Study on electrostatic discharge (ESD) characteristics of ultra-thin dielectric film

Ronggang Wang; Yurong Sun; Liuliang He; Jiting Ouyang

doi:10.1088/2058-6272/ac58ec

Study on electrostatic discharge (ESD) characteristics of ultra-thin dielectric film

Ronggang Wang^*, Yurong Sun, Liuliang He, Jiting Ouyang^*

^*此作品的通讯作者

物理学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Electrostatic discharge (ESD) event usually destroys the electrical properties of dielectric films, resulting in product failure. In this work, the breakdown characteristic of machine mode (MM) ESD on three different nano size films of head gimble assemble are obtained experimentally. The breakdown voltage and thickness parameters show a positive proportional relationship, but they are generally very low and have large discrete characteristics (∼30%). The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V, which are far lower than the requirement of the current standard (25 V). In addition, the judgment criterion of product damage is given, and the relationship between discharge voltage polarity, initial resistance and breakdown voltage is studied. Finally, the theoretical analysis of the breakdown characteristic law has been given.

源语言	英语
文章编号	044010
期刊	Plasma Science and Technology
卷	24
期	4
DOI	https://doi.org/10.1088/2058-6272/ac58ec
出版状态	已出版 - 2022

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title = "Study on electrostatic discharge (ESD) characteristics of ultra-thin dielectric film",

abstract = "Electrostatic discharge (ESD) event usually destroys the electrical properties of dielectric films, resulting in product failure. In this work, the breakdown characteristic of machine mode (MM) ESD on three different nano size films of head gimble assemble are obtained experimentally. The breakdown voltage and thickness parameters show a positive proportional relationship, but they are generally very low and have large discrete characteristics (∼30%). The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V, which are far lower than the requirement of the current standard (25 V). In addition, the judgment criterion of product damage is given, and the relationship between discharge voltage polarity, initial resistance and breakdown voltage is studied. Finally, the theoretical analysis of the breakdown characteristic law has been given.",

keywords = "electrostatic discharge (ESD), machine model, ultra-thin dielectric film",

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T1 - Study on electrostatic discharge (ESD) characteristics of ultra-thin dielectric film

AU - Wang, Ronggang

AU - Sun, Yurong

AU - He, Liuliang

AU - Ouyang, Jiting

PY - 2022

Y1 - 2022

N2 - Electrostatic discharge (ESD) event usually destroys the electrical properties of dielectric films, resulting in product failure. In this work, the breakdown characteristic of machine mode (MM) ESD on three different nano size films of head gimble assemble are obtained experimentally. The breakdown voltage and thickness parameters show a positive proportional relationship, but they are generally very low and have large discrete characteristics (∼30%). The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V, which are far lower than the requirement of the current standard (25 V). In addition, the judgment criterion of product damage is given, and the relationship between discharge voltage polarity, initial resistance and breakdown voltage is studied. Finally, the theoretical analysis of the breakdown characteristic law has been given.

AB - Electrostatic discharge (ESD) event usually destroys the electrical properties of dielectric films, resulting in product failure. In this work, the breakdown characteristic of machine mode (MM) ESD on three different nano size films of head gimble assemble are obtained experimentally. The breakdown voltage and thickness parameters show a positive proportional relationship, but they are generally very low and have large discrete characteristics (∼30%). The maximum and minimum breakdown voltages of the tested samples are 1.08 V and 0.46 V, which are far lower than the requirement of the current standard (25 V). In addition, the judgment criterion of product damage is given, and the relationship between discharge voltage polarity, initial resistance and breakdown voltage is studied. Finally, the theoretical analysis of the breakdown characteristic law has been given.

KW - electrostatic discharge (ESD)

KW - machine model

KW - ultra-thin dielectric film

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DO - 10.1088/2058-6272/ac58ec

M3 - Article

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SN - 1009-0630

VL - 24

JO - Plasma Science and Technology

JF - Plasma Science and Technology

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M1 - 044010

ER -

Study on electrostatic discharge (ESD) characteristics of ultra-thin dielectric film

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