Model Predictive Control for Three-Phase Split-Source Inverter
(EPE • 2020
معلومات البحث
المؤلفون
Youssuf Elthokaby; Islam Mohamed; Naser Abdel-Rahim
الكلمات المفتاحية
Three-phase system; MPC (Model predictive control) ; Modeling; Converter circuits;
Converter control
المجلة العلمية
(EPE
الناشر
IEEE
المجلد
Not Available
العدد
Not Available
الصفحات
Not Available
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
This paper proposes a new topology of three-phase split-source inverter (SSI) with only one auxiliary
power electronic switch inserted into the three-phase full-bridge inverter. Split-source inverter is a single
stage topology, which combines the boosting stage with the DC/AC converter stage. The proposed threephase
SSI has fewer passive components than impedance source converters (like ZSI). Switching states
of the conventional three-phase VSI can be used with the SSI to control the output voltage. An
independent control for both DC link voltage and output AC voltage is achieved using model predictive
control. The DC link voltage can be controlled via duty cycle obtained by a maximum power point
tracker or by fixed duty cycle as used in this paper. Simulation results show that the proposed control
achieves low THD of the AC output voltage (good performance) with both normal loading condition
and sudden load change condition.
power electronic switch inserted into the three-phase full-bridge inverter. Split-source inverter is a single
stage topology, which combines the boosting stage with the DC/AC converter stage. The proposed threephase
SSI has fewer passive components than impedance source converters (like ZSI). Switching states
of the conventional three-phase VSI can be used with the SSI to control the output voltage. An
independent control for both DC link voltage and output AC voltage is achieved using model predictive
control. The DC link voltage can be controlled via duty cycle obtained by a maximum power point
tracker or by fixed duty cycle as used in this paper. Simulation results show that the proposed control
achieves low THD of the AC output voltage (good performance) with both normal loading condition
and sudden load change condition.
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