Resumen de Design and optimization of LDMOS-SCR devices with improved ESD protection performance
Hailian Liang, Huafeng Cao, Xiaofeng Gu, Zixiang Guo
Abstract The lateral diffusion metal-oxide semiconductor embedded silicon controlled rectifier (LDMOS-SCR) devices with optimized structures and layouts for improving the electrostatic discharge (ESD) protection ability have been proposed. The devices are designed and fabricated in 0.25-μm, 0.35-μm and 0.5-μm Bipolar-CMOS-DMOS processes. Firstly, by designing an appropriate stripe resistance in series with the source of the LDMOS-SCR, the holding voltage of the proposed high resistance LDMOS-SCR (HRLDMOS-SCR) increases. Secondly, by inserting a floating Zener-diode into the LDMOS-SCR, the trigger voltage of the modified Zener-diode triggered LDMOS-SCR (ZTLDMOS-SCR) decreases. Finally, the ZTLDMOS-SCR is further optimized by using a ring layout and incorporating a square source resistance, resulting in a significantly improved figure of merit in comparison to traditional LDMOS-SCR devices. The optimized ZTLDMOS-SCR devices are very attractive for constructing effective and latch-up immune high voltage ESD protection solutions in power integrated circuits.
