1): 013204. Li Ya’nan, Tan Zhiliang, Song Peijiao. Simulation and design of RF front end electromagnetic protection module[J]. High Power Laser and Particle Beams, 2018, 30(1): 013204.