基于fpga的核探测器脉冲数字采集系统

2007 IEEE 22nd Symposium on Fusion Engineering Pub Date : 2007-06-17 DOI:10.1109/FUSION.2007.4337920

M. Riva, B. Esposito, D. Marocco

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引用次数: 1

摘要

中子/伽马射线脉冲形状识别(PSD)是一种常用的技术，应用于探测器(液体有机闪烁体)用于中子诊断聚变等离子体。例如，在JET (Joint European Torus)的径向和垂直中子相机以及紧凑型中子星光谱仪系统中，NE213闪烁体与模拟PSD模块相结合。然而，这些模拟系统存在一些缺点，例如有限的计数率(通常为~0.2 MHz)和没有再处理能力。因此，ENEA-Frascati开始开发数字解决方案，以提供更高的性能，包括使用商业数字板和开发内部新的数字架构。本文阐述了新数字架构具有高采集速度(200 m采样/s)和高动态范围(14位)的能力。新的DWDA(动态窗口数据采集)技术将被展示:只有当信号越过阈值时才采集输入信号，并且采集的持续时间是可变的，以便对当前时间窗口中的每个脉冲进行采样和采集。本文将介绍一些实验结果。

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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FPGA-Based Pulse-Oriented Digital Acquisition System For Nuclear Detectors

Neutron/gamma-ray pulse shape discrimination (PSD) is a common technique applied to detectors (liquid organic scintillators) employed in neutron diagnostics for fusion plasmas. For example, NE213 scintillators, coupled with analogue PSD modules are in operation at JET (Joint European Torus) in the radial and vertical neutron camera and also in a compact neutron spectrometer system. However, these analogue systems present several drawbacks, such as limited count rate (typically ~0.2 MHz) and no reprocessing capability. ENEA-Frascati has therefore started to develop digital solutions to offer increased performances, both using commercial digital boards and developing in-house new digital architectures. This article illustrates the capabilities of the new digital architecture with high acquisition speed (200 Msamples/s) and high dynamic range (14 bit). The novel DWDA (Dynamic Window Data Acquisition) technique will be shown: the incoming signal is acquired only when the signal trespasses a threshold and the duration of the acquisition is variable so that every pulse in the current time window is sampled and acquired. Some experimental results will be presented.

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2007 IEEE 22nd Symposium on Fusion Engineering

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