Abstract
The current transformers with split-core are used for installation in places where it is impossible to install classic current transformers. Moreover, this design allows for any measurement location change, and even switching one current transformer into several different shapes of bars or cables. Power network operators, striving for more accurate current measurements, require producers to provide current transformers with a special accuracy class 0.2S. Therefore, manufacturers and designers try to meet the market requirements and, similarly to non-demountable current transformers, i.e., with a toroidal core, design current transformers with split-core class 0.2S. To meet the high metrological requirements, 3D analyses of electromagnetic fields were performed, taking into account physical phenomena and not approximate analytical models. Two types of cores and four different arrangements of the secondary windings of the measuring current transformers were considered. The magnetic field distributions, current error, and phase displacement diagrams of all current transformer models were analyzed, and the model of the transformer structure with the best accuracy was selected. Computations were conducted based on the finite element numerical method, and the results were compared with the real model tests.
Highlights
The current transformers with split-core are used for installation in places where it is impossible to install classic current transformers
The purpose of the study was to evaluate in the design process how the transformation errors would change when, instead of a toroidal core, we use a split-core with the same cross-section and magnetization path but with a different secondary winding arrangement
This article presents research results on such a split-core current transformer structure that will ensure the high accuracy of this device during measurements
Summary
The current transformers with split-core are used for installation in places where it is impossible to install classic current transformers. This design allows for any measurement location change, and even switching one current transformer into several different shapes of bars or cables. The Selection of the Core Shape and Winding Arrangement on the Keywords: split-core; current transformers accuracy; finite element method. Through-hole CTs are usually built with the secondary winding evenly distributed over the toroidal core and with a through-line primary conductor. This series of current transformers is designed for distribution systems using cables or busbars.
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