Low power multi-radio coexistence using digital compensation

E.J.G. Janssen; D. Milosevic; P.G.M. Baltus; A.H.M. Roermund, van

Low power multi-radio coexistence using digital compensation

E.J.G. Janssen, D. Milosevic, P.G.M. Baltus, A.H.M. Roermund, van

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

Modern cell phones contain various transceivers and their number is expected to increase in the future. Multimode devices result with new problems such as serious interference between different transceivers. Different solutions for this problem are thought of compromising on power consumption, cost, size or data rate. Next to this trend, the increasing miniaturization of transistor size driven by Moore’s law has decreased the size of (mainly digital) electronics dramatically. This miniaturization has enabled an enormous computational power in handheld devices. This paper presents a solution for the multimode issues without compromising on power consumption, cost, size or data rate by making use of the available computation power in modern CMOS.

Original language	English
Title of host publication	Proceedings of ProRISC 2009, 20th Annual Workshop on Circuits Systems and Signal Processing, November 26-27, 2009, Veldhoven, The Netherlands
Place of Publication	Utrecht
Publisher	STW Technology Foundation
Pages	466-469
ISBN (Print)	978-90-73461-62-8
Publication status	Published - 2009

Cite this

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title = "Low power multi-radio coexistence using digital compensation",

abstract = "Modern cell phones contain various transceivers and their number is expected to increase in the future. Multimode devices result with new problems such as serious interference between different transceivers. Different solutions for this problem are thought of compromising on power consumption, cost, size or data rate. Next to this trend, the increasing miniaturization of transistor size driven by Moore{\textquoteright}s law has decreased the size of (mainly digital) electronics dramatically. This miniaturization has enabled an enormous computational power in handheld devices. This paper presents a solution for the multimode issues without compromising on power consumption, cost, size or data rate by making use of the available computation power in modern CMOS.",

author = "E.J.G. Janssen and D. Milosevic and P.G.M. Baltus and {Roermund, van}, A.H.M.",

year = "2009",

language = "English",

isbn = "978-90-73461-62-8",

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publisher = "STW Technology Foundation",

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Low power multi-radio coexistence using digital compensation. / Janssen, E.J.G.; Milosevic, D.; Baltus, P.G.M. et al.
Proceedings of ProRISC 2009, 20th Annual Workshop on Circuits Systems and Signal Processing, November 26-27, 2009, Veldhoven, The Netherlands. Utrecht: STW Technology Foundation, 2009. p. 466-469.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Low power multi-radio coexistence using digital compensation

AU - Janssen, E.J.G.

AU - Milosevic, D.

AU - Baltus, P.G.M.

AU - Roermund, van, A.H.M.

PY - 2009

Y1 - 2009

N2 - Modern cell phones contain various transceivers and their number is expected to increase in the future. Multimode devices result with new problems such as serious interference between different transceivers. Different solutions for this problem are thought of compromising on power consumption, cost, size or data rate. Next to this trend, the increasing miniaturization of transistor size driven by Moore’s law has decreased the size of (mainly digital) electronics dramatically. This miniaturization has enabled an enormous computational power in handheld devices. This paper presents a solution for the multimode issues without compromising on power consumption, cost, size or data rate by making use of the available computation power in modern CMOS.

AB - Modern cell phones contain various transceivers and their number is expected to increase in the future. Multimode devices result with new problems such as serious interference between different transceivers. Different solutions for this problem are thought of compromising on power consumption, cost, size or data rate. Next to this trend, the increasing miniaturization of transistor size driven by Moore’s law has decreased the size of (mainly digital) electronics dramatically. This miniaturization has enabled an enormous computational power in handheld devices. This paper presents a solution for the multimode issues without compromising on power consumption, cost, size or data rate by making use of the available computation power in modern CMOS.

M3 - Conference contribution

SN - 978-90-73461-62-8

SP - 466

EP - 469

BT - Proceedings of ProRISC 2009, 20th Annual Workshop on Circuits Systems and Signal Processing, November 26-27, 2009, Veldhoven, The Netherlands

PB - STW Technology Foundation

CY - Utrecht

ER -

Low power multi-radio coexistence using digital compensation

Abstract

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