Title :
FET mobility degradation and device mismatch due to packaging induced die stress
Author :
Jaeger, R.C. ; Bradley, A.T. ; Suhling, J.C. ; Zou, Y.
Author_Institution :
Auburn University, AL, USA
Abstract :
CMOS FETs exhibit a stress sensitivity that is similar to classical piezoresistors in which mechanical stress induces changes in the FET transconductance through device mobility changes. Transconductance changes are a function of channel orientation, transistor location, and channel length. In plastic encapsulated die, it is demonstrated that NMOS transistors exhibit fairly uniform transconductance degradation, whereas PMOS devices can exhibit both degradation and enhancement. These changes can result in both degradation and increased spread of analog and digital circuit performance.
Keywords :
Degradation; Digital circuits; FETs; MOS devices; MOSFETs; Packaging; Piezoresistive devices; Plastics; Stress; Transconductance;
Conference_Titel :
Solid-State Circuits Conference, 1997. ESSCIRC '97. Proceedings of the 23rd European
Conference_Location :
Southampton, UK
