A time and charge measurement board for muon tomography of h
发布时间:2021-09-17 10:34
In this paper, a versatile time and charge measurement(MQT) board for muon tomography is described in detail. For time measurement, the general-purpose timeto-digital converter(TDC) chip TDC-GP2 is employed,while for charge measurement, digitization plus numerical integration in field programmable gate array is employed.Electronic tests demonstrate that the total 32 channels of two MQT boards have a time resolution of superior than100 ps, with excellent linearity for time and charge measurement.
【文章来源】:Nuclear Science and Techniques. 2017,28(03)SCICSCD
【文章页数】:5 页
【参考文献】:
期刊论文
[1]A multi-channel real-time digital integrator for magnetic diagnostics in HL-2A tokamak[J]. Chao Chen,Wei-Wei Fan,Yin-Hai Pan,Xiao-Quan Ji,Ze-Jie Yin. Nuclear Science and Techniques. 2016(01)
[2]Carry-chain propagation delay impacts on resolution of FPGA-based TDC[J]. 董磊,杨俊峰,宋克柱. Nuclear Science and Techniques. 2014(03)
[3]A 16-Channel high-resolution time and charge measurement module for the external target experiment in the CSR of HIRFL[J]. 赵雷,康龙飞,周家稳,刘树彬,安琪. Nuclear Science and Techniques. 2014(01)
[4]A low dead time vernier delay line TDC implemented in an actel flash-based FPGA[J]. QIN Xi,FENG Changqing,ZHANG Deliang,ZHAO Lei,LIU Shubin,AN Qi. Nuclear Science and Techniques. 2013(04)
[5]A precise time measurement evaluation board for a radiography system of high-Z materials[J]. DOU Fei 1,2 LIANG Hao 1,2,* ZHOU Lei 3 ZHOU Yongzhao 1,2 1 State Key Laboratory of Particle Detection & Electronics, Hefei 230026, China 2 Anhui Key Laboratory of Physical Electronics, Department of Modern Physics, University of Science and Technology of China, Hefei 230026, China 3 Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei 230026, China. Nuclear Science and Techniques. 2012(05)
[6]LUT-based non-linearity compensation for BES III TOF’s time measurement[J]. LIU Shubina,b FENG Changqinga,b YAN Hana,b AN Qia,b,1 Key Laboratory of Technologies of Particle Detection & Electronics,Chinese Academy of Sciences,2Anhui Key Laboratory of Physical Electronics,Department of Modern Physics,University of Science and technology of China,Hefei 230026 ,China. Nuclear Science and Techniques. 2010(01)
本文编号:3398545
【文章来源】:Nuclear Science and Techniques. 2017,28(03)SCICSCD
【文章页数】:5 页
【参考文献】:
期刊论文
[1]A multi-channel real-time digital integrator for magnetic diagnostics in HL-2A tokamak[J]. Chao Chen,Wei-Wei Fan,Yin-Hai Pan,Xiao-Quan Ji,Ze-Jie Yin. Nuclear Science and Techniques. 2016(01)
[2]Carry-chain propagation delay impacts on resolution of FPGA-based TDC[J]. 董磊,杨俊峰,宋克柱. Nuclear Science and Techniques. 2014(03)
[3]A 16-Channel high-resolution time and charge measurement module for the external target experiment in the CSR of HIRFL[J]. 赵雷,康龙飞,周家稳,刘树彬,安琪. Nuclear Science and Techniques. 2014(01)
[4]A low dead time vernier delay line TDC implemented in an actel flash-based FPGA[J]. QIN Xi,FENG Changqing,ZHANG Deliang,ZHAO Lei,LIU Shubin,AN Qi. Nuclear Science and Techniques. 2013(04)
[5]A precise time measurement evaluation board for a radiography system of high-Z materials[J]. DOU Fei 1,2 LIANG Hao 1,2,* ZHOU Lei 3 ZHOU Yongzhao 1,2 1 State Key Laboratory of Particle Detection & Electronics, Hefei 230026, China 2 Anhui Key Laboratory of Physical Electronics, Department of Modern Physics, University of Science and Technology of China, Hefei 230026, China 3 Hefei National Laboratory for Physical Sciences at the Microscale, University of Science and Technology of China, Hefei 230026, China. Nuclear Science and Techniques. 2012(05)
[6]LUT-based non-linearity compensation for BES III TOF’s time measurement[J]. LIU Shubina,b FENG Changqinga,b YAN Hana,b AN Qia,b,1 Key Laboratory of Technologies of Particle Detection & Electronics,Chinese Academy of Sciences,2Anhui Key Laboratory of Physical Electronics,Department of Modern Physics,University of Science and technology of China,Hefei 230026 ,China. Nuclear Science and Techniques. 2010(01)
本文编号:3398545
本文链接:https://www.wllwen.com/kejilunwen/wulilw/3398545.html
最近更新
教材专著
