Title :
Low-power high-speed capacitive transdermal Spatial Pulse Position Modulation communication
Author :
Simard, Guillaume ; Sawan, Mohamad ; Massicotte, Daniel
Author_Institution :
Polystim Neurotechnologies Lab., Ecole Polytech. de Montreal, Montreal, QC, Canada
Abstract :
Neural recording or neural stimulating biomedical implants require a low-power high-speed communication link. We propose a novel modulation scheme for biomedical implants based on Spatial Pulse Position Modulation (SPPM). The principle of this new modulation scheme is presented, a system is developed up to post-layout simulation and is shown to perform up to 200 Mbps using only 750 μW at the transmitter side (3.75 pJ/bit) and 253 μW at the receiver side. The possibility of naturally combining a Viterbi encoder to the system is evoked, and important circuits stemming from the SPPM concept are briefly presented, such as a new receiver topology, based on a resistive bridge and two comparators.
Keywords :
MIMO communication; bioelectric phenomena; biomedical communication; comparators (circuits); encoding; neurophysiology; prosthetics; pulse position modulation; receivers; skin; transmitters; Viterbi encoder; bit rate 200 Mbit/s; capacitive transdermal SPPM; comparators; low-power high-speed communication link; neural recording; neural stimulating biomedical implants; power 750 muW; receiver topology; resistive bridge; spatial pulse position modulation communication; Bridge circuits; Capacitors; Implants; Modulation; Receivers; Transmitters; Viterbi algorithm;
Conference_Titel :
New Circuits and Systems Conference (NEWCAS), 2011 IEEE 9th International
Conference_Location :
Bordeaux
Print_ISBN :
978-1-61284-135-9
DOI :
10.1109/NEWCAS.2011.5981232
