Title :
A Review on the ESD Robustness of Drain-Extended MOS Devices
Author :
Shrivastava, Mayank ; Gossner, Harald
Author_Institution :
Intel Mobile Commun. GmbH, Munich, Germany
Abstract :
This paper reviews electrostatic discharge (ESD) investigations on laterally diffused MOS (LDMOS) and drain-extended MOS (DeMOS) devices. The limits of the safe operating area of LDMOS/DeMOS devices and device physics under ESD stress are discussed under various biasing conditions and layout schemes. Specifically, the root cause of early filament formation is highlighted. Differences in filamentary nature among various LDMOS/DeMOS devices are shown. Based on the physical understanding, device optimization guidelines are given. Finally, an outlook on technology scaling is presented.
Keywords :
MIS devices; electrostatic discharge; optimisation; DeMOS device; ESD robustness; ESD stress; LDMOS device; biasing condition; device optimization; drain-extended MOS device; electrostatic discharge; filament formation; laterally diffused MOS device; layout scheme; technology scaling; Electric fields; Electrostatic discharges; Junctions; Logic gates; Modulation; Semiconductor optical amplifiers; Space charge; Drain engineering; drain-extended MOS (DeMOS); electrostatic discharge (ESD); filamentation; laterally diffused MOS (LDMOS) SCR; moving filament; rugged LDMOS; safe operating area (SOA); space-charge modulation;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2012.2220358
