Abstract
By the application of well-known circuit analysis techniques, this paper develops an intuitive approach to model the steady state regime of the three DC/DC power converters’ basic topologies (buck, boost and buck-boost). The developed approach can be considered new, realistic, accurate, general and practical. The approach is new because it is not present in the literature; realistic because it considers the main non-idealities of the different passive and active components that make up the converters; accurate because its theoretical results fit properly to those obtained in actual converters; general because it is valid for the three basic topologies; and practical because its applicability is easy and immediate from the data sheets of the converters’ components (no measurements are needed). The developed model transforms a complex system with strong non-idealities in the form of distributed parameters, in a simple and intuitive scheme of concentrated parameters (just three), which accurately reflects the actual behavior of the three basic converters’ topologies. The characteristic parameters of the model and its main relationships are determined analytically. The quality of the developed approach has been tested in the paper and can be considered excellent.
Highlights
The simplified study of allegedly ideal DC/DC converters is enough for multiple applications
The current need for greater efficiency in generators and power conditioners demands precise models that take non-idealities and, efficiency losses into account. Bearing this aim in mind, the present work is focused on the search for a general static model of DC/DC power converters
The developed model is common, realistic (it includes the main non-idealities of the active and passive components of the three topologies), accurate and practical
Summary
The simplified study of allegedly ideal (no losses) DC/DC converters is enough for multiple applications. The current need for greater efficiency in generators and power conditioners demands precise models that take non-idealities and, efficiency losses into account Bearing this aim in mind, the present work is focused on the search for a general static model of DC/DC power converters (applicable to the three basic configurations: buck, boost and buck-boost). This model is to be analytic (demanding no measurements), intuitive, easy-to-use and realistic, so that the theoretical and experimental results match. They must be connected to loads with strict voltage requirements or be part of hybrid systems that share buses with necessarily-regulated voltages [6,7,8,9]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
