Title :
Performance enhancement by using the n/sup +/-GaN cap layer and gate recess technology on the AlGaN-GaN HEMT fabrication
Author :
Wen-Kai Wang ; Po-Chen Lin ; Ching-Huao Lin ; Cheng-Kuo Lin ; Yi-Jen Chan ; Guan-Ting Chen ; Chyi, J.-I.
Author_Institution :
Dept. of Electr. Eng., Nat. Central Univ., Chungli, Taiwan
Abstract :
Due to the low mobility and wide bandgap characteristics of the undoped AlGaN layer used in the conventional AlGaN-GaN HEMT as a cap layer, the RF performance of this device will be limited by its high contact resistance and high knee voltage. We propose using the n/sup +/-GaN cap layer and the selective gate recess etching technology on the AlGaN-GaN HEMTs fabrication. With this n/sup +/-GaN instead of the undoped AlGaN as a cap layer, the device contact resistance is reduced from 1.0 to 0.4 /spl Omega//spl middot/mm. The 0.3 μm gate-length device demonstrates an I/sub ds,max/ of 1.1 A/mm, a g/sub m,max/ of 220 mS/mm, an fT of 43 GHz, an fmax of 68 GHz, and an output power density of 4 W/mm at 2.4 GHz.
Keywords :
III-V semiconductors; high electron mobility transistors; semiconductor technology; sputter etching; 0.3 micron; 43 GHz; 68 GHz; AlGaN-GaN; AlGaN-GaN HEMT fabrication; device contact resistance; n/sup +/-GaN cap layer; output power density; reactive ion etching; selective gate recess etching technology; undoped AlGaN layer; Aluminum gallium nitride; Contact resistance; Etching; Fabrication; HEMTs; Knee; Photonic band gap; Power generation; Radio frequency; Voltage; AlGaN–GaN HEMTs; reactive ion etching (RIE) recess etching;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.840395
