[1] Tsai J M, Chuang Y J, Liao S S, et al. Improve ESD protection on mobile phone with capacitive touch screen［C］//Cross Strait Quad-regional Radio Science & Wireless Technology Conference. 2011: 295-298.

[2] Talebzadeh A, Gan Y, Kim K H, et al. Sparkless electrostatic discharge (ESD) on display screens［C］//2015 IEEE International Symposium on Electromagnetic Compatibility. 2015: 1284-1289.

[3] Shinde S, Zhou J, Marathe S, et al. ESD to the display inducing currents measured using a substitution PC board［C］//IEEE International Symposium on Electromagnetic Compatibility. 2016: 707-712.

[4] Zhou J, Shinde S, Guo Y, et al. IEC 61000-4-2 ESD test in display down configuration for cell phones［C］//IEEE International Symposium on Electromagnetic Compatibility. 2016: 713-718.

[5] Ko J, Kim K, Kim H. System-level ESD immunity of mobile display driver IC to hard and soft failure［J］. Electrical & Electronic Engineering, 2012, 13(1): 329-335.

[6] Hsu C T, Tseng J C, Chen Y L, et al. Board-level ESD of driver ICs on LCD panels［C］//IEEE International Reliability Physics Symposium. 2009, 9(1): 59-64.

[7] Jiang Xiao, Pommerenke, D, Fan Zhou, et al. Model for ESD LCD upset of a portable product［C］//2010 IEEE International Symposium on Electromagnetic Compatibility. 2010: 354-358.

[8] Kim K Y, Kim Y. Systematic analysis methodology for mobile phone’s electrostatic discharge soft failures［J］. IEEE Trans Electromagnetic Compatibility, 2011, 53(3): 611-618.

[9] Lingayat T D. Prediction of electrostatic discharge soft failure issue in case of a six layer PCB of a tablet using SIwave tool［C］//IEEE International Conference on Recent Trends in Electronics. 2017: 1361-1366.

[10] Murooka Y, Takada T, Hiddaka K. Nanosecond surface discharge and charge density evaluation Part I: review and experiments［J］. IEEE Electrical Insulation Magazine, 2001, 17(2): 6-16.

[11] Mueller L, Feser K, Pfendtner R, et al. Experimental investigation of discharges for charged plastic or plastic-coated materials［C］//Conference on Electrical Insulation & Dielectric Phenomena. 2001: 110-113.

[12] 贺其元, 刘尚合, 陈京平, 等.对空气式静电放电的研究［J］.高电压技术, 2006, 32(7): 72-75.(He Qiyuan, Liu Shanghe, Chen Jingping, et al. Research on air electrostatic discharge. High Voltage Engineering, 2006, 32(7): 72-75)

[13] 原青云, 张希军, 刘尚合, 等.影响空气式静电放电特性的相关因素分析［J］.高电压技术, 2010, 36(10): 2500-2506.(Yuan Qingyun, Zhang Xijun, Liu Shanghe, et al. Analysis of relevant factors influencing the characteristics of air electrostatic discharge. High Voltage Engineering, 2010, 36(10): 2500-2506)

[14] Murooka Y, Koyama S. Nanosecond surface discharge study by using Dust figure techniques［J］. Journal of Applied Physics, 1973, 44(4): 1576-1580.

[15] Pedersen P O. Die Ausbreitungs Geschwindigkeit der Lichtenbergschen Figuren und ihre Verwendung zur Messung sehr kurzer Zeiten［J］. Annalen der Physik, 2006, 374(19): 205-230.

[16] 贺其元, 刘尚合, 徐晓英, 等.接近速度对空气静电放电特性的影响［J］.强激光与粒子束, 2007, 19(3): 524-528.(He Qiyuan, Liu Shanghe, Xu Xiaoying, et al. Effects of approach velocity on air electrostatic discharge characteristics. High Power Laser and Particle Beams, 2007, 19(3): 524-528)