Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit

Today's technology in microprocessors has significantly improved as operation above Mhz range for microcontroller and digital signal processing (DSP) are easy to obtain and inexpensive to own. Since reactive components such as transformers, capacitors, and inductors are frequency dependent devi...

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Main Authors: Jabbar, A.F., Mansor, M., Rahim, N.A.
Format: Conference Proceeding
Language:en_US
Published: 2017
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Institution: Universiti Tenaga Nasional
Language: en_US
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spelling my.uniten.dspace-59362018-01-18T07:21:10Z Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit Jabbar, A.F. Mansor, M. Rahim, N.A. Today's technology in microprocessors has significantly improved as operation above Mhz range for microcontroller and digital signal processing (DSP) are easy to obtain and inexpensive to own. Since reactive components such as transformers, capacitors, and inductors are frequency dependent devices, using higher frequency will significantly reduce the component size. This leads to many developments of smaller converters with higher power density at cheaper cost. However, these advantages are limited by the present of hard-switching loss. Hard-switching loss is undesirable because it leads to higher power loss, excessive heat, and electromagnetic interference (EMI). To overcome these problems, researchers have developed soft-switching techniques which are capable of eliminating hard-switching loss. This paper presents a study of active auxiliary circuit with zero-voltage-switching (ZVS) in a 500W DC-DC full bridge converter. Simulation base experiment will be conducted at variant input source and different load conditions. © 2013 IEEE. 2017-12-08T07:41:19Z 2017-12-08T07:41:19Z 2013 Conference Proceeding 10.1109/CEAT.2013.6775612 en_US In CEAT 2013 - 2013 IEEE Conference on Clean Energy and Technology (pp. 124-127). [6775612] IEEE Computer Society
institution Universiti Tenaga Nasional
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language en_US
description Today's technology in microprocessors has significantly improved as operation above Mhz range for microcontroller and digital signal processing (DSP) are easy to obtain and inexpensive to own. Since reactive components such as transformers, capacitors, and inductors are frequency dependent devices, using higher frequency will significantly reduce the component size. This leads to many developments of smaller converters with higher power density at cheaper cost. However, these advantages are limited by the present of hard-switching loss. Hard-switching loss is undesirable because it leads to higher power loss, excessive heat, and electromagnetic interference (EMI). To overcome these problems, researchers have developed soft-switching techniques which are capable of eliminating hard-switching loss. This paper presents a study of active auxiliary circuit with zero-voltage-switching (ZVS) in a 500W DC-DC full bridge converter. Simulation base experiment will be conducted at variant input source and different load conditions. © 2013 IEEE.
format Conference Proceeding
author Jabbar, A.F.
Mansor, M.
Rahim, N.A.
spellingShingle Jabbar, A.F.
Mansor, M.
Rahim, N.A.
Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
author_facet Jabbar, A.F.
Mansor, M.
Rahim, N.A.
author_sort Jabbar, A.F.
title Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
title_short Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
title_full Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
title_fullStr Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
title_full_unstemmed Pulse-width control scheme for fixed-frequency ZVS DC-DC converter with active auxiliary circuit
title_sort pulse-width control scheme for fixed-frequency zvs dc-dc converter with active auxiliary circuit
publishDate 2017
_version_ 1644493804703580160