A dynamic body discharge technique for SOI circuit applications

Abstract

It has been reported (Kuang et al., 1997; Lu et al., 1997) that SOI passgate circuits suffer history effects and adverse initial-cycle parasitic bipolar currents, which cause difficulties in circuit timing and limit direct design reuse from original bulk circuits. SOI device body history can also induce transfer characteristics mismatch in dual-railed static or dynamic CMOS circuits, resulting in speed degradation or functional failures. This paper describes an efficient technique to alleviate initial-cycle bipolar currents while retaining the low-V/sub t/ floating body feature when the SOI devices concerned are on. We also present a dynamic body discharge technique to eliminate the mismatch problems in cross-coupled SOI CMOS topologies, for use in a variety of circuit families such as cascade voltage switch logic, latch-type sense amplifiers and analog operational amplifiers.