摘要
This paper studies the design and sizing of a filter (<em>L-C</em>) for an inverter with 180<span style="white-space:nowrap;"><span style="white-space:nowrap;">°</span></span> control in Medium voltage (MV), based on formulas of the capacitance of the capacitor <em>C</em> and the inductance <em>L</em> of the filter (<em>L-C</em>) of an SPWM inverter. These formulas were obtained by minimizing two parameters: the reactive power of the capacitor (capped at 5% of the apparent power of the load) and the ripple of the current flowing through inductance <em>L</em> (capped at 10% of the current supplying the load). The application of these formulas for the calculation of the filter (<em>L-C</em>) of the 180<span style="white-space:nowrap;">°</span> control inverter in MV is not conclusive. Studies have been carried out to make them applicable. The results show that limiting the current ripple in the inductor to 10% of the load current is a valid assumption and that limiting the reactive power of the capacitor to 5% of the apparent power of the load presents shortcomings. The results also show that setting the inductance <em>L</em> of the filter to <em>L<sub>maxi </sub></em>and the capacitor <em>C </em>from 35 × <em>C<sub>maxi</sub></em> to 400 × <em>C</em><em><sub>maxi </sub></em>gives voltage and current THDs that meet the 519 IEEE-2014 standards.
This paper studies the design and sizing of a filter (<em>L-C</em>) for an inverter with 180<span style="white-space:nowrap;"><span style="white-space:nowrap;">°</span></span> control in Medium voltage (MV), based on formulas of the capacitance of the capacitor <em>C</em> and the inductance <em>L</em> of the filter (<em>L-C</em>) of an SPWM inverter. These formulas were obtained by minimizing two parameters: the reactive power of the capacitor (capped at 5% of the apparent power of the load) and the ripple of the current flowing through inductance <em>L</em> (capped at 10% of the current supplying the load). The application of these formulas for the calculation of the filter (<em>L-C</em>) of the 180<span style="white-space:nowrap;">°</span> control inverter in MV is not conclusive. Studies have been carried out to make them applicable. The results show that limiting the current ripple in the inductor to 10% of the load current is a valid assumption and that limiting the reactive power of the capacitor to 5% of the apparent power of the load presents shortcomings. The results also show that setting the inductance <em>L</em> of the filter to <em>L<sub>maxi </sub></em>and the capacitor <em>C </em>from 35 × <em>C<sub>maxi</sub></em> to 400 × <em>C</em><em><sub>maxi </sub></em>gives voltage and current THDs that meet the 519 IEEE-2014 standards.
作者
Kouakou Fernand Koffi
Gondo Yake
Raymond Gbegbe
Georges Loum
Olivier Asseu
Kouakou Fernand Koffi;Gondo Yake;Raymond Gbegbe;Georges Loum;Olivier Asseu(Institut National Polytechnique Félix Houphouët Boigny (INP-HB), Yamoussoukro, Côte d’Ivoire;Université Félix Houphouët Boigny (UFHB), Abidjan, Côte d’Ivoire;Ecole Supérieure Africaine des Technologies d’Information et de la Communication (ESATIC), Abidjan, Côte d’Ivoire)
