A novel partial SOI LDMOSFET with a trench and buried P layer for breakdown voltage improvement

Abstract In this paper for the first time, a partial silicon-on-insulator (PSOI) lateral double-diffused metal-oxide-semiconductor-field-effect-transistor (LDMOSFET) is proposed with a novel trench which improves breakdown voltage. The introduced trench in the partial buried oxide enhances peak of the electric field and is positioned in the drain side of the drift region to maximize breakdown voltage. We demonstrate that the electric field is modified by producing two additional electric field peaks, which decrease the common peaks near the drain and gate junctions in the trench-partial-silicon-on-insulator (T-PSOI) structure. Hence, a more uniform electric field is obtained. Two dimensional (2D) simulations show that the breakdown voltage of T-PSOI is nearly 64% higher in comparison with partial silicon on insulator (PSOI) structure and alleviate self heating effect approximately 9% and 15% in comparison with its conventional PSOI (C-PSOI) and conventional SOI (C-SOI) counterparts respectively. In addition the current of the T-PSOI, C-PSOI, conventional SOI (C-SOI), and fully depleted conventional SOI (FC-SOI) structures are 90, 82, 74, and 44 μA, respectively for a drain–source voltage V DS  = 30 V and gate–source voltage V GS  = 10 V.