Numerical Simulation of Microphone Wind Noise, Part 2: Internal Flow
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J. Backman, "Numerical Simulation of Microphone Wind Noise, Part 2: Internal Flow," Paper 8925, (2013 October.). doi:
J. Backman, "Numerical Simulation of Microphone Wind Noise, Part 2: Internal Flow," Paper 8925, (2013 October.). doi:
Abstract: This paper discusses the use of the computational fluid dynamics (CFD) for computational analysis of microphone wind noise. The previous part of this work showed that an external flow produces a pressure difference on the external boundary, and this pressure causes flow in the microphone internal structures, mainly between the protective grid and the diaphragm. The examples presented in this work describe the effect of microphone grille structure and microphone diaphragm properties on the wind noise sensitivity related to the behavior of this kind of internal flows.
@article{backman2013numerical,
author={backman, juha},
journal={journal of the audio engineering society},
title={numerical simulation of microphone wind noise, part 2: internal flow},
year={2013},
volume={},
number={},
pages={},
doi={},
month={october},}
@article{backman2013numerical,
author={backman, juha},
journal={journal of the audio engineering society},
title={numerical simulation of microphone wind noise, part 2: internal flow},
year={2013},
volume={},
number={},
pages={},
doi={},
month={october},
abstract={this paper discusses the use of the computational fluid dynamics (cfd) for computational analysis of microphone wind noise. the previous part of this work showed that an external flow produces a pressure difference on the external boundary, and this pressure causes flow in the microphone internal structures, mainly between the protective grid and the diaphragm. the examples presented in this work describe the effect of microphone grille structure and microphone diaphragm properties on the wind noise sensitivity related to the behavior of this kind of internal flows.},}
TY - paper
TI - Numerical Simulation of Microphone Wind Noise, Part 2: Internal Flow
SP -
EP -
AU - Backman, Juha
PY - 2013
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2013
TY - paper
TI - Numerical Simulation of Microphone Wind Noise, Part 2: Internal Flow
SP -
EP -
AU - Backman, Juha
PY - 2013
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2013
AB - This paper discusses the use of the computational fluid dynamics (CFD) for computational analysis of microphone wind noise. The previous part of this work showed that an external flow produces a pressure difference on the external boundary, and this pressure causes flow in the microphone internal structures, mainly between the protective grid and the diaphragm. The examples presented in this work describe the effect of microphone grille structure and microphone diaphragm properties on the wind noise sensitivity related to the behavior of this kind of internal flows.
This paper discusses the use of the computational fluid dynamics (CFD) for computational analysis of microphone wind noise. The previous part of this work showed that an external flow produces a pressure difference on the external boundary, and this pressure causes flow in the microphone internal structures, mainly between the protective grid and the diaphragm. The examples presented in this work describe the effect of microphone grille structure and microphone diaphragm properties on the wind noise sensitivity related to the behavior of this kind of internal flows.
Author:
Backman, Juha
Affiliation:
Nokia Corporation, Espoo, Finland
AES Convention:
135 (October 2013)
Paper Number:
8925
Publication Date:
October 16, 2013Import into BibTeX
Subject:
Transducers
Permalink:
http://www.aes.org/e-lib/browse.cfm?elib=16975
