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High Power SiC MESFETs

  • Christopher Harris (a1), Andrei O Konstantinov (a2), Jan-Olov Svedberg (a3), Ian Ray (a4) and Christer Hallin (a5)...

Abstract

The development of high power, high efficiency silicon carbide RF MESFETs is reported. High power densities of over 3W/mm have been measured for devices with total power output in excess of 25W. The devices have been fabricated using a novel lateral epitaxy technique. The MESFET employs a buried p-type depletion stopper in order to suppress short channel effects and increase the operation voltage. The use of the depletion stopper also allows high RF signal gain, while maintaining high voltage operation capability. Single-cell components measured on-wafer demonstrate an Ft of 10 GHz and a high unilateral gain.

Packaged 6-mm RF transistors have been evaluated using amplifier circuits designed for operation in classes A, AB or C. Operation in class AB demonstrated a saturated power of 20 W and a P1dB of 15W with a linear gain of over 16 dB at Vdd of 60 V for 2.25 GHz operation. Maximum drain efficiency is 56% for class AB operation, 48% at 1 dB compression point and 72% for class C at 2.25 GHz.

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[1] Konstantinov, A., Ericsson, P. and Harris, C.I.: Mater. Sci Forum Vol. 389–393, (2001) p. 375
[2] Harris, C. and Konstantinov, A.: US patent 6,127,695.

Keywords

High Power SiC MESFETs

  • Christopher Harris (a1), Andrei O Konstantinov (a2), Jan-Olov Svedberg (a3), Ian Ray (a4) and Christer Hallin (a5)...

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