The invention disclosed a metal oxide semiconductor element with voltage stabilization and electrostatic discharge protection and a manufacturing method thereof, which is applied to a chip.
本发明公开了一种具稳压及静电放电防护的金属氧化物半导体元件及其制造方法,其应用于一芯片。
Protection equipment power supply system from lightning over-voltage, power grid fluctuations, operating over voltage, electrostatic discharge, etc.
保护设备电源系统免受雷击过电压、电网波动、操作过电压、静电放电等造成的损害。
The necessity and basic idea of electrostatic protection in assembling electronic devices are presented by introducing the electrostatic and electrostatic discharge(ESD)briefly.
通过对静电及静电放电(ESD)的简单介绍,提出了在电子装联中进行静电防护的必要性和基本思路。
The Detecting Technique of Electrostatic Discharge is applied mainly in electrostatic hazard protection, fault diagnosis in high voltage power system.
静电放电探测技术是静电危害防护、高压电力故障诊断等领域的关键技术。
After analyzing the basic principle of Electrostatic Discharge, the limitation of traditional ESD protection circuits applied in high speed circuits was pointed out in the paper.
分析了静电放电(esd)保护的基本原理,指出了传统的用于模拟电路的ESD保护电路在高速电路应用中的局限性。
Therefore, it is suggested that the all course of electrostatic charge and discharge should be take into account in studying theory modeling and electrostatic protection.
为此,建议有关静电理论建模与危害防护研究应考虑静电起电-放电的全过程。
The smaller feature size and the new appeared structures bring some new problems. The design of electrostatic discharge (ESD) protection devices becomes more and more different.
但是在器件特征尺寸的缩小以及新颖结果的出现的同时,不可避免的会带来一些负面的影响,其中静电放电保护器件的设计就变得越来越困难。
The smaller feature size and the new appeared structures bring some new problems. The design of electrostatic discharge (ESD) protection devices becomes more and more different.
但是在器件特征尺寸的缩小以及新颖结果的出现的同时,不可避免的会带来一些负面的影响,其中静电放电保护器件的设计就变得越来越困难。
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