Control of an acoustic mode by a digitally created Nonlinear Electroacoustic Absorber at low excitation levels: Analytical and Experimental results - Surveillance, Vibrations, Shock and Noise Access content directly
Conference Papers Year : 2023

Control of an acoustic mode by a digitally created Nonlinear Electroacoustic Absorber at low excitation levels: Analytical and Experimental results

Abstract

Noise reduction becomes important to raise acoustical comfort and to prevent the population from additional disorders. The Impedance Control concept lies on a loudspeaker collocated to microphones, and equipped of a processor, named as Electroacoustic Absorber. By calculating and injecting the electrical current into the loudspeaker coil based on the sensed pressure, one can be able to provide a desired linear behavior for any loudspeaker. Passive nonlinear systems are efficient for large frequency widths, both in transient and stationary regimes, but usually activated at high excitation amplitudes. As a result, our work focuses on the creation of a Nonlinear Electroacoustic Resonator (NER) at low excitation amplitudes. This work is based on an innovative method, allowing to digitally program any nonlinear desired behavior for all excitation amplitudes. It is a Real Time Integration (RTI) method, where the current is calculated at each time step, based on the measured pressure. To show the advantages of this device, a NER is coupled with an acoustic mode of a tube at normal incidence. Multiples nonlinear behaviors are shown at low excitation amplitudes, and compared with linear control devices. Analytical and Experimental results will be presented and discussed.
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Dates and versions

hal-04165859 , version 1 (19-07-2023)

Identifiers

  • HAL Id : hal-04165859 , version 1

Cite

Maxime Morell, Manuel Collet, Emmanuel Gourdon, Alireza Ture Savadkoohi. Control of an acoustic mode by a digitally created Nonlinear Electroacoustic Absorber at low excitation levels: Analytical and Experimental results. Surveillance, Vibrations, Shock and Noise, Institut Supérieur de l'Aéronautique et de l'Espace [ISAE-SUPAERO], Jul 2023, Toulouse, France. ⟨hal-04165859⟩
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