Title :
A novel approach for sensorless control of PM machines down to zero speed without signal injection or special PWM technique
Author :
Wang, Chuanyang ; Xu, Longya
Author_Institution :
Deep Sub-Micron CMOS Design Group, Texas Instrum., Dallas, TX, USA
Abstract :
A novel approach is developed in this paper for sensorless control of permanent magnet (PM) machines down to zero speed without signal injection or special pulsewidth modulation (PWM) techniques. Taking advantage of the low inductance in a PM machine, the phase current ripples under a conventional PWM excitation are measured to derive the rotor position and speed. The new approach can also be used to estimate the rotor position at standstill if a minor rotor saliency exists. Neither prior knowledge of machine parameters, nor any special signal injection, is needed for the rotor position detection. Sensorless control of a PM machine based on the proposed scheme has been investigated by comprehensive computer simulations. Experimental results are presented to verify the effectiveness of the approach.
Keywords :
digital signal processing chips; machine control; permanent magnet machines; power engineering computing; rotors; PWM techniques; computer simulation; digital signal processor; permanent magnet machine sensorless control; phase current ripple; pulse width modulation; rotor position; rotor saliency; signal injection; Current measurement; Inductance measurement; Magnetic modulators; Permanent magnets; Phase measurement; Position measurement; Pulse width modulation; Sensorless control; Space vector pulse width modulation; Velocity measurement; 65; Current ripple; DSP; PM; PWM; digital signal processor; machines; permanent magnet; pulsewidth modulation; sensorless;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2004.836617
