A single-chip 53 GHz radiometer front-end MMIC for geostationary atmospheric measurements

2008 IEEE Radio and Wireless Symposium Pub Date : 2008-03-05 DOI:10.1109/RWS.2008.4463630

S. Gunnarsson, A. Emrich, H. Zirath, R. Kozhuharov, C. Karnfelt, J. Embretsen, C. Tegnander

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引用次数: 8

Abstract

A multi-functional single-chip 53 GHz radiometer front-end MMIC has been designed in a commercial GaAs mHEMT technology and evaluated by probed measurements. To the best of the authors' knowledge, this is the first multi-functional MMIC ever presented intended for a radiometer application. Thus, the presented MMIC represents the future in radiometer front-end design, enabling a new generation of radiometers with lower cost, weight and DC power consumption. The MMIC is intended to be used in a demonstrator for a future geostationary synthetic thinned aperture radiometer for satellite-based environmental studies of the earth. Measured results for conversion gain, RF and IF bandwidths, image rejection ratio, 1-dB compression point, input referred third order intercept point (IIP3), LO saturation, and noise figure are presented and discussed. A study of the influence of benzocyclobutene (BCB) as a dielectric coating used for surface passivation on the measured RF performance is also performed. Furthermore, the very important issue of phase stability versus temperature and time was also investigated.

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用于地球静止大气测量的单芯片53 GHz辐射计前端MMIC

采用商用GaAs mHEMT技术设计了一种多功能单芯片53 GHz辐射计前端MMIC，并通过探头测量进行了评估。据作者所知，这是有史以来第一个多功能MMIC，用于辐射计应用。因此，所提出的MMIC代表了辐射计前端设计的未来，使新一代辐射计具有更低的成本、重量和直流功耗。MMIC打算用于未来地球静止合成细孔径辐射计的演示，用于基于卫星的地球环境研究。给出并讨论了转换增益、RF和IF带宽、图像抑制比、1db压缩点、输入参考三阶截距点(IIP3)、LO饱和度和噪声系数的测量结果。研究了苯并环丁烯(BCB)作为介质涂层用于表面钝化对所测射频性能的影响。此外，还研究了相稳定性随温度和时间的变化。

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2008 IEEE Radio and Wireless Symposium

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