Reliability issues associated with operating voltage constraints in advanced SiGe HBTs

2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual. Pub Date : 2005-04-17 DOI:10.1109/RELPHY.2005.1493121

C. Grens, J. Cressler, J. Andrews, Q. Liang, A. Joseph

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引用次数: 19

Abstract

The paper addresses many aspects of the relationship between operating voltage constraints and reliability issues in SiGe HBTs, examining breakdown-related instabilities as they relate to technology generation, device geometry, bias configuration, and operating current density. New definitions for breakdown voltage, adopted from standard measurements, are presented. Practical design and reliability implications of breakdown are explored through careful measurement and simulation using quasi-3D compact models. Overall, SiGe HBTs; biased in common-base configuration and driven by constant emitter current, are shown to possess higher stable operating voltage limits than those biased in a common-emitter configuration and driven by constant base current. However, biasing beyond the determined "safe-operating-area" can result in impedance matching and linearity issues at lower currents and significant increases in hot-carrier degradation at higher currents, and must be carefully considered from a circuit design perspective.

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高级SiGe hbt中与工作电压限制相关的可靠性问题

本文讨论了SiGe hbt中工作电压约束和可靠性问题之间关系的许多方面，研究了与击穿相关的不稳定性，因为它们与技术产生、器件几何形状、偏置配置和工作电流密度有关。从标准测量中，提出了击穿电压的新定义。通过准三维紧凑模型的仔细测量和仿真，探讨了击穿的实际设计和可靠性影响。总体而言，SiGe HBTs;在恒定发射极电流驱动下的共基极偏置，比在恒定基极电流驱动下的共基极偏置具有更高的稳定工作电压限制。然而，偏置超出确定的“安全工作区域”可能导致低电流下的阻抗匹配和线性问题，以及高电流下热载流子退化的显著增加，必须从电路设计的角度仔细考虑。

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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2005 IEEE International Reliability Physics Symposium, 2005. Proceedings. 43rd Annual.

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