Comparison of Conventional and SDM-Based Read-Out Systems for Gamma-Ray Imaging

Maria Ruiz-Gonzalez, L. Furenlid
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Abstract

One relatively inexpensive way a gamma-ray imaging system can be upgraded is by updating the read-out electronics system and, as a consequence, modernizing the digitization and data-processing methods. The objective of this project is to replace the front-end electronics of modular gamma-ray cameras utilized in multiple small-animal PET and SPECT systems developed at the University of Arizona within the last 20 years. We have previously presented the new front-end board, which utilizes 1-bit sigma-delta modulation (SDM) for energy estimation and a non-uniform 2-bit SDM architecture for timing estimation and triggering. One advantage of this digitization method is that instead of ADC integrated circuits, only a few analog components per channel are utilized, which reduces the complexity and power consumption of the system. The board also includes, among other resources, a Xilinx FPGA combined with an ARM-based processor, DDR3 SDRAM and QSPI flash memory. This project presents the comparison between the original and the new SDM-based front-end electronics board, implemented in a 9-channel modular gamma-ray camera, by obtaining the spectrum of each individual photomultiplier tube (PMT) with both frontend boards. The results show an improvement of 1.5x to 2x in the PMT spectrum resolution with the new approach.
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传统和基于sdm的伽马射线成像读出系统的比较
一种相对便宜的升级伽马射线成像系统的方法是更新读出电子系统,从而使数字化和数据处理方法现代化。该项目的目标是取代亚利桑那大学在过去20年中开发的多种小型动物PET和SPECT系统中使用的模块化伽马射线相机的前端电子设备。我们之前已经提出了新的前端板,它利用1位sigma-delta调制(SDM)进行能量估计,并利用非均匀的2位SDM架构进行时间估计和触发。这种数字化方法的一个优点是不使用ADC集成电路,每通道只使用少量的模拟元件,从而降低了系统的复杂性和功耗。该电路板还包括Xilinx FPGA和基于arm的处理器、DDR3 SDRAM和QSPI闪存。本项目通过获得每个光电倍增管(PMT)的光谱,比较了在9通道模块化伽马射线相机中实现的原始和新的基于sdm的前端电子板之间的比较。结果表明,该方法可将PMT光谱分辨率提高1.5 ~ 2倍。
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