Paper Info
Title
Wireless integrated circuit for the acquisition of electrocorticogram signals
Abstract
We present the design and characterization of amplifiers and control logic for an integrated circuit designed to record electrocorticograms (ECoG) from the surface of the brain. The chip, which was fabricated in a 0.6-μm BiCMOS process, contains 100 amplifiers, control logic, and circuits for wireless power and transmission of data. ECoG signals, sensed by electrodes, are capacitively coupled to the amplifiers. Each amplifier has a gain of 59.2 dB, a maximum bandwidth of 240 Hz, an input referred noise of 2.8μV, and consumes 4.5μW of power. The output of each amplifier is connected to a 10-bit ADC via an adaptive-bias buffer and transmission gate whose transparency is set by the control logic. The control logic time-shares the ADC by multiplexing through one of five preset patterns of 32 on-chip signals. The digitized waveforms are then broadcasted wirelessly using a 900 MHz FSK transmitter. The entire chip consumes 7.2 mW of power during operation.
Year
DOI
Venue
2010
10.1109/ISCAS.2010.5538020
Circuits and Systems
Keywords
Field
DocType
BiCMOS integrated circuits,amplifiers,analogue-digital conversion,bioelectric phenomena,biomedical electrodes,brain,buffer circuits,multiplexing,ADC,BiCMOS,ECoG,adaptive-bias buffer,amplifiers,bandwidth 240 Hz,brain,control logic,data transmission,electrocorticogram signals,electrodes,frequency 900 MHz,gain 59.2 dB,power 4.5 muW,power 7.2 mW,signal multiplexing,voltage 2.8 muV,wireless integrated circuit
Transmitter,Computer science,Electronic engineering,Control logic,Transmission gate,Mixed-signal integrated circuit,Electronic circuit,Integrated injection logic,Integrated circuit,Electrical engineering,Amplifier
Conference
ISSN
ISBN
Citations 
0271-4302
978-1-4244-5309-2
1
PageRank 
References 
Authors
0.40
1
2
Name
Order
Citations
PageRank
Grant S. Anderson110.40
Reid R. Harrison235679.00