Title :
Digital coincidence detection: a scanning VLSI implementation
Author :
Mertens, J.D. ; Bhend, W.L.
Author_Institution :
GE Med. Syst., Milwaukee, WI, USA
fDate :
12/1/1993 12:00:00 AM
Abstract :
The authors have implemented a modular digital coincidence detection circuit in VLSI, which drastically reduces the size and increases the performance of the coincidence detection logic required in a PET (position emission tomography) scanner. Important acquisition features contained within this integrated solution include: prompt and delayed processing channels for each event-pair, with programmable coincidence time windows: an event time difference mode, which allows for a fast and accurate system timing calibration algorithm; programmable axial event acceptance, which provides acquisition flexibility from conventional 2-D through full 3-D sinogram sets; and programmable transaxial field of view, which provides an electronic collimator to ignore event-pairs outside of the desired field of view. The modularity of the design allows it to be used on various system geometries
Keywords :
VLSI; biomedical electronics; computerised tomography; digital signals; radioisotope scanning and imaging; signal detection; acquisition flexibility; coincidence detection logic; delayed processing channels; electronic collimator; event time difference mode; modular digital coincidence detection circuit; of view; position emission tomography; programmable axial event acceptance; programmable coincidence time windows; programmable transaxial field; scanning VLSI implementation; sinogram; Clocks; Delay effects; Event detection; Geometry; Logic circuits; Positron emission tomography; Process design; Registers; Synchronization; Very large scale integration;
Journal_Title :
Nuclear Science, IEEE Transactions on
