Netzwerksimulator V

In the development of transformers and electrical machines, engineers often rely on equivalent circuit simulations to analyze electrical and magnetic behavior. Our project focuses on advancing an existing simulation framework that computes key parameters such as currents, voltages, and magnetic flux, using a predefined circuit composed of electrical components, sources, magnetically coupled elements, and fluxtubes.

We are now extending this framework to incorporate additional physical effects, including remanence and flux distribution for L- and T-joints, thereby improving the accuracy and predictive power of the model. To ensure the reliability of these enhancements, we will create a comprehensive Finite Element (FE) model for validation purposes and to fine-tune the network parameters. Through this work, we aim to deliver a more robust, versatile tool for efficient and precise design and analysis of power transformers.