Your search keyword '"Andrade, Antonio Manuel Santos Spencer"' showing total 3 results

1. Analysis and Design of High-Efficiency Hybrid High Step-Up DC–DC Converter for Distributed PV Generation Systems.

Author

Andrade, Antonio Manuel Santos Spencer, Schuch, Luciano, and da Silva Martins, Mario Lucio

Subjects

*DC-to-DC converters, *PHOTOVOLTAIC power generation, *LOW voltage systems, *HIGH voltages, *ELECTRIC inductors, *SWITCHED capacitor circuits

Abstract

High step-up converters are required for distributed photovoltaic generation systems, due to the low voltage of the photovoltaic source. In this paper, a new hybrid high voltage gain dc–dc converter is created by merging the standard boost converter with a coupled inductor and different switched-capacitor techniques. With a single switch and no requirement of higher duty cycle values, the proposed converter achieves a high voltage gain and high efficiency, in addition to lowered voltage and current stresses of the components. A 200-W prototype was implemented experimentally to evaluate the converter, which reached a maximum efficiency of 97.6%. [ABSTRACT FROM AUTHOR]

Published

2019

2. Synthesis and Comparative Analysis of Very High Step-Up DC?DC Converters Adopting Coupled-Inductor and Voltage Multiplier Cells.

Author

Andrade, Antonio Manuel Santos Spencer, Mattos, Everson, Schuch, Luciano, Hey, Helio Leaes, and da Silva Martins, Mario Lucio

Subjects

*DIRECT currents, *CONVERTERS (Electronics), *VOLTAGE multipliers, *ELECTRIC inductors, *COMPARATIVE studies

Abstract

A synthesis methodology for developing a set of very high step-up dc–dc converters is presented and discussed in this paper. The proposed method makes use of a boost converter as basic topology in which three step-up techniques are combined and incorporated. The studied techniques are the switched capacitors voltage multipliers (VM), the diode VMs, and the coupled-inductors. With the proposed methodology, many well-known converters are identified and two novel converters are proposed. In addition to a detailed analysis of the synthesis of each topology, a comparative analysis among of some important converters is presented. This comparison involves aspects such as voltage gain, voltage stress, component stress factor, component count, and relative cost. By means of these comparisons, the main characteristics and constraints of the analyzed converters are identified. Results from 250 W prototypes, designed according to photovoltaic ac-module specifications, are obtained experimentally to validate the theoretical analyses and point out advantages and limitations of each converter. The results demonstrate that the combination of the three studied techniques provides the best trend off on the comparative analysis carried out in this work. [ABSTRACT FROM PUBLISHER]

Published

2018

3. Comparative Evaluation of Single Switch High-Voltage Step-Up Topologies Based on Boost and Zeta PWM Cells.

Author

Andrade, Antonio Manuel Santos Spencer, Hey, Helio Leaes, Schuch, Luciano, and da Silva Martins, Mario Lucio

Subjects

*DC-to-DC converters, *PULSE width modulation transformers, *TOPOLOGY, *VOLTAGE regulators, *ELECTRIC inductors, *COMPARATIVE studies, *EXPERIMENTS

Abstract

This paper presents a comparative evaluation of eight high-voltage step-up converters based on different associations of boost and zeta standard dc–dc pulse width modulation (PWM) cells. These eight converters present different characteristics such as cascaded and stacked PWM cell associations, as well as isolated winding coupled inductors, tapped winding coupled inductors, and noncoupled inductors. In order to explore the advantages and address the limitations of each topology, several comparative evaluations concerning static voltage gain, power losses, current and voltage stresses, component stress factors, power density, relative cost, and efficiency were carried out. From the theoretical analysis and experimental results, the association named stacked boost–zeta with autotransformer yielded the highest efficiency and power density and resulted in the most attractive converter for the case study. [ABSTRACT FROM PUBLISHER]

Published

2018