Ana M. Yepes scite author profile

Ana M. Yepes

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5Publications

29Citation Statements Received

33Citation Statements Given

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Affiliations

Georgia Institute of Technology

Publications

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A Lightweight Organic X-Band Active Receiving Phased Array With Integrated SiGe Amplifiers and Phase Shifters

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et al. 2011

IEEE Trans. Antennas Propagat.

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This paper presents for the first time an X-band antenna array with integrated silicon germanium low noise amplifiers (LNA) and 3-bit phase shifters (PS). LNAs and PSs were successfully integrated onto an 8 2 lightweight antenna utilizing a multilayer liquid crystal polymer (LCP) feed substrate laminated with a duroid antenna layer. A baseline passive 8 2 antenna is measured along with a SiGe integrated 8 2 receive antenna for comparison of results. The active antenna array weighs only 3.5 ounces and consumes 53 mW of dc power. Successful comparisons of the measured and simulated results verify a working phased array with a return loss better than 10 dB across the frequency band of 9.25 GHz-9.75 GHz. A comparison of radiation patterns for the 8 2 baseline antenna and the 8 2 SiGe integrated antenna show a 25 dB increase in gain (1 ). The SiGe integrated antenna demonstrated a predictable beam steering capability of 41 . Combined antenna and receiver performance yielded a merit of 9 1 dB K and noise figure of 5.6 dB.

Integrated, digitally controlled, 64-element SiGe on multilayer organic X-band phased-array receiver antenna for snow measurements

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et al. 2013

IEEE Aerosp. Electron. Syst. Mag.

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Multilayer organic X-band antenna arrays using Wilkinson power dividers with embedded thin film resistors

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2010

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A lightweight X-band organic antenna array with integrated SiGe amplifier

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et al. 2010

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Implementation of a low cost, lightweight X-band antenna with integrated SiGe RF electronics

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et al. 2010

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This paper presents an organic, lightweight X-band antenna array with integrated silicon germanium (SiGe) low noise amplifiers (LNA) and 3-bit phase shifters (PS). The SiGe LNAs and PSs were successfully integrated onto an 8x1 lightweight antenna stack-up utilizing a multilayer liquid crystal polymer (LCP) substrate. Successful comparisons of the measured and simulated results verify a working antenna array with a return loss of around 10 dB across the frequency band of 9.25 GHz -9.75 GHz. A comparison of radiation patterns for the 8x1 antenna with integrated SiGe LNA and the 8x1 antenna with integrated SiGe LNA and PS show a 16 dB and 25 dB increase in gain, respectively. The ultimate goal is to develop an airborne X-band radar capable of a beam steering of at least ±40° through utilization of low power highly integrated SiGe electronics on a low cost multi-layer organic platform. This paper represents the first successful demonstration of a building block prototype (i.e., a fully integrated, high gain X-band antenna with SiGe LNAs and SiGe phase shifters) that can be expanded to a complete active phased array for remote sensing applications in X-band.

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