A Planar Distributed Channel AlGaN/GaN HEMT Technology

This brief presents AlGaN/GaN high electron mobility transistor (HEMT) devices with improved thermal and dc current-voltage (I-V) performance using a novel method of obtaining a distributed channel device, i.e., the total semiconductor area between the ohmic contacts comprise conducting and nonconducting regions. A novel oxygen (O-2) plasma treatment technique is used to realize the inactive or nonconducting regions. Multifinger devices with 1-mm gate periphery exhibit extremely low gate leakage currents below 0.2 mu A/mm at a gate voltage of -20 V and an increase in the saturated output current by 14% at 20-V drain voltage. Moreover, performed dc I-V measurements at various ambient temperatures show that the proposed method not only increases the saturated output currents by over 10% for 1 x 100 mu m(2) gate devices but also significantly reduces their knee walkout voltage from 6 to 3 V at 300 K. These results show that this device design approach can exploit further the potential of the GaN material system for transistor applications.