A Millimeter-Wave CMOS Heterodyne Receiver With On-Chip LO and Divider.

A heterodyne receiver performs frequency downconversion in two steps to relax oscillator and divider speed requirements. ... The receiver incorporates new concepts such as a current-domain quadrature separation method, a broadband Miller divider based on a passive mixer, and an inductor nesting technique that significantly reduces ... Realized in 90-nm CMOS technology, the receiver includes an on-chip local oscillator (LO) and a frequency divider and achieves a noise figure of 6.9-8.3 dB with a power dissipation of 80 mW. ...

doi:10.1109/jssc.2007.914300 fatcat:elesntida5dp5m3zionol27nhu

This paper describes a CMOS heterodyne receiver with on-chip LO and frequency divider that achieves a noise figure of 6.9-8.3 dB while consuming 80 mW. ... The integration of millimeter-wave transceivers in CMOS technology can benefit from sophisticated signal processing and calibration techniques already is use at lower frequencies. ... RECEIVER DESIGN Recent work has demonstrated millimeter-wave CMOS building blocks such as low-noise amplifiers (LNAs) and mixers [1, 2] and oscillators [3] . ...

doi:10.1109/iscas.2007.378425 dblp:conf/iscas/Razavi07a fatcat:jx7d5tnqkzhczomj5neordndie

RAZAVI: DESIGN OF MILLIMETER-WAVE CMOS RADIOS: A TUTORIAL ... This paper deals with the challenges in the design of millimeter-wave CMOS radios and describes circuit and architecture techniques that lead to compact, low-power transceivers. ... ACKNOWLEDGMENT Chip fabrication was provided by TSMC. ...

doi:10.1109/tcsi.2008.931648 fatcat:dmpp4igyu5awpd5jucmaro2agm

A. Hershbarger, W. Jia, K. M. Tey, K. Fukahori, P. J. Hurst, and M. Kapoor 468 A Millimeter-Wave CMOS Heterodyne Receiver With On-Chip LO and Divider ................................ B. ... Yeh 530 A 20 Gb/s 1:4 DEMUX Without Inductors and Low-Power Divide-by-2 Circuit in 0.13 m CMOS Technology ......... ...

doi:10.1109/jssc.2008.917385 fatcat:rwcpzgy2mrdlnizyqpi6dhisba

As standardization efforts catalyzed the interest and investment of industry and agencies, one can be assured of ubiquitous millimeter-wave technology in the consumer electronic market place in the fairly ... The co-design of fully integrated mmW CMOS single chip digital radios with low cost QFN packages operating from 30 to 100GHz offers the promise for high volume manufacturing which paves the way for a new ... In the second phase, millimeter wave CMOS single chip radio and millimeter wave integrated package samples are co-designed using neuro-genetic methodology. ...

doi:10.1109/cicc.2008.4672024 dblp:conf/cicc/LaskarPSSPDYB08 fatcat:4navg57khvdzlm5txvnxo2nm2i

Central to the PLL performance is the design of a low-noise, wideband, mm-wave VCO with a 22.9% tuning range. ... A low phase noise, wideband, mm-wave, integer-N PLL that is capable of supporting an 802.15.3c heterodyne transceiver is reported. ... Referring to the receive path: The incoming 60 GHz signal Fig. 4 . 4 Millimeter-wave circuit blocks used in the PLL. All blocks employ DiCAD as a frequency tuning element. ...

doi:10.1109/jssc.2011.2143950 fatcat:4kwqupxerndltdgfzp7nrw63hm

and geolocation in the millimeter frequency band. ... The proposed circuit can address several usage modes such as conventional frequency heterodyning for high-speed IQ modulation and demodulation. ... The authors have contributed to the dissemination of the Six-Port technology for microwave and mm-wave vector network analysis [29] - [33] , telecommunications and localization [34] - [36] , short-range ...

doi:10.1109/access.2021.3098179 fatcat:b55ut5kzn5gjpjqn5l7jtpdepm

DOAJ

Moreover, with a continuously adjustable phase control of 360° and very broadband IF characteristics, the front-end chip is suitable for passive millimeter-wave imaging applications. ... The front-end chip uses the super-heterodyne topology which consists of a low noise amplifier, an image reject mixer, and a multiplyby-four (×4) LO chain. ... In addition, SiGe and CMOS processes are emerging for realizing millimeter-wave MMICs recently [14] [15] [16] [17] . ...

doi:10.1109/access.2022.3175367 fatcat:y4v7vtpk7bcrnauclx3e4ze5mi

DOAJ

The 0.9mm 2 synthesizer chip exhibits a locking range of 23.8-26.95/75.67-78.5GHz with a low power consumption of 50-75mW from a 2.5V supply. ... The design of a millimeter-wave dual-band phaselocked frequency synthesizer in a 0.18µm SiGe BiCMOS technology is presented. ... ACKNOWLEDGMENTS The authors thank Jazz Semiconductor for chip fabrication. They acknowledge Dr. Magnus Wiklund of Fujitsu Laboratories of America for valuable technical discussions. ...

