scholarly journals Nonlinear Position Control with Augmented Observer in Brushless DC Motor

Mathematics ◽  
2021 ◽  
Vol 9 (20) ◽  
pp. 2553
Author(s):  
Youngwoo Lee ◽  
Wonhee Kim
Keyword(s):  
Position Control ◽  
Tracking Error ◽  
Dc Motor ◽  
Brushless Dc Motor ◽  
State Variables ◽  
Brushless Dc ◽  
Current Controller ◽  
Position Controller ◽  
Error Dynamics ◽  
A Current

In this paper, position control using both a nonlinear position controller and a current controller with an augmented observer is proposed for a Brushless DC motor. The nonlinear position controller is designed to improve the position tracking performance based on the tracking error dynamics. The current controller is developed to track the desired currents generated from the desired torque, which is calculated based on the nonlinear position controller. The augmented observer is designed to obtain the knowledge of both state variables and disturbance. Closed-loop stability is proven through the Lyapunov theorem. Simulations were performed to evaluate the effectiveness of the proposed method.

Analysis and robust position control of an electromechanical control actuation system

2018 ◽  
Vol 42 (3) ◽  
pp. 628-640 ◽  
Author(s):  
Ersin Daş ◽  
İsmail İlker Delice ◽  
Murat Keleş
Keyword(s):  
Control System ◽  
Position Control ◽  
Brushless Dc Motor ◽  
Hardware In The Loop ◽  
Simulation Environment ◽  
Brushless Dc ◽  
Performance Requirements ◽  
Actuation System ◽  
Position Controller ◽  
Crank Mechanism

This study investigates a modified electromechanical actuator for a guided ammunition fin control system. This modification, which is required due to space limitations, is the use of an eccentric type inverted slider crank mechanism instead of a centric type inverted slider crank mechanism. Brushless DC motor-driven mechanism is modeled experimentally. Using the obtained model, the H∞ type robust position controller is synthesized in the simulation environment and applied to the real system in hardware in the loop tests. The effectiveness of the proposed mechanism and the performance of the synthesized robust position controller are verified by comparing the pre-determined performance requirements and the obtained tests results. It has been shown that for a constant volume, the eccentric type mechanism provides about a 7.6% reduction ratio advantage over the centric type mechanism.

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