%AEl Shafei, Ahmad%AOzdemir, Saban%AAltin, Necmi%AJean-Pierre, Garry%ANasiri, Adel%Anull Ed.%D2019%I %K %MOSTI ID: 10223262 %PMedium: X %TA Complete Design of a High Frequency Medium Voltage Multi-Port Transformer %XIn this paper, design of a compact high frequency four-port transformer for a Solid-State Transformer (SST) arrangement is presented. Unlike other SSTs, the four-port system integrates three active sources and a load port with galvanic isolation via a single transformer core. In addition to this feature, one of the three source ports is designed to operate at Medium Voltage (MV) 7.2kV for direct connection to 4.16kV AC grid, while other ports nominal voltages are rated at 400V. The transformer is designed to operate at 50kHz and to supply 25kW/port. Thus, the proposed system connects the MV grid, Energy Storage System (ESS), PV, and DC load to each other on a single common transformer core. Based on the system power demand and availability of renewable energy resources, utility and energy storage ports can either supply or draw power, while PV port can only supply power, maintaining the required demand for the load. This work focuses mainly on the High Frequency Transformer (HFT) design. An extensive study is carried out to obtain the optimal, compact, cost effective, and high efficiency model. Modeling, mathematical, and simulation results are derived and presented to demonstrate the viability of this design. Country unknown/Code not availablehttps://doi.org/10.1109/ICRERA47325.2019.8997088OSTI-MSA