摘要本文主要通过测试Al/CuO复合半导体桥火工品经过静电放电后的点火性能的变化,分析了Al/CuO复合半导体桥静电防护效果,以及对1A1W5min实验和恒流激励下的温度变化进行了测试研究,判断是否具有良好的抗射频、抗杂散电流的能力,并为其安全性能研究提供定量依据。68582
研究发现:
(1)在国军标(500pF、5kΩ、25kV)条件作用下,6种桥型的Al/CuO复合半导体桥火工品均未爆发,说明Al/CuO复合半导体桥火工品具有一定的抗静电性能。而在美军标(500pF、500Ω、25kV)条件作用下,只有3号和5号Al/CuO复合半导体桥火工品能够通过静电放电实验。
(2)Al/CuO复合半导体桥火工品在恒流1A,作用时间5min条件下未发生变化,说明Al/CuO复合半导体桥具有良好的抗射频和抗杂散电流的能力,且经过1A1W5min实验后的Al/CuO复合半导体桥,性能未受影响。
(3)对6种桥型的Al/CuO复合半导体桥进行恒流测温时,只有1号桥爆发,而其它几种桥型的半导体桥均未发火,且温度均为不断上升到一定值后趋于稳定。说明除1号桥外,其它几种桥型的Al/CuO复合半导体桥具有较好的安全性能。
毕业论文关键词 半导体桥,Al/CuO,安全性能
毕业设计说明书(论文)外文摘要
Title The safety capability of the Al/CuO composite SCB in constant current excitation
Abstract
In this paper, by testing Al/CuO compound semiconductor bridge(SCB) change the performance of the ignition after electrostatic discharge, analyzes the Al/CuO compound SCB electrostatic protective effect,as well as tested 1A1W5min experiments and constant excitation temperature changes, to determine whether a good anti-RF, resistance to stray current and provide a quantitative basis for its safety performance studies.
The study found:
(1) Under the military standard (500pF, 5kΩ, 25kV) , six kinds of Al / CuO compound SCB no outbreak, illustrate Al / CuO compound SCB has some antistatic properties. While in the U.S. military standard (500pF, 500Ω, 25kV) condition, only the 3rd and the 5th Al / CuO compound SCB can through electrostatic discharge experiments.
(2) After 1A1W5min experiment, Al/CuO compound SCB not changes, illustrate Al / CuO compound SCB has good resistance to RF and anti-stray current.
(3) Researched constant current temperature of six kinds of Al / CuO compound SCB, only the 1st bridge broke out, and several other bridge-type SCB were not exploded, and the temperatures are rising tends to a certain value. Illustrate except the 1st bridge, several other Al / CuO compound SCB has a better safety performance.
Keywords: Semiconductor Bridge Al/CuO Safety performance
目 次
1 绪论 1
1.1 研究背景及意义 1
1.2 半导体桥火工品的作用机理 2
1.3.1 国外研究现状 2
1.3.2 国内研究现状 4
1.4 本文主要研究内容 5
2 Al/CuO复合半导体桥静电安全性能研究 6
2.1 静电放电损伤失效机理及危害 6
2.2 Al/CuO复合半导体桥静电性能测试 恒流激励下Al/CuO复合半导体桥安全性能的研究:http://www.youerw.com/huaxue/lunwen_77175.html