Title | ||
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A high-band IR-UWB chipset for real-time duty-cycled communication and localization systems |
Abstract | ||
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A 90nm, IR UWB, duty-cycled transceiver chipset, for operation from 7 to 9.8GHz and compliant to the IEEE802.15.4a and the upcoming IEEE802.15.6 standard, is presented. The complete, duty-cycled transmitter provides +1dBm peak output power, consuming 4.4mW. The receiver front-end shows -88dBm sensitivity at 0.85Mbps and a digital synchronization algorithm enables real-time duty cycling, resulting in a mean power consumption of 3mW. |
Year | DOI | Venue |
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2011 | 10.1109/ASSCC.2011.6123595 | A-SSCC |
Keywords | Field | DocType |
radio transceivers,ultra wideband communication,ieee 802.15.4a standard,ieee 802.15.6 standard,bit rate 0.85 mbit/s,digital synchronization algorithm,frequency 7 ghz to 9.8 ghz,high-band ir uwb duty-cycled transceiver chipset,impulse radio,mean power consumption,power 3 mw,power 4.4 mw,real-time duty-cycled communication system,real-time duty-cycled localization system,receiver front-end,size 90 nm,transmitters,real time systems,local system,radio frequency,baseband,duty cycle,front end,real time,synchronization | Transmitter,Synchronization,Baseband,Transceiver,Computer science,Real-time computing,Radio frequency,Electronic engineering,Chipset,Synchronization algorithm,Power consumption | Conference |
ISBN | Citations | PageRank |
978-1-4577-1784-0 | 17 | 2.52 |
References | Authors | |
1 | 13 |
Name | Order | Citations | PageRank |
---|---|---|---|
xuping wang | 1 | 17 | 2.52 |
Kathleen Philips | 2 | 301 | 42.57 |
Changsheng Zhou | 3 | 37 | 9.18 |
Benjamin Busze | 4 | 84 | 12.98 |
Hans W. Pflug | 5 | 42 | 7.08 |
Alex Young | 6 | 42 | 5.96 |
Jac Romme | 7 | 154 | 16.64 |
Pieter Harpe | 8 | 496 | 71.85 |
Sumit Bagga | 9 | 37 | 6.99 |
Stefano D'Amico | 10 | 129 | 27.42 |
De Matteis, M. | 11 | 54 | 16.15 |
A. Baschirotto | 12 | 176 | 54.55 |
Harmke de Groot | 13 | 567 | 66.01 |