整机级HIRF仿真验证测试方案及测试自动化
钟龙权, 赵刚, 马弘舸, 鲍献丰, 李瀚宇, 吴双, 刘璐瑶, 吴欢成. 整机级HIRF仿真验证测试方案及测试自动化[J]. 太赫兹科学与电子信息学报, 2018, 16(6): 1033.
ZHONG Longquan, ZHAO Gang, MA Hongge, BAO Xianfeng, LI Hanyu, WU Shuang, LIU Luyao, WU Huancheng. Verification test planning and test automation to HIRF simulation of aircraft-level[J]. Journal of terahertz science and electronic information technology, 2018, 16(6): 1033.
[1] ARP 5583A-2010. Guide to certification of aircraft in a High Intensity Radiated Field(HIRF) environment[S]. 2010.
[2] AC 20.158. The certification of aircraft electrical and electronic systems for operation in HIRF environment[Z]. U.S. Department of Transportation,FAA, 2007(07):30.
[3] CCAR-25-R4中国民用航空规章第25部 运输类飞机适航标准[S]. 2011(4):241-242. (CCAR-25-R4 PART 25, Airworthiness standard for transport aircraft[S]. 2011(4):241-242.)
[4] RTCA/DO-160F. Environmental conditions and test procedures for airborne equipment[S]. 2007.
[5] PERALA R,ELLIOTT J. Numerical simulations for HIRF certification benefits and challenges[C]// Proc. EUROEM. Toulouse, France:[s.n.], 2012.
[6] 章光灿. 民用飞机高强度辐射场(HIRF)防护适航验证方法研究[J]. 科技视界, 2016(6):97-98. (ZHANG Guangcan. Research on airworthiness verification means for HIRF protection[J]. Science & Technology Vision, 2016(6):97-98.)
[7] 高伟,梁子长,高鹏程. 舱室内HIRF场强快速仿真与检验测量研究[J]. 制导与引信, 2014,35(3):38-41. (GAO Wei, LIANG Zichang,GAO Pengcheng. Fast simulation of HIRF effects in aircraft cabin and measurement research[J]. Guidance & Fuze, 2014,35(3):38-41.)
[8] 鲍献丰,李瀚宇,伍月千,等. JEMS-FDTD软件在飞机HIRF仿真中的应用[J]. 强激光与粒子束, 2017,29(10):67-70. (BAO Xianfeng,LI Hanyu,WU Yueqian,et al. Application of JEMS-FDTD in HIRF simulation on a real aircraft[J]. High Power Laser and Particle Beams, 2017,29(10):67-70.)
[9] 苏多,栗牧怀,舒小华. 民用航空器HIRF防护适航验证方法和审定政策研究[J]. 国际航空, 2009(10):72-75. (SU Duo, LI Muhuai,SHU Xiaohua. Research on regulations and compliance means for HIRF protection[J]. International Aviation, 2009(10):72-75.)
[10] LEMAIRE D,GARRIDO F. A unified approach for lightening and low frequencies HIRF transfer functions measurements on A380[C]// Proc. Int. Symp. Electromagn. Compat. Athens,Greece:[s.n.], 2009:1-4.
[11] 卢航,高峰,程刚. LabVIEW现场可编程门阵列模块数据采集系统仿真[J]. 太赫兹科学与电子信息学报, 2013,11(6): 977-980. (LU Hang,GAO Feng,CHENG Gang. Data acquisition system simulation based on LabVIEW FPGA module[J]. Journal of Terahertz Science and Electronic Information Technology, 2013,11(6):977-980.)
[12] European Commission. HIRF-SE[EB/OL]. [2016-05-10]. http://:www.hirf-se.eu.
[13] GUTIERREZ G G,ALVAREZ J,PASCUAL-GIL E,et al. HIRF virtual testing on the C-295 aircraft:on the application of a pass/fail criterion and the FSV method[J]. IEEE Transactions on Electromagnetic Compatibility, 2014,56(4):854-863.
钟龙权, 赵刚, 马弘舸, 鲍献丰, 李瀚宇, 吴双, 刘璐瑶, 吴欢成. 整机级HIRF仿真验证测试方案及测试自动化[J]. 太赫兹科学与电子信息学报, 2018, 16(6): 1033. ZHONG Longquan, ZHAO Gang, MA Hongge, BAO Xianfeng, LI Hanyu, WU Shuang, LIU Luyao, WU Huancheng. Verification test planning and test automation to HIRF simulation of aircraft-level[J]. Journal of terahertz science and electronic information technology, 2018, 16(6): 1033.
PDF全文
