Title :
CMOS/SOS memory circuits for radiation environments
Author :
Haraszti, Tegze P.
fDate :
10/1/1978 12:00:00 AM
Abstract :
Memory circuit techniques which combine radiation hardness with high density, high speed, and low power dissipation have been developed. CMOS/SOS circuits featuring self-compensation, self-biasing, and parameter tracking accommodate a wide range of nonuniform on-chip parameter variations. These variations may occur as the result of exposure to a nuclear radiation event or from MOS device processing, temperature, or power-supply effects. The circuits discussed in this paper are key elements for radiation-hardened memory designs [up to 10/SUP 6/ rad (Si)] with state-of-the-art LSI density and performance. The CMOS/SOS memory cell sizes (3.1 mil/SUP 2/ for a six-device static cell and 2.5 mil/SUP 2/ for a four-device static cell) are nearly five times smaller than previous radiation-hardened cells.
Keywords :
Field effect integrated circuits; Integrated circuit technology; Integrated memory circuits; Large scale integration; Radiation hardening (electronics); Random-access storage; field effect integrated circuits; integrated circuit technology; integrated memory circuits; large scale integration; radiation hardening (electronics); random-access storage; CMOS memory circuits; CMOS process; CMOS technology; Degradation; Electrical engineering; Isolation technology; Large scale integration; MOS devices; Radiation hardening; Random access memory;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1978.1051117
