Author:
Waltereit Patrick,Bronner Wolfgang,Quay Rüdiger,Dammann Michael,Kiefer Rudolf,Pletschen Wilfried,Müller Stefan,Aidam Rolf,Menner Hanspeter,Kirste Lutz,Köhler Klaus,Mikulla Michael,Ambacher Oliver
Abstract
We present an overview on epitaxial growth, processing technology, device performance, and reliability of our GaN high electron mobility transistors (HEMTs) manufactured on 3- and 4-in. SiC substrates. Epitaxy and processing are optimized for both performance and reliability. We use three different gate lengths, namely 500 nm for 1–6 GHz applications, 250 nm for devices between 6 and 18 GHz, and 150 nm for higher frequencies. The developed HEMTs demonstrate excellent high-voltage stability, high power performance, and large DC to RF conversion efficiencies for all gate lengths. On large gate width devices for base station applications, an output power beyond 125 W is achieved with a power added efficiency around 60% and a linear gain around 16 dB. Reliability is tested both under DC and RF conditions with supply voltage of 50 and 30 V for 500 and 250 nm gates, respectively. DC tests on HEMT devices return a drain current change of just about 10% under IDQ conditions. Under RF stress the observed change in output power density is below 0.2 dB after more than 1000 h for both gate length technologies.
Publisher
Cambridge University Press (CUP)
Subject
Electrical and Electronic Engineering
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