ETRI-Knowledge Sharing Plaform

ENGLISH

성과물

논문 검색
구분 SCI
연도 ~ 키워드

상세정보

학술지 Simulation and Fabrication Studies of Semi-SuperJunction Trench Power MOSFETs by RSO Process with Silicon Nitride Layer
Cited 12 time in scopus Download 0 time Share share facebook twitter linkedin kakaostory
저자
나경일, 김상기, 구진근, 김종대, 양일석, 이진호
발행일
201212
출처
ETRI Journal, v.34 no.6, pp.962-965
ISSN
1225-6463
출판사
한국전자통신연구원 (ETRI)
DOI
https://dx.doi.org/10.4218/etrij.12.0212.0127
협약과제
11MB2200, BLDC 모터용 고전압/대전류 파워모듈 및 ESD기술개발, 양일석
초록
In this letter, we propose a new RESURF stepped oxide (RSO) process to make a semi-superjunction (semi-SJ) trench double-diffused MOSFET (TDMOS). In this new process, the thick single insulation layer (SiO2) of a conventional device is replaced by a multilayered insulator (SiO 2/SiNx/TEOS) to improve the process and electrical properties. To compare the electrical properties of the conventional RSO TDMOS to those of the proposed TDMOS, that is, the nitride-RSO TDMOS, simulation studies are performed using a TCAD simulator. The nitride-RSO TDMOS has superior properties compared to those of the RSO TDMOS, in terms of drain current and on-resistance, owing to a high nitride permittivity. Moreover, variations in the electrical properties of the nitride-RSO TDMOS are investigated using various devices, pitch sizes, and thicknesses of the insulator. Along with an increase of the device pitch size and the thickness of the insulator, the breakdown voltage slowly improves due to a vertical field plate effect; however, the drain current and on-resistance degenerate, owing to a shrinking of the drift width. The nitride-RSO TDMOS is successfully fabricated, and the blocking voltage and specific on-resistance are 108 V and 1.1 m廓cm2, respectively. © 2012 ETRI.
키워드
Power MOSFET, Semi-SJ, Superjunction (SJ), TDMOS
KSP 제안 키워드
Blocking voltage, Breakdown voltage(BDV), Drain current, Field Plate, Insulation layer, Nitride layer, SiO 2, Silicon Nitride, Simulation study, electrical properties(I-V curve), simulation and fabrication