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Saliency-Based Sensorless Control Using Current Derivative in IPMSM Drives With Single DC-Link Current Sensor

Byung Ryang Park, Gyu Cheol Lim, Yongsu Han, Jung-Ik Ha

2023IEEE Transactions on Industrial Electronics22 citationsDOI

Abstract

In vector-controlled drive systems, a position sensorless drive with a single current sensor (SD-SCS) is an attractive system due to the minimum number of sensors. However, when the saliency-based SD-SCS is applied, the position estimation accuracy is deteriorated due to the errors in the injected pulsewidth-modulated voltage and the reconstructed current. This article proposes a current-derivative-based sensorless control using a three active vector pulsewidth modulation (TAVPWM) to enhance the saliency-based SD-SCS. First, the TAVPWM scheme, which eliminates the current reconstruction dead zone in the low-modulation region, is adopted to improve the low-speed drive. Next, the derivatives of the phase currents are utilized and analyzed to minimize the position estimation error in the overall operating regions. Finally, the transition strategy with respect to the speed is proposed for the full-speed sensorless drive. Owing to the proposed method, the switching frequency increases up to 16 kHz and the audible noise is virtually eliminated in the saliency-based SD-SCS. Furthermore, the enhanced dynamic performance is verified by various experimental results.

Topics & Concepts

Pulse-width modulationControl theory (sociology)Current sensorCurrent (fluid)Position (finance)VoltageComputer scienceModulation (music)Time derivativeNoise (video)EngineeringPhysicsAcousticsControl (management)Artificial intelligenceElectrical engineeringQuantum mechanicsEconomicsImage (mathematics)FinanceSensorless Control of Electric MotorsElectric Motor Design and AnalysisIterative Learning Control Systems
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