Yield analysis for a large-area analog X-ray sensor array

Yield analysis for a large-area analog X-ray sensor array

A small-scale CMOS-based radiographic X-ray image sensor array has been developed for nondestructive test and medical imaging. The authors present an analysis of tradeoffs between yield and area of a scaled up large-area X-ray sensor design. The X-ray sensor array can tolerate a low level of faults...

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Hauptverfasser: Einsenstadt, W.R., Potluri, S.S., Rambo, K.J., Fox, R.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biomedical imaging
Image sensors
Medical tests
Nondestructive testing
Optical imaging
Pixel
Radiography
Semiconductor device modeling
Sensor arrays
X-ray imaging
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Zusammenfassung:A small-scale CMOS-based radiographic X-ray image sensor array has been developed for nondestructive test and medical imaging. The authors present an analysis of tradeoffs between yield and area of a scaled up large-area X-ray sensor design. The X-ray sensor array can tolerate a low level of faults in the individual pixel cells and these faults can be corrected by imaging software. However, global signal line faults cause X-ray sensor failures. This work models X-ray sensor yield in a 12-layer analog CMOS process for three possible overall defect densities, 1.5 defects/cm, 1.0 defects/cm, and 0.75 defects/cm. It is shown that the X-ray sensor is more manufacturable than a charge coupled device (CCD) array of the same area.< >
ISSN:0749-6877
2375-5350
DOI:10.1109/UGIM.1991.148140