Analysis and Design of a High Step-Up Boost Converter Applied to Fuel Cell
This work uses a mathematical design methodology that combines high efficiency and reduced volume, by searching for the best solution among a pool of possible component associations. This methodology, already consolidated, is applied by an algorithm that scans for different operating points: switchi...
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| Published in: | 2018 13th IEEE International Conference on Industry Applications (INDUSCON) pp. 817 - 824 |
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| Main Authors: | , , , |
| Format: | Conference Proceeding |
| Language: | English |
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IEEE
01-11-2018
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| Abstract | This work uses a mathematical design methodology that combines high efficiency and reduced volume, by searching for the best solution among a pool of possible component associations. This methodology, already consolidated, is applied by an algorithm that scans for different operating points: switching frequency, inductor current ripple and wire current density. The algorithm evaluates high power and high gain Boost converter that interfaces a Fuel Cell (3kW and 50\mathrm{V} _{DC}) to a DC bus (400\mathrm{V} _{DC}). Due to its high step-up voltage, this converter is unusual for this type of application. However, with the developed analysis tool, an optimized Boost converter is possible, minimizing losses and increasing efficiency, enableling the use of this converter topology in a high power high step-up application. Results present losses on each component and the overall efficiency of the converter. Component parallelism was used in order to reduce equivalent resistances. At the end, a high step-up and high power Boost converter is designed using the developed tool, at which losses for each component were minimized by reducing the series resistance of each element; the static gain of the converter is shown, demonstrating the usefulness of the Boost converter for high step-up and high power applications. |
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| AbstractList | This work uses a mathematical design methodology that combines high efficiency and reduced volume, by searching for the best solution among a pool of possible component associations. This methodology, already consolidated, is applied by an algorithm that scans for different operating points: switching frequency, inductor current ripple and wire current density. The algorithm evaluates high power and high gain Boost converter that interfaces a Fuel Cell (3kW and 50\mathrm{V} _{DC}) to a DC bus (400\mathrm{V} _{DC}). Due to its high step-up voltage, this converter is unusual for this type of application. However, with the developed analysis tool, an optimized Boost converter is possible, minimizing losses and increasing efficiency, enableling the use of this converter topology in a high power high step-up application. Results present losses on each component and the overall efficiency of the converter. Component parallelism was used in order to reduce equivalent resistances. At the end, a high step-up and high power Boost converter is designed using the developed tool, at which losses for each component were minimized by reducing the series resistance of each element; the static gain of the converter is shown, demonstrating the usefulness of the Boost converter for high step-up and high power applications. |
| Author | Tiburski, Mateus jose Sartori, Hamiltom Confortin Pinheiro, Jose Renes Bridi, Eder |
| Author_xml | – sequence: 1 givenname: Mateus jose surname: Tiburski fullname: Tiburski, Mateus jose organization: Power Electronics and Control Research Group (GEPOC), Federal University of Santa Maria (UFSM), Santa Maria, Brazil – sequence: 2 givenname: Eder surname: Bridi fullname: Bridi, Eder organization: Power Electronics and Control Research Group (GEPOC), Federal University of Santa Maria (UFSM), Santa Maria, Brazil – sequence: 3 givenname: Hamiltom Confortin surname: Sartori fullname: Sartori, Hamiltom Confortin organization: Power Electronics and Control Research Group (GEPOC), Federal University of Santa Maria (UFSM), Santa Maria, Brazil – sequence: 4 givenname: Jose Renes surname: Pinheiro fullname: Pinheiro, Jose Renes organization: Power Electronics and Control Research Group (GEPOC), Federal University of Santa Maria (UFSM), Santa Maria, Brazil |
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| Snippet | This work uses a mathematical design methodology that combines high efficiency and reduced volume, by searching for the best solution among a pool of possible... |
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| SubjectTerms | Boost Converter Capacitors Fuel Cell and Efficiency Fuel cells Inductors Resistance Semiconductor diodes Switches Topology |
| Title | Analysis and Design of a High Step-Up Boost Converter Applied to Fuel Cell |
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