Title :
An efficient digital X-ray imaging system with high spatial resolution and robust energy sensitivity
Author :
Beuville, E. ; Collins, T. ; Kipnis, I. ; Nygren, D. ; Oltman, E. ; Hauptman, J.
Author_Institution :
Lawrence Berkeley Lab., CA, USA
Abstract :
A one-dimensional array of X-ray detection pixels is formed by orienting a silicon strip detector edge on, with its strips parallel to the X-ray beam. Spatial resolution is governed by the pixel size, defined by the silicon thickness and strip pitch. The detector orientation presents a large apparent depth for X-ray conversion, resulting in a high quantum efficiency. Coarse, but very stable X-ray energy determination is made by counting the number of conversions as a function of depth in each pixel: The strips (pixels) are subdivided into segments, each sampling a different conversion interval. Custom CMOS ICs provides each detector element with an independent low noise preamp, shaper, comparator and 16-bit counter. During the acquisition phase, each channel counts X-ray conversions, at rates in the 1 MHz range. Readout consists of uploading the counter sums (8 bytes/pixel) to the host computer
Keywords :
biomedical equipment; diagnostic radiography; image resolution; 1 MHz; 16-bit counter; X-ray conversion; acquisition phase; comparator; counter sums uploading; custom CMOS ICs; detector element; efficient digital X-ray imaging system; energy sensitivity; independent low noise preamp; medical diagnostic imaging; medical instrumentation; shaper; silicon strip detector; spatial resolution; stable X-ray energy determination; Counting circuits; Image edge detection; Sampling methods; Sensor arrays; Silicon; Spatial resolution; Strips; X-ray detection; X-ray detectors; X-ray imaging;
Conference_Titel :
Nuclear Science Symposium and Medical Imaging Conference Record, 1995., 1995 IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-3180-X
DOI :
10.1109/NSSMIC.1995.500333
