用于M×N阵列的固态x射线图像增强器的组件级模块化设计。

Ying Huang, Bin Qu, Prateek Sharma, Andrew Kuhls-Gilcrist, Weiyuan Wang, Albert H Titus, Alexander N Cartwright, Daniel R Bednarek, Stephen Rudin
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引用次数: 6

摘要

固态x射线图像增强器(SSXII)是一种新型的动态x射线成像仪,基于电子倍增ccd (emccd)阵列,与传统的x射线图像增强器(xii)和平板探测器(FPDs)相比,可以显着提高性能。为了在保持高分辨率的同时扩大SSXII探测器的视场(FOV),提出了可扩展的组件级模块化设计。每个模块可以以最小的死区安装在一起,并光学耦合到一个连续的x射线转换板。每个模块的电子元件包括一个可拆卸的头板,上面安装了EMCCD,和一个驱动板。头板的尺寸是最小的,以确保模块正确地安装在一起。驱动板通过扁平电缆与头板连接,并被设计为插入包含FPGA芯片的主主板,该芯片为emccd和模数转换器(ADC)生成驱动时钟信号。在前端,每个驱动板上的高速ADC对EMCCD模拟输出信号进行采样和数字化,后端使用可扩展的模块化数字多路复用器采集和组合来自多个模块的图像数据。然后将合并的数字数据通过标准的Camera Link接口传输到PC机。最终,这种模块化设计将扩展到3×3或更大的阵列,以完成完整的临床fov,并使SSXII取代传统的低分辨率xii或fpd。
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Component Level Modular Design of a Solid State X-ray Image Intensifier for an M×N Array.

The Solid-State X-ray Image Intensifier (SSXII) is a novel dynamic x-ray imager, based on an array of electron-multiplying CCDs (EMCCDs), that can significantly improve performance compared to conventional x-ray image intensifiers (XIIs) and flat panel detectors (FPDs). To expand the field-of-view (FOV) of the SSXII detectors while maintaining high resolution, a scalable component level modular design is presented. Each module can be fit together with minimum dead-space and optically coupled to one contiguous x-ray converter plate. The electronics of each of the modules consists of a detachable head-board, on which is mounted the EMCCD, and a driver board. The size of the head-boards is minimized to ensure that the modules fit together properly. The driver boards connect with the head-boards via flat cables and are designed to be plugged into the main mother-board that contains an FPGA chip that generates the driving clock signals for the EMCCDs and analog-to-digital converter (ADC). At the front-end, a high speed ADC on each of the driver boards samples and digitizes the EMCCD analog output signal and an extensible modular digital multiplexer back-end is used to acquire and combine image data from multiple modules. The combined digital data is then transmitted to a PC via a standard Camera Link interface. Eventually, this modular design will be extended to a 3×3 or larger array to accomplish full clinical FOVs and enable the SSXII to replace conventional lower-resolution XIIs or FPDs.

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