Title :
BLDC motor stator and rotor iron losses and thermal behavior based on lumped schemes and 3D FEM analysis
Author :
Cassat, A. ; Espanet, C. ; Wavre, N.
Author_Institution :
Swiss Fed. Inst. of Technol., Lausanne, Switzerland
Abstract :
Many industrial applications refer to BLDC motors applied at their potential limits. Two cases related to the motor configuration lead to high possible iron losses and consequently to the necessary knowledge of the thermal behavior of the motor. Referring to the motor synchronous frequency: the first case corresponds to a relative low speed, but a high number of pole pairs (torque motors used in direct drive applications); the second case to a low number of pole pairs, but a high speed (mass storage applications, for example). The iron losses are a key issue since the considered frequencies are over the usual range of the known field of magnetic material vendor characteristics. Because the excitation flux and the slot geometry introduce high harmonic frequencies, rotor losses are a key issue of the investigation. This paper considers a torque motor with a high number of slots and poles. The authors present two different methods to model the iron losses and the thermal behavior. The first method uses two lumped schemes: the first scheme permits determination of the flux distribution as well as the stator, magnet and rotor yoke iron losses. The temperature gradient distribution is computed using an original lumped thermal scheme of the motor. The second method uses FEM analysis with a 2D model for the magnetic behavior and a 3D model for the thermal behavior. A testing bench for a BLDC torque motor has permitted measurement of the iron losses at no load generating operation and the temperature using thermal probes and infrared camera. Then simulations and measurements results are compared to characterize the accuracy of the two methods. The main interests of the presented work consist in the computation of the whole iron losses in the stator as well as in the rotor yoke and the magnets and in the 3D FEM computation of the thermal behavior.
Keywords :
brushless DC motors; finite element analysis; losses; magnetic flux; rotors; stators; thermal analysis; torque motors; 3D FEM analysis; 3D model; BLDC motor rotor iron losses; BLDC motor stator iron losses; brushless DC motor; direct drive applications; excitation flux; flux distribution; high harmonic frequencies; infrared camera; lumped thermal scheme; magnet losses; magnetic behavior; magnetic material vendor characteristics; mass storage applications; motor synchronous frequency; no load generating operation; pole pairs; rotor losses; rotor yoke iron losses; slot geometry; thermal behavior; thermal probes; torque motor; torque motors; Brushless DC motors; Frequency; Geometry; Iron; Magnetic flux; Magnetic materials; Rotors; Stators; Synchronous motors; Torque;
Conference_Titel :
Industry Applications Conference, 2002. 37th IAS Annual Meeting. Conference Record of the
Conference_Location :
Pittsburgh, PA, USA
Print_ISBN :
0-7803-7420-7
DOI :
10.1109/IAS.2002.1042793