Title :
High-Frequency Issues Using Rotating Voltage Injections Intended For Position Self-Sensing
Author :
Gabriel, Fabien ; De Belie, Frederik ; Neyt, X. ; Lataire, P.
Author_Institution :
Dept. of Commun., Inf., Syst. & Sensors, R. Mil. Acad., Brussels, Belgium
Abstract :
The rotor position is required in many control schemes in electrical drives. Replacing position sensors by machine self-sensing estimators increases reliability and reduces cost. Solutions based on tracking magnetic anisotropies through the monitoring of the incremental inductance variations are efficient at low-speed and standstill operations. This inductance can be estimated by measuring the response to the injection of high-frequency signals. In general, however, the selection of the optimal frequency is not addressed thoroughly. In this paper, we propose discrete-time operations based on a rotating voltage injection at frequencies up to one-third of the sampling frequency used by the digital controller. The impact on the rotation drive, the computational requirement, the robustness, and the effect of the resistance on the position estimation are analyzed regarding the signal frequency.
Keywords :
AC motor drives; digital control; electric current control; machine control; position measurement; reliability; rotors; AC motor drives; digital current controller; discrete-time operations; electrical drives; high-frequency signal injection; incremental inductance variation monitoring; machine self-sensing estimators; position estimation; position self-sensing; position sensors; resistance effect; rotating voltage injections; rotation drive; rotor position; sampling frequency; signal frequency; tracking magnetic anisotropy; Anisotropic magnetoresistance; Inductance; Magnetic anisotropy; Resistance; Rotors; Sensors; Stators; AC motor drives; high-frequency signal injection; permanent-magnet (PM) machine; sensorless control;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2230604
