Title :
Noninvasive technique for determining parameter values from the sudden short-circuit test data of brushless alternators
Author :
Martin, J.P. ; Tindall, C.E.
Author_Institution :
Queen´´s Univ., Belfast, UK
fDate :
9/1/2000 12:00:00 AM
Abstract :
The significant influence of the brushless exciter on the short-circuit response is discussed. A novel, noninvasive technique is proposed, which allows the parameters of the main machine to be deduced from a sudden short-circuit test on an unmodified brushless alternator. This is done by utilizing measurements taken from the stationary exciter field, but the results are processed in such a way that the effects of the exciter on the combined machine are excluded. If required, however, the “effective” parameters of an equivalent slip-ring machine, comprising the combination of the main machine and exciter, can also be extracted. It is suggested that this is a considerable improvement on existing techniques
Keywords :
alternators; brushless machines; exciters; machine testing; short-circuit currents; brushless alternators; brushless exciter; curve fitting; equivalent slip-ring machine; noninvasive technique; parameter derivation; parameter values determination; rotating machine nonlinear analysis; short-circuit response; short-circuit test data; stationary exciter field measurements; synchronous machines; transient analysis; unmodified brushless alternator; Alternators; Guidelines; Helium; Noninvasive treatment; Rotating machines; Rotation measurement; Synchronous machines; Testing; Transient analysis; Voltage;
Journal_Title :
Energy Conversion, IEEE Transactions on
