Interdependence of Electronic and Thermal Transport in AlxGa1–xN Channel HEMTs

Authors :: Eric R. Heller
Asegun Henry
Andrew A. Allerman
Alexej Pogrebnyakov
Venkatraman Gopalan
Disha Talreja
Yiwen Song
Daniel Shoemaker
Hamid Reza Seyf
Joan M. Redwing
Sukwon Choi
Bikramjit Chatterjee
James Spencer Lundh
Robert Kaplar
Christopher B. Saltonstall
Albert G. Baca
Thomas E. Beechem
Andrew M. Armstrong
Brian M. Foley
Brianna Klein
Anushka Bansal
Source :: IEEE Electron Device Letters. 41:461-464
Publication Year :: 2020
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2020.
Abstract: Aluminum gallium nitride (AlGaN) high electron mobility transistors (HEMTs) are candidates for next-generation power conversion and radio frequency (RF) applications. AlxGa1-xN channel HEMT devices (x = 0.3, x = 0.7) were investigated using multiple in-situ thermal characterization methods and electro-thermal simulation. The thermal conductivity, contact resistivity, and channel mobility were characterized as a function of temperature to understand and compare the heat generation profile and electro-thermal transport within these devices. In contrast to GaN-based HEMTs, the electrical output characteristics of Al0.70Ga0.30 N channel HEMTs exhibit remarkably lower sensitivity to the ambient temperature rise. Also, during 10kHz pulsed operation, the difference in peak temperature between the AlGaN channel HEMTs and GaN HEMTs reduced significantly.