A 0.38 THz fully integrated transceiver utilizing a quadrature push-push harmonic circuitry in sige bicmos

Jung Dong Park; Shinwon Kang; Ali M. Niknejad

doi:10.1109/JSSC.2012.2211156

A 0.38 THz fully integrated transceiver utilizing a quadrature push-push harmonic circuitry in sige bicmos

Jung Dong Park, Shinwon Kang, Ali M. Niknejad

Department of Electronics & Electrical Engineering

University of California at Berkeley

Research output: Contribution to journal › Article › peer-review

65 Scopus citations

Abstract

A fully integrated transceiver operating at 0.38 terahertz (THz) has been demonstrated in 0.13 $\mu$ m SiGe BiCMOS with $f -{T} =$ 230 GHz. We present a quadrature push-push harmonic circuitry consisting of the clamping pairs driven by balanced quadrature LO signals coupled through the transformers and the Coplanar Stripline (CPS). Harmonic generation of the clamping circuit is analyzed with a clamped sinusoidal model. Several terahertz circuits such as a quadrupler, a THz subharmonic mixer, and an IQ quadrature generator are implemented with the quadrature push-push circuitry to realize a homodyne FMCW radar. Radar functionality is demonstrated with ranging and detection of a target at 10 cm. The measured Equivalent Isotropically Radiated Power (EIRP) of the transmitter is ${-}$11 dBm at 0.38 THz and the receiver noise figure (NF) is between 35-38 dB while dissipating a power of 380 mW.

Original language	English
Article number	6293916
Pages (from-to)	2344-2354
Number of pages	11
Journal	IEEE Journal of Solid-State Circuits
Volume	47
Issue number	10
DOIs	https://doi.org/10.1109/JSSC.2012.2211156
State	Published - 2012

Keywords

BiCMOS
BJT
FMCW radar
harmonic generation
terahertz integrated circuits

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10.1109/JSSC.2012.2211156

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title = "A 0.38 THz fully integrated transceiver utilizing a quadrature push-push harmonic circuitry in sige bicmos",

abstract = "A fully integrated transceiver operating at 0.38 terahertz (THz) has been demonstrated in 0.13 $\mu$ m SiGe BiCMOS with $f -{T} =$ 230 GHz. We present a quadrature push-push harmonic circuitry consisting of the clamping pairs driven by balanced quadrature LO signals coupled through the transformers and the Coplanar Stripline (CPS). Harmonic generation of the clamping circuit is analyzed with a clamped sinusoidal model. Several terahertz circuits such as a quadrupler, a THz subharmonic mixer, and an IQ quadrature generator are implemented with the quadrature push-push circuitry to realize a homodyne FMCW radar. Radar functionality is demonstrated with ranging and detection of a target at 10 cm. The measured Equivalent Isotropically Radiated Power (EIRP) of the transmitter is ${-}$11 dBm at 0.38 THz and the receiver noise figure (NF) is between 35-38 dB while dissipating a power of 380 mW.",

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AU - Kang, Shinwon

AU - Niknejad, Ali M.

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AB - A fully integrated transceiver operating at 0.38 terahertz (THz) has been demonstrated in 0.13 $\mu$ m SiGe BiCMOS with $f -{T} =$ 230 GHz. We present a quadrature push-push harmonic circuitry consisting of the clamping pairs driven by balanced quadrature LO signals coupled through the transformers and the Coplanar Stripline (CPS). Harmonic generation of the clamping circuit is analyzed with a clamped sinusoidal model. Several terahertz circuits such as a quadrupler, a THz subharmonic mixer, and an IQ quadrature generator are implemented with the quadrature push-push circuitry to realize a homodyne FMCW radar. Radar functionality is demonstrated with ranging and detection of a target at 10 cm. The measured Equivalent Isotropically Radiated Power (EIRP) of the transmitter is ${-}$11 dBm at 0.38 THz and the receiver noise figure (NF) is between 35-38 dB while dissipating a power of 380 mW.

KW - BiCMOS

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KW - FMCW radar

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A 0.38 THz fully integrated transceiver utilizing a quadrature push-push harmonic circuitry in sige bicmos

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