Abstract

ABSTRACTIn this paper, we propose a design concept of integration of trench-based power and low voltage small signal metal-oxide-semiconductor field-effect transistors (MOSFETs) on high mobility InGaAs material. A high power dual-trench-gate (DTG) MOSFET and a low voltage MOSFET are implemented side by side in same InGaAs epitaxial layer using junction isolation technique. The high voltage DTG-MOSFET has two gates which are placed in oxide-filled trenches in the drift region. This structure provides a better trade-off between specific on-resistance (Ron−sp) and breakdown voltage (Vbr) due to the formation of dual conduction channels and enhancement in reduced-surface-field (RESURF) effect caused by folding of the drift region in the vertical direction. Further, simultaneous conduction of channels increases the drain current (ID) and transconductance (gm) leading to better cut-off frequency (ft) and maximum oscillation frequency (fmax). On the other hand, the gate of low voltage MOSFET is placed in an oxide trench to make two n-channels in the p-base. The parallel conduction of two channels gives substantial improvement in ID, peak gm, ft and fmax with good control over the short channel effects. Two-dimensional simulations are carried out to evaluate the performance of both high voltage and low voltage MOSFETs.

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