In the technical literature has been reported the array of dc-dc basic switching converters to increase power handling capabilities on dc-dc applications. In this paper, switching step-down dc-dc converters based in the principle of reduced redundant power processing (R2P2) are presented. This principle states that the noncascading connection of dc-dc basic converters increases the efficiency on array of converters, from the theoretical point of view. The resulting converters are formed by a pair of L-C networks and a pair of active switches. Also, they have wide conversion ratios and quadratic dependence with respect to the duty ratio. Voltage conversion ratios and steady-state operating conditions are derived. Simulations and experimental results are given to verify the converter characteristics.
Analysis of Quadratic Step-Down DC-DC Converters Based on Noncascading Structures
2012-11-01
313850 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Improving Multi-Voltage Electrical System Performance with Smart Step-Down Converters
SAE Technical Papers | 2017
|Simplified Digital Down-Converters
NTRS | 1995
|Simplified Digital Down-Converters
Online Contents | 1995
Solar Cells With Down-Converters For Space Applications
Online Contents | 2009
|