Reluctance Accelerator Efficiency Optimization via Pulse Shaping

Reluctance Accelerator Efficiency Optimization via Pulse Shaping

Reluctance accelerators are used to apply linear forces to ferromagnetic projectiles via solenoids. Efficiency increases for a single-stage reluctance accelerator were produced by manipulating the input current pulse supplied by a discharging capacitor. The development of a theoretical model allowed...

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Bibliographic Details
Main Authors: Liam M. Cooper, Abigail R. Van Cleef, Bernard T. Bristoll, Paul A. Bartlett
Format: Article
Language:English
Published: IEEE 2014-01-01
Series:IEEE Access
Subjects:
Reluctance accelerators
Electromagnetic launchers
linear accelerators
pulse shaping
Online Access:https://ieeexplore.ieee.org/document/6907938/
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spelling doaj-c94db01eac4844acb1e3db755b4cbf392021-03-29T19:31:14ZengIEEEIEEE Access2169-35362014-01-0121143114810.1109/ACCESS.2014.23599966907938Reluctance Accelerator Efficiency Optimization via Pulse ShapingLiam M. Cooper0Abigail R. Van Cleef1Bernard T. Bristoll2Paul A. Bartlett3Department of Physics and Astronomy, University College London, London, U.K.Department of Physics and Astronomy, University College London, London, U.K.Department of Physics and Astronomy, University College London, London, U.K.Department of Physics and Astronomy, University College London, London, U.K.Reluctance accelerators are used to apply linear forces to ferromagnetic projectiles via solenoids. Efficiency increases for a single-stage reluctance accelerator were produced by manipulating the input current pulse supplied by a discharging capacitor. The development of a theoretical model allowed for the calculation of optimized pulse shapes. A digital pulsewidth modulated switching method was used to control the current pulse shape using an Arduino Uno microcontroller, which supplied signals to the gate of a MOSFET transistor that controlled the current to the system solenoid. An efficiency increase of 5.7% was obtained for a reluctance accelerator with an optimized current pulse shape in comparison to a capacitor discharge with no pulse shaping.https://ieeexplore.ieee.org/document/6907938/Reluctance acceleratorsElectromagnetic launcherslinear acceleratorspulse shaping
collection DOAJ
language English
format Article
sources DOAJ
author Liam M. Cooper
Abigail R. Van Cleef
Bernard T. Bristoll
Paul A. Bartlett
spellingShingle Liam M. Cooper
Abigail R. Van Cleef
Bernard T. Bristoll
Paul A. Bartlett
Reluctance Accelerator Efficiency Optimization via Pulse Shaping
IEEE Access
Reluctance accelerators
Electromagnetic launchers
linear accelerators
pulse shaping
author_facet Liam M. Cooper
Abigail R. Van Cleef
Bernard T. Bristoll
Paul A. Bartlett
author_sort Liam M. Cooper
title Reluctance Accelerator Efficiency Optimization via Pulse Shaping
title_short Reluctance Accelerator Efficiency Optimization via Pulse Shaping
title_full Reluctance Accelerator Efficiency Optimization via Pulse Shaping
title_fullStr Reluctance Accelerator Efficiency Optimization via Pulse Shaping
title_full_unstemmed Reluctance Accelerator Efficiency Optimization via Pulse Shaping
title_sort reluctance accelerator efficiency optimization via pulse shaping
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2014-01-01
description Reluctance accelerators are used to apply linear forces to ferromagnetic projectiles via solenoids. Efficiency increases for a single-stage reluctance accelerator were produced by manipulating the input current pulse supplied by a discharging capacitor. The development of a theoretical model allowed for the calculation of optimized pulse shapes. A digital pulsewidth modulated switching method was used to control the current pulse shape using an Arduino Uno microcontroller, which supplied signals to the gate of a MOSFET transistor that controlled the current to the system solenoid. An efficiency increase of 5.7% was obtained for a reluctance accelerator with an optimized current pulse shape in comparison to a capacitor discharge with no pulse shaping.
topic Reluctance accelerators
Electromagnetic launchers
linear accelerators
pulse shaping
url https://ieeexplore.ieee.org/document/6907938/
work_keys_str_mv AT liammcooper reluctanceacceleratorefficiencyoptimizationviapulseshaping
AT abigailrvancleef reluctanceacceleratorefficiencyoptimizationviapulseshaping
AT bernardtbristoll reluctanceacceleratorefficiencyoptimizationviapulseshaping
AT paulabartlett reluctanceacceleratorefficiencyoptimizationviapulseshaping
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