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Based on the multi-voltage threshold (MVT) method, we have proposed the FPGA-only implementation for positron emission tomography (PET) detectors. It realizes required comparators and time-to-digital convertors (TDCs) on FPGAs. Thus, its performance can be easily enhanced by optimizing the inside algorithm without hardware modifications or improved with the development of FPGA technologies. In this...
Nowadays, time-of-flight (TOF) PET detectors and systems are becoming increasingly common since scintillators, photodetectors and electronics has made significant progress. It has been well recognized that TOF PET imaging can increase the image signal-to-noise ratio (SNR) and yield other benefits; and the degree of these enhancements is higher as the timing resolution improves. Previously we have...
As digital signal has abilities like immunity for transmit distortion and feasibility to calibrate, digital architecture that samples the event waveform at the earliest possible stage shows promising potential for building next generation PET system. Multi-voltage threshold (MVT) is a digital sampling method that take time samples when pulses cross predefined thresholds and extracts event information...
We have explored, and continue exploring the potentials of the multi-voltage threshold (MVT) method that we previously proposed. By using of this method, we digitize PET event pulses by taking timing samples with respect to a number of predefined thresholds. Previous studies indicate that the MVT method is capable of obtaining sufficient accurate timing information for developing time-of-flight (TOF)...
Multi-voltage threshold (MVT) is an amplitude-based sampling method. It takes timing samples when the event pulse crosses the user-defined thresholds. Only a few comparators and TDCs are required when implementing such digitizer. Previously, we have demonstrated an FPGA-only MVT digitizer based on this method. The FPGA-only MVT digitizer employs the differential I/Os in an FPGA as the required comparators...
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