Research progress on electrostatic discharge law of aircraft and radiation signal detection technology
DOI:
https://doi.org/10.54097/fcis.v1i2.1626Keywords:
Aircraft, Electrostatic hazards, Electrostatic discharge law, Radiation field, Radiation signal detectionAbstract
At present, the number of combat aircraft in China is huge and in a stage of rapid development, and the electrostatic discharge effect of aircraft during flight has become one of the important issues related to the reliability and safety of aircraft; At the same time, the use of electrostatic discharge radiation signals to achieve aircraft detection and positioning is also an urgent need to develop an effective means of dealing with stealth technology, with significant advantages and broad prospects for military applications. In this paper, from the aspects of the harm of electrostatic discharge to aircraft, the characteristics and radiation laws of electrostatic discharge of aircraft, and the detection technology of electrostatic signal of aircraft, this paper expounds the research progress at home and abroad, analyzes the new problems faced by the electrostatic discharge effect of aircraft and static detection technology, and looks forward to the next research and development direction. The analysis results show that the research hotspots of aircraft electrostatic discharge effect and static detection technology focus on the new mechanism of electrostatic discharge and new radiation signal detection technology brought about by new materials, new environments, new loads and new requirements, and the work that needs to be focused on urgent research mainly includes the study of the integrated characteristics of multi-source electrostatic discharge of aircraft, the long-distance detection of electrostatic discharge information, and the evaluation method of the effect of electrostatic discharge on the airborne electronic system, etc., which provide technical support for improving the reliability and safety of aircraft during flight.
Downloads
References
LIU Hao.Research on Electrostatic Charge and Discharge of Aerospace Vehicle Surface in Different Environments[D]. Shijiazhuang:College of Ordnance Engineering,2015.
Gunn R, Hall W C, Kinzer G D.Army-Navy Precipitation Static Project[J]. Proceeding of the IRE and Waves and Electrons, 1946, 34(4): 156-161.
Imyanitow I M. Aircraft electrification in clouds and precipitation[R]. AD726581, 1971.
WANG Lei.Research on Measuring and Denoising of Signal Radiated from Airplane Electrostatic Discharge[D]. Shijiazhuang:College of Ordnance Engineering,2011.
LI Yin-lin,SHI Ju-sheng.The Electrostatic Field Characteristics of an Airplane and its Detection Theory[J]. Journal of Detection&Control,1999, 21(4): 46-49.
Reno H,Venditti F P.Electromagnetic Radiation from Corona Discharges[R]. DRI-2678, 1977.
Nanevicz J E. Static Charging and its Effects on Avionic Systems[J]. IEEE Trans on Electromagnetic Compatibility, 1982, 24(2): 203-209.
Juan de la Cierva, Herbert J. Gillis, Paul B. Wilson. Theoretical Analysis of Aircraft Electrostatic Discharge [R] .Virginia, U.S:Army Aviation Materiel Laboratories Fort Eustis, August 1965.8.
Gerad J. Born, Enoch J. Durbin. An Investigation of Electrical Charging and Discharging of Aircraft in Flight [R].Virginia ,U.S:Army Aviation Materiel Laboratories Fort Eustis, August 1965.
YI Ming, WANG Chun.Investigation on Electrostatic Charge Distribution and Landing Discharge of Fixed Wing Aircraft[J].High Voltage Engineering,2007, 33(7): 115-118.
Lei Xiaoyong. Electrostatic discharge law and experimental research of aircraft [D]. Shijiazhuang: Ordnance Engineering College, 2011.
LEI Xiao-yong.Research on Electrostatic Discharge Law and Experiments of Airplane[D]. Shijiazhuang:College of Ordnance Engineering,2011.
YUAN Qing-yun, LIU Shang-he, WU Zhan-cheng. Research on the Mechanism of Electrostatic Discharge and Charged Polarity of Aircraft [J]. Journal of the College of Ordnance Engineering,2008, 20(2): 33-35.
WANG Chun, SONG Wen-wu, PAN Han.Investigation on Electrostatic Charge Distribution and Capacitance Solving of Fixed Wing Aircraft.[J].Journal of Hebei University(Natural Science Edition),2008, 28(5): 490-493.
