Title :
Thermal and trapping effects in GaN-based MESFETs
Author :
Islam, Syed S. ; Anwar, A.F.M.
Author_Institution :
Dept. of Electr. & Comput. Eng., Connecticut Univ., Storrs, CT, USA
Abstract :
RF power performances of GaN-MESFETs are reported using a physics-based model that incorporates dispersion in the output resistance and transconductance due to traps and thermal effects. Calculated I-V characteristics are in excellent agreement with the measured results. Taking thermal effects into account, the maximum output power of a 0.3 μm×100 μm GaN MESFET is 22 dBm at a power gain of 4.2 dB at 4 GHz. The corresponding quantities are 27 dBm and 6.4 dB, respectively if a constant channel temperature of 300 K is assumed. At elevated temperatures, compression in output power, gain and PAE is less in MESFETs with longer gate lengths.
Keywords :
III-V semiconductors; Volterra series; electron traps; gallium compounds; microwave field effect transistors; microwave power transistors; power MESFET; semiconductor device models; thermal stability; wide band gap semiconductors; 0.3 micron; 100 micron; 300 K; 4 GHz; 4.2 dB; 6.4 dB; GaN; GaN-based MESFET thermal/trapping effects; I-V characteristics; MESFET RF power performance; MESFET gain/PAE; MESFET power gain; Volterra series techniques; channel temperature; gate lengths; maximum output power; output resistance dispersion; physics-based models; power transistors; thermal stability; traps/thermal effects transconductance; Dispersion; Electrical resistance measurement; Gain; Gallium nitride; MESFETs; Power generation; Radio frequency; Temperature; Thermal resistance; Transconductance;
Conference_Titel :
High Performance Devices, 2002. Proceedings. IEEE Lester Eastman Conference on
Print_ISBN :
0-7803-7478-9
DOI :
10.1109/LECHPD.2002.1146738
