Record number :
90517
Title of article :
Improved field-weakening control for IFO induction motor
Author/Authors :
C.M.، Liaw, نويسنده , , M.S.، Huang, نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2003
Pages :
-646
From page :
647
To page :
0
Abstract :
Generally, good transient response and high conversion efficiency of a field-weakened indirect field-oriented (IFO), induction motor drive are difficult to obtain simultaneously owing to their contradictory behaviors. Moreover, its operating performance is quite sensitive to the flux level, detuned effect, and parameter variations. An improved fieldweakening control approach for an IFO induction motor drive is developed here. In the proposed method, the saturated magnetizing inductance is represented by a fitted quadratic polynomial of flux current. And the normal d-axis flux current command is composed of a no-load, a load-compensating, and a transient compensating component. The first one is represented by a third-order polynomial of rotor speed, which is estimated at no-load to consider the effects of nonlinear magnetizing inductance and the limitation of motor rated voltage. As for the latter two compensating current command components, they are utilized to further weaken the field such that current tracking performances during loaded cases and transient period can be improved. And hence the torque-generating capability is also enhanced accordingly. During steady-state operation, the slip angular speed command or the flux current command is tuned using the proposed approach to let the motor quickly reach a stable operating condition with better efficiency. Experimental results show that good dynamic responses and better energy conversion efficiencies can be simultaneously obtained by the proposed field-weakening control method.
Keywords :
mid-infrared , multiple-wavelength emission , nonlinear optics , quantum cascade laser , Quantum wells , Second-harmonic generation , Intersubband transitions
Journal title :
IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS
Serial Year :
2003
Link To Document :
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