Alan Odaklı Vektör Kontrol Yaklaşımı ile Elektrikli Scooter BLDCM için Kayan Kip Tabanlı Çekiş Kontrol Sistemi Tasarımı

Caglar Uyulan, Ersen Arslan
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Abstract

Nowadays brushless DC motors (BLDCMs) are becoming indispensable components as the electrification revolution in the mobility industry is happening. Electric kick scooters, so-called e-scooters, are among these micro-mobility vehicles which are powered by these motors. Due to the uncertain and nonlinear features, the controller performance developed for these motors degrades. For these reasons, a chattering-reduced cascaded Sliding Mode Control (SMC) scheme to effectively track reference motor speed in the outer loop by eliminating torque ripples in the inner loop current control was designed. Field-oriented Control (FOC) methodology was used to implement the SMC in the BLDCM. An exponential reaching law algorithm was proposed for sliding surfaces of the inner and outer loop controllers. The suitability and performance of electric scooter-hub motors were analyzed in terms of traction control. A cascaded speed and torque controller produced significantly favorable results representing minimized torque and current ripples, and operation over a wide speed range.
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如今,随着汽车行业电气化革命的发生,无刷直流电机(BLDCMs)正成为不可或缺的部件。电动滑板车,也就是所谓的电动滑板车,是由这些马达驱动的微型交通工具之一。由于控制系统的不确定性和非线性特性,使其控制性能下降。为此,设计了一种减颤振级联滑模控制(SMC)方案,通过消除内环电流控制中的转矩脉动,在外环有效跟踪参考电机转速。采用场定向控制(FOC)方法实现无刷直流电机的SMC控制。针对内外环控制器的滑动面,提出了一种指数趋近律算法。从牵引控制的角度分析了电动滑板车轮毂电机的适用性和性能。级联速度和转矩控制器产生了显著的良好效果,代表了最小的转矩和电流波动,并且可以在很宽的速度范围内运行。
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