State and Angular Dependence of Single-Event Upsets in an Asymmetric RC-Hardened SRAM Using Deep Trench Capacitors

State and Angular Dependence of Single-Event Upsets in an Asymmetric RC-Hardened SRAM Using Deep Trench Capacitors

A marked state dependence and significant reduction in SEU cross section with even small increases in incident angle are reported in an asymmetric RC-hardened 90 nm CMOS SRAM. The effects are attributable to the bias dependence and high aspect ratio of the deep trench capacitor sidewall depletion re...

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Veröffentlicht in:IEEE transactions on nuclear science 2014-12, Vol.61 (6), p.3068-3073
Hauptverfasser: Alles, Michael L., Schrimpf, Ronald D., Massengill, Lloyd W., Ball, Dennis R., Kelly, Andrew T., Haddad, Nadim F., Rodgers, John C., Ross, Jason F., Chan, Ernesto, Raman, Ashok, Turowski, Marek
Format: Artikel
Sprache:eng
Schlagworte:
Asymmetric RC hardening
Capacitors
CMOS
CMOS process
deep trench capacitor
Doping
Radiation hardening (electronics)
SEU
Single event upsets
SRAM
SRAM cells
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Zusammenfassung:A marked state dependence and significant reduction in SEU cross section with even small increases in incident angle are reported in an asymmetric RC-hardened 90 nm CMOS SRAM. The effects are attributable to the bias dependence and high aspect ratio of the deep trench capacitor sidewall depletion region, exacerbated by process-induced boron depletion. The asymmetric implementation, using capacitive hardening in only one leg of the SRAM cell, led to the appearance of the effect in experimental results.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2014.2368931