Shielding Effectiveness Analysis of the Materials for High Current Systems in Low Frequency
Publish place: 20th International Power System Conference
Publish Year: 1384
نوع سند: مقاله کنفرانسی
زبان: Persian
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شناسه ملی سند علمی:
PSC20_253
تاریخ نمایه سازی: 8 آذر 1385
Abstract:
Since current injection transformer as a high current systems are within the major group of the standard type test equipments in electrical industry, their performances are very important. When designing a high current devices, there are many factors to be considered from which, the compatibility of these devices with the internal and external propagation and generation of low frequency and high frequency disturbances within
electromagnetic environment must be ensured. Up to the present time, as far as the authors are aware no report on shielding effectiveness analysis of the materials for high current systems in low frequency has been made. This paper attempts to fill this void in our knowledge by considering various issues related to shielding design consideration in a 25kA current injection transformer (CIT) as a high current system, using 3D electromagnetic fields (EMFs) simulation tools to calculate shielding effectiveness of various materials in low frequency. As matter of comparison of finite element method (FEM) simulations to measurements, a short circuit test was carried out on a typical CIT. This paper also reports the propagated and the generated low frequency near fields around the CIT and shielding effectiveness of variuos materials against these radiated fields.
Keywords:
Electromagnetic compatibility (EMC) , Electromagnetic interference (EMI) , Current injection transformer (CIT) , Shielding material
Authors
HOSSEIN HEYDARI
Electrical Engineering Department, High Voltage & Magnetic Materials Research Center Iran University of Science and Technology
MOHSEN FARHADY
Electrical Engineering Department, High Voltage & Magnetic Materials Research Center Iran University of Science and Technology
FARAMARZ FAGHIHI
Electrical Engineering Department, High Voltage & Magnetic Materials Research Center Iran University of Science and Technology
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