随着海军过渡到所有电动战舰，当今船上的配电方案将发生许多变化。在为船上的各个组件提供适当电压时，必须保持可靠性。由于在直流电源系统中提供电流隔离时不能使用变压器来改变电压电平，因此有必要找到一种有效的方法，以将直流隔离中增加的安全性纳入直流配电系统中。本文研究了未来配电系统（EDS）的一种可能元件的设计和控制，该系统是具有电流隔离的DC-DC转换器。这项研究的主要目的是提供一个具有相关理论证明和仿真的工作模型。 MATLAB将用于观察转换器的运行情况以及所实施的控制方案是否成功。关于这一主题的未来工作将得到帮助，包括零件清单以及增强该技术前景的建议

As the navy transitions to all electric warships, there will be many changes to the power distribution schemes found aboard ships today. It will be necessary to maintain reliability while supplying the various components onboard with the proper voltage levels. Since transformers cannot be used to alter voltage levels while providing galvanic isolation in DC power systems, it is necessary to find an efficient method to incorporate the increased safety provided by galvanic isolation in a DC power distribution system. This thesis examines the design and control of one possible element for a future Electrical Distribution System (EDS), a DC-DC converter with galvanic isolation. The main purpose of this study is to provide a working model with associated theoretical proof and simulations. MATLAB will be used to provide observations of the converter’s operation and the success of the control scheme implemented. Future work on this topic will be assisted by the inclusion of a parts list as well as recommendations for enhancing the prospects of this technology