98 mW 10 Gbps wireless transceiver chipset with d-band COMS circuits

Minoru Fujishima; Mizuki Motoyoshi; Kosuke Katayama; Kyoya Takano; Naoko Ono; Ryuichi Fujimoto

doi:10.1109/JSSC.2013.2261192

98 mW 10 Gbps wireless transceiver chipset with d-band COMS circuits

Minoru Fujishima, Mizuki Motoyoshi, Kosuke Katayama, Kyoya Takano, Naoko Ono, Ryuichi Fujimoto

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

71 Citations (Scopus)

Abstract

Recently, short-distance high-speed wireless communication using a 60 GHz band has been studied for mobile application. To realize higher-speed wireless communication while maintaining low power consumption for mobile application D band (110-170 GHz) is promising since it can potentially provide a wider frequency band. Thus, we have studied D-band CMOS circuits to realize low-power ultrahigh-speed wireless communication. In the D band, however, since no sufficient device model is provided, research generally has to start from device modeling. In this paper, a design procedure for D-band CMOS circuits is overviewed from the device layer to the system layer, where the architecture is optimized to realize both low power and high data transfer rate. Finally, a 10 Gbps wireless transceiver with a power consumption of 98 mW is demonstrated using the 135 GHz band.

Original language	English
Article number	6517512
Pages (from-to)	2273-2284
Number of pages	12
Journal	IEEE Journal of Solid-State Circuits
Volume	48
Issue number	10
DOIs	https://doi.org/10.1109/JSSC.2013.2261192
Publication status	Published - 2013
Externally published	Yes

Keywords

CMOS
device model
millimeter wave
transceiver

ASJC Scopus subject areas

Electrical and Electronic Engineering

Access to Document

10.1109/JSSC.2013.2261192

Cite this

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abstract = "Recently, short-distance high-speed wireless communication using a 60 GHz band has been studied for mobile application. To realize higher-speed wireless communication while maintaining low power consumption for mobile application D band (110-170 GHz) is promising since it can potentially provide a wider frequency band. Thus, we have studied D-band CMOS circuits to realize low-power ultrahigh-speed wireless communication. In the D band, however, since no sufficient device model is provided, research generally has to start from device modeling. In this paper, a design procedure for D-band CMOS circuits is overviewed from the device layer to the system layer, where the architecture is optimized to realize both low power and high data transfer rate. Finally, a 10 Gbps wireless transceiver with a power consumption of 98 mW is demonstrated using the 135 GHz band.",

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AU - Fujishima, Minoru

AU - Motoyoshi, Mizuki

AU - Katayama, Kosuke

AU - Takano, Kyoya

AU - Ono, Naoko

AU - Fujimoto, Ryuichi

PY - 2013

Y1 - 2013

N2 - Recently, short-distance high-speed wireless communication using a 60 GHz band has been studied for mobile application. To realize higher-speed wireless communication while maintaining low power consumption for mobile application D band (110-170 GHz) is promising since it can potentially provide a wider frequency band. Thus, we have studied D-band CMOS circuits to realize low-power ultrahigh-speed wireless communication. In the D band, however, since no sufficient device model is provided, research generally has to start from device modeling. In this paper, a design procedure for D-band CMOS circuits is overviewed from the device layer to the system layer, where the architecture is optimized to realize both low power and high data transfer rate. Finally, a 10 Gbps wireless transceiver with a power consumption of 98 mW is demonstrated using the 135 GHz band.

AB - Recently, short-distance high-speed wireless communication using a 60 GHz band has been studied for mobile application. To realize higher-speed wireless communication while maintaining low power consumption for mobile application D band (110-170 GHz) is promising since it can potentially provide a wider frequency band. Thus, we have studied D-band CMOS circuits to realize low-power ultrahigh-speed wireless communication. In the D band, however, since no sufficient device model is provided, research generally has to start from device modeling. In this paper, a design procedure for D-band CMOS circuits is overviewed from the device layer to the system layer, where the architecture is optimized to realize both low power and high data transfer rate. Finally, a 10 Gbps wireless transceiver with a power consumption of 98 mW is demonstrated using the 135 GHz band.

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KW - millimeter wave

KW - transceiver

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98 mW 10 Gbps wireless transceiver chipset with d-band COMS circuits

Abstract

Keywords

ASJC Scopus subject areas

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