High temperature, high current, 4H-SiC Accu-DMOSFET

被引:10
|
作者
Singh, R [1 ]
Ryu, SH [1 ]
Palmour, JW [1 ]
机构
[1] Cree Res Inc, Durham, NC 27703 USA
来源
SILICON CARBIDE AND RELATED MATERIALS - 1999 PTS, 1 & 2 | 2000年 / 338-3卷
关键词
accumulation layer; high power; high temperature; MOSFET;
D O I
10.4028/www.scientific.net/MSF.338-342.1271
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Planar 4H-SiC Accu-DMOSFETs have been designed, fabricated and characterized, and the highest reported current >1 Amp) for this type of device was achieved at both room temperature and 350 degreesC. The highest breakdown voltage obtained on a 1200 m Omega -cm(2) device was 904 V. The specific on-resistance obtained on another 439 V device was measured to be 90 m Omega -cm(2) and the accumulation layer mobility is estimated to be in the 5 to 8 cm(2)/V-sec range. The temperature variation of on-resistance, channel mobility and threshold voltage is also presented.
引用
收藏
页码:1271 / 1274
页数:4
相关论文
共 50 条
  • [31] 10 kV, 5A 4H-SiC power DMOSFET
    Ryu, Sei-Hyung
    Krishnaswami, Sumi
    Hull, Brett
    Richmond, James
    Agarwal, Anant
    Hefner, Allen
    PROCEEDINGS OF THE 18TH INTERNATIONAL SYMPOSIUM ON POWER SEMICONDUCTOR DEVICES & ICS, 2006, : 265 - +
  • [32] 6.5 kV,25 A 4H-SiC功率DMOSFET器件
    李士颜
    刘昊
    黄润华
    陈允峰
    李赟
    柏松
    杨立杰
    固体电子学研究与进展, 2019, 39 (01) : 77 - 77
  • [33] 1200 V 4H-SiC DMOSFET with an Integrated Gate Buffer
    Ryu, S.
    Jonas, C.
    Capell, C.
    Lemma, Y.
    Agarwal, A.
    McNutt, T.
    Grider, D.
    Allen, S.
    Palmour, J.
    SILICON CARBIDE AND RELATED MATERIALS 2013, PTS 1 AND 2, 2014, 778-780 : 939 - +
  • [34] 4H-SiC integrated circuits for high-temperature applications
    Zhenyu, Tang
    Xiaoyan, Tang
    Yimeng, Zhang
    Pu, Zhao
    Yuyin, Sun
    Yuming, Zhang
    JOURNAL OF CRYSTAL GROWTH, 2023, 605
  • [35] High temperature characterization of 4H-SiC bipolar junction transistors
    Krishnaswami, Sumi
    Agarwal, Anant
    Richmond, James
    Capell, Craig
    Ryu, Sei-Hyung
    Palmour, John
    Geil, Bruce
    Katsis, Dimosthenis
    Scozzie, Charles
    SILICON CARBIDE AND RELATED MATERIALS 2005, PTS 1 AND 2, 2006, 527-529 : 1437 - 1440
  • [36] Cryogenic and High Temperature Performance of 4H-SiC Power MOSFETs
    Chen, Sizhe
    Cai, Chaofeng
    Wang, Tao
    Guo, Qing
    Sheng, Kuang
    2013 TWENTY-EIGHTH ANNUAL IEEE APPLIED POWER ELECTRONICS CONFERENCE AND EXPOSITION (APEC 2013), 2013, : 207 - 210
  • [37] High temperature 4H-SiC FET for gas sensing applications
    Savage, SM
    Konstantinov, A
    Saroukhan, AM
    Harris, CI
    SILICON CARBIDE AND RELATED MATERIALS - 1999 PTS, 1 & 2, 2000, 338-3 : 1431 - 1434
  • [38] Physical Modeling of Charge Trapping in 4H-SiC DMOSFET Technologies
    Schleich, Christian
    Waldhoer, Dominic
    Waschneck, Katja
    Feil, Maximilian W.
    Reisinger, Hans
    Grasser, Tibor
    Waltl, Michael
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 2021, 68 (08) : 4016 - 4021
  • [39] 3.3 kV 4H-SiC DMOSFET with a source-contacted dummy gate for high-frequency applications
    Kyuhyun Cha
    Kwangsoo Kim
    Journal of Semiconductors, 2021, 42 (06) : 58 - 64
  • [40] Analysis of 4H-SiC MOSFET with distinct high-k/4H-SiC interfaces under high temperature and carrier-trapping conditions
    H. Bencherif
    F. Pezzimenti
    L. Dehimi
    F. G. Della Corte
    Applied Physics A, 2020, 126
12345