A Novel Circuit-Level SEU Hardening Technique for High-Speed SiGe HBT Logic Circuits

A Novel Circuit-Level SEU Hardening Technique for High-Speed SiGe HBT Logic Circuits

In this work we present a new circuit-level hardening technique for SEU mitigation in high-speed SiGe BiCMOS digital logic. A reduction in SEU vulnerability is realized through the implementation of an additional storage cell redundancy block to achieve the required decoupling. When compared with la...

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Veröffentlicht in:IEEE transactions on nuclear science 2007-12, Vol.54 (6), p.2086-2091
Hauptverfasser: Mukherjee, T.S., Sutton, A.K., Kornegay, K.T., Krithivasan, R., Cressler, J.D., Niu, G., Marshall, P.W.
Format: Artikel
Sprache:eng
Schlagworte:
Circuit simulation
Circuits
Current mode logic (CML)
Germanium silicon alloys
Hardening
Heterojunction bipolar transistors
High speed
Latches
Logic
Logic circuits
Low voltage
low voltage logic (LVL)
Mathematical models
partial decoupling
Radiation hardening
Reduction
Reproduction
Silicon germanides
Silicon germanium
silicon-germanium (SiGe)
Single event upset
single event upset (SEU)
Space technology
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Zusammenfassung:In this work we present a new circuit-level hardening technique for SEU mitigation in high-speed SiGe BiCMOS digital logic. A reduction in SEU vulnerability is realized through the implementation of an additional storage cell redundancy block to achieve the required decoupling. When compared with latch duplication, current sharing or gated feedback techniques, this method incurs a lower power penalty and no speed penalty. The hardened circuit is implemented in CML and LVL families and circuit simulation models predict significant reduction in the number of upsets compared to the corresponding unhardened versions. The technique is also easy to incorporate into existing designs.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2007.908460