Title :
Improved Thermal Performance of AlGaN/GaN HEMTs by an Optimized Flip-Chip Design
Author :
Das, Jo ; Oprins, Herman ; Ji, Hangfeng ; Sarua, Andrei ; Ruythooren, Wouter ; Derluyn, Joff ; Kuball, Martin ; Germain, Marianne ; Borghs, Gustaaf
Author_Institution :
Interuniv. Microelectron. Center, Leuven
Abstract :
AlGaN/GaN high electron mobility transistors (HEMT) on sapphire substrates have been studied for their potential application in RF power applications; however, the low thermal conductivity of the sapphire substrate is a major drawback. Aiming at RF system-in-a-package, the authors propose a flip-chip-integration approach, where the generated heat is dissipated to an AlN carrier substrate. Different flip-chip-bump designs are compared, using thermal simulations, electrical measurements, micro-Raman spectroscopy, and infrared thermography. The authors show that a novel bump design, where bumps are placed directly onto both source and drain ohmic contacts, improves the thermal performance of the HEMT
Keywords :
III-V semiconductors; Raman spectroscopy; aluminium compounds; flip-chip devices; gallium compounds; high electron mobility transistors; infrared imaging; ohmic contacts; system-in-package; thermal conductivity; wide band gap semiconductors; AlGaN-GaN; RF system-in-a-package; electrical measurements; flip-chip bump; flip-chip integration; high electron mobility transistors; infrared thermography; micro-Raman spectroscopy; ohmic contacts; optimized flip-chip design; thermal conductivity; thermal performance; thermal simulations; Aluminum gallium nitride; Design optimization; Electric variables measurement; Gallium nitride; HEMTs; Infrared spectra; MODFETs; Radio frequency; Spectroscopy; Thermal conductivity; FET; GaN; III-nitrides; flip chip; high electron mobility transistors (HEMT); micro-Raman; self-heating;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.883944
