Scope
ISO 9614-2:2023
Sound Power — Intensity Method (Scanning)
This scanning-based intensity method continuously measures sound intensity as the probe moves across a measurement surface, enabling rapid acoustic mapping and source characterization without requiring discrete point measurements. The scanning approach is faster and provides superior spatial resolution for identifying noise sources and evaluating acoustic modifications. It works effectively in non-ideal acoustic environments including semi-reverberant or open spaces. Accreditation guarantees proper probe calibration, scanning patterns, and data integration methods meet international standards.
What it measures
- Sound intensity distribution across measurement surface
- Sound power level (Lw) by continuous surface integration
- Frequency-weighted and A-weighted acoustic power
- Acoustic source maps and noise radiation patterns
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DIN EN ISO 9614-1
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BS EN ISO 9614-1
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NF EN ISO 9614-1
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UNI EN ISO 9614-1
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UNE EN ISO 9614-1
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NEN EN ISO 9614-1
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DIN EN ISO 3746
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BS EN ISO 3746
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NF EN ISO 3746
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UNI EN ISO 3746
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UNE EN ISO 3746
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NEN EN ISO 3746
1,868
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PHH Environmental (UK)
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HSG 227 (2004))
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HSG 264 (2012) and Appx. 3 of
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PHOENIX TESTLAB
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IEC 61000-4-2: 2008
IEC 61000-4-3: 2006
IEC 61000-4-4: 2012
IEC 61000-4-5: 2005
IEC 61000-4-6: 2013
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DIN EN IEC 60068-2-38
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DIN EN 12457-4
DIN EN 12579
DIN EN 13040
DIN EN ISO 10523 (C 5)
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Keramik *
DIN EN ISO 3650:1999
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PPT
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UNE-EN ISO 16283-2
UNE-EN ISO 140-7
UNE-EN ISO 3382-2
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NF X 43-269
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DIN EN 12469
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ISO 14644-3
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Vibration measuring instruments — test m
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IEC 60730-1: 2013
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rs11887534
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human epidermal growth
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Refractive Index
Capillary Viscometer Calibration
2.92 mm systems (continued)
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MIL-STD 810D, Method 510.2
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MIL-STD 810G:2008 Method 501.5
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MIL-STD-810H, Method 510.7
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Selen
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Zink
Eisen, Kupfer
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