Title :
A data acquisition system for coincidence imaging using a conventional dual head gamma camera
Author :
Lewellen, T.K. ; Miyaoka, R.S. ; Jansen, F. ; Kaplan, M.S.
Author_Institution :
Washington Univ., USA
fDate :
6/1/1997 12:00:00 AM
Abstract :
A low cost data acquisition system (DAS) was developed to acquire coincidence data from an unmodified General Electric Maxxus dual head scintillation camera. A high impedance pick-off circuit provides position and energy signals to the DAS without interfering with normal camera operation. The signals are pulse-clipped to reduce pileup effects. Coincidence is determined with fast timing signals derived from constant fraction discriminators. A charge-integrating FERA 16 channel ADC feeds position and energy data to two CAMAC FERA memories operated as ping-pong buffers. A Macintosh PowerPC running Labview controls the system and reads the CAMAC memories. A CAMAC 12-channel scaler records singles and coincidence rate data. The system dead-time is approximately 10% at a coincidence rate of 4.0 kHz
Keywords :
CAMAC; biomedical electronics; biomedical equipment; cameras; coincidence techniques; computerised instrumentation; data acquisition; detector circuits; gamma-ray detection; nuclear electronics; positron emission tomography; single photon emission computed tomography; solid scintillation detectors; CAMAC 12-channel scaler; CAMAC FERA memories; Macintosh PowerPC running Labview; SPECT; charge-integrating FERA 16 channel ADC; coincidence imaging; coincidence rate data; constant fraction discriminators; conventional dual head gamma camera; data acquisition system; energy signals; fast timing signals; high impedance pick-off circuit; low cost; pileup effects; ping-pong buffers; position signals; pulse-clipped signals; system dead-time; unmodified General Electric Maxxus dual head scintillation camera; CAMAC; Cameras; Circuits; Control systems; Costs; Data acquisition; Feeds; Impedance; Magnetic heads; Timing;
Journal_Title :
Nuclear Science, IEEE Transactions on
