用于小动物正电子发射断层扫描仪的基于第二代火线的数据采集系统设计。
Design of a Second Generation Firewire Based Data Acquisition System for Small Animal PET Scanners.
作者信息
Lewellen T K, Miyaoka R S, Macdonald L R, Haselman M, Dewitt D, Hunter William, Hauck S
机构信息
Tom K. Lewellen is with the University of Washington Department of Radiology, Seattle, WA 98195 USA. Robert Miyaoka is with the University of Washington Department of Radiology, Seattle, WA 98195 USA. Larry MacDonald is with the University of Washington Department of Radiology, Seattle, WA 98195 USA. Michael Haselman is with the University of Washington Department of Electrical Engineering, Seattle, WA 91895 USA. Don DeWitt, PE is now doing independent consulting work, William Hunber is with the University of Washington Department of Radiology, Seattle, WA 98195 USA. Scott Hauck is with the University of Washington Department of Electrical Engineering, Seattle, WA 91895 USA.
出版信息
IEEE Nucl Sci Symp Conf Rec (1997). 2008 Oct 19;2008:5023-5028. doi: 10.1109/nssmic.2008.4774369.
The University of Washington developed a Firewire based data acquisition system for the MiCES small animal PET scanner. Development work has continued on new imaging scanners that require more data channels and need to be able to operate within a MRI imaging system. To support these scanners, we have designed a new version of our data acquisition system that leverages the capabilities of modern field programmable gate arrays (FPGA). The new design preserves the basic approach of the original system, but puts almost all functions into the FPGA, including the Firewire elements, the embedded processor, and pulse timing and pulse integration. The design has been extended to support implementation of the position estimation and DOl algorithms developed for the cMiCE detector module. The design is centered around an acquisition node board (ANB) that includes 65 ADC channels, Firewire 1394b support, the FPGA, a serial command bus and signal lines to support a rough coincidence window implementation to reject singles events from being sent on the Firewire bus. Adapter boards convert detector signals into differential paired signals to connect to the ANB.
华盛顿大学为MiCES小型动物PET扫描仪开发了一种基于火线的数据采集系统。针对需要更多数据通道且需能在MRI成像系统内运行的新型成像扫描仪,相关开发工作仍在继续。为支持这些扫描仪,我们设计了新版本的数据采集系统,该系统利用了现代现场可编程门阵列(FPGA)的功能。新设计保留了原系统的基本方法,但几乎将所有功能都集成到了FPGA中,包括火线元件、嵌入式处理器以及脉冲定时和脉冲积分。该设计已得到扩展,以支持为cMiCE探测器模块开发的位置估计和深度-of-interaction(DOI)算法的实现。该设计以一个采集节点板(ANB)为核心,该节点板包括65个ADC通道、对火线1394b的支持、FPGA、一个串行命令总线以及信号线,以支持粗略符合窗口的实现,从而拒绝单事件在火线上发送。转接板将探测器信号转换为差分配对信号,以便连接到ANB。
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