ZHANG Jun, XIE Yong-jun, FU Huan-zhan,et al.Research on Electrostatic Discharge Characteristic in Composite Airplane [J].Modern Electronics Technique,2008(16): 15-20.
Rowe.M. Check ESD simulator for radiated EMI [J].Test &Measurement World, 1995(6): 15-16.
M.Honda. A new threat EMI effect by indirect ESD on electronic equipment [J].IEEE Transactions on Industry Application, 1989(25): 939-944.
Wilson P F, Ma M T. Fields radiated by electrostatic discharge [J].IEEE Transactions on Electromagnetic Compatibility, 1991, 33(1): 10-18.
Pommerenke.D. ESD:transient fields,arc simulation and rise time limit [J].Journal of Electrostatic, 1995, (36): 31-54.
Tabata Y, Tomita H. Malfunctions of high impedance circuits caused by electrostatic discharges[J]. Journal of Electrostatic, 1990, 33(1): 155-166.
Ishigami S, Gokita R, Nishiyama Y. Measurements of fast transient electric fields in the vicinity of short gap discharge[J]. IEICE Transactions on Communication , 1995, E78-B(2): 155-166.
BI Zeng-jun, SHENG Song-lin. FAN Li-si,et al. Characteristic Analysis of Electromagnetic Fields Generated by Electrostatic Discharge Spark[J].Chinese Journal of Computer Physics,2004, 21(1): 86-90.
BI Zeng-jun, LIU Shang-he, FENG De-yu. Numerical Modeling and FDTD Analysis Electromagnetic Field Radiated by ESD[J].High Voltage Engineering,2003, 29(8): 26-28.
Kozlowski A J. Barski M, Stuchly S S. Measurement of the radiated fields from electrostatic discharge[A]. In: CPEM’90 Digest[C], 1990: 420-421.
Leuchtmann P, Sroke J. Enhanced field simulations and measurements of the ESD calibration setup[A].2001:1273-1278.
CHEN Yan-qiao, LIU Shang-he. Experimental Study on EMP Fields&Radiated by ESD [J].High Power Laster&Particle Beams,1999, 11(3): 359-362.
ZHU Chang-qing. A Research on Test&Measurement Theory and Technology of Pulsed Electromagnetic Fields[D]. Shijiazhuang:College of Ordnance Engineering,2004.
XU Yuan-zhe, GAO Cheng, LI Yan-xin,et al.Development of Three-dimensional Wideband Sensor for Pulsed Electric Field Measurement[J]. High Voltage Engineering,2008, 24(3): 471-475.
Brown.L.The proximity fuze[J]. IEEE Aerospace and Electronic System Magazine, 1993, 8(7): 3-10.
Philip.K. The Feasibility of a Passive Electrostatic Fuze for Antimissile Missiles[R]. 1959.
BAI Yu-xian. The Establishment and Analysis for Detecting Model of Electrostatic Fuze [J]. Journal of Detection & Control,2002, 24(2): 45-48.
BAI Yu-xian, CUI Zhan-zhong, LI Yin-lin. The Research of Electrodes Used in Passive Electrostatic Fuze Directional Detection[J]. Journal of Detection&Control,2002, 24(1): 45-47.
H.Trinks. Electric field detection and ranging of aircraft[J]. IEEE Transactions on Aerospace and Electric Systems,1982, AES-10(3):268-274.
ZHANG Yi-jun, MENG Qing, Paul R K.Experiment Analysis of Electromagentic Noises From Airplane Flying Trough Clouds[J]. Chinese Journal of Geophysics,2004, 47(5):785-789.
Z.Paul,A.Aircraft Electrostatic Discharge Test System[P]. US: N0.6900642B2, 2005.
CHEN Xi, CUI Zhan-zhong, XU Lixin. Optimizatin of Round Array Passive Electrostatic Detection System[J]. Transactions of Beijing Institute of Technology, 2006, 26(7): 610-613.
FU Wei, CHEN Xi, CUI Zhan-zhong. Target Electric Field Modeling of Electrostatic Fuze[J]. Journal of Detection & Control, 2008, 30(5): 7-10.
HAO Xiao-hui, XU Li-xin, CUI Zhan-zhong,et al. Design of Fuze MEMS Electrostatic Detection Array[J]. Optics and Precision Engineering,2009, 17(6): 1223-1227.
