Mixed-mode stress degradation mechanisms in pnp SiGe HBTs

2009 IEEE International Reliability Physics Symposium Pub Date : 2009-04-26 DOI:10.1109/IRPS.2009.5173228
P. Chakraborty, A. Appaswamy, P. Saha, N. K. Jha, J. Cressler, H. Yasuda, B. Eklund, R. Wise
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引用次数: 10

Abstract

An investigation of the high-voltage/high-current mixed-mode (M-M) stress-induced damage mechanisms of pnp silicon-germanium (SiGe) heterojunction bipolar transistors (HBTs) is presented. Different accelerated stress methods, including mixed-mode stress, reverse emitter-base (EB) stress, and forward collector plus reverse EB stress, were applied to pnp SiGe HBTs from a state-of-the-art complementary-SiGe BiCMOS process technology platform. The operative damage mechanism from the M-M stress method is identified. Experimental evidence of collector current change due to the M-M stress, and the experimental proof of the type of hot carriers (electrons vs. holes) responsible for the observed M-M stress damage are presented.
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pnp SiGe HBTs的混合模式应力退化机制
研究了pnp硅锗异质结双极晶体管(HBTs)的高压/大电流混合模式(M-M)应力损伤机理。不同的加速应力方法,包括混合模式应力,反向发射基(EB)应力,以及正向集电极加反向EB应力,应用于pnp SiGe HBTs,该技术来自最先进的互补SiGe BiCMOS工艺技术平台。利用M-M应力法确定了结构的工作损伤机制。本文给出了由于M-M应力引起集电极电流变化的实验证据,以及引起观察到的M-M应力损伤的热载流子(电子与空穴)类型的实验证据。
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2009 IEEE International Reliability Physics Symposium
2009 IEEE International Reliability Physics Symposium
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