Schottky-clamped NMOS transistors implemented in a conventional0.8-μm CMOS process

An 0.8-μm n-channel MOSFET with a TiSi₂-Si Schottky clamped drain-to-body junction (SCDR) and an n⁺ implanted standard source structure have been fabricated in a conventional 0.8-μm salicide CMOS process without any process modifications. The SCDR should be useful for reducing susceptibility for latch-up in integrated CMOS RF power amplifiers and switches where drain to p-substrate junctions can be forward biased during normal operations. Output I-V characteristics of the devices are the same as those of conventional MOSFETs, while parasitic lateral n⁺-drain/p-substrate/n⁺-source bipolar transistor measurements showed significantly reduced current gains because the Schottky barrier diode which does not inject minority carriers (electrons) to the p-substrate base clamps the n⁺ drain-to-p-substrate guard-ring diode connected in parallel