AES E-Library

D. Cinanni, and C. Sancisi, "Anti-Rattle System Loudspeaker Device," Paper 9915, (2018 May.). doi: D. Cinanni, and C. Sancisi, "Anti-Rattle System Loudspeaker Device," Paper 9915, (2018 May.). doi:
Abstract: On the basis of loudspeaker cabinets and panels vibration problems, this paper deals with a new dynamic loudspeaker device capable to reduce mechanical vibrations transmitted to the panel where it is fixed. Virtual 3D prototype is designed and optimized by simulations. Simulations were carried out using analytical and finite element methods. A working prototype was realized, measured and then tested on a panel, in order to evaluate vibrations reduction.

@article{cinanni2018anti-rattle,
author={cinanni, dario and sancisi, carlo},
journal={journal of the audio engineering society},
title={anti-rattle system loudspeaker device},
year={2018},
volume={},
number={},
pages={},
doi={},
month={may},} @article{cinanni2018anti-rattle,
author={cinanni, dario and sancisi, carlo},
journal={journal of the audio engineering society},
title={anti-rattle system loudspeaker device},
year={2018},
volume={},
number={},
pages={},
doi={},
month={may},
abstract={on the basis of loudspeaker cabinets and panels vibration problems, this paper deals with a new dynamic loudspeaker device capable to reduce mechanical vibrations transmitted to the panel where it is fixed. virtual 3d prototype is designed and optimized by simulations. simulations were carried out using analytical and finite element methods. a working prototype was realized, measured and then tested on a panel, in order to evaluate vibrations reduction.},}

TY - paper
TI - Anti-Rattle System Loudspeaker Device
SP - EP -
AU - Cinanni, Dario
AU - Sancisi, Carlo
PY - 2018
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - May 2018 TY - paper
TI - Anti-Rattle System Loudspeaker Device
SP - EP -
AU - Cinanni, Dario
AU - Sancisi, Carlo
PY - 2018
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - May 2018
AB - On the basis of loudspeaker cabinets and panels vibration problems, this paper deals with a new dynamic loudspeaker device capable to reduce mechanical vibrations transmitted to the panel where it is fixed. Virtual 3D prototype is designed and optimized by simulations. Simulations were carried out using analytical and finite element methods. A working prototype was realized, measured and then tested on a panel, in order to evaluate vibrations reduction.