Title :
Quasi-fuzzy estimation of stator resistance of induction motor
Author :
Bose, Bimal K. ; Patel, Nitin R.
Author_Institution :
Dept. of Electr. Eng., Tennessee Univ., Knoxville, TN, USA
fDate :
5/1/1998 12:00:00 AM
Abstract :
This paper describes a quasi-fuzzy method of online stator-resistance estimation of an induction motor, where the resistance value is derived from stator-winding temperature estimation as a function of stator current and frequency through an approximate dynamic thermal model of the machine. The estimator has been designed and iterated by simulation study and then implemented by a digital signal processor on a 5 hp stator-flux-oriented direct vector-controlled drive. The experimental performance of the estimator has been calibrated extensively both at static and dynamic conditions by a stator-mounted thermistor network-based estimation and gives excellent performance. The stator-winding temperature information can also be used for monitoring, protection, and fault-tolerant control of the machine
Keywords :
digital signal processing chips; electric resistance; fuzzy systems; induction motors; machine control; magnetic flux; parameter estimation; stators; 5 hp; digital signal processor; dynamic conditions; dynamic thermal model; fault-tolerant control; induction motor; monitoring; online stator-resistance estimation; protection; quasi-fuzzy estimation; simulation; static conditions; stator current; stator frequency; stator resistance; stator-flux-oriented direct vector-controlled drive; stator-mounted thermistor network-based estimation; stator-winding temperature estimation; Condition monitoring; Digital signal processors; Frequency estimation; Induction motors; Protection; Signal design; Stators; Temperature; Thermal resistance; Thermistors;
Journal_Title :
Power Electronics, IEEE Transactions on
