Parameter identification of induction machines with consideration of rotor core loss

Woei Luen Chen, Kai Mou Cheng

研究成果: 期刊稿件文章同行評審

1 引文 斯高帕斯(Scopus)

摘要

Parameter estimation accuracy plays an extremely critical role in the control performance of an induction motor (IM). Conventional IM parameter estimation can be performed by a dc-test, a no load test, and a blocked-rotor test. The dc-test determines the equivalent resistance of the stator winding. The no-load test provides behavior related to the magnetic core. The rotor resistance can be derived from the blocked-rotor test. According to the no-load test, the rotor parameter should be irrelevant to the stator power. However, significant mismatch in active power can be observed between simulation and experiment from a squirrel cage IM (SCIM) operating under super and sub-synchronous revolution speed. The same result can also be obtained from a doubly-fed IM (DFIM) in the case of rotor open-circuit test. To compromise the mismatched active power resulted from the conventional equivalent model due to the no-load test, a resistance representing the rotor core loss is considered. A novel procedure is proposed to determine the parameters of the IM. The first step of the proposed procedure is to determine the stator resistance by the dc-test. The second step is to find out the stator core parameters by a no-load test performing at synchronous rotor speed. The rotor parameters and the turn ratio between stator and rotor windings are finally obtained by the load test and the blocked-rotor test. Experimental and simulation results regarding to a SCIM and a DFIM are performed to differentiate the accuracy between the conventional and the proposed IM models.

原文英語
頁(從 - 到)13-20
頁數8
期刊International Journal of Electrical Engineering
21
發行號1
DOIs
出版狀態已出版 - 01 02 2014

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