Paper Info
Title
Dual band electrically small non-uniform pitch ellipsoidal helix antenna for cardiac pacemakers
Abstract
A dual band electrically small folded ellipsoidal helix antenna (EHA) is designed for the wireless data communication and wireless power transferring functions of an artificial cardiac pacemaker. In this design, a spatially non-uniform pitch ellipsoidal helix structure is used to tune the dual resonant frequencies to the desired bands at 900 MHz and 2.4 GHz. Measurement on an wire antenna fabricated using selective laser sintering shows more than 10% relative bandwidth at each frequency band.
Year
DOI
Venue
2013
10.1109/PAWR.2013.6490220
RWS
Keywords
DocType
ISSN
bandwidth 900 mhz,current distribution,ellipsoidal helix antenna,design,cardiology,artificial organs,data communication,power transmission,wireless data communication,dual resonant frequencies tuning,pitch ellipsoidal helix antenna,multifrequency antennas,eha design,electrically small antennas,dual band electrically small nonuniform pitch ellipsoidal helix antenna,pacemakers,biomedical communication,bandwidth,helical antennas,bandwidth allocation,laser sintering,uhf antennas,dual resonant frequencies,spatially nonuniform pitch ellipsoidal helix structure,electrically small folded eha,bandwidth 2.4 ghz,dual frequency band,wireless channels,bioelectric phenomena,medical implants,tuning,selective laser sintering,antenna accessories,eha,wireless power transferring functions,bandwidth 2.5 ghz,dual band antenna,frequency 2.4 hz,wire antenna fabrication,wire antenna,relative bandwidth,artificial cardiac pacemaker,wire antenna measurement,wire antennas,frequency band,frequency 900 mhz
Conference
2164-2958 E-ISBN : 978-1-4673-2931-6
ISBN
Citations 
PageRank 
978-1-4673-2931-6
0
0.34
References 
Authors
3
5
Name
Order
Citations
PageRank
Haiyu Huang1231.86
P.-Y. Chen233.42
Mauro Ferrari363.57
Ye Hu400.34
Deji Akinwande504.06