Microacoustics Modeling with COMSOL Multiphysics^®

Name: Microacoustics Modeling with COMSOL Multiphysics®
Uploaded: 2022-06-23 15:42:57
Duration: 50 min 17 s
Description: In this archived webinar, learn how to model microacoustics using COMSOL®. We demonstrate with tutorial analyses of an ear canal simulator and a wax guard.

Länge: 50:17

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Übersicht
Abschrift

In this archived webinar, you’ll get an introduction to microacoustic effects and how to model them using the COMSOL Multiphysics^® software. We start by discussing common applications where microacoustic effects are present, such as microspeakers, microphones, and microelectromechanical systems. Then, we cover the features in COMSOL Multiphysics^® for analyzing these effects, including the:

Thermoviscous Acoustics interface
Narrow Region Acoustics domain feature
Thermoviscous Boundary Layer Impedance condition

In addition, we demonstrate how to analyze microacoustic effects using these features in an ear canal simulator model and a wax guard model.

Next Steps

Try the ear canal simulator and wax guard tutorial models

Kapitelauswahl

Thermoviscous Features (2:09) Propagating Wave (5:14) The Acoustic Boundary Layer(s) (5:50) Thermoviscous Effects at Play (8:14) Thermoviscous Acoustics Modeling Options (10:13) Thermoviscous Acoustics Interfaces (13:45) Demo: Ear Canal Simulator (15:03) Ports in Themoviscous Acoustics (29:32) Demo: Wax Guard Acoustics (32:33) Nonlinear Thermoviscous Acoustics (38:47) Nonlinear Losses in Perforates (40:03) Piezoelectric MEMS Speaker (41:13) Miniature Transducer: Balanced Armature Type (41:38) Microspeakers (42:32) Perforates and MPPs (42:52) Microphones (43:50) Thermal Noise in Microphones (44:20) Thin-Film Damping (45:31) High Fidelity Simulations (47:26)