Electronics of Time-of-flight Measurement for Back-n at CSNS

T. Yu; P. Cao; X.Y. Ji; L.K. Xie; X.R. Huang; Q. An; H.Y. Bai; J. Bao,; Y.H. Chen; P.J. Cheng; Z.Q. Cui; R.R. Fan; C.Q. Feng; M.H. Gu; Z.J. Han; G.Z.; He; Y.C. He; Y.F. He; H.X. Huang; W.L. Huang; X.L. Ji; H.Y. Jiang; W. Jiang,; H.Y. Jing; L. Kang; B. Li; L. Li; Q. Li; X. Li; Y. Li; R. Liu; S.B. Liu; X.Y.; Liu; G.Y. Luan; Y.L. Ma; C.J. Ning; J. Ren; X.C. Ruan; Z.H. Song; H. Sun,; X.Y. Sun; Z.J. Sun; Z.X. Tan; J.Y. Tang; H.Q. Tang; P.C. Wang; Q. Wang; T.F.; Wang; Y.F. Wang; Z.H. Wang; Z. Wang; J. Wen; Z.W. Wen; Q.B. Wu; X.G. Wu; X.; Wu; Y.W. Yang; H. Yi; L. Yu; Y.J. Yu; G.H. Zhang; L.Y. Zhang; J. Zhang; Q.M.; Zhang; Q.W. Zhang; X.P. Zhang; Y.T. Zhao; Q.P. Zhong; L. Zhou; Z.Y. Zhou and; K.J. Zhu

arXiv:1806.09250·physics.ins-det·September 4, 2019

Electronics of Time-of-flight Measurement for Back-n at CSNS

T. Yu, P. Cao, X.Y. Ji, L.K. Xie, X.R. Huang, Q. An, H.Y. Bai, J. Bao,, Y.H. Chen, P.J. Cheng, Z.Q. Cui, R.R. Fan, C.Q. Feng, M.H. Gu, Z.J. Han, G.Z., He, Y.C. He, Y.F. He, H.X. Huang, W.L. Huang, X.L. Ji, H.Y. Jiang, W. Jiang,, H.Y. Jing, L. Kang, B. Li, L. Li, Q. Li, X. Li

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TL;DR

This paper details the design and implementation of a PXIe-based electronics system for precise time-of-flight neutron measurements at CSNS's Back-n facility, achieving sub-nanosecond accuracy.

Contribution

It introduces a novel FPGA-based TDC system integrated into general-purpose readout electronics for efficient, accurate TOF measurement in neutron experiments.

Findings

01

TOF measurement accuracy is sub-nanosecond.

02

The system is fully integrated with existing detector electronics.

03

The method meets the precision requirements for Back-n at CSNS.

Abstract

Back-n is a white neutron experimental facility at China Spallation Neutron Source (CSNS). The time structure of the primary proton beam make it fully applicable to use TOF (time-of-flight) method for neutron energy measuring. We implement the electronics of TOF measurement on the general-purpose readout electronics designed for all of the seven detectors in Back-n. The electronics is based on PXIe (Peripheral Component Interconnect Express eXtensions for Instrumentation) platform, which is composed of FDM (Field Digitizer Modules), TCM (Trigger and Clock Module), and SCM (Signal Conditioning Module). T0 signal synchronous to the CSNS accelerator represents the neutron emission from the target. It is the start of time stamp. The trigger and clock module (TCM) receives, synchronizes and distributes the T0 signal to each FDM based on the PXIe backplane bus. Meantime, detector signals…

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