改进的无表面钝化的高功率厚氮化镓覆盖的AlGaN/GaN hemt

Conference Digest [Includes 'Late News Papers' volume] Device Research Conference, 2004. 62nd DRC. Pub Date : 2004-06-21 DOI:10.1109/DRC.2004.1367773

L. Shen, D. Buttari, S. Heikman, A. Chini, R. Coffie, L. McCarthy, A. Chakraborty, S. Keller, S. Denbaars, U. Mishra

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引用次数: 4

摘要

在没有钝化的情况下，利用外延方法实现了蓝宝石上创纪录的高功率密度。SiN钝化已被用于降低gan基hemt的dc - rf色散，但对表面和沉积条件很敏感。一种建议的外延解决方案是在传统HEMT上生长一层厚的GaN帽，以增加表面和通道之间的距离，减少表面电位波动对器件性能的影响。栅极凹槽结构的初步结果表明，在没有表面钝化的情况下，色散大大降低。然而，高漏极和低击穿限制了输出功率。我们调查这些泄漏和击穿问题的原因，提出解决方案，并讨论结果。因此，蓝宝石上未钝化的hemt在50v, 4ghz下实现了8.5 W/mm, PAE为57%，这是目前报道的最高功率密度。

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Improved high power thick-GaN-capped AlGaN/GaN HEMTs without surface passivation

A record high power density on sapphire without passivation was achieved using an epitaxial approach to dispersion reduction. SiN passivation has been employed to reduce DC-to-RF dispersion of GaN-based HEMTs, but is sensitive to surface and deposition conditions. A proposed epitaxial solution is to grow a thick GaN cap on top of the conventional HEMT to increase the distance between surface and channel, reducing the effect of surface potential fluctuations on device performance. Initial results from a gate-recessed device structure showed that dispersion was reduced greatly without surface passivation. Nevertheless, high gate leakage and low breakdown limited the output power. We investigate the cause of these leakage and breakdown issues, propose solutions, and discuss the results. As a consequence, 8.5 W/mm with a PAE of 57% was achieved at 50 V at 4 GHz from unpassivated HEMTs on sapphire, the highest power density reported.

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Conference Digest [Includes 'Late News Papers' volume] Device Research Conference, 2004. 62nd DRC.

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