Title :
Accurate Low-Speed and Torque Controls for Induction Motor With Secondary Current Feedback Using MI Sensor Installed in Shaft Hole
Author :
Ito, T. ; Nakamura, Y. ; Mohri, K. ; Uchiyama, T.
Author_Institution :
DENSO Corp.
Abstract :
An accurate stationary low-speed and torque control system for induction motors (IM) with a secondary current (I2) signal feedback loop is presented, in which a sensitive and stable micromagnetic (MI) sensor is set inside a drilled shaft hole to detect a slip frequency (sf) magnetic field proportional to an endring circular current. A finite impulse response digital low-pass filter (FIR-DLPF) is introduced to separate the I2 signal from slightly higher frequency drive current I1 signal at a low speed IM operation for such as the steel sheet rolling spread control. Accurate stationary low speed (45 r/min) control with error less than 1.11% and stationary torque (1.3 Nmiddotm at 45 r/min) control with error less than 0.76% for a 1.5 kW, 4-pole IM through 83 min operation were obtained, respectively
Keywords :
FIR filters; induction motors; low-pass filters; magnetic sensors; microsensors; torque control; velocity control; digital filter; finite impulse response filter; induction motor; low-pass filter; low-speed control; micromagnetic sensor; secondary current feedback; shaft hole; slip frequency; torque controls; Digital filters; Error correction; Feedback loop; Frequency; Induction motors; Magnetic sensors; Micromagnetics; Sensor systems; Shafts; Torque control; Accurate low-speed control; induction motor; micromagnetic (MI) sensor; secondary current feedback;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2006.879667
