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Datasets of high spatial resolution scans of the airborne ultrasound field at the front, back and left side of an ultrasonic welding machine

Schöneweiß, Robert; Kling, Christoph; Koch, Christian


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    "notes": "This project has received funding from the EMPIR programmen co-financed by the Participating States and from the European Union's Horizon 2020 research and innovation programme.\nGrant Number: 15HLT03\nGrant Title: Ears II - Metrology for modern hearing assessment and protecting public health from emerging noise sources", 
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        "term": "PACS 43.58.Fm Sound level meters, level recorders, sound pressure, particle velocity, and sound intensity measurements, meters, and controllers", 
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    "keywords": [
      "Acoustics", 
      "Noise", 
      "Ultrasound", 
      "Airborne Ultrasound", 
      "Workplace", 
      "Measurement", 
      "Exposure", 
      "Sound Pressure Measurement", 
      "Sound Field", 
      "Spatial Scanning of Sound Pressure Levels", 
      "Sound Field Mapping", 
      "Ultrasonic Noise"
    ], 
    "publication_date": "2020-01-08", 
    "creators": [
      {
        "orcid": "0000-0002-0347-5015", 
        "affiliation": "Physikalisch-Technische Bundesanstalt", 
        "name": "Sch\u00f6newei\u00df, Robert"
      }, 
      {
        "orcid": "0000-0001-7766-5199", 
        "affiliation": "Physikalisch-Technische Bundesanstalt", 
        "name": "Kling, Christoph"
      }, 
      {
        "affiliation": "Physikalisch-Technische Bundesanstalt", 
        "name": "Koch, Christian"
      }
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    "description": "<p>This dataset contains measuring data which are the result of investigations of the&nbsp;airborne ultrasound field of an ultrasonic welding machine. These investigations have been conducted within the scope of the EMPIR project 15HLT03: &ldquo;Ears II - Metrology for modern hearing assessment and protecting public health from emerging noise sources&rdquo;. In the context of &ldquo;Ears II&rdquo;, they served gaining knowledge for occupational safety and health. Here, the aim was to investigate the structure of&nbsp;the airborne ultrasound field at ultrasound related workplaces. Therefore, a reference workstation was set up in the laboratory of the Physikalisch-Technische Bundesanstalt (PTB). The airborne ultrasound field of a typical industrial source of airborne ultrasound (an ultrasonic welding machine) was measured with a scanning microphone system with a high spatial resolution.</p>\n\n<p>The dataset contains data of 6 measurements:</p>\n\n<ul>\n\t<li>At the back of the ultrasonic welding machine at a vertical surface with dimensions 168 cm x 150 cm (width x height)</li>\n\t<li>At the left side of the ultrasonic welding machine at a vertical surface with dimensions&nbsp;168 cm x 150 cm (width x height)</li>\n\t<li>At the front of the ultrasonic welding machine at a&nbsp;horizontal surface with dimensions&nbsp;168 cm x 75&nbsp;cm (width x depth)</li>\n\t<li>At the front of the ultrasonic welding machine at a vertical surface with dimensions&nbsp;168 cm x 150 cm (width x height) with a distance of 24 cm to the sonotrode</li>\n\t<li>At the front of the ultrasonic welding machine at a vertical surface with dimensions&nbsp;168 cm x 150 cm (width x height) with a distance of 99 cm to the sonotrode</li>\n\t<li>At the front of the ultrasonic welding machine in a volume with dimensions 58 cm x 33&nbsp;cm x 50&nbsp;cm&nbsp;(width x depth x height)&nbsp;</li>\n</ul>\n\n<p>The measuring data is the square of the absolute value of the discrete Fourier transform of the signal voltage re 1 V<sup>2</sup>&nbsp;represented in the frequency domain, converted by fast Fourier transform, in the frequency range 0 &ndash; 100 kHz with a frequency resolution&nbsp;of 15.625 Hz. The data can be converted to sound pressure levels (SPL) using the&nbsp;calibration values published as a supplementary dataset.</p>"
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