Advanced SiGe BiCMOS Technology for Multi-Mrad Electronic Systems

Fleetwood Z.E.; Kenyon E.W.; Lourenco N.E.; Jain S.; Zhang E.X.; England T.D.; Cressler J.D.; Schrimpf R.D.; Fleetwood D.M.

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Advanced SiGe BiCMOS Technology for Multi-Mrad Electronic Systems

机译：适用于多Mrad电子系统的先进SiGe BiCMOS技术

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The total ionizing dose response of both CMOS transistors and SiGe HBTs implemented without utilizing any radiation hardening by design techniques in Jazz Semiconductor's SBC-18-HXL BiCMOS technology platform is evaluated. The SiGe HBTs remain functional up to the 6

$hbox{Mrad}(hbox{SiO}_{2})$

dose levels needed to support multi-Mrad exploration missions such as NASA's Europa mission. The CMOS devices are also functional to this extreme total dose. The nFETs exhibit significantly reduced shallow trench isolation leakage compared with nFETs implemented in prior SiGe BiCMOS processes. Both nFETs and pFETs show negligible transconductance and on-current degradation. We conclude that this SiGe process technology is a potential candidate for implementing reliable and survivable multi-Mrad total ionizing dose-hard electronic systems.

机译：评估了通过Jazz Semiconductor的SBC-18-HXL BiCMOS技术平台中的设计技术在不利用任何辐射硬化的情况下实现的CMOS晶体管和SiGe HBT的总电离剂量响应。 SiGe HBT最多可以使用6个

$ hbox {Mrad}（hbox {SiO} _ {2}）$ 支持多种Mrad探索任务（例如NASA的Europa任务）所需的剂量水平。 CMOS器件也可以达到此极限总剂量。与在先前的SiGe BiCMOS工艺中实现的nFET相比，nFET的浅沟槽隔离泄漏明显减少。 nFET和pFET均显示可忽略的跨导和导通电流下降。我们得出的结论是，这种SiGe工艺技术可能是实现可靠且可生存的多兆弧度总电离剂量硬电子系统的潜在选择。

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来源
《Device and Materials Reliability, IEEE Transactions on》 |2014年第3期|844-848|共5页
作者
Fleetwood Z.E.; Kenyon E.W.; Lourenco N.E.; Jain S.; Zhang E.X.; England T.D.; Cressler J.D.; Schrimpf R.D.; Fleetwood D.M.;
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正文语种 eng
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关键词
BiCMOS integrated circuits; CMOS integrated circuits; Degradation; Heterojunction bipolar transistors; Materials reliability; Protons; Silicon germanium; Europa; SiGe HBT; Silicon-Germanium (SiGe); Silicon-Germanium (SiGe) BiCMOS; dose-enhancement; proton irradiation; radiation; saturation; shallow trench isolation (STI); total ionizing dose (TID); turn-around;

机译：BiCMOS集成电路;CMOS集成电路;降解;异质结双极晶体管;材料可靠性;质子硅锗欧罗巴;SiGe HBT;硅锗（SiGe）;硅锗（SiGe）BiCMOS;剂量增强质子辐照辐射;饱和;浅沟槽隔离（STI）;总电离剂量（TID）;回转;

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1. Advanced Heterojunction Bipolar Transistor for Half-THz SiGe BiCMOS Technology [J] . Fox Alexander, Heinemann Bernd, Rucker Holger, Electron Device Letters, IEEE . 2015,第7期

机译：用于半THz SiGe BiCMOS技术的高级异质结双极晶体管
2. Smart Phased Array SoCs: A Novel Application for Advanced SiGe HBT BiCMOS Technology [J] . BRITTIN C. KANE, MICHAEL A. WYATT, JEFFREY A. MOGENSEN Proceedings of the IEEE . 2005,第9期

机译：智能相控阵SoC：先进SiGe HBT BiCMOS技术的新型应用
3. Neutron radiation tolerance of advanced UHV/CVD SiGe HBT BiCMOS technology [J] . Roldan J.M., Ansley W.E. IEEE Transactions on Nuclear Science . 1997,第6期

机译：先进的UHV / CVD SiGe HBT BiCMOS技术的中子辐射耐受性
4. Advances in compact integrated multichannel millimeter wave radar systems using SiGe BiCMOS technology (Focused session on highly-integrated millimeter-wave radar sensors in SiGe BiCMOS technologies) [C] . Simon Kueppers, Reinhold Herschel, Nils Pohl 2018 22nd International Microwave and Radar Conference . 2018

机译：使用SiGe BiCMOS技术的紧凑型集成多通道毫米波雷达系统的进展（聚焦于SiGe BiCMOS技术中的高度集成毫米波雷达传感器的会议）
5. High-Performance Memory Systems Using SiGe HBT BiCMOS Technology [D] . Liu, Xuelian. 2014

机译：使用SiGe HBT BICMOS技术的高性能内存系统
6. The eSMART study protocol: a randomised controlled trial to evaluate electronic symptom management using the advanced symptom management system (ASyMS) remote technology for patients with cancer [O] . Roma Maguire, Patricia A Fox, Lisa McCann, 2017

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7. SiGe:C HBT technology for advanced BiCMOSudprocesses. [O] . Magnee P. H. C., Hurkx G. A. M., Agarwal P., 2004

机译：SiGe：用于高级BiCMOS的C LGBT技术流程。

Advanced SiGe BiCMOS Technology for Multi-Mrad Electronic Systems

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