A 750 Mb/s, 12 pJ/b, 6-to-10 GHz CMOS IR-UWB transmitter with embedded on-chip antenna

Vishal V. Kulkarni; Muhammad Muqsith; Kiichi Niitsu; Hiroki Ishikuro; Tadahiro Kuroda

doi:10.1109/JSSC.2008.2011034

A 750 Mb/s, 12 pJ/b, 6-to-10 GHz CMOS IR-UWB transmitter with embedded on-chip antenna

Vishal V. Kulkarni, Muhammad Muqsith, Kiichi Niitsu, Hiroki Ishikuro, Tadahiro Kuroda

電気情報工学科

研究成果: Article › 査読

93 被引用数 (Scopus)

抄録

This paper presents a novel impulse radio based ultra-wideband transmitter. The transmitter is designed in 0.18$\ \mu$m CMOS process realizing extremely low complexity and low power. It exploits the 6-to-10 GHz band to generate short duration bi-phase modulated UWB pulses with a center frequency of 8 GHz. No additional RF filtering circuits are required since the pulse generator circuit itself has the functionality of pulse shaping. Generated pulses comply with the FCC spectral emission mask. Measured results show that the transmitter consumes 12 pJ/b to achieve a maximum pulse repetition rate of 750 Mb/s. An optional embedded on-chip antenna and a power amplifier operating in 610 GHz band are also designed and investigated as a future low cost solution for very short distance IR-UWB communications.

本文言語	English
論文番号	4768904
ページ（範囲）	394-403
ページ数	10
ジャーナル	IEEE Journal of Solid-State Circuits
巻	44
号	2
DOI	https://doi.org/10.1109/JSSC.2008.2011034
出版ステータス	Published - 2009 2月

ASJC Scopus subject areas

電子工学および電気工学

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10.1109/JSSC.2008.2011034

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引用スタイル

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title = "A 750 Mb/s, 12 pJ/b, 6-to-10 GHz CMOS IR-UWB transmitter with embedded on-chip antenna",

abstract = "This paper presents a novel impulse radio based ultra-wideband transmitter. The transmitter is designed in 0.18$\ \mu$m CMOS process realizing extremely low complexity and low power. It exploits the 6-to-10 GHz band to generate short duration bi-phase modulated UWB pulses with a center frequency of 8 GHz. No additional RF filtering circuits are required since the pulse generator circuit itself has the functionality of pulse shaping. Generated pulses comply with the FCC spectral emission mask. Measured results show that the transmitter consumes 12 pJ/b to achieve a maximum pulse repetition rate of 750 Mb/s. An optional embedded on-chip antenna and a power amplifier operating in 610 GHz band are also designed and investigated as a future low cost solution for very short distance IR-UWB communications.",

keywords = "CMOS, Impulse radio, On-chip antenna, Transmitter, Ultra-wideband",

author = "Kulkarni, {Vishal V.} and Muhammad Muqsith and Kiichi Niitsu and Hiroki Ishikuro and Tadahiro Kuroda",

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AU - Kulkarni, Vishal V.

AU - Muqsith, Muhammad

AU - Niitsu, Kiichi

AU - Ishikuro, Hiroki

AU - Kuroda, Tadahiro

PY - 2009/2

Y1 - 2009/2

N2 - This paper presents a novel impulse radio based ultra-wideband transmitter. The transmitter is designed in 0.18$\ \mu$m CMOS process realizing extremely low complexity and low power. It exploits the 6-to-10 GHz band to generate short duration bi-phase modulated UWB pulses with a center frequency of 8 GHz. No additional RF filtering circuits are required since the pulse generator circuit itself has the functionality of pulse shaping. Generated pulses comply with the FCC spectral emission mask. Measured results show that the transmitter consumes 12 pJ/b to achieve a maximum pulse repetition rate of 750 Mb/s. An optional embedded on-chip antenna and a power amplifier operating in 610 GHz band are also designed and investigated as a future low cost solution for very short distance IR-UWB communications.

AB - This paper presents a novel impulse radio based ultra-wideband transmitter. The transmitter is designed in 0.18$\ \mu$m CMOS process realizing extremely low complexity and low power. It exploits the 6-to-10 GHz band to generate short duration bi-phase modulated UWB pulses with a center frequency of 8 GHz. No additional RF filtering circuits are required since the pulse generator circuit itself has the functionality of pulse shaping. Generated pulses comply with the FCC spectral emission mask. Measured results show that the transmitter consumes 12 pJ/b to achieve a maximum pulse repetition rate of 750 Mb/s. An optional embedded on-chip antenna and a power amplifier operating in 610 GHz band are also designed and investigated as a future low cost solution for very short distance IR-UWB communications.

KW - CMOS

KW - Impulse radio

KW - On-chip antenna

KW - Transmitter

KW - Ultra-wideband

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A 750 Mb/s, 12 pJ/b, 6-to-10 GHz CMOS IR-UWB transmitter with embedded on-chip antenna

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