Hot-Carrier Degradation in SiGe HBTs: A Physical and Versatile Aging Compact Model

Chhandak Mukherjee; Thomas Jacquet; Gerhard G. Fischer; Thomas Zimmer; Cristell Maneux

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Hot-Carrier Degradation in SiGe HBTs: A Physical and Versatile Aging Compact Model

机译：SiGe HBT中的热载流子降解：物理和多功能老化紧凑模型

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This paper presents a new physical compact model for interface state creation due to hot-carrier degradation in advanced SiGe heterojunction bipolar transistors (HBTs). An analytical model for trap density is developed through an accurate solution of the rate equation describing generation and annihilation of interface traps. The analytical aging law has been derived and implemented in terms of base recombination current parameters in HiCuM compact model and its accuracy has been validated against results from long-term aging tests performed close to the safe-operating areas of various HBT technologies. The model implementation uses a single additional node, alike previous implementations, thereby preserving its simplicity, yet improving the accuracy and the physical basis of degradation.

机译：本文介绍了由于先进的SiGe异质结双极晶体管（HBT）中热载流子退化而导致的界面状态创建的新物理紧凑模型。通过对速率方程的精确求解来开发陷阱密度的分析模型，该速率方程描述了界面陷阱的产生和an灭。已经根据HiCuM紧凑模型中的碱基重组电流参数推导并实施了分析老化定律，并已针对各种HBT技术的安全操作区域附近进行的长期老化测试的结果验证了其准确性。与以前的实现一样，该模型实现使用单个附加节点，从而保留了其简单性，同时提高了降级的准确性和物理基础。

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来源
《Electron Devices, IEEE Transactions on》 |2017年第12期|4861-4867|共7页
作者
Chhandak Mukherjee; Thomas Jacquet; Gerhard G. Fischer; Thomas Zimmer; Cristell Maneux;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Degradation; Aging; DH-HEMTs; Mathematical model; Hot carriers; Silicon germanium; Analytical models;

机译：降解老化DH-HEMTs数学模型热载流子硅锗分析模型;

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专利

1. A physical and versatile aging compact model for hot carrier degradation in SiGe HBTs under dynamic operating conditions [J] . Mukherjee C., Marc F., Couret M., Solid-State Electronics . 2020,第Jana期

机译：用于在动态工作条件下SiGe HBT中热载流子降解的物理和通用老化紧凑模型
2. Microscopic Hot-Carrier Degradation Modeling of SiGe HBTs Under Stress Conditions Close to the SOA Limit [J] . Hamed Kamrani, Dominic Jabs, Vincenzo d’Alessandro, Electron Devices, IEEE Transactions on . 2017,第3期

机译：接近SOA极限的应力条件下SiGe HBT的微观热载流子降解模型
3. A unified aging compact model for hot carrier degradation under mixed-mode and reverse E-B stress in complementary SiGe HBTs [J] . Mukherjee C., Fischer G. G., Marc F., Solid-State Electronics . 2020,第Octa期

机译：混合模式下热载流量降解的统一老化紧凑型模型，互补SiGE HBTs中的反向E-B应力
4. Physics-based hot-carrier degradation model for SiGe HBTs [C] . Hamed Kamrani, Dominic Jabs, Vincenzo dAlessandro, International Conference on Simulation of Semiconductor Processes and Devices . 2016

机译：SiGe HBT的基于物理的热载流子退化模型
5. Compact semi-physical modelling for HBT circuit simulations [D] . Dharmasiri, Chalika N. 2006

机译：紧凑的半物理建模，用于HBT电路仿真
6. STEM nanoanalysis of Au/Pt/Ti-Si3N4 interfacial defects and reactions during local stress of SiGe HBTs [O] . Ali Alaeddine, Cécile Genevois, Laurence Chevalier, 2011

机译：SiGe HBT局部应力过程中Au / Pt / Ti-Si3N4界面缺陷和反应的STEM纳米分析
7. A unified aging compact model for hot carrier degradation under mixed-mode and reverse E-B stress in complementary SiGe HBTs [O] . C. Mukherjee, G.G. Fischer, F. Marc, 2020

机译：混合模式下热载体降解的统一老化紧凑型模型，互补SiGE HBTs中的反向E-B应力

Hot-Carrier Degradation in SiGe HBTs: A Physical and Versatile Aging Compact Model

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