For power switching applications, it is necessary to reduce the on-resistance to minimize the power losses and input capacitance. Therefore, AlGaN/GaN HEMTs is suitable for high power application due to high breakdown voltage and high mobility provided by the 2-DEG further reduces the on-resistance, together with the high channel density brought by the large band discontinuity and the polarization field. A HEMT structure also leads to low input capacitance, because the 2-DEG can be generated without doping the AlGaN layer. Furthermore, by double Electron beam lithography and etching, 3-D structure HEMTs that increase the area between gate and channel has been successfully fabricated. The 3-D tri-gate structure, which has better electrostatic control compared to planar-type transistors, especially for the short-channel case, not only is used for the suppression of short channel effects such as subthreshold swing (SS) and drain-induced barrier lowering (DIBL), but also offering the potential of very low on-resistance and higher switching speed This study would focus on the device fabrication of trigate AlGaN/GaN HEMTs with low ON resistance, low subthreshold swing and high ON-OFF ratio for power switch applications. In order to do so, our goal is to find optimized condition of trigate AlGaN/GaN HEMTs with variable etching depth, fin width and drain-source spacing.