Title :
Models for capacitive effects in iron core transformers
Author :
Ioan, Daniel ; Munteanu, Irina
Author_Institution :
Dept. of Electr. Eng., Bucharest Univ., Romania
fDate :
7/1/2000 12:00:00 AM
Abstract :
The paper presents an efficient modeling technique for iron core coils and transformers based on a separation of the nonlinear inductive effects from the linear capacitive effects. The magnetic field is numerically analyzed neglecting the displacement currents. The distributed capacitive effects in the insulation between coils are concentrated in an “Extended II scheme,” an infinite circuit which is optimally reduced to a finite one. The separately extracted models are integrated in a common discrete (lumped) system. This global model obtained by postprocessing the numerical field solution was used to study the transmission of atmospheric lightning overvoltages to the secondary windings of power transformers
Keywords :
capacitance; equivalent circuits; iron; lightning; modelling; overvoltage; power transformers; transformer cores; transformer magnetic circuits; transformer windings; transient analysis; transmission line theory; Extended II scheme; Fe; atmospheric lightning overvoltages; capacitive effects model; common discrete system; distributed capacitive effects; global model; insulation; iron core coils; iron core transformers; linear capacitive effects; magnetic field analysis; nonlinear inductive effects; numerical field solution; order reduction; power transformers; secondary windings; Atmospheric modeling; Circuits; Coils; Iron; Magnetic analysis; Magnetic cores; Magnetic fields; Power system modeling; Power transformer insulation; Transformer cores;
Journal_Title :
Magnetics, IEEE Transactions on
