Study of PMOS front-end solution with signal compression for XFEL MiniSDD X-ray detectors

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD) Pub Date : 2016-10-01 DOI:10.1109/NSSMIC.2016.8069648

A. Grande, C. Fiorini, F. Erdinger, P. Fischer, M. Porro

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引用次数: 2

Abstract

In this work we present the study and the experimental results on two different front-end stages for the MiniSDD pixel sensors of the DSSC detector for photon science applications at the European XFEL GmbH in Hamburg. The detector must be able to cope with an image frame rate up to 4.5 MHz and must achieve a dynamic range up to 104 photons/pixel/pulse with a photon energy of 1 keV. In order to achieve this high dynamic range and single photon sensitivity at the same time, the front-end must provide a non-linear amplification. The non-linear response is obtained with a simple circuit that pushes the input PMOSFET into triode region as the input signal increases. Since the readout ASIC has more than 4000 channels operating in parallel, particular care was devoted to the homogeneity and the robustness of the implemented solution, especially with respect to power supply rejection ratio and the cross talk among channels.

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XFEL mindd x射线探测器信号压缩PMOS前端方案研究

在这项工作中，我们介绍了在位于汉堡的欧洲XFEL有限公司用于光子科学应用的DSSC探测器的MiniSDD像素传感器的两个不同前端阶段的研究和实验结果。探测器必须能够处理高达4.5 MHz的图像帧速率，并且必须实现高达104光子/像素/脉冲的动态范围，光子能量为1 keV。为了同时实现高动态范围和单光子灵敏度，前端必须提供非线性放大。非线性响应是通过一个简单的电路获得的，当输入信号增加时，将输入PMOSFET推入三极管区。由于读出ASIC有超过4000个并行运行的通道，因此特别注意实现解决方案的同质性和鲁棒性，特别是关于电源抑制比和通道之间的串扰。

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2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD)

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