@inproceedings{De:2015,
author = {De, Marcellis A and Palange, E and Liberatore, V and Nubile, L and Faccio, M and Constandinou, TG},
title = {A new modulation technique for high data rate low power UWB wireless optical communication in implantable biotelemetry systems},
url = {http://hdl.handle.net/10044/1/25679},
year = {2015}
}

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TY  - CPAPER
AB  - We   report   on   the   development   of   a   novel   modulation   technique   for   UWB  wireless   optical communication  systems  for  application  in  a  transcutaneous  biotelemetry.  The  solution,  based  on  the generation  of  short  laser  pulses,  allows  for  a  high  data  rate link  whilst  achieving  a  significant  power reduction  (energy  per  bit)  compared  to  the  state-of-the-art.  These features  make  this  particularly suitable  for  emerging  biomedical  applications  such  as  implantable  neural/biosensor  systems.  The relatively simple architecture consists of a transmitter and receiver that can be integrated in a standard CMOS  technology  in  a  compact  Silicon  footprint.  These  parts  include  circuits  for  bias  and  drive current  generation,  conditioning  and  processing,  optimised  for  low-volt age/low-power  operation. Preliminary experimental findings validate the new paradigm and show good agreement with expected results. The complete system achieves a BER less than 10-7, with maximum data rate of 125Mbps and estimated total power consumption of less than 3mW.
AU  - De,Marcellis A
AU  - Palange,E
AU  - Liberatore,V
AU  - Nubile,L
AU  - Faccio,M
AU  - Constandinou,TG
PY  - 2015///
TI  - A new modulation technique for high data rate low power UWB wireless optical communication in implantable biotelemetry systems
UR  - http://hdl.handle.net/10044/1/25679
ER  - 

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