TY - CONF AV - none TI - Effect of Unbalanced Voltage Supply Diagnosis Through Rotor Harmonics Signature and State Transitions ID - scholars8600 SP - 546 KW - Condition monitoring; Data handling; Diagnosis; Electric power transmission networks; Fault detection; Harmonic analysis; Signal processing; Time series analysis KW - Control electronics; Experimental verification; Fault detection schemes; Insulation failures; Inter-turn short circuit; Mechanical oscillations; Symbolic time series analysis; Unbalanced voltage supply KW - Induction motors N1 - cited By 0; Conference of 6th IEEE International Conference on Power and Energy, PECON 2016 ; Conference Date: 28 November 2016 Through 29 November 2016; Conference Code:128386 N2 - Induction motor is a workhorse in industrial system and it poses a great challenge for the fault detection scheme due to large and complex data processing. Induction motor fault can lead to huge losses and excessive downtimes with regards to maintenance and production. An external fault like unbalanced voltages supply could be much severed and result in excessive losses, mechanical oscillations, over-voltage, and interference with control electronics. Detection of an abnormality like unbalanced voltage supply is a challenging task in the interaction of electrical motor and the power grid. In this paper, two new methods are presented to diagnose unbalanced voltage supply at the incipient stage. In first method, a new approach is introduced to formulate the total number of winding turns associated with a particular slot. After the formulation, the unbalanced voltage supply was diagnosed through rotor harmonics based on the formulation. While in the other method, the unbalanced asymmetry was detected through signal processing, symbolic time series analysis and D-Markov state transition. The proposed methods also distinguish motor operation under balanced and unbalanced voltage supply. In the proposed work, hardware setup was designed for experimental verification. For validation of the methods, experimental setup was designed to justify and distinguish the motor operating under balanced and unbalanced voltage supply. © 2016 IEEE. PB - Institute of Electrical and Electronics Engineers Inc. SN - 9781509025473 Y1 - 2017/// EP - 551 A1 - Sheikh, M.A. A1 - Nor, N.M. A1 - Ibrahim, T. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85024374662&doi=10.1109%2fPECON.2016.7951621&partnerID=40&md5=8594a506057ce656e70f909b7b8bbd21 ER -