Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System
The Finite-Set Model Predictive Power Control (FS-PPC) is one of the most intriguing model predictive approaches for the induction machine. This control is successful because it operates without weight coefficients and does not require the rotor flux position, as in the Predictive Torque Control (FS...
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| Format: | Article |
| Language: | English |
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OICC Press
2023-09-01
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| Series: | Majlesi Journal of Electrical Engineering |
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| Online Access: | https://oiccpress.com/mjee/article/view/5023 |
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| author | Yanis Hamoudi Hocine Amimeur Sabrina Nacef |
| author_facet | Yanis Hamoudi Hocine Amimeur Sabrina Nacef |
| author_sort | Yanis Hamoudi |
| collection | DOAJ |
| description | The Finite-Set Model Predictive Power Control (FS-PPC) is one of the most intriguing model predictive approaches for the induction machine. This control is successful because it operates without weight coefficients and does not require the rotor flux position, as in the Predictive Torque Control (FS-PTC) and the Predictive Current Control (FS-PCC), respectively. A simple extension to the double-star induction generator results in significant current harmonics and common mode voltage. To fix these issues, this paper proposes an improved FS-PPC applied to an asymmetric double-star induction generator based wind energy conversion system by introducing two concepts: (a) the virtual voltage vector (VVV), in order to eliminate the (x, y) components of the stator currents. (b) the zero common mode voltage vectors (ZCMV), to eliminate the common mode voltage. A simulation of the developed ZCMV-FS-PPC system control is created in MATLAB/Simulink. The results show the effectiveness of this approach with CMV equal to zero and negligible (x, y) components of the stator currents. Moreover, the elimination of the CMV not only avoids its damage but also reduces the computation by 50%. |
| format | Article |
| id | doaj-art-17bde1be4af14a9e94371233bfa26d1a |
| institution | DOAJ |
| issn | 2345-377X 2345-3796 |
| language | English |
| publishDate | 2023-09-01 |
| publisher | OICC Press |
| record_format | Article |
| series | Majlesi Journal of Electrical Engineering |
| spelling | doaj-art-17bde1be4af14a9e94371233bfa26d1a2025-08-20T02:43:38ZengOICC PressMajlesi Journal of Electrical Engineering2345-377X2345-37962023-09-0117310.30486/mjee.2023.1983159.1102Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion SystemYanis HamoudiHocine AmimeurSabrina NacefThe Finite-Set Model Predictive Power Control (FS-PPC) is one of the most intriguing model predictive approaches for the induction machine. This control is successful because it operates without weight coefficients and does not require the rotor flux position, as in the Predictive Torque Control (FS-PTC) and the Predictive Current Control (FS-PCC), respectively. A simple extension to the double-star induction generator results in significant current harmonics and common mode voltage. To fix these issues, this paper proposes an improved FS-PPC applied to an asymmetric double-star induction generator based wind energy conversion system by introducing two concepts: (a) the virtual voltage vector (VVV), in order to eliminate the (x, y) components of the stator currents. (b) the zero common mode voltage vectors (ZCMV), to eliminate the common mode voltage. A simulation of the developed ZCMV-FS-PPC system control is created in MATLAB/Simulink. The results show the effectiveness of this approach with CMV equal to zero and negligible (x, y) components of the stator currents. Moreover, the elimination of the CMV not only avoids its damage but also reduces the computation by 50%.https://oiccpress.com/mjee/article/view/5023double-star induction generatorPredictive power controlvirtual voltage vectorWind Energy Conversion System.zero common mode voltage |
| spellingShingle | Yanis Hamoudi Hocine Amimeur Sabrina Nacef Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System Majlesi Journal of Electrical Engineering double-star induction generator Predictive power control virtual voltage vector Wind Energy Conversion System. zero common mode voltage |
| title | Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System |
| title_full | Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System |
| title_fullStr | Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System |
| title_full_unstemmed | Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System |
| title_short | Finite-Set Model Predictive Power Control with Common Mode Voltage Elimination for an Asymmetrical Double-Star Induction Generator Wind Energy Conversion System |
| title_sort | finite set model predictive power control with common mode voltage elimination for an asymmetrical double star induction generator wind energy conversion system |
| topic | double-star induction generator Predictive power control virtual voltage vector Wind Energy Conversion System. zero common mode voltage |
| url | https://oiccpress.com/mjee/article/view/5023 |
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