T. Tam scite author profile

T. Tam

5Publications

37Citation Statements Received

15Citation Statements Given

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Affiliations

University of Calgary

Publications

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A Low-Light CMOS Contact Imager With an Emission Filter for Biosensing Applications

Beiderman

Tam

Fish

et al. 2008

IEEE Trans. Biomed. Circuits Syst.

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In this paper, a fully functional low light 128 X 128 contact image sensor for cell detection in biosensing applications is presented. The imager, fabricated in 0.18 mum CMOS technology, provides low-noise operation by employing both a modified version of the active reset (AR) technique and a modified version of the active column sensor (ACS) readout method. High-sensitivity, low noise performance of the presented sensor is well-suited for fluorescence imaging. For this purpose, an emission filter was fabricated and integrated with the sensor. The filter was fabricated using PDMS and Sudan II Blue dye mix, spin-coated and deposited in a class 1000 clean room. The designed filter is suitable for excitation at wavelengths below 340 nm and emission at 450 nm and above. The fabricated imager architecture and operation are described, noise analysis is presented and measurements from a test chip are shown. Experimental results using live neurons from the pond snail, Lymnaea stagnalis, and fluorescence polystyrene micro-beads prove the functionality of the fabricated system and indicate its biocompatiblity.

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A CMOS Contact Imager for Cell Detection in Bio-Sensing Applications

Tam

Jullien

Yadid-Pecht

2007

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A Low noise CMOS image sensor with an emission filter for fluorescence applications

Beiderman

Tam

Fish

et al. 2008

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This paper presents a 128x128 low noise CMOS image sensor with emission filter for fluorescence detection. The imager, fabricated in 0.18µm CMOS technology, provides lownoise operation by employing both the active reset (AR) technique and the active column sensor (ACS) readout method. The emission filter was fabricated using PDMS and Sudan II Blue dye mixed, spin-coated and deposited in the class 1000 clean room. The designed filter is suitable for excitation at wavelengths below 340 nm and emission at 450nm and above. Filter properties, such as thickness, transmission and efficiency of utilization with the fabricated imager are discussed. Preliminary measurements of the system using microbeads are also presented.

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An advanced CMOS imager employing modified AR and ACS methods

Beiderman¹,

Tam²,

Fish

et al. 2008

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Data disaggregation procedure for calibrating a logit model for intercity goods movement

Sargious

Tam

1985

Transportation Planning and Technology

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T. Tam

A Low-Light CMOS Contact Imager With an Emission Filter for Biosensing Applications

A CMOS Contact Imager for Cell Detection in Bio-Sensing Applications

A Low noise CMOS image sensor with an emission filter for fluorescence applications

An advanced CMOS imager employing modified AR and ACS methods

Data disaggregation procedure for calibrating a logit model for intercity goods movement

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