论文信息 - First report of scaling a normally-off in-situ oxide, GaN interlayer based vertical trench MOSFET (OG-FET)

First report of scaling a normally-off in-situ oxide, GaN interlayer based vertical trench MOSFET (OG-FET)

GaN lateral transistors (HEMTs) continue to penetrate the power electronics market demonstrating excellent performance in the medium power applications. However, for power applications 10kW and higher, vertical GaN devices are preferred over lateral one, since the former offers higher current and power densities. To date, several different vertical transistor structures have been proposed and reported, such as in-situ oxide based vertical trench MOSFET with an undoped GaN interlayer as a channel (OGFET) [1, 2], current aperture vertical electron transistors (CAVETs) [3, 4], junction field effect transistors (JFETs) [5, 6] and MOSFETs [7, 8]. Gupta et al. have demonstrated the high performance OGFET with low specific on-state resistance (Ron, sp) recently [1]. This study presents the large device scaling of the OGFET to realize high output current.

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[2] U. Mishra,et al. In Situ Oxide, GaN Interlayer-Based Vertical Trench MOSFET (OG-FET) on Bulk GaN substrates , 2017, IEEE Electron Device Letters.

[3] U. Mishra,et al. OG-FET: An In-Situ ${O}$ xide, ${G}$ aN Interlayer-Based Vertical Trench MOSFET , 2016, IEEE Electron Device Letters.

[4] Yu Cao,et al. 600 V/ $1.7~\Omega$ Normally-Off GaN Vertical Trench Metal–Oxide–Semiconductor Field-Effect Transistor , 2016, IEEE Electron Device Letters.

[5] N. Collaert,et al. An Investigation on Border Traps in III–V MOSFETs With an In0.53Ga0.47As Channel , 2015, IEEE Transactions on Electron Devices.

[6] B. Jayant Baliga,et al. Fundamentals of Power Semiconductor Devices , 2008 .

[7] U. Mishra,et al. Enhancement and Depletion Mode AlGaN/GaN CAVET With Mg-Ion-Implanted GaN as Current Blocking Layer , 2008, IEEE Electron Device Letters.