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Image tracking self-sensing, which utilizes image registration to localize an arc of the negative sequence current response to a high frequency rotating voltage injection within a negative sequence template, can enhance estimation accuracy, increase tolerance to noise, and improve dynamic performance. Image registration over a full injection cycle replaces the heterodyning demodulation used in traditional...
Image tracking self-sensing, which utilizes cross-correlation to detect the rotor position by evaluating the orientation of the current image across a full injection cycle can enhance estimated accuracy and improve tolerance to noise. Cross-correlation over a full injection cycle replaces the classical heterodyning demodulation used in traditional point-tracking methods and is known to produce significant...
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