Paper Info
Title
In vivo verification of a 100 Mbps transcutaneous optical telemetric link
Abstract
We report on an optical telemetric link capable of providing a high data rate at a low power consumption for the transcutaneous transmission of neural signals. The telemetric link is designed for operation as the interface between an implanted cortical array and an external receiver. By converting the digitized neural signals to a stream of infrared optical pulses, the optical telemetry wirelessly transmits the neural data through the skin. The implantable transmitter prototype PCB contains a VCSEL (Vertical Cavity Surface Emitting Laser) driver with a VCSEL glued onto its chip surface. For protection, the transmitter PCB is coated with a thin layer of PDMS. The external receiver utilizes a large-size PIN silicon photodiode followed by a shunt shunt feedback transimpedance amplifier, a limiting amplifier and circuitry for clock and data recovery. In vivo tests performed on an anesthetized sheep show that the link is capable of transmitting data at a speed of 100 Mbps with a bit error rate (BER) of 2× 10-7 while consuming only 2.1 mW of electrical power.
Year
DOI
Venue
2014
10.1109/BioCAS.2014.6981792
BioCAS
Keywords
Field
DocType
biomedical equipment,biomedical telemetry,laser applications in medicine,neurophysiology,operational amplifiers,optical links,optical receivers,optical transmitters,p-i-n photodiodes,prosthetics,skin,surface emitting lasers,telemedicine,BER,PIN silicon photodiode,VCSEL,VCSEL driver,anesthetized sheep,bit error rate,data recovery,digitized neural signals,electrical power,external receiver,high data rate,implantable transmitter prototype PCB,implanted cortical array,in vivo verification,infrared optical pulses,limiting amplifier,neural data,optical telemetry wireless transmits,power consumption,shunt shunt feedback transimpedance amplifier,skin,transcutaneous optical telemetric link,transcutaneous transmission,transmitting data,vertical cavity surface emitting laser
Computer science,Electronic engineering,Optical cross-connect
Conference
ISSN
Citations 
PageRank 
2163-4025
3
0.50
References 
Authors
3
4
Name
Order
Citations
PageRank
Tianyi Liu182.13
Ulrich Bihr2316.06
Joachim Becker3558.84
Jens Anders46024.75