Influence of Supply Voltage and Body Biasing on Single-Event Upsets and Single-Event Transients in UTBB FD-SOI

Influence of Supply Voltage and Body Biasing on Single-Event Upsets and Single-Event Transients in UTBB FD-SOI

In this article, we present the effects of voltage scaling and forward body biasing (FBB) on single-event effect sensitivity of a 28-nm ultra-thin body and box (UTBB) fully depleted silicon on insulator (FD-SOI) technology. Heavy-ion irradiation was performed for single-event upset (SEU) and single-...

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Veröffentlicht in:IEEE transactions on nuclear science 2021-05, Vol.68 (5), p.850-856
Hauptverfasser: de Boissac, Capucine Lecat-Mathieu, Abouzeid, Fady, Malherbe, Victor, Gasiot, Gilles, Roche, Philippe, Autran, Jean-Luc
Format: Artikel
Sprache:eng
Schlagworte:
Bipolar gain
body biasing
Clocks
Electric potential
Heavy ions
Ion irradiation
Ions
Irradiation
Mixed mode simulation
Radiation
Radiation effects
Sensitivity
Sensitivity analysis
Single Event Effects
Single event upsets
single-event effects (SEEs)
SOI (semiconductors)
SPICE
TCAD
Thin bodies
ultra-thin body and box (UTBB) fully depleted silicon on insulator (FD-SOI)
Voltage
Voltage measurement
voltage scaling
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Zusammenfassung:In this article, we present the effects of voltage scaling and forward body biasing (FBB) on single-event effect sensitivity of a 28-nm ultra-thin body and box (UTBB) fully depleted silicon on insulator (FD-SOI) technology. Heavy-ion irradiation was performed for single-event upset (SEU) and single-event transient (SET) sensitivity assessment on characterization test chips under three supply voltages, with and without back-gate voltage application. Measurements show a steady SEU sensitivity for any supply voltage across the two FBB configurations, whereas SET sensitivity is diminished under FBB. SPICE and TCAD mixed-mode simulations were run to assess the contribution of electrical factors as well as charge extraction mechanisms. While drive strength is increased under FBB, the bipolar amplification plays an important role in sensitivity at low linear energy transfers (LETs).
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2021.3071963