A 260–300-GHz Mixer-First IQ Receiver With Fundamental LO Driver in 130-nm SiGe Process

Van Son Trinh; Jeong Moon Song; Jung Dong Park

doi:10.1109/LMWT.2022.3228646

A 260–300-GHz Mixer-First IQ Receiver With Fundamental LO Driver in 130-nm SiGe Process

Van Son Trinh, Jeong Moon Song, Jung Dong Park

Department of Electronics & Electrical Engineering

Dongguk University

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

10 Scopus citations

Abstract

We report a 280-GHz mixer-first quadrature receiver in 130-nm SiGe that achieves a peak gain of 25 dB, an IF bandwidth of 30-GHz, and a minimum single-sideband (SSB) noise figure (NF) of 18.2 dB. The receiver is comprised of two Gilbert-cell mixers with swapped RF and local oscillation (LO) ports that downconvert the RF signal at 260–299 GHz to I/Q IF signals at 1–40 GHz by using a pseudo-differential LO driver at 259 GHz. In each channel, a wideband IF amplifier was used for an aimed conversion gain of higher than 20 dB. Combined with a differentia hybrid coupler, an integrated 259-GHz driving amplifier (DA) was integrated to generate the quadrature LO signals for I and Q channels. The measured amplitude and phase imbalance between the I and Q channels are around 4 dB and 4?, respectively. The fabricated chip occupies a whole area of 1.12 mm2 and consumes a dc power of 384 mW.

Original language	English
Pages (from-to)	435-438
Number of pages	4
Journal	IEEE Microwave and Wireless Technology Letters
Volume	33
Issue number	4
DOIs	https://doi.org/10.1109/LMWT.2022.3228646
State	Published - 1 Apr 2023

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title = "A 260–300-GHz Mixer-First IQ Receiver With Fundamental LO Driver in 130-nm SiGe Process",

abstract = "We report a 280-GHz mixer-first quadrature receiver in 130-nm SiGe that achieves a peak gain of 25 dB, an IF bandwidth of 30-GHz, and a minimum single-sideband (SSB) noise figure (NF) of 18.2 dB. The receiver is comprised of two Gilbert-cell mixers with swapped RF and local oscillation (LO) ports that downconvert the RF signal at 260–299 GHz to I/Q IF signals at 1–40 GHz by using a pseudo-differential LO driver at 259 GHz. In each channel, a wideband IF amplifier was used for an aimed conversion gain of higher than 20 dB. Combined with a differentia hybrid coupler, an integrated 259-GHz driving amplifier (DA) was integrated to generate the quadrature LO signals for I and Q channels. The measured amplitude and phase imbalance between the I and Q channels are around 4 dB and 4?, respectively. The fabricated chip occupies a whole area of 1.12 mm2 and consumes a dc power of 384 mW.",

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N2 - We report a 280-GHz mixer-first quadrature receiver in 130-nm SiGe that achieves a peak gain of 25 dB, an IF bandwidth of 30-GHz, and a minimum single-sideband (SSB) noise figure (NF) of 18.2 dB. The receiver is comprised of two Gilbert-cell mixers with swapped RF and local oscillation (LO) ports that downconvert the RF signal at 260–299 GHz to I/Q IF signals at 1–40 GHz by using a pseudo-differential LO driver at 259 GHz. In each channel, a wideband IF amplifier was used for an aimed conversion gain of higher than 20 dB. Combined with a differentia hybrid coupler, an integrated 259-GHz driving amplifier (DA) was integrated to generate the quadrature LO signals for I and Q channels. The measured amplitude and phase imbalance between the I and Q channels are around 4 dB and 4?, respectively. The fabricated chip occupies a whole area of 1.12 mm2 and consumes a dc power of 384 mW.

AB - We report a 280-GHz mixer-first quadrature receiver in 130-nm SiGe that achieves a peak gain of 25 dB, an IF bandwidth of 30-GHz, and a minimum single-sideband (SSB) noise figure (NF) of 18.2 dB. The receiver is comprised of two Gilbert-cell mixers with swapped RF and local oscillation (LO) ports that downconvert the RF signal at 260–299 GHz to I/Q IF signals at 1–40 GHz by using a pseudo-differential LO driver at 259 GHz. In each channel, a wideband IF amplifier was used for an aimed conversion gain of higher than 20 dB. Combined with a differentia hybrid coupler, an integrated 259-GHz driving amplifier (DA) was integrated to generate the quadrature LO signals for I and Q channels. The measured amplitude and phase imbalance between the I and Q channels are around 4 dB and 4?, respectively. The fabricated chip occupies a whole area of 1.12 mm2 and consumes a dc power of 384 mW.

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A 260–300-GHz Mixer-First IQ Receiver With Fundamental LO Driver in 130-nm SiGe Process

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