Page 3 - Acoustics Today Spring 2011
P. 3

                                             Scan & Paint
acturing
a quick sound visualization tool
  Scan & Paint is a new tool to visualize sound fields. Several techniques exist to localize and/or quantify sound sources. Scan & Paint offers a fast method to visualize sound fields in a broad frequency range and is usable in environments with a high level of background noise or reflections.
In practice, there are many cases where anechoic conditions are not applicable, for instance in an industrial manuf   environment. PU probe based sound intensity measurements, capturing both sound pressure and acoustic   velocity, are not highly affected by background noise and reflections and suitable in situations with a high sound pressure over sound intensity ratio. In order to assess the quality in terms of radiated sound intensity often a very large number of measurement points is required. A fast method is now available where the position of the probe is filmed whilst recording the sound. With the synchronization of the sound and position data (synchronization of audio and video data), a new and powerful tool has become available to assess large surfaces and reverberant conditions, in a short period of time. Furthermore the same t   can be used for the in-situ
         particle
       acoustic testing of materials. Scanning the surface with the in-situ technology will provide high resolution visualization of surface in terms of
setup using the Scan & Paint and reflection.
absorption
echnique
 impedance,
absorption
      Features
> Broad banded 20Hz - 20kHz
> Automatic synchronization of the
Usages
> Large machinery
> Acoustic enclosures
> Powertrain
> Vehicle Interior
> oods
         >
measurements with the captured video data
-P
- Sound Intensity - Absorption
- Reflection
High r
 esolution mapping of:
  article v
 elocity
 Electr
 onic c
 onsumer g
    > Direct measuremen
t of particle v
 elocity
             icroflownTechnologies Charting sound fields
PO Box 300, 6900 AH Zevenaar, The Netherlands W: www.microflown.com E: info@microflown.com T: +31 316 581 490 F: +31 316 581 491
             




























































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