A Low-Voltage Lateral SJ-FINFET With Deep-Trench p-Drift Region

Author

Yoo, Abraham ; Onish, Yasuhiko ; Xu, Edward ; Ng, Wai Tung

Author_Institution

Samsung Electron. Co., Ltd., Giheung, South Korea

Volume

30

Issue

8

fYear

2009

Firstpage

858

Lastpage

860

Abstract

A novel device structure that is suitable for practical implementation of lateral superjunction FINFET (SJ-FINFET) on a silicon-on-insulator platform is proposed for sub-200-V rating power applications. The SJ-FINFET structure with heavily doped alternating U-shaped n/p pillars is introduced to minimize both channel and drift resistances and to mitigate electron current crowding near the top of n-drift region. The proposed device structure exhibits low R _on, _sp with voltage ratings below 200 V. The optimal device characteristics were validated by a 3-D numerical device simulator, ISE-DESSIS. The simulations with trench depths of 2 and 3 mum were analyzed for several different drift lengths and found to be able to overcome the Si limit with the breakdown voltages of 165 and 90 V, respectively.

Keywords

power MOSFET; power integrated circuits; silicon-on-insulator; ISE-DESSIS; breakdown voltage; deep-trench p-drift region; low-voltage lateral SJ-FINFET; silicon-on-insulator; size 2 micron; size 3 micron; superjunction; voltage 165 V; voltage 90 V; Breakdown voltage (BV); FINFET; power MOSFETs; silicon on insulator (SOI); specific on-resistance; sub-200 V; superjunction (SJ);

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2009.2024013

Filename

5161327