![]() ![]() multi-winding traction transformers, require short-circuit voltage calculation between windings located on different limbs, in which case methods mentioned in the previous paragraph cannot be used. However, these methods require windings of circular shape located on the same limb. In, the authors present methods for calculating the short-circuit voltage in multi-winding transformers. However, these methods have been developed for transformers with windings located on the same limb, often have limitations in terms of the number of windings, requirements for winding symmetry with respect to the transformer core window, or requirements for equal heights or widths of the windings. Various analytical and combined analytical-numerical methods for short-circuit voltage calculations are available in the literature. This parameter is very important for the calculation of short-circuit currents in power systems. Short-circuit voltage is one of the main characteristics of the transformer. deviations of calculated values with respect to the measured value. TRANSFORMER WINDING CALCULATION SOFTWARE SOFTWAREreactive part of short-circuit voltage calculated in MagNet software.reactive part of short-circuit voltage calculated with the proposed method combined with interpolation using pchip function in Matlab. ![]() reactive part of short-circuit voltage calculated with the proposed method combined with interpolation using spline function in Matlab.reactive part of short-circuit voltage calculated with software based on Rabin's method.measured reactive part of short-circuit voltage.total ohmic losses in the windings and solid metal parts.rated phase to neutral voltage of the reference winding.rated power of the transformer per phase.active part of the short-circuit voltage.reactive part of the short-circuit voltage.total volume energy around one core limb.total surface energy for the defined area.magnetic flux density value in the point with ( x, y) coordinates.energy of the leakage field in point with coordinates ( x, y).magnetic flux density in the Z and W planes.magnetic field intensity in the Z and W planes.components of the flux density in the Cartesian coordinate system.tangential component of the magnetic flux density.radial component of the magnetic flux density.cylindrical coordinates of a point wire.point at which magnetic scalar potential is calculated.interior angles in counterclockwise order in the physical domain.IET Generation, Transmission & Distribution.IET Electrical Systems in Transportation.IET Cyber-Physical Systems: Theory & Applications.IET Collaborative Intelligent Manufacturing. ![]()
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