Abstract

Abstract A design scheme of the data acquisition unit for the annular fuel rod gap detection system is proposed in response to the particularity and importance of the annular fuel rod in application. The working principle and hardware composition of the data acquisition unit are introduced. Functional module design, software design, and the test of the data acquisition unit are achieved. A dual CPU approach is adopted, one for parameter settings and control and the other for data collection to ensure that the data are not lost. The experimental results show that the proposed data acquisition unit has good adaptive ability, high stability, complete and accurate data recording. All performance indicators can meet the system detection requirements.

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