Record gain at 3.1Â GHz of 4H-SiC high power RF MESFET

In this paper, a very high gain 4H-SiC power MESFET with incorporation of L-gate and source field plate (LSFP-MESFET) structures for high power and RF applications is proposed. The influence of L-gate and source field plate structures on saturation current, breakdown voltage (Vb) and small-signal characteristics of the LSFP-MESFET was studied by numerical device simulation. The optimized results showed that Vb of the LSFP-MESFET is 91% larger than that of the 4H-SiC conventional MESFET (C-MESFET), which meanwhile maintains almost 77% higher saturation drain current characteristics. The maximum output power densities of 21.8 and 5.5 W/mm are obtained for the LSFP-MESFET and C-MESFET, respectively, which means about 4 times larger output power for the proposed device. Also, the cut-off frequency (fT) of 23.1 GHz and the maximum oscillation frequency (fmax) of 85.3 GHz for the 4H-SiC LSFP-MESFET are obtained compared to 9.4 and 36.2 GHz for that of the C-MESFET structure, respectively. The proposed LSFP-MESFET shows a new record maximum stable gain exceeding 22.7 dB at 3.1 GHz, which is 7.6 dB higher than that of the C-MESFET. To the best of our knowledge, this is 2.5 dB greater than the highest gain yet reported for SiC MESFETs, showing the potential of this device for high power RF applications.