stator flux oriented
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Energies ◽  
2022 ◽  
Vol 15 (1) ◽  
pp. 374
Author(s):  
Tomas Esparza Sola ◽  
Huang-Jen Chiu ◽  
Yu-Chen Liu ◽  
Arief Noor Rahman

This paper presents a method to extend the DC bus utilization on an induction motor (IM) by using a combination of Space-Vector Modulated Direct Torque Control (DTC–SVM) and conventional DTC. The scheme proposed in this paper exploits the advantages of both control methods. During the linear region, it allows for a low torque ripple and low current harmonic distortion (THD). During the overmodulation region, it allows for the fastest torque response up to the six-step operation region. In both regions, there is complete independence of the motor parameters. The paper describes a way to provide a smooth transition between the two control schemes. Non-linearities affect the stator flux angle estimation, which leads to the inability to decouple torque and flux. To overcome this problem, a novel PI-based control scheme as well as a simplification on the decoupling terms’ calculation are proposed. Simulation and experimental results are presented to verify the feasibility of the proposed method.


2021 ◽  
Author(s):  
Tomas Esparza Sola ◽  
Huang-Jen Chiu ◽  
Yu-Chen Liu ◽  
Arief Noor Rahman

2021 ◽  
Vol 13 (5) ◽  
pp. 168781402110217
Author(s):  
Chien-Hsu Chen ◽  
Hsiu-Ming Wu ◽  
Yue-Feng Lin ◽  
Jia-You Lee

Due to superior robustness characteristic of sliding-mode control techniques, this study proposes a multiple sliding-mode control (MSMC) strategy based on the stator flux oriented vector scheme for speed control of three-phase AC induction motor (IM) drives in the presence of an external disturbance and uncertainties. At first, the dynamic model of a three-phase IM drive is transformed into two-axe orthogonal model (i.e. d and q axes) in the synchronously rotating frame so that vector control can be applied. Then, based on the stator flux oriented scheme (i.e. zero stator flux at q-axis and constant at d-axis), the proposed MSMC causes mechanical angular speed and stator current at q-axis reach toward predefined sliding surfaces. Moreover, stator flux and current at d-axis are respectively indirect and direct controlled such that tracking errors approach toward designed sliding surfaces. The closed-loop stability of the proposed MSMC is proved to possess uniformly ultimately bounded (UUB) performance by Lyapunov stability criteria. Furthermore, the simulation results reveal that the proposed MSMC strategy has a high level of robustness despite addition of an external load and random uncertainties on system parameters. In the meantime, the simulations for comparing the baseline controller (i.e. conventional PI control) are also conducted to verify the superiority of the proposed control scheme.


Author(s):  
Yuliang Wen ◽  
Hanfeng Zheng ◽  
Zhaoyang Zhang ◽  
Jiade Huang ◽  
Xiaofan Zeng ◽  
...  

2019 ◽  
Vol 55 (5) ◽  
pp. 4811-4820 ◽  
Author(s):  
Hafiz Asad Ali Awan ◽  
Marko Hinkkanen ◽  
Radu Bojoi ◽  
Gianmario Pellegrino

2019 ◽  
Vol 47 (9-10) ◽  
pp. 798-809
Author(s):  
Tiago Henrique Dos Santos ◽  
Ivan Nunes Da Silva ◽  
Alessandro Goedtel ◽  
Marcelo Favoretto Castoldi

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