Suppression of Partial Discharge in Package Insulation Under Square-Wave Voltage by Plasma-Enhanced Film Deposition

The rapid development of power modules, characterized by high \mathrm{d} v / \text{dt} switching, subjects package insulation to severe electrical stress under square-wave voltage, leading to detrimental partial discharges (PD) at triple point (TP) region. This study introduces a precision atmospher...

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Published in	International Conference on Electrical Materials and Power Equipment (Online) pp. 1 - 4
Main Authors	Guan, Xiuhan, Zhang, Fengjie, Xu, Junhao, Cheng, Hongtu, Wang, Yalin, Zhu, Xi, Fang, Zhi
Format	Conference Proceeding
Language	English
Published	IEEE 03.08.2025
Subjects	Dielectric films Discharges (electric) Electric fields film deposition Insulation Multichip modules package insulation partial discharge suppression Partial discharges plasma Plasmas square-wave voltage Stress Switching circuits Voltage control
Online Access	Get full text
ISSN	2996-3028
DOI	10.1109/ICEMPE66159.2025.11122997

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Abstract	The rapid development of power modules, characterized by high \mathrm{d} v / \text{dt} switching, subjects package insulation to severe electrical stress under square-wave voltage, leading to detrimental partial discharges (PD) at triple point (TP) region. This study introduces a precision atmospheric pressure micro-plasma jet ( \mu -APPJ) technique using HMDSO precursor to deposit Si-containing dielectric film at metal/insulation interface. By optimizing HMDSO volume fraction ( \phi_{\text {HMDso }} ), the effect of plasma treatment conditions on PD suppression at 5 \text{kHz} / 50 \% duty-cycle square-wave voltage is evaluated. The results show that Ar/HMDSO plasma-deposited films are effective in suppressing the PD intensity, but introduce an unanticipated PD phenomenon at the high-level stage. With the increase of HMDSO volume fraction, the maximum PD amplitude of the unpotted sample at \phi_{\text {HMDSO }}=0.24 \% decreased to 12.25 mV (84.6 % reduction) and the PD is completely suppressed in the high-level stage. The number of PDs of the potted sample is reduced by 56.1 %, with an average amplitude reduction of 53.9 %, and the breakdown voltage is increased to 17 kV. This technique provides a novel approach to improve the insulation reliability of power modules.
AbstractList	The rapid development of power modules, characterized by high \mathrm{d} v / \text{dt} switching, subjects package insulation to severe electrical stress under square-wave voltage, leading to detrimental partial discharges (PD) at triple point (TP) region. This study introduces a precision atmospheric pressure micro-plasma jet ( \mu -APPJ) technique using HMDSO precursor to deposit Si-containing dielectric film at metal/insulation interface. By optimizing HMDSO volume fraction ( \phi_{\text {HMDso }} ), the effect of plasma treatment conditions on PD suppression at 5 \text{kHz} / 50 \% duty-cycle square-wave voltage is evaluated. The results show that Ar/HMDSO plasma-deposited films are effective in suppressing the PD intensity, but introduce an unanticipated PD phenomenon at the high-level stage. With the increase of HMDSO volume fraction, the maximum PD amplitude of the unpotted sample at \phi_{\text {HMDSO }}=0.24 \% decreased to 12.25 mV (84.6 % reduction) and the PD is completely suppressed in the high-level stage. The number of PDs of the potted sample is reduced by 56.1 %, with an average amplitude reduction of 53.9 %, and the breakdown voltage is increased to 17 kV. This technique provides a novel approach to improve the insulation reliability of power modules.
Author	Cheng, Hongtu Zhu, Xi Zhang, Fengjie Fang, Zhi Guan, Xiuhan Wang, Yalin Xu, Junhao
Author_xml	– sequence: 1 givenname: Xiuhan surname: Guan fullname: Guan, Xiuhan email: guanxh2022@163.com organization: College of Electrical Engineering and Control Science, Nanjing Tech University,Nanjing,China – sequence: 2 givenname: Fengjie surname: Zhang fullname: Zhang, Fengjie email: zfj15086033718@163.com organization: College of Electrical Engineering and Control Science, Nanjing Tech University,Nanjing,China – sequence: 3 givenname: Junhao surname: Xu fullname: Xu, Junhao email: 3173439517@qq.com organization: College of Electrical Engineering and Control Science, Nanjing Tech University,Nanjing,China – sequence: 4 givenname: Hongtu surname: Cheng fullname: Cheng, Hongtu email: chenghongtu96@163.com organization: College of Electrical Engineering and Control Science, Nanjing Tech University,Nanjing,China – sequence: 5 givenname: Yalin surname: Wang fullname: Wang, Yalin email: wangyalin2014@sjtu.edu.cn organization: Shanghai Jiao Tong University,State Key Laboratory of High-Efficiency Special Cable Technology,Department of Electrical Engineering,Shanghai,China – sequence: 6 givenname: Xi surname: Zhu fullname: Zhu, Xi email: zhuxi210825@163.com organization: Key Laboratory of Engineering Dielects and Its Application (Harbin University of Science and Technology), Ministry of Education,Harbin,China – sequence: 7 givenname: Zhi surname: Fang fullname: Fang, Zhi email: myfz@263.net organization: College of Electrical Engineering and Control Science, Nanjing Tech University,Nanjing,China
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SubjectTerms	Dielectric films Discharges (electric) Electric fields film deposition Insulation Multichip modules package insulation partial discharge suppression Partial discharges plasma Plasmas square-wave voltage Stress Switching circuits Voltage control
Title	Suppression of Partial Discharge in Package Insulation Under Square-Wave Voltage by Plasma-Enhanced Film Deposition
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