Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications

The green transition has brought about a worldwide-shift to the use of renewables as alternative energy sources. Because of this, high voltage DC has been a field of interest in power electronics due to its capability in efficiently transmitting power to reach remote areas. Typical DC-DC electronic...

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Main Authors: Recto, King Harold A, Escoto, Miguel T, Hernandez, Noel B
Format: text
Published: Archīum Ateneo 2022
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Online Access:https://archium.ateneo.edu/ecce-faculty-pubs/139
https://doi.org/10.1109/ICEET56468.2022.10007348
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Institution: Ateneo De Manila University
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spelling ph-ateneo-arc.ecce-faculty-pubs-11332023-02-28T08:26:52Z Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications Recto, King Harold A Escoto, Miguel T Hernandez, Noel B The green transition has brought about a worldwide-shift to the use of renewables as alternative energy sources. Because of this, high voltage DC has been a field of interest in power electronics due to its capability in efficiently transmitting power to reach remote areas. Typical DC-DC electronic power converter design has the capability of boosting voltage level to a certain extent but not enough for high-voltage applications. Using the DMAIC Approach of the Six Sigma, quality improvements in the design was proposed to stabilize operating frequency, bring up the output voltage from 100 VDC to 4,000 VDC and provide at least 10% margin of error in the apparent power measured at the output side to offset inherent losses in the electrical design. These proposed quality improvements were sustained by designing a control circuit that would ensure the attainment of the parameters set in the Define Phase of the DMAIC Approach. The result of the study is a practical 12 VDC to 4,000 VDC boost converter design that has incorporated all the proposed quality improvements. 2022-01-01T08:00:00Z text https://archium.ateneo.edu/ecce-faculty-pubs/139 https://doi.org/10.1109/ICEET56468.2022.10007348 Electronics, Computer, and Communications Engineering Faculty Publications Archīum Ateneo Boost Converter DC-DC Electronic Power Converter DMAIC Approach Green Transition HVDC Six Sigma Electrical and Computer Engineering Engineering Power and Energy Sustainability
institution Ateneo De Manila University
building Ateneo De Manila University Library
continent Asia
country Philippines
Philippines
content_provider Ateneo De Manila University Library
collection archium.Ateneo Institutional Repository
topic Boost Converter
DC-DC Electronic Power Converter
DMAIC Approach
Green Transition
HVDC
Six Sigma
Electrical and Computer Engineering
Engineering
Power and Energy
Sustainability
spellingShingle Boost Converter
DC-DC Electronic Power Converter
DMAIC Approach
Green Transition
HVDC
Six Sigma
Electrical and Computer Engineering
Engineering
Power and Energy
Sustainability
Recto, King Harold A
Escoto, Miguel T
Hernandez, Noel B
Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
description The green transition has brought about a worldwide-shift to the use of renewables as alternative energy sources. Because of this, high voltage DC has been a field of interest in power electronics due to its capability in efficiently transmitting power to reach remote areas. Typical DC-DC electronic power converter design has the capability of boosting voltage level to a certain extent but not enough for high-voltage applications. Using the DMAIC Approach of the Six Sigma, quality improvements in the design was proposed to stabilize operating frequency, bring up the output voltage from 100 VDC to 4,000 VDC and provide at least 10% margin of error in the apparent power measured at the output side to offset inherent losses in the electrical design. These proposed quality improvements were sustained by designing a control circuit that would ensure the attainment of the parameters set in the Define Phase of the DMAIC Approach. The result of the study is a practical 12 VDC to 4,000 VDC boost converter design that has incorporated all the proposed quality improvements.
format text
author Recto, King Harold A
Escoto, Miguel T
Hernandez, Noel B
author_facet Recto, King Harold A
Escoto, Miguel T
Hernandez, Noel B
author_sort Recto, King Harold A
title Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
title_short Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
title_full Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
title_fullStr Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
title_full_unstemmed Quality Improvements in the Electrical Design of Typical DC-DC Electronic Power Converter for High-Voltage Applications
title_sort quality improvements in the electrical design of typical dc-dc electronic power converter for high-voltage applications
publisher Archīum Ateneo
publishDate 2022
url https://archium.ateneo.edu/ecce-faculty-pubs/139
https://doi.org/10.1109/ICEET56468.2022.10007348
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