A PET detector module using FPGA-only MVT digitizers

2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC) Pub Date : 2013-10-01 DOI:10.1109/NSSMIC.2013.6829063

D. Xi, Chen Zeng, W. Liu, Xiang Liu, L. Wan, Heejong Kim, Luyao Wang, C. Kao, Q. Xie

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引用次数: 10

Abstract

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 and FPGA based TDCs. The implementation of this digitizer is entirely based on the FPGA. We have demonstrated that it is possible to implement a significant number of MVT digitizers by using a single FPGA. It is also flexible, as it allows us to readily modify, or add functions to, the implementation without requiring costly hardware changes. Currently, we are developing a PET detector module using the FPGA-only MVT digitizer. In this paper we describe the design and implementation of the detector module and report its performance properties. The detector module has a total detection sensitive area of 50mm × 50mm, an overall energy resolution of 15.1% FWHM at 511keV, and a module-level coincidence timing resolution of 684ps FWHM. In addition, our preliminary imaging with such detector module successfully resolves 1.6mm-diameter rods separated by 3.2mm.

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一个PET检测器模块，使用仅fpga的MVT数字转换器

多电压阈值(MVT)是一种基于幅值的采样方法。当事件脉冲超过用户定义的阈值时，它会进行定时采样。在实现这种数字化时，只需要几个比较器和tdc。在此之前，我们已经演示了基于该方法的仅fpga的MVT数字化仪。仅FPGA的MVT数字化仪采用FPGA中的差分I/ o作为所需的比较器和基于FPGA的tdc。该数字化仪的实现完全基于FPGA。我们已经证明，使用单个FPGA可以实现大量的MVT数字化仪。它也很灵活，因为它允许我们随时修改或向实现添加功能，而不需要昂贵的硬件更改。目前，我们正在使用仅fpga的MVT数字化仪开发PET检测器模块。本文描述了该检测器模块的设计与实现，并报告了其性能特性。检测器模块的总探测敏感面积为50mm × 50mm, 511keV时的总能量分辨率为15.1% FWHM，模块级符合定时分辨率为684ps FWHM。此外，我们使用该探测器模块进行初步成像，成功地分辨出直径1.6mm、间隔3.2mm的棒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC)

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