Device scaling technologies for ultra-high-speed GaN-HEMTs

69th Device Research Conference Pub Date : 2011-06-20 DOI:10.1109/DRC.2011.5994530
K. Shinohara, D. Regan, I. Milosavljevic, A. Corrion, D. Brown, S. Burnham, P. Willadsen, C. Butler, A. Schmitz, S. Kim, V. Lee, A. Ohoka, P. Asbeck, M. Micovic
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引用次数: 6

Abstract

The high frequency performance of GaN-based HEMTs has been significantly improved through innovative device scaling technologies such as AlGaN [1] or InGaN back barriers [2], thin AlN top barriers [3], lattice-matched InAlN barriers [4], ultra-short gates [5], and self-aligned gates [6]. In this paper, we review our scaling technologies for ultra-high-speed operation of GaN-HEMTs [7–10], which provide not only high yield and uniformity but also a large-scale integration of E/D-mode HEMTs for future RF and mixed-signal applications.
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超高速gan - hemt的器件缩放技术
通过AlGaN[1]或InGaN背势垒[2]、薄AlN顶势垒[3]、晶格匹配的InAlN势垒[4]、超短栅极[5]和自对准栅极[6]等创新器件缩放技术,gan基hemt的高频性能得到了显著提高。在本文中,我们回顾了gan - hemt超高速运行的缩放技术[7-10],这些技术不仅提供了高产量和均匀性,而且还为未来的RF和混合信号应用提供了E/ d模式hemt的大规模集成。
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69th Device Research Conference
69th Device Research Conference
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