Today, bidirectional power transfer is needed in many applications that include battery based energy storage. In general, a DC/DC converter provides energy transfer from a source to a load in one direction. Investigation of the Effects of Switching Technique on the Performance of Four Switch Buck-Boost Bidirectional DC/DC Converters With the results of this study, it is seen that the selected topology is suitable for bidirectional power flow and the power density can be increased throughout whole load range with a software based control method and selecting proper switching device. The effect of new generation GaN devices on the efficiency of the converter is also covered. In this study, a bidirectional DC/DC converter topology and a modulation method are selected, developed and implemented for the power train of a double battery suited car. Various types of bidirectional DC/DC converter topologies and control methods are implemented for this purpose. Serving a compact solution for this need is crucial in order to reduce the total size of the system especially where the physical size is a critical subject. However, today, bidirectional power transfer is needed for most of the system that includes battery based energy storage, such as solar or wind power plant, uninterruptible power supplies, automotive industry, smart grid applications, telecommunication and space technology.
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