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COMSOL Upgrades Acoustic Module: Can You Hear Me Now?

A condenser microphone simulation performed in COMSOL Acoustic Module for determining the sensitivity measured in dB (relative to 1V/Pa). The multiphysics system involves thermoacoustics, electrostatics, an electrical circuit, and a deforming mesh. This visualization shows the sound pressure level in the device as well as the membrane deformation.

“Many of the sounds we hear every day are entirely fabricated by engineers to persuade us to buy things,” according to a recently published BBC news item (“How Engineers Create Artificial Sounds to Fool Us,” July 8, 2011).

One of the most notable examples might be the sound your iPad, iPod, or iPhone makes when you unlock it or type on its virtual keypad. The software-driven feature achieves this without involving any interlocking gears and spurs. So why does the operation produce the distinctly metallic click? Here’s my guess: The mechanical sound is an integral part of a consumer’s expectation of how things work, so the product designer decided to engineer it into the device’s artificial behavior.

“The shutter noise on a digital camera is just one example of a sound entirely fabricated to make a modern gadget imitate older technology,” BBC article points out. There’s also the prevalent use microphones and speakers in mobile devices to allow users to record voice memos and play back music tracks. Needless to say, analysis and simulation software makers take note.

Last week, COMSOL released a major upgrade to its Acoustic Module, an add-on to its flagship software COMSOL Multiphysics.

A diesel particulate filter (DPF) is designed to remove soot (diesel particles) from the exhaust of diesel engine vehicles. Although a DPF's main function is filtering exhaust flow, it is made with porous materials that have acoustic damping properties that can affect the muffler system. These effects, in turn, can affect the performance of other components in the vehicle. In this poroelastic wave simulation performed in COMSOL Acoustic Module, the transmission loss in dB is computed for the range 0-2000 Hz.

“This release of the Acoustics Module brings a new level of predictive power to acoustic simulations,” according to Dr. Mads J. Herring Jensen, technical product manager for acoustics at COMSOL. “For the first time, manufacturers of acoustic devices for smart phones, hearing aids, and earpieces can perform thermoacoustic simulations with an industry-standard commercial multiphysics software package. The ability to combine such simulations with electrical circuits and structural vibrations raises the bar for state-of-the-art acoustics simulations of mobile devices.”

COMSOL explains, “The new modeling tools for thermoviscous acoustics in the Acoustics Module enable highly accurate simulation of miniaturized speakers and microphones for hand-held devices. The ability to include thermoviscous acoustics, also known as thermoacoustics, in a simulation is necessary to accurately model acoustics in geometries with small dimensions. Near walls, viscosity and thermal conduction become important considerations because they create a viscous and a thermal boundary layer where losses are significant. The new thermoacoustics capabilities of the Acoustics Module take such effects fully into account.”

Other use of acoustic simulation may be “to represent the filling’s acoustic damping properties” in automotive design. The Acoustics Module’s new poroelastic wave functionality is expected to offer a new and more accurate approach to this challenge.”

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About Kenneth

Kenneth Wong has been a regular contributor to the CAD industry press since 2000, first an an editor, later as a columnist and freelance writer for various publications. During his nine-year tenure, he has closely followed the migration from 2D to 3D, the growth of PLM (product lifecycle management), and the impact of globalization on manufacturing. His writings have appeared in Cadalyst, Computer Graphics World, and Manufacturing Business Technology, among others.

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