DCB substrates: solution for high temperature applications

HITEN 99. Third European Conference on High Temperature Electronics. (IEEE Cat. No.99EX372) Pub Date : 1999-07-07 DOI:10.1109/HITEN.1999.827465

J. Schulz-Harder

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引用次数: 4

Abstract

Summary form only given. DBC (Direct Bonded Copper) substrates have been proved over many years to be the most cost effective and reliable solution for circuits in power electronics. The bases of these substrates are ceramics, either alumina or aluminium nitride. The metallisation consists of copper layers bonded to ceramic at high temperature. DBC differs from thick film metallisation in that the copper layers consist of pure metal with high electric conductivity whereas the DBC process is carried out at temperatures above 1065/spl deg/C; the working temperature of DBC substrates can be up to 900/spl deg/C. DBC substrates are successfully brazed to covar at temperatures of 850/spl deg/C to 900/spl deg/C without affecting their functionality. At temperatures above 500/spl deg/C in hydrogen atmosphere the copper/ceramic interface peel strength is reduced. The copper surface of DBC substrates can be protected against oxidation by plating (Ni+Au) as a standard process. The range thickness of DCB is between 0.2 and 0.7 mm. Standard thicknesses are 0.2 mm and 0.3 mm. The reliability of DBC substrate temperature cycling is dependent on the absolute temperature and the temperature range. For military and automotive specifications the reliability could be improved by reducing the copper thickness at the copper edges by a simple low cost etching process.

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DCB基板:高温应用的解决方案

只提供摘要形式。DBC(直接结合铜)衬底多年来已被证明是电力电子电路中最具成本效益和最可靠的解决方案。这些衬底的基底是陶瓷，氧化铝或氮化铝。金属化包括在高温下与陶瓷结合的铜层。DBC与厚膜金属化的不同之处在于，铜层由具有高导电性的纯金属组成，而DBC工艺是在高于1065/spl℃的温度下进行的;DBC基板的工作温度可达900/spl℃。DBC衬底在850至900 spl℃的温度下成功钎焊至覆盖层，而不影响其功能。当温度高于500/spl℃时，铜/陶瓷界面剥离强度降低。DBC衬底的铜表面可以通过电镀(Ni+Au)作为标准工艺来防止氧化。DCB的厚度范围在0.2 ~ 0.7 mm之间。标准厚度为0.2 mm和0.3 mm。DBC衬底温度循环的可靠性取决于绝对温度和温度范围。对于军用和汽车规格，可以通过简单的低成本蚀刻工艺减少铜边缘的铜厚度来提高可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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HITEN 99. Third European Conference on High Temperature Electronics. (IEEE Cat. No.99EX372)

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