This paper presents a comprehensive study on the design, implementation, and real-time data acquisition of a Phase Shift Full Bridge (PSFB) converter for DC-DC power conversion applications. The PSFB converter offers advantages such as high efficiency, stable output, and precise control over the output voltage. The paper discusses the theoretical calculations and component selection involved in the design process, along with the integration of a user-friendly software tool and search APIs for practical component specifications. The design is verified by performing simulations in MATLAB/Simulink ® . Closed-loop control is implemented through a PID controller. The prototype of this converter was built and successfully tested, showcasing significant outcomes. Real-time data acquisition is facilitated through Ethernet connectivity and TCP/IP protocol, with a custom C# application for data visualization and bi-directional communication. The research outcomes contribute to the advancement of power converter technology in terms of calibration and control based on real-time data acquisition. The presented methodologies and techniques enhance the efficiency, reliability, and performance of DC-DC conversion systems, with potential applications in renewable energy, electric vehicles, and industrial power supplies.