Title :
Interlaminar Insulation Faults Detection and Quality Assessment of Magnetic Cores Using Flux Injection Probe
Author :
Hamzehbahmani, Hamed ; Anderson, Philip ; Jenkins, Keith
Author_Institution :
Wolfson Centre for Magnetics, Cardiff Univ., Cardiff, UK
Abstract :
Interlaminar faults between laminations of the magnetic cores increase core losses and could cause major damage to electrical machines. A system has been developed to detect an interlaminar fault between the laminations of the magnetic cores by means of the flux injection probe (FIP). Experimental work was carried out to calibrate the measuring system and qualify its accuracy over a wide measurement range. Application of a prototype FIP to quality assessment of transformer laminations was investigated in two stages: 1) inspection of stack of laminations with known interlaminar faults applied by artificial shorts and 2) inspection of stack of laminations with unknown quality. The experimental results show that the developed system is capable of detecting an interlaminar fault between as few as two laminations.
Keywords :
calibration; electric machines; fault diagnosis; inspection; laminations; machine insulation; magnetic flux; power transformer insulation; probes; reliability; transformer cores; FIP; artificial shorts; electrical machine damage; flux injection probe; interlaminar insulation fault detection; lamination stack inspection; magnetic core lamination; magnetic core quality assessment; measuring system calibration; transformer lamination quality assessment; Circuit faults; Lamination; Loss measurement; Magnetic cores; Magnetic flux; Voltage measurement; Windings; Edge burr; fault detection; flux injection probe; interlaminar fault; magnetic lamination; magnetic loss;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2015.2413900
