Characterization and testing of LAS: A prototype ‘large area sensor’ with performance characteristics suitable for medical imaging applications
- Abstract:
- The Large Area Sensor (LAS) is a 1350 × 1350 array of active pixels on a 40m pitch fabricated in a 0.35m CMOS process. Stitching technology is employed to achieve an area of 5.4 cm × 5.4 cm. The sensor includes 'regions of reset', whereby three different integration times can be set on the array to achieve a large imaging range for static scenes. Characterization of the noise performance included temporal and fixed pattern sources. LAS was found to have a read noise of 62 e-, a full well capacity of 61 × 10 3 e- and a conversion gain of 5 e- per digital number (DN). The fixed pattern noise (FPN) was evaluated at half saturation; within a single stitched section of the array, column-to-column FPN was found to be 0.6%, while the pixel-to-pixel FPN was 3%. Both FPN sources were found to be gain related and could be corrected via flat fielding. Based on the results of characterization, LAS was coupled to a structured CsI:Tl scintillator and included in an X-ray diffraction system developed for the analysis of breast biopsy samples. Data acquired with plastic test objects agrees with that acquired by a previous prototype sensor. It is demonstrated that an imaging output range of 140 dB can be achieved using integration times of 0.1 ms to record the transmitted X-ray beam and 2.3 s to record the lower intensity scattered radiation. © 2009 IEEE.
- Authors:
- SE Bohndiek, A Blue, J Cabello, AT Clark, N Guerrini, PM Evans, EJ Harris, A Konstantinidis, D Maneuski, J Osmond, V O'Shea, RD Speller, R Turchetta, K Wells, H Zin, NM Allinson
- Journal:
- IEEE Transactions on Nuclear Science
- Citation info:
- 56(5):2938-2946
- Publication date:
- 1st Oct 2009
- Full text
- DOI