Journal
SEMICONDUCTOR SCIENCE AND TECHNOLOGY
Volume 36, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/1361-6641/abc8ad
Keywords
GaN high electron mobility transistors; GaN-on-SiC; GaN-on-diamond; thermal modeling
Categories
Funding
- Office of Naval Research
- Texas Instruments
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The study presents full thermal characterization of GaN power devices with different substrates to manage performance-limiting self-heating by utilizing an innovative reverse modeling approach. It compares the thermal properties of HEMTs on Si, SiC, and Diamond substrates and provides conclusions to guide further developments in GaN HEMT thermal management strategies.
Gallium nitride (GaN) high electron mobility transistors (HEMTs) operate at high power levels and are thus especially thermally-critical devices. Not only do they require innovative thermal management strategies, but can also benefit from advanced experimental thermal characterization, both numerical and experimental, in their design and system integration stages. The thermal numerical analysis of microelectronic devices faces the challenges of complex physics and uncertain thermophysical properties which leads to numerically expensive models that are prone to error. By the use of an innovative reverse modeling approach to mitigate the above challenges, this work presents the full thermal characterization of GaN power devices with different substrates aimed at managing performance-limiting self-heating. The approach develops and optimizes a thermal simulation model to match the numerical results to experimentally-obtained thermal maps of the devices under test. The experimentally-optimized simulation model can then be used to extract full 3D temperature distributions, infer in-situ thermal properties, and provide a numerical platform that can be used to conduct further parametric studies and design iterations. The presented analysis provides a full thermal characterization of different GaN HEMT devices and compares the thermal performance of different substrates on the basis of thermal properties. The extracted properties for HEMTs on Si, SiC, and Diamond substrates are compared and a set of conclusions are presented to guide further developments in GaN HEMT thermal management strategies.
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