doi:10.1109/cicc.2008.4672127 dblp:conf/cicc/JainJH08 fatcat:fv4i43xtaba5tf3pb54lcocg3q

Index Terms-Frequency synthesizers, injection locking, LC oscillators, lock range, millimeter-wave dividers, Miller dividers flip flops. ... A divide-by-two prototype realized in 0.13-m CMOS technology operates from 64 GHz to 70 GHz while consuming 6 mW from a 1.2-V supply. ... INTRODUCTION T HE interest in millimeter-wave communications for broadband wireless applications has motivated work on highfrequency CMOS circuits, e.g., oscillators, frequency dividers, and phase-locked ...

doi:10.1109/jssc.2007.908742 fatcat:csxlowvq3ree3cjmxpwfksjh2m

A 70-78-GHz integrated frequency synthesizer is implemented in 65-nm CMOS. ... Index Terms-Frequency synthesizer, injection-locked buffer, millimeter-wave transceiver, multimodulus divider (MMD), phase noise (PN), phase rotation, satellite communication. ... ACKNOWLEDGMENT The authors wish to acknowledge the chip fabrication and support of the Taiwan Semiconductor Manufacturing Company (TSMC), Hsinchu, Taiwan, and test setup help from A. ...

doi:10.1109/tmtt.2011.2168972 fatcat:oow3ua4vg5cvvm26omtefnkrii

Today, the interest on designing millimeter wave CMOS circuits and systems is growing rapidly offering a fertile ground for innovation. ... In addition, CMOS is the most suitable technology for designing system-on-chip, since it enables integration of the analog RF circuits with the digital signal processing and baseband circuits in the lowest ...

doi:10.5772/15494 fatcat:driuou7g2ba4hg2igq5mkryeza

A direct-conversion receiver integrated with the CMOS subharmonic frequency tripler (SFT) for V-band applications is designed, fabricated and measured using 0.13-µm CMOS technology. ... It draws only 15.8 mA from a 1.2-V power supply with a total chip area of 0.794 mm × 0.794 mm. ... ., for the fabrication of the testing chip and also would like to thank the support of CAD tool, HFSS, from Ansoft Taiwan. ...

doi:10.1587/transele.e93.c.877 fatcat:njmscepfwfetthzsn5vdybrh7u

Depending on different read out circuits, the receiver front-end could work in homodyne and heterodyne modes. ... The local oscillator (LO) signal is divided by the power divider into 16 ways and transmits to the TeraLDA. ... Comparing with the millimeter wave at frequencies between 30 and 300 GHz, THz wave has a higher bandwidth leading to a better resolution in imaging system. ...

doi:10.3390/electronics11152305 fatcat:vhx47l4535f63gajgutzsutdwa

DOAJ

The receiver includes a low noise amplifier, I/Q demodulator and x6 multiplier chain at the LO port. The receiver provides a conversion gain of 27 dB and has a noise figure of 10 dB. ... The Transmitter chip consists of a six-stage power amplifier, an I/Q modulator, and a LO multiplier chain. The LO multiplier chain consists of frequency sixtupler followed by a two-stage amplifier. ... On the RF port, a GSG probe with 75 µm pitch and WR6.5 waveguide interface and on the LO port, a 100 µm GSG probe with coaxial connector are used. ...

doi:10.23919/jcn.2021.000010 fatcat:2fdehzxq2nc5boampzok6yb7zy

A Millimeter-Wave CMOS Heterodyne Receiver With On-Chip LO and Divider

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CMOS Transceivers at 60 GHz and Beyond1

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Design of Millimeter-Wave CMOS Radios: A Tutorial

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Front cover

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A SOC/SOP co-design approach for mmW CMOS in QFN technology

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A Low Phase Noise, Wideband and Compact CMOS PLL for Use in a Heterodyne 802.15.3c Transceiver

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MMIC Vector Topology Enabling multi RF Functionalities for 5G and Beyond

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A V-band Integrated Receiver Front-End Based on 0.15 μm GaAs pHEMT Process for Passive Millimeter-wave Imaging

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A 24/77GHz dual-band BiCMOS frequency synthesizer

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Heterodyne Phase Locking: A Technique for High-Speed Frequency Division

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A ${\hbox{70}}{\hbox{–}} {\hbox{78-}}{\hbox{GHz}}$ Integrated CMOS Frequency Synthesizer for $W$-Band Satellite Communications

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Trends and Challenges in CMOS Design for Emerging 60 GHz WPAN Applications [chapter]

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An Integrated CMOS Front-End Receiver with a Frequency Tripler for V-Band Applications

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Experimental Realization of 16-Pixel Terahertz Receiver Front-End Based on Bulk Silicon MEMS Power Divider and AlGaN/GaN HEMT Linear Detector Array

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A fully integrated D-band direct-conversion I/Q transmitter and receiver chipset in SiGe BiCMOS technology

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