Title :
Radiation effects in advanced microelectronics technologies
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Abstract :
The pace of device scaling has increased rapidly in recent years. Experimental CMOS devices have been produced with feature sizes below 0.1 μm, demonstrating that devices with feature sizes between 0.1 and 0.25 μm will likely be available in mainstream technologies after the year 2000. This paper discusses how the anticipated changes in device dimensions and design are likely to affect their radiation response in space environments. Traditional problems, such as total dose effects, SEU and latchup are discussed, along with new phenomena. The latter include hard errors from heavy ions (microdose and gate-rupture errors), and complex failure modes related to advanced circuit architecture. The main focus of the paper is on commercial devices, which are displacing hardened device technologies in many space applications. However, the impact of device scaling on hardened devices is also discussed
Keywords :
CMOS integrated circuits; integrated circuit technology; radiation effects; radiation hardening (electronics); CMOS device; SEU; circuit architecture; commercial device; failure; gate rupture error; hard error; hardened device; heavy ion bombardment; latchup; microdose error; microelectronics technology; radiation response; scaling; space environment; total dose effect; CMOS technology; Integrated circuit technology; Laboratories; Microelectronics; Paper technology; Power supplies; Propulsion; Radiation effects; Space technology; Voltage;
Conference_Titel :
Radiation and Its Effects on Components and Systems, 1997. RADECS 97. Fourth European Conference on
Conference_Location :
Cannes
Print_ISBN :
0-7803-4071-X
DOI :
10.1109/RADECS.1997.698828
