2019 Panhellenic Conference on Electronics &Amp; Telecommunications (PACET) 2019
DOI: 10.1109/pacet48583.2019.8956274
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Experimental Investigation of a Digitally Current Controlled Synchronous Buck DC/DC Converter for Microgrids Applications

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Cited by 15 publications
(6 citation statements)
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“…The utilisation of buck converters has been extended to various DC microgrid applications, e.g. ships [46], wind farms [47], solar farms [48], energy storage systems [49] or LVDC MG applications [50]. However, considering DC microgrids consisting exclusively of buck converters coupled to the energy sources is unrealistic, since the energy produced at the source has a low voltage and a high current and it is usually interfaced to the rest of the network by a boost converter.…”
Section: Buck Convertermentioning
confidence: 99%
“…The utilisation of buck converters has been extended to various DC microgrid applications, e.g. ships [46], wind farms [47], solar farms [48], energy storage systems [49] or LVDC MG applications [50]. However, considering DC microgrids consisting exclusively of buck converters coupled to the energy sources is unrealistic, since the energy produced at the source has a low voltage and a high current and it is usually interfaced to the rest of the network by a boost converter.…”
Section: Buck Convertermentioning
confidence: 99%
“…The CCM operation is designed for a wide range of operation, by properly selecting the inductance value (L) and the switching frequency (f s ) of the converter. The necessary internal current control loop is based on the Peak Current Control (PCC) method and it is digitally implemented with the aid of a microcontroller unit [22,[24][25][26].…”
Section: Bidirectional Buck-boost Convertermentioning
confidence: 99%
“…Finally, the driver FAN7390 by ON Semiconductor has been selected for the converter driving circuit. This driver is an excellent and cost-effective solution for the current application and it is based on the well-established bootstrap supply technique (its operating principle is described in detail in [26]). For the bootstrap driver diode, we have used the RHRD660S from ON Semiconductor, making the DC/DC converter system a complete ON Semiconductor solution.…”
Section: Bidirectional Buck-boost Convertermentioning
confidence: 99%
“…In this context, the converter output voltage and the batteries SoC are taken into account, in order to provide a current set-point (source or sink) to the lower-level controller. The latter one is based on the peak current control method, which is popular for such applications, owing to the fast-dynamic response and inherent fault protection (current limit) [17], [18]. Finally, as for the CHP system, a micro turbine drives a synchronous generator which is connected to a front-end diode-rectifier, which feeds a separate interlinking DC/DC converter.…”
Section: Description Of the System Under Studymentioning
confidence: 99%