摘要
静电释放(ESD)就是一定数量的电荷从一个物体(例如人体)传送到另外一个物体(例如芯片)的过程。这个过程能导致在极短的时间内有一个非常高的电流通过芯片,35%以上的芯片损坏都可以归咎于此。因此,在电子制造行业里保护芯片免受静电释放的损害是非常重要的。实际上,很多公司在各种不同电子应用中都遇到了如何应对急速增长的静电防护需求的问题。通过针对ESD机制和防护做了一个较全面的介绍,包括ESD原理,电流产生,危害,防静电工艺要求等。
Electrostatic discharge (ESD) is a process in which a finite amount of charge is transferred from one object (i.e., human body) to the other (i.e., microchip). This process can result in a very high current passing through the microchip within a very short period of time, and more than 35% of chip damages can be attributed to such an event. As such, it is very important to proteCt microchips against ESD stress in electronics assembly industry. In fact, many companies worldwide are having difficulties in meeting the increasingly stringent ESD protection requirements for various electronics applications. This paper gives a comprehensive coverage on various issues pertinent to ESD mechanism and protection, including ESD fundamentals, charge generation, damaging mechanisms, ESD protection schemes.
出处
《电子质量》
2008年第5期102-106,109,共6页
Electronics Quality
关键词
静电释放
危害
防护
Electrostatic discharge
Damage
Protection
