高速、低功耗应用中基于inp的HBT IC技术的可靠性

IEEE 1995 Microwave and Millimeter-Wave. Monolithic Circuits Symposium. Digest of Papers Pub Date : 1995-05-15 DOI:10.1109/MCS.1995.470979

M. Hafizi, W. Stanchina, F. Williams, J. Jensen

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引用次数: 18

摘要

我们报告了一种基于inp的异质结双极晶体管集成电路技术在非常高速和低功耗应用中的可靠性。我们在偏压和温度应力下进行了大量的加速寿命测试实验，发现在125/spl℃的结温下，平均失效时间(MTTF)超过10/sup 7/小时。我们还将我们的设备暴露在氢环境中，这对于密封封装的集成电路尤其重要。我们没有观察到有或没有暴露在氢环境中的器件的特性有任何差异。此外，我们还对IC工艺中使用的氮化钽(TaN)薄膜电阻器(TFR)进行了广泛的寿命测试实验。我们的TFR可靠性性能超过了主动式器件可靠性，这是可靠的IC工艺所要求的

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Reliability of InP-based HBT IC technology for high-speed, low-power applications

We report on the reliability of an InP-based heterojunction bipolar transistor IC technology for very high-speed and low power applications. We have performed extensive accelerated lifetest experiments under bias and temperature stress and found mean-time-to-failures (MTTF) in excess of 10/sup 7/ hours at 125/spl deg/C junction temperatures. We have also exposed our devices to a hydrogen ambient, particularly important for integrated circuits in hermetically sealed packages. We did not observe any difference in the characteristics of devices with or without exposure to hydrogen ambient. In addition we have performed extensive lifetest experiments on tantalum-nitride (TaN) thin-film resistors (TFR) used in our IC process. Our TFR reliability performance exceeded the active device reliability, as required in a reliable IC process.<>

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IEEE 1995 Microwave and Millimeter-Wave. Monolithic Circuits Symposium. Digest of Papers

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