LAUSR.org creates dashboard-style pages of related content for over 1.5 million academic articles.
Sign Up to like articles & get recommendations!
State Separate Modular Modeling Methodology of Multioutput DC–DC Converters
Photo from wikipedia
Conventional modeling and simulation of $n$ -output dc–dc converters requires $(n+1) \times (n+1)$ matrix computations. This approach increases the modeling approach’s complexity and increases the design and simulation time required… Click to show full abstract
Conventional modeling and simulation of $n$ -output dc–dc converters requires $(n+1) \times (n+1)$ matrix computations. This approach increases the modeling approach’s complexity and increases the design and simulation time required for the modeling process. A state separate modeling methodology is proposed where each state of the dc–dc converter is considered separately and combined with the help of a multiplexer. The proposed modeling approach is modular and thus improves the scalability to multiple outputs. The proposed methodology aids the designer in designing and modeling multioutput dc–dc converters faster, enabling fast prototyping. The proposed model outperforms the existing mathematical models in terms of computation time. The output voltage variation to duty cycles has a root mean square error in between 0.08 and 0.22 V.
