Title :
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
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);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2009.2024013
