High boost converters, because of its ability of having high gain level, have become important in applications for energy generation known as renewable sources. High efficiency, few components and low voltage and current stress on switches are desired features in these kinds of converters. Double tapped boost converter with just a single switch is proposed in this study for high gain; two pairs of coupled magnetically coils are charged in parallel and discharged in series with the source, this let us to obtain not only a higher gain with very few components but also an acceptable efficiency. Not only analysis for the topology is shown, but also simulation and experimental results are presented in order to illustrate the system behaviour for an output power of 200 W. The system efficiency is closer to 90% at hard switching.
Although PV systems are one of the most widely used alternatives as a renewable energy source due to their well-known advantages, there are significant challenges to address related to voltage fluctuations and reverse power flow caused by high PV penetration scenarios. As a potential solution to this problem, an active power management strategy is proposed in this work using a residential cluster as a benchmark. The proposed strategy is analyzed and experimentally verified, offering a simple way to reduce the voltage fluctuations by regulating the active power delivered by the PV system, achieving also relevant functionalities for the system, such as the regulation of the DC bus voltage, maximum power point tracking (MPPT), synchronization with the grid voltage, detection of high penetration conditions, and a simple strategy for the main controller with an effective performance. The proposal system shows satisfactory results being able to maintain grid voltage fluctuations within the voltage standard specifications.
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