DocumentCode
3233533
Title
Novel Mechanism of Neutron-Induced Multi-Cell Error in CMOS Devices Tracked Down from 3D Device Simulation
Author
Yamaguchi, H. ; Ibe, E. ; Yahagi, Y. ; Yamamoto, S. ; Akioka, T. ; Kameyama, H.
Author_Institution
Production Eng. Res. Lab., Hitachi Ltd., Yokohama
fYear
2006
fDate
6-8 Sept. 2006
Firstpage
184
Lastpage
187
Abstract
In recent CMOS devices, multi-cell error induced by cosmic neutron, in which memory state change extends over multiple memory cells, is becoming serious. However, its mechanism has not been clarified yet because conventional analysis by device simulation has not included multiple memory cells domain. Our novel method is to create the device model including multiple memory cells and perform 3D simulation. Analyzing current transients and current distribution, we identified multi-cell error as a chain reaction as follows: (1) parasitic bipolar in "target" CMOSFET is turned on by secondary ions produced by ion strike, (2) this parasitic bipolar action causes well voltage shift, (3) lastly parasitic bipolar in adjacent CMOSFETs are turned on and thus error propagates
Keywords
CMOS memory circuits; current distribution; neutron effects; semiconductor device models; transient analysis; 3D device simulation; CMOSFET devices; chain reaction; cosmic neutron-induced multicell error; current distribution; current transients analysis; ion strike; multiple memory cells; parasitic bipolar action; Analytical models; CMOSFETs; Circuit simulation; Electrons; Error correction codes; MOS devices; Neutrons; P-n junctions; Semiconductor device modeling; Transient analysis; CMOS; device simulation; neutron; single event error;
fLanguage
English
Publisher
ieee
Conference_Titel
Simulation of Semiconductor Processes and Devices, 2006 International Conference on
Conference_Location
Monterey, CA
Print_ISBN
1-4244-0404-5
Type
conf
DOI
10.1109/SISPAD.2006.282868
Filename
4061611
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