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电磁兼容测量天线系数温度误差修正方法
引用本文:何洋,苏东林,李艳,赵子华,刘洪颐. 电磁兼容测量天线系数温度误差修正方法[J]. 北京航空航天大学学报, 2015, 41(10): 1821-1829. DOI: 10.13700/j.bh.1001-5965.2014.0746
作者姓名:何洋  苏东林  李艳  赵子华  刘洪颐
作者单位:1.北京航空航天大学电子与信息工程学院, 北京 100191
基金项目:国家自然科学基金(61427803
摘    要:为减小外场环境温度的影响,提高电磁兼容性(EMC)测试设备的测量精度,提出了一种电磁兼容测量天线系数温度误差修正方法.首先,根据1m距离两天线校准原理,理论推导了近场情况下采用透波材料制作的温控装置对接收天线接收特性的影响,结合仿真分析与试验结果,验证了使用温控装置带来的测试误差可控制在允许的范围内.然后,在此基础上,通过实际测试获得了典型天线的天线系数随温度的变化规律及误差修正曲面.最后,采用对比标准条件下和开阔试验场条件下的测试结果的方法来验证该方法的有效性.结果表明,在保证测量精度的前提下,通过天线系数温度误差修正,可将天线的使用环境温度扩展到-40~+50℃,进而减小外场试验测试误差.适用于双锥、对数周期和双脊喇叭等天线的天线系数温度误差修正. 

关 键 词:电磁兼容性(EMC)   天线系数   温度   修正   校准
收稿时间:2014-12-01

Method for EMC antenna factor temperature error correction
HE Yang,SU Donglin,LI Yan,ZHAO Zihua,LIU Hongyi. Method for EMC antenna factor temperature error correction[J]. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(10): 1821-1829. DOI: 10.13700/j.bh.1001-5965.2014.0746
Authors:HE Yang  SU Donglin  LI Yan  ZHAO Zihua  LIU Hongyi
Affiliation:1.School of Electronic and Information Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China2. The 2nd Department, 63863 Army, Baicheng 137001, China
Abstract:In order to reduce the influence of the outfield environmental temperature and improve the measuring precision of electromagnetic compatibility(EMC) test equipment, a method for antenna factor temperature error correction was presented. Firstly, according to the principle of two antenna calibration with 1m distance, the antenna receiving characteristic influenced by temperature control device made by radome material under the condition of near field was theoretically deduced. Combined with the simulation analysis and test results proved that the test error can be controlled in the permitted range by using the temperature control device. Secondly, on this basis the antenna factor variation with temperature and temperature error correction surface for typical antenna was obtainedby the actual test. In the end, the method was verified by comparing the test result uder standard conditions with the test result under the open area test site (OATS) condition. The results prove that this method can expand the environmental temperature range of use from -40℃ to 50℃ by antenna factor temperature error correction on the premise of not reducing measurement precision, and suitable for the antenna factor temperature error correction in EMC double cone antenna and log periodic antenna and the double ridged horn antenna, etc.
Keywords:electromagnetic compatibility (EMC)  antenna factor  temperature  correction  calibration
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