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南京师范大学学报（工程技术版）[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2017年04期

Page:

1-

Research Field:

电磁兼容

Publishing date:

Info

Title:

Research on Electrostatic Discharge Protection Method ofElectronic Equipment Based on Structure Processing

Author(s):

Sang Jian; Zhao Yang; Gao Xiang; Li Shijin

School of Electrical and Automation Engineering,Nanjing Normal University,Nanjing 210042,China

Keywords:

electrostatic discharge; aperture; ground; electrostatic discharge protection; electromagnetic compatibility

PACS:

TM461; TN03

DOI:

10.3969/j.issn.1672-1292.2017.04.001

Abstract:

In this paper,the problem of electrostatic discharge immunity caused by electronic equipment is studied. Based on the analysis of the holes in the electronic equipment structure,the shielding model of the slotted casing and the shielded grounding model of the slotted casing are established by using Matlab/Simulink. The simulation design of the model is put forward. The results of the two electrostatic discharge protection rectification cases show that the proposed scheme greatly improves the electrostatic discharge immunity level of electronic equipment. The research results have certain engineering application value for electrostatic discharge protection of electronic equipment.

References:

[1] CACCAVO G,CERRI G,PRIMIANI V M. ESD field penetration into a populated metallic enclosure[J]. Electromagnetic compatibility IEEE transactions on,2002,44(1):243-249.
[2]CERRI G,CHIARANDINI S,COSTANTINI,et al. Theoretical and experimental characterization of transient electromagnetic fields radiated by electrostatic discharge(ESD)currents[J]. IEEE transactions on electromagnetic compatibility,2002,44(1):139-146.
[3]赵阳,封志明,黄学军. 电磁兼容测试方法与工程应用[M]. 北京:电子工业出版社,2010:1-12.
ZHAO Y,FENG Z M,HUANG X J. EMC test methods and engineering applications[M]. Beijing:Publishing House of Electronics Industry,2010:1-12.(in Chinese)
[4]赵阳,SEE K Y. 电磁兼容基础与应用(英文版)[M]. 北京:机械工业出版社,2006:1-20.
ZHAO Y,SEE K Y. Fundamental of electromagnetic compatibility and application[M]. Beijing:China Machine Press,2006:1-20.(in Chinese)
[5]WANG K,POMMERENKE D,CHUNDRU R,et al. Numerical modeling of electrostatic discharge generators[J]. IEEE transactions on electromagnetic compatibility,2003,45(2):258-271.
[6]WANG K,POMMERENKE D,ZHANG J M,et al. The PCB level ESD immunity study by using 3 dimension ESD scan system[J].Internationalsymposium on electromagnetic compatibility,2004,2(2):343-348.
[7]LIU H Y,LIN C W,CHOU S J,et al. Current path analysis for electrostatic discharge protection[C]//IEEE/ACM International Conference on Computer-aided Design. San Jose:IEEE,2006:510-515.
[8]KER M D,YEN C C. Transient-to-digital converter for system-level electrostatic discharge protection in CMOS ICs[J]. IEEE transactions on electromagnetic compatibility,2009,51(3):620-630.
[9]PAN Z H,HOLLAND S,SCHROEDER D. Understanding the mechanisms of degradation and failure observed in ESD protection devices under system-level tests[J]. IEEE transactions on device and materials reliability,2010,10(2):187-191.
[10]周星,魏光辉,张希军. ESD辐射场的计算及对传输线的耦合研究[J]. 高电压技术,2008,34(4):670-673.
ZHOU X,WEI G H,ZHANG X J. Calculation of ESD radiation fields and coupling of ESD EMP to a transmission line[J]. High voltage engineering,2008,34(4):670-673.(in Chinese)
[11]WILSON P F,MA M T. Fields radiated by electrostatic discharges[J]. IEEE transactions on electromagnetic compatibility,1991,33(1):10-18.
[12]盛松林,田明宏,刘尚合. 改进型偶极子模型的静电放电相关电场计算[J]. 高电压技术,2002,28(10):8-9.
SHENG S L,TIAN M H,LIU S H. Electric fields calculation related to ESD based on improved dipole model[J]. High voltage engineering,2002,28(10):8-9.(in Chinese)

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Last Update: 2017-12-30