Analysis_of_Low_Frequency_Passive_Radiator_and_Ported_Systems_in_a_Spherical_Loudspeaker_Enclosure.pdf

The main goal of this study was to fabricate a cost-effective low frequency physical representation (i.e. a loudspeaker) of the theoretical formulation for a spherical cap set in a rigid sphere and subsequently compare the acoustic characteristics (i.e. directivity, sound pressure level, etc.) governed by the theory with experimental measurements. Computational multi-domain modeling was utilized to predict loudspeaker system performance where the theoretical formulation was insufficient (i.e. electrical impedance). A combined analysis utilizing the theoretical formulation and multi-domain modeling offers a broader understanding for assessing loudspeaker system performance. Various methods for improving low-frequency performance of a base loudspeaker design are implemented via a modular design concept and are further assessed in this study by utilizing multi-domain modeling via the Simscape (MathWorks) platform

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Work Title Analysis_of_Low_Frequency_Passive_Radiator_and_Ported_Systems_in_a_Spherical_Loudspeaker_Enclosure.pdf
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Open Access
Creators
  1. STEPHEN THOMPSON
  2. Joel Michael Peel
Keyword
  1. loudspeaker
License Public Domain Mark 1.0
Work Type Capstone Project
Deposited July 30, 2018

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Version 1
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  • Created
  • Added An_20Application_20of_20Theory_Analysis_20of_20Low_20Frequency_20Passive_20Radiator_20and_20Ported_20Systems_20in_20a_20Spherical_20Loudspeaker_20Enclosure.pdf
  • Added Creator STEPHEN THOMPSON
  • Added Creator Joel Michael Peel
  • Published
  • Updated