Title :
Fabrication and total dose testing of a 256 K×1 radiation-hardened SRAM
Author :
Kushner, R.A. ; Kohler, R.A. ; Steenwyk, S.D. ; Desko, J.C. ; Alchesky, L.C. ; Arnold, R.H. ; Benevit, C.A. ; Clemons, D.G. ; Long, D.A. ; Lee, K.H. ; Flores, R.S.
Author_Institution :
AT&T Bell Lab., Allentown, PA, USA
fDate :
12/1/1988 12:00:00 AM
Abstract :
Describes a 256 K×1 radiation-hard SRAM and the process enhancements that resulted in its successful fabrication, and present total-dose-exposure results. Typical measured performance values include an address-activated access time of 36 ns and a write time of 34 ns. Soft-error studies predict the memory cell to be insensitive to single-event upsets, and rail-span collapse simulations estimate transient dose immunity to greater than 4E9 rads(Si)/s. The technology used was a standard 1.0 μm two-level metal, non-SORT CMOS, radiation-hard process. SORT refers to selective oxidation to reduce topography, a process that uses silicon nitride masking of active device areas during field oxide growth to reduce vertical dimensions. To improve reliability and cosmetic quality, the process has been modified to provide ⩾50% metal step coverage at both metal levels. Total-dose measurements have been made up to 1 Mrad(SiO2)
Keywords :
CMOS integrated circuits; integrated memory circuits; large scale integration; radiation hardening (electronics); random-access storage; 1 micron; 256 kbit; 34 ns; 36 ns; active device areas; address-activated access time; field oxide growth; metal step coverage; non-SORT CMOS; process enhancements; radiation-hardened SRAM; rail-span collapse simulations; reliability; selective oxidation; single-event upsets; topography; total dose testing; total-dose-exposure results; transient dose immunity; vertical dimensions; write time; CMOS process; CMOS technology; Fabrication; Oxidation; Predictive models; Random access memory; Silicon; Surfaces; Testing; Time measurement;
Journal_Title :
Nuclear Science, IEEE Transactions on
