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Multiple-gain-ranging readout method to extend the dynamic range of amorphous silicon flat-panel imagers

Authors :
Evangelos Matsinos
Peter Munro
Wolfgang Kaissl
Richard E. Colbeth
Edward Shapiro
George Zentai
J. Micheal Yu
Jeroen Richters
John Pavkovich
Heinrich Riem
Gary Virshup
Edward J. Seppi
Ivan P. Mollov
Pieter Gerhard Roos
Carlo Tognina
Source :
SPIE Proceedings.
Publication Year :
2004
Publisher :
SPIE, 2004.

Abstract

The dynamic range of many flat panel imaging systems are fundamentally limited by the dynamic range of the charge amplifier and readout signal processing. We developed two new flat panel readout methods that achieve extended dynamic range by changing the read out charge amplifier feedback capacitance dynamically and on a real-time basis. In one method, the feedback capacitor is selected automatically by a level sensing circuit, pixel-by-pixel, based on its exposure level. Alternatively, capacitor selection is driven externally, such that each pixel is read out two (or more) times, each time with increased feedback capacitance. Both methods allow the acquisition of X-ray image data with a dynamic range approaching the fundamental limits of flat panel pixels. Data with an equivalent bit depth of better than 16 bits are made available for further image processing. Successful implementation of these methods requires careful matching of selectable capacitor values and switching thresholds, with the imager noise and sensitivity characteristics, to insure X-ray quantum limited operation over the whole extended dynamic range. Successful implementation also depends on the use of new calibration methods and image reconstruction algorithms, to insure artifact free rebuilding of linear image data by the downstream image processing systems. The multiple gain ranging flat panel readout method extends the utility of flat panel imagers and paves the way to new flat panel applications, such as cone beam CT. We believe that this method will provide a valuable extension to the clinical application of flat panel imagers.

Details

ISSN :
0277786X
Database :
OpenAIRE
Journal :
SPIE Proceedings
Accession number :
edsair.doi...........50a0387d6ae552f82d40687ccd197e6e