Title :
An Ultralow Specific ON-Resistance LDMOST Using Charge Balance by Split p-Gate and n-Drift Regions
Author :
Xinjiang Lyu ; Xingbi Chen
Author_Institution :
State Key Lab. of Electron. Thin Films & Integrated Devices of China, Univ. of Electron. Sci. & Technol. of China, Chengdu, China
Abstract :
A laterally diffused metal-oxide-semiconductor transistor (LDMOST) with ultralow specific ON-resistance (Rsp) is studied. In the OFF-state, the split p-type gate is depleted to achieve charge compensation with the n-type drift region, allowing a high n-drift doping. In the ON-state, holes accumulate in the split p-gate because the gate voltage (VG) applied induces simultaneously electron accumulation in the n-type drift region, enabling the on-current density to be not limited by the drift doping concentration and resulting in an ultralow value of Rsp. Moreover, the accumulated hole charges are stored in a capacitor during the turn-off process and are restored during the turn-on process, without an increase of the effective gate charge (Qg). Simulation results show good agreement with the theory. A 600 V device has an Rsp of <;50% of the conventional double-RESURF LDMOST with the effective Qg being almost the same.
Keywords :
MOSFET; charge compensation; current density; electric resistance; semiconductor doping; LDMOST; capacitor; charge balance; charge compensation; doping concentration; electron accumulation; laterally diffused metal-oxide-semiconductor transistor; n-drift doping; n-type drift region; on-current density; split p-type gate; turn-off process; turn-on process; ultralow specific ON-resistance; voltage 600 V; Charge carrier processes; Doping; Electric breakdown; Electrodes; Logic gates; Resistance; Switches; Electron accumulation; gate charge; laterally diffused metal–oxide–semiconductor transistor; specific ON-resistance; split gate;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2283426
