Analysis of the randomized wrapped-around pulse position modulation scheme

This report describes the analysis of the Randomized Wrapped-Around Pulse Position Modulation (RWAPPM) scheme for switched-mode dc-dc converters. The RWAPPM scheme randomizes the starting position of the pulse in each switching cycle by a randomized delay to mitigate the undesirable discrete harmo...

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Main Author: Tan, Serene Qiu Lin.
Other Authors: Gwee Bah Hwee
Format: Final Year Project
Language:English
Published: 2012
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Online Access:http://hdl.handle.net/10356/49814
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-498142023-07-07T16:14:01Z Analysis of the randomized wrapped-around pulse position modulation scheme Tan, Serene Qiu Lin. Gwee Bah Hwee School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering This report describes the analysis of the Randomized Wrapped-Around Pulse Position Modulation (RWAPPM) scheme for switched-mode dc-dc converters. The RWAPPM scheme randomizes the starting position of the pulse in each switching cycle by a randomized delay to mitigate the undesirable discrete harmonics of the standard PWM scheme. It features a simple algorithm and other desirable attributes including a constant switching period, virtually eliminated discrete harmonics, low peak spectral power, and low noise. The RWAPPM scheme was first proposed without any means to adjust its randomness. In this report, we derive an expression for the output spectrum of the RWAPPM scheme with an adjustable randomness level parameter. By means of the derived expression, we analyze the effects of varying the randomness level parameter onto the output spectrum of the RWAPPM scheme. We show that at non-full randomness levels, the output spectrum exhibits undesirable discrete harmonics and high peak spectral power, whereas at a full randomness level, the output spectrum practically comprises a continuous noise-spectrum only and has the lowest peak spectral power. On the basis of this observation, we recommend that the RWAPPM scheme is used at a full randomness level. We also base this recommendation on the fact that generating the random delay with a full randomness level is easier to be realized in hardware than that of non-full randomness levels. We verify the derived expression by computer simulations. A large portion of the work described in this report will be submitted as a conference paper co-authored by the author of this report. Bachelor of Engineering 2012-05-24T08:16:59Z 2012-05-24T08:16:59Z 2012 2012 Final Year Project (FYP) http://hdl.handle.net/10356/49814 en Nanyang Technological University 78 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Electrical and electronic engineering
spellingShingle DRNTU::Engineering::Electrical and electronic engineering
Tan, Serene Qiu Lin.
Analysis of the randomized wrapped-around pulse position modulation scheme
description This report describes the analysis of the Randomized Wrapped-Around Pulse Position Modulation (RWAPPM) scheme for switched-mode dc-dc converters. The RWAPPM scheme randomizes the starting position of the pulse in each switching cycle by a randomized delay to mitigate the undesirable discrete harmonics of the standard PWM scheme. It features a simple algorithm and other desirable attributes including a constant switching period, virtually eliminated discrete harmonics, low peak spectral power, and low noise. The RWAPPM scheme was first proposed without any means to adjust its randomness. In this report, we derive an expression for the output spectrum of the RWAPPM scheme with an adjustable randomness level parameter. By means of the derived expression, we analyze the effects of varying the randomness level parameter onto the output spectrum of the RWAPPM scheme. We show that at non-full randomness levels, the output spectrum exhibits undesirable discrete harmonics and high peak spectral power, whereas at a full randomness level, the output spectrum practically comprises a continuous noise-spectrum only and has the lowest peak spectral power. On the basis of this observation, we recommend that the RWAPPM scheme is used at a full randomness level. We also base this recommendation on the fact that generating the random delay with a full randomness level is easier to be realized in hardware than that of non-full randomness levels. We verify the derived expression by computer simulations. A large portion of the work described in this report will be submitted as a conference paper co-authored by the author of this report.
author2 Gwee Bah Hwee
author_facet Gwee Bah Hwee
Tan, Serene Qiu Lin.
format Final Year Project
author Tan, Serene Qiu Lin.
author_sort Tan, Serene Qiu Lin.
title Analysis of the randomized wrapped-around pulse position modulation scheme
title_short Analysis of the randomized wrapped-around pulse position modulation scheme
title_full Analysis of the randomized wrapped-around pulse position modulation scheme
title_fullStr Analysis of the randomized wrapped-around pulse position modulation scheme
title_full_unstemmed Analysis of the randomized wrapped-around pulse position modulation scheme
title_sort analysis of the randomized wrapped-around pulse position modulation scheme
publishDate 2012
url http://hdl.handle.net/10356/49814
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