2012
DOI: 10.1109/jssc.2012.2209775
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A BiCMOS W-Band 2×2 Focal-Plane Array With On-Chip Antenna

Abstract: This paper presents a W-band 2 2 focal-plane array (FPA) for passive millimeter-wave imaging in a standard 0.18 m SiGe BiCMOS process ( GHz). The FPA incorporates four Dicke-type receivers representing four imaging pixels. Each receiver employs the direct-conversion architecture consisting of an on-chip slot folded dipole antenna, an SPDT switch, a low noise amplifier, a single-balanced mixer, an injection-locked frequency tripler (ILFT), an IF variable gain amplifier, a power detector, an active bandpass filt… Show more

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Cited by 80 publications
(50 citation statements)
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“…The second drawback of implementing antenna in siliconbased technologies is its high-dielectric constant (1 r ≈ 11.7), causing most of the power to be confined in the substrate instead of being radiated into free space, further degrading the radiation efficiency. To counteract this behavior, a number of techniques have been deployed to improve the radiation efficiency of on-chip antennas by redirecting the power coupled into the substrate, as in [4,5]. The proposed antenna configuration consists of a parasitic resonator placed on top of the radio chip excited by a shorted patch antenna implemented in the back-end layer stack, a similar approach as in [1].…”
Section: A) On-chip Antenna Conceptmentioning
confidence: 99%
“…The second drawback of implementing antenna in siliconbased technologies is its high-dielectric constant (1 r ≈ 11.7), causing most of the power to be confined in the substrate instead of being radiated into free space, further degrading the radiation efficiency. To counteract this behavior, a number of techniques have been deployed to improve the radiation efficiency of on-chip antennas by redirecting the power coupled into the substrate, as in [4,5]. The proposed antenna configuration consists of a parasitic resonator placed on top of the radio chip excited by a shorted patch antenna implemented in the back-end layer stack, a similar approach as in [1].…”
Section: A) On-chip Antenna Conceptmentioning
confidence: 99%
“…To be able to increase the integration level and also reduce the cost some highly integrated silicon based radio frequency integrated circuit (RFIC) W-band Dicke switched receivers were previously presented [4][5][6]. The overall noise figure (NF) of those radiometer front-ends is, however, around 10 dB or higher.…”
Section: Introductionmentioning
confidence: 99%
“…13 2 Component requirements for a W-band passive imaging application A W-band passive imager works at stand-off distances (2-20 m) to detect objects hidden under clothing for security screening purposes (concealed weapons and explosives detection). Such a radiometric system is characterised by its thermal resolution or noise equivalent temperature difference (NETD) which is given by [4][5][6] …”
Section: Introductionmentioning
confidence: 99%
“…The sensitivity (or thermal resolution) of such systems is largely influenced by the receiver (LNA) NF, gain and bandwidth and a low-loss Dicke switch network can be used for calibration purposes and compensate for gain variations [10]- [14]. A SiGe LNA and a Dicke switch network with 3 dB/12 dB of losses/isolation at 130 GHz were reported in (Shumakher et al 2013).…”
Section: Introductionmentioning
confidence: 99%