24 research outputs found
Gradient System Modelling of Matrix Converters with Input and Output Filters
Due to its complexity, the dynamics of matrix converters are usually neglected in controller design. However, increasing demands on reduced harmonic generation and higher bandwidths makes it necessary to study large-signal dynamics. A unified methodology that considers matrix converters, including input and output filters, as gradient systems is presented.
Energy Control of Multi-Switch Power Supplies; An Application to the Three-Phase Buck type Rectifier with Input Filter
Energy Control of Multi-Switch Power Supplies; An Application to the Three-Phase Buck type Rectifier with Input Filter
Brayton-Moser Equations and New Passivity Properties for Nonlinear Electro-Mechanical Systems
This paper presents an alternative framework for a practically relevant class of nonlinear electro-mechanical systems. The formalism is based on a generalization of Brayton and Moserâs mixed-potential function. Instead of focusing on the usual energy-balance, the models are constructed using the power flowing through the system. The main objective is to put forth the mixed-potential function as a new building block for modeling, analysis and controller design purposes for electro-mechanical systems