Characteristic Impedance Modeling of Nuclear Power Instrumentation and Control Cable Shield Breakage Article Swipe

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Breakage Shield Instrumentation (computer programming) Electrical impedance Nuclear power Nuclear engineering Electromagnetic shielding Engineering Materials science Electrical engineering Physics Computer science Geology Nuclear physics Composite material Petrology Operating system

Hua Tu , Chao Peng , Yu-Hsi Chen , Lixing Li , Honglei Deng , Gang Liu ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.3390/en18123008 · OA: W4411096880

Nuclear Instrumentation and Control (I&C) cables laying in a complex environment are prone to shield damage. And, the traveling wave reflection method can be used to detect and locate damage using the characteristic impedance change caused by I&C cable damage. Therefore, this paper establishes a quasi-coaxial cable shield characteristic impedance calculation model. And, it brings in the defective circumferential angle of the damage coefficient. Then, it builds a quasi-coaxial I&C characteristic impedance model approximation of the multi-core cable structure combined. Finally, the results of this paper through calculations and simulations are as follows. Firstly, the characteristic impedance of the cable with eccentricity e equal to 2.57 mm is stabilized at 37.795 Ω with increasing frequency. Second, the difference in the computational model is 3.88 Ω at 10 MHz of frequency, and a less than 3% difference in model approximation of a four-core cable at 5 MHz of frequency. Third, the calculation model can control the error of the characteristic impedance calculation result within 4 Ω within the defect angle of 270°. These results validate the reasonableness of the model.