Title :
CMOS impedance spectrum analyzer with dual-slope multiplying ADC
Author :
Jafari, Hamed Mazhab ; Genov, Roman
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Toronto, Toronto, ON, Canada
Abstract :
We present a multi-channel, mixed-signal VLSI architecture that utilizes frequency response analysis (FRA) to extract the real and imaginary components of a biosensor impedance. Two computationally intensive operations, the multiplication and integration required by the FRA algorithm, are efficiently performed by an in-channel dual-slope multiplying ADC with minimal resources overhead. Multiplication of the input current by a digital coefficient is implemented by modulating the counter-controlled duration of the charging phase of the ADC. Integration is implemented by accumulating output digital bits in the ADC counter over multiple input samples. The 1.2mm×1.6mm prototype fabricated in a 0.13μm standard CMOS technology has been validated in DNA catalytic reporter detection. Each channel occupies an area of only 0.06mm2 and consumes 42μW of power from a 1.2V supply.
Keywords :
CMOS integrated circuits; DNA; VLSI; analogue-digital conversion; biosensors; electric impedance measurement; molecular biophysics; spectral analysers; ADC charging phase; ADC counter; CMOS impedance spectrum analyzer; DNA catalytic reporter detection; FRA algorithm; biosensor impedance imaginary component; biosensor impedance real component; counter controlled duration; digital coefficient; frequency response analysis; in channel dual slope multiplying ADC; input current integration; input current multiplication; multichannel mixed signal VLSI architecture; power 42 muW; size 0.6 mm; size 1.2 mm; size 1.6 mm; standard CMOS technology; voltage 1.2 V; Biosensors; DNA; Electrodes; Frequency measurement; Impedance; Spectroscopy;
Conference_Titel :
Biomedical Circuits and Systems Conference (BioCAS), 2011 IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4577-1469-6
DOI :
10.1109/BioCAS.2011.6107802
