InAlN/GaN-on-Si HEMT, 4.5 W/mm, 200 mm cmos兼容MMIC工艺,用于3D集成

Shireen Warnock, Chang-Lee Chen, Jeffrey Knechtl, R. Molnar, D. Yost, M. Cook, C. Stull, Ryan Johnson, C. Galbraith, J. Daulton, Weilin Hu, G. Pinelli, J. Perozek, T. Palacios, Beijia Zhang, J. Herd, C. Keast
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引用次数: 10

摘要

在本文中,我们提出了一种在直径200mm晶圆上完全兼容cmos的GaN-on-Si单片微波集成电路(mmic)的制造工艺。该工艺还可以实现GaN mmic与Si CMOS电路的晶圆级3D集成,以提高性能和功能,同时减小尺寸、重量、功耗和成本。我们展示了我们在全3D集成方面的进展,包括讨论GaN HEMT制造和与Si CMOS晶圆的键合。通过使用InA1N势垒层,我们展示了GaN-on-Si HEMT输出功率为4.5 W/mm,在10 GHz时PAE为53%。
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InAlN/GaN-on-Si HEMT with 4.5 W/mm in a 200-mm CMOS-Compatible MMIC Process for 3D Integration
In this paper we present a fully CMOS-compatible fabrication process for GaN-on-Si monolithic microwave integrated circuits (MMICs) on 200-mm-diameter wafers. This process also enables wafer-level 3D integration of GaN MMICs with Si CMOS circuits to enhance performance and functionality while reducing the size, weight, power, as well as the cost. We demonstrate our progress towards full 3D integration, including a discussion on GaN HEMT fabrication and bonding with a Si CMOS wafer. With the use of an InA1N barrier layer we show a GaN-on-Si HEMT output power of 4.5 W/mm and PAE of 53% at 10 GHz.
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