Single event transient pulse widths in digital microcircuits

Author

Gadlage, Matthew J. ; Schrimpf, Ronald D. ; Benedetto, Joseph M. ; Eaton, Paul H. ; Mavis, David G. ; Sibley, Mike ; Avery, Keith ; Turflinger, Thomas L.

Author_Institution

NAVSEA, Crane, IN, USA

Volume

51

Issue

6

fYear

2004

Firstpage

3285

Lastpage

3290

Abstract

The radiation effects community has long known that single event transients in digital microcircuits will have an increasing importance on error rates as device sizes shrink. However separating these errors from static errors in latch cells has often proved difficult. Thus determining both the significance and the nature of these transient errors has not been easy. In this study, by utilizing a latch that is radiation hard at static clock frequencies the errors due to transients could be separated. By separating the transient error rate from the static upset error rate, the pulse structure of the propagating transients was studied using SPICE. The implications of these pulsewidths will also be discussed.

Keywords

SPICE; digital integrated circuits; error analysis; ion beam effects; transient analysis; SPICE; digital microcircuits; heavy ions; propagating transients; pulse structure; radiation effects; radiation hard latch; single event transient pulsewidths; static clock frequencies; static upset error rate; transient error rate; Circuits; Clocks; Cranes; Error analysis; Frequency; Latches; Logic devices; Logic testing; SPICE; Single event upset;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2004.839174

Filename

1369483