Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal

This paper presents AC-DC three-phase uncontrolled rectifier and DC-DC boost converters that can be applied for wind generator application. The objective of this project is to study and model a wind Generator System which consists of a permanent magnet synchronous generator connected to AC-DC three-...

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主要作者: Ahmad Kamal, Khairul Hafizul
格式: Thesis
语言:English
出版: 2009
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spelling my-uitm-ir.780942023-07-20T02:13:58Z Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal 2009 Ahmad Kamal, Khairul Hafizul Electromagnetic fields This paper presents AC-DC three-phase uncontrolled rectifier and DC-DC boost converters that can be applied for wind generator application. The objective of this project is to study and model a wind Generator System which consists of a permanent magnet synchronous generator connected to AC-DC three-phase uncontrolled rectifier and DC-DC boost converters and the main objective to obtain regulate output voltage. The output voltage is regulated by a simple PI controller that controls the duty ratio of the boost converter. The AC-DC three-phase uncontrolled rectifier is modeled by three-phase Diode Bridge and power MOSFET is used as the switch DC-DC boost converters. The simulation of the model is done in PSIM simulation and key waveforms and results are presented. 2009 Thesis https://ir.uitm.edu.my/id/eprint/78094/ https://ir.uitm.edu.my/id/eprint/78094/1/78094.pdf text en public degree Universiti Teknologi MARA (UiTM) Faculty of Electrical Engineering Ismail, Noor Azila Seroji, Mohammad Nawawi
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
advisor Ismail, Noor Azila
Seroji, Mohammad Nawawi
topic Electromagnetic fields
spellingShingle Electromagnetic fields
Ahmad Kamal, Khairul Hafizul
Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
description This paper presents AC-DC three-phase uncontrolled rectifier and DC-DC boost converters that can be applied for wind generator application. The objective of this project is to study and model a wind Generator System which consists of a permanent magnet synchronous generator connected to AC-DC three-phase uncontrolled rectifier and DC-DC boost converters and the main objective to obtain regulate output voltage. The output voltage is regulated by a simple PI controller that controls the duty ratio of the boost converter. The AC-DC three-phase uncontrolled rectifier is modeled by three-phase Diode Bridge and power MOSFET is used as the switch DC-DC boost converters. The simulation of the model is done in PSIM simulation and key waveforms and results are presented.
format Thesis
qualification_level Bachelor degree
author Ahmad Kamal, Khairul Hafizul
author_facet Ahmad Kamal, Khairul Hafizul
author_sort Ahmad Kamal, Khairul Hafizul
title Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
title_short Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
title_full Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
title_fullStr Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
title_full_unstemmed Modeling power electronics converter for a wind generator using permanent magnet synchronous generator / Khairul Hafizul Ahmad Kamal
title_sort modeling power electronics converter for a wind generator using permanent magnet synchronous generator / khairul hafizul ahmad kamal
granting_institution Universiti Teknologi MARA (UiTM)
granting_department Faculty of Electrical Engineering
publishDate 2009
url https://ir.uitm.edu.my/id/eprint/78094/1/78094.pdf
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