中国舰船研究
中國艦船研究
중국함선연구
CHINESE JOURNAL OF SHIP RESEARCH
2015年
2期
93-98
,共6页
刘晨曦%刘培国%王为%易波%董雁飞
劉晨晞%劉培國%王為%易波%董雁飛
류신희%류배국%왕위%역파%동안비
强电磁防护%能量选择表面%双层非对称结构%屏蔽效能%传输损耗
彊電磁防護%能量選擇錶麵%雙層非對稱結構%屏蔽效能%傳輸損耗
강전자방호%능량선택표면%쌍층비대칭결구%병폐효능%전수손모
HPM protection%energy selective surface%double-layer unsymmetrical structure%shielding effectiveness%transmission loss
近几年来高功率微波(HPM)武器技术发展迅猛,其产生的强电磁脉冲环境能够对武器装备构成严重威胁,因此,研究武器装备的强电磁防护具有重要的意义。针对强电磁防护与信号收发兼容的“前门”防护难题进行研究,对能量选择强电磁防护机制进行分析。设计并仿真典型压控导电的单层能量选择表面和双层非对称的能量选择表面结构及其工作性能,对影响插入损耗和防护效能的参数进行研究。仿真结果表明:设计出的能量选择表面(ESS)结构在L波段具有很好的防护性能,透波模式传输损耗小于0.5 dB,防护模式屏蔽效能大于20 dB,具有能量低通特性,基本满足电子设备的“前门”防护需求,同时,双层非对称结构可以带来防护性能的改善。
近幾年來高功率微波(HPM)武器技術髮展迅猛,其產生的彊電磁脈遲環境能夠對武器裝備構成嚴重威脅,因此,研究武器裝備的彊電磁防護具有重要的意義。針對彊電磁防護與信號收髮兼容的“前門”防護難題進行研究,對能量選擇彊電磁防護機製進行分析。設計併倣真典型壓控導電的單層能量選擇錶麵和雙層非對稱的能量選擇錶麵結構及其工作性能,對影響插入損耗和防護效能的參數進行研究。倣真結果錶明:設計齣的能量選擇錶麵(ESS)結構在L波段具有很好的防護性能,透波模式傳輸損耗小于0.5 dB,防護模式屏蔽效能大于20 dB,具有能量低通特性,基本滿足電子設備的“前門”防護需求,同時,雙層非對稱結構可以帶來防護性能的改善。
근궤년래고공솔미파(HPM)무기기술발전신맹,기산생적강전자맥충배경능구대무기장비구성엄중위협,인차,연구무기장비적강전자방호구유중요적의의。침대강전자방호여신호수발겸용적“전문”방호난제진행연구,대능량선택강전자방호궤제진행분석。설계병방진전형압공도전적단층능량선택표면화쌍층비대칭적능량선택표면결구급기공작성능,대영향삽입손모화방호효능적삼수진행연구。방진결과표명:설계출적능량선택표면(ESS)결구재L파단구유흔호적방호성능,투파모식전수손모소우0.5 dB,방호모식병폐효능대우20 dB,구유능량저통특성,기본만족전자설비적“전문”방호수구,동시,쌍층비대칭결구가이대래방호성능적개선。
The technology of high power microwave(HPM)weaponry has been developed dramatically in recent years,which poses a severe threat to the electronic equipment based on high power electromagnetic pulse. Thus,it is of crucial significance to study HPM protection. Particularly,both protection agalnst HPM and signal receiving and transmitting have long been a serious problem of“front door”protection for electronic equipment,and such a issue is solved in this paper by presenting and analyzing the energy selec?tive HPM protection mechanism. A typical energy selective surface(ESS)and a kind of double-layer un?symmetrical ESS are presented,with their working performance being simulated,where more research on parameters that may influence the insertion loss and shielding effectiveness of the ESS structure are con?ducted. The results show that the transition loss in the transmitting mode of ESS is below 0.5 dB,and the shielding effectiveness in the protecting mode is over 20 dB within L-band. Thus,the ESS structure is characterized as a low-energy-pass filter,which essentially satisfies the requirements of the“front door”protection of electronic equipment. Overall,the equipment's performance can be improved by the dou?ble-layer unsymmetrical structure design.