Title :
Design and Implementation of a Wireless Capsule Suitable for Autofluorescence Intensity Detection in Biological Tissues
Author :
Al-Rawhani, Mohammed A. ; Chitnis, Danial ; Beeley, J. ; Collins, Stephen ; Cumming, David R. S.
Author_Institution :
Sch. of Eng., Univ. of Glasgow, Glasgow, UK
Abstract :
We report on the design, fabrication, testing, and packaging of a miniaturized system capable of detecting autofluorescence (AF) from mammalian intestinal tissue. The system comprises an application-specific integrated circuit (ASIC), light-emitting diode, optical filters, control unit, and radio transmitter. The ASIC contains a high-voltage charge pump and single-photon avalanche diode detector (SPAD). The charge pump biases the SPAD above its breakdown voltage to operate in Geiger mode. The SPAD offers a photon detection efficiency of 37% at 520 nm, which corresponds to the AF emission peak of the principle human intestinal fluorophore, flavin adenine dinucleotide. The ASIC was fabricated using a commercial triple-well high-voltage CMOS process. The complete device operates at 3 V and draws an average of 7.1 mA, enabling up to 23 h of continuous operation from two 165-mAh SR44 batteries.
Keywords :
CMOS integrated circuits; application specific integrated circuits; avalanche photodiodes; biological tissues; biomedical equipment; biomedical optical imaging; cellular biophysics; charge pump circuits; fluorescence; light emitting diodes; optical filters; packaging; photodetectors; radio transmitters; secondary cells; 165-mAh SR44 batteries; AF emission peak; ASIC; Geiger mode; SPAD; application-specific integrated circuit; autofluorescence intensity detection; biological tissues; breakdown voltage; charge pump; commercial triple-well high-voltage CMOS process; control unit; flavin adenine dinucleotide; high-voltage charge pump; light-emitting diode; mammalian intestinal tissue; miniaturized system; optical filters; photon detection efficiency; principle human intestinal fluorophore; radio transmitter; single-photon avalanche diode detector; voltage 3 V; wireless capsule; Application specific integrated circuits; Charge pumps; Clocks; Light emitting diodes; Lighting; Photonics; Radiation detectors; Autofluorescence (AF) endoscopy; endoscopic capsule; noninvasive diagnosis; single-photon avalanche diode detector (SPAD); Animals; Capsule Endoscopy; Equipment Design; Models, Biological; Optical Imaging; Photons; Sheep;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2012.2222641
