NF EN ISO 3743-1

NF EN ISO 3743-1

October 2012
Standard Current

Acoustics - Determination of sound power levels and sound energy levels of noise sources using sound pressure - Engineering methods for small movable sources in reverberant fields - Part 1 : comparison method for a hard-walled test room

ISO 3743-1:2010 specifies methods for determining the sound power level or sound energy level of a noise source by comparing measured sound pressure levels emitted by this source (machinery or equipment) mounted in a hard-walled test room, the characteristics of which are specified, with those from a calibrated reference sound source. The sound power level (or, in the case of noise bursts or transient noise emission, the sound energy level) produced by the noise source, in frequency bands of width one octave, is calculated using those measurements. The sound power level or sound energy level with frequency A-weighting applied is calculated using the octave-band levels. The method specified in ISO 3743-1:2010 is suitable for all types of noise (steady, non-steady, fluctuating, isolated bursts of sound energy, etc.) defined in ISO 12001. The noise source under test may be a device, machine, component or sub-assembly. The maximum size of the source depends upon the size of the room used for the acoustical measurements (see 4.2). The test environment that is applicable for measurements made in accordance with ISO 3743-1:2010 is a hard-walled test room with prescribed acoustical characteristics. Information is given on the uncertainty of the sound power levels and sound energy levels determined in accordance with ISO 3743-1:2010, for measurements made in frequency octave bands and for A-weighted frequency calculations performed on them. The uncertainty conforms to ISO 12001:1996, accuracy grade 2 (engineering grade).

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Main informations

Collections

National standards and national normative documents

Publication date

October 2012

Number of pages

46 p.

Reference

NF EN ISO 3743-1

ICS Codes

17.140.01   Acoustic measurements and noise abatement in general

Classification index

S31-024-1

Print number

1 - 11/10/2012

International kinship

ISO 3743-1:2010

European kinship

EN ISO 3743-1:2010
Sumary
Acoustics - Determination of sound power levels and sound energy levels of noise sources using sound pressure - Engineering methods for small movable sources in reverberant fields - Part 1 : comparison method for a hard-walled test room

ISO 3743-1:2010 specifies methods for determining the sound power level or sound energy level of a noise source by comparing measured sound pressure levels emitted by this source (machinery or equipment) mounted in a hard-walled test room, the characteristics of which are specified, with those from a calibrated reference sound source. The sound power level (or, in the case of noise bursts or transient noise emission, the sound energy level) produced by the noise source, in frequency bands of width one octave, is calculated using those measurements. The sound power level or sound energy level with frequency A-weighting applied is calculated using the octave-band levels.

The method specified in ISO 3743-1:2010 is suitable for all types of noise (steady, non-steady, fluctuating, isolated bursts of sound energy, etc.) defined in ISO 12001.

The noise source under test may be a device, machine, component or sub-assembly. The maximum size of the source depends upon the size of the room used for the acoustical measurements (see 4.2).

The test environment that is applicable for measurements made in accordance with ISO 3743-1:2010 is a hard-walled test room with prescribed acoustical characteristics.

Information is given on the uncertainty of the sound power levels and sound energy levels determined in accordance with ISO 3743-1:2010, for measurements made in frequency octave bands and for A-weighted frequency calculations performed on them. The uncertainty conforms to ISO 12001:1996, accuracy grade 2 (engineering grade).

Replaced standards (1)
NF EN ISO 3743-1
December 2009
Standard Cancelled
Acoustics - Determination of sound power levels of noise sources - Engineering methods for small, movable sources in reverberant fields - Part 1 : comparison method for hard-walled test rooms

Table of contents
View the extract
  • Avant-propos
    v
  • Introduction
    vi
  • 1 Domaine d'application
    1
  • 1.1 Généralités
    1
  • 1.2 Types de bruit et sources sonores
    1
  • 1.3 Environnement d'essai
    1
  • 1.4 Incertitude de mesure
    1
  • 2 Références normatives
    1
  • 3 Termes et définitions
    2
  • 4 Salle d'essai et dimensions de la source de bruit en essai
    6
  • 4.1 Parallélépipède de référence
    6
  • 4.2 Volume de la salle d'essai et dimensions de la source de bruit en essai
    6
  • 4.3 Propriétés acoustiques de la salle d'essai
    6
  • 4.4 Critère d'aptitude acoustique de la salle d'essai
    7
  • 4.5 Critère de bruit de fond
    7
  • 4.6 Température ambiante et humidité
    7
  • 5 Appareillage et dispositif de mesure
    7
  • 5.1 Généralités
    7
  • 5.2 Étalonnage
    8
  • 6 Définition, emplacement, installation et fonctionnement de la source de bruit en essai
    8
  • 6.1 Généralités
    8
  • 6.2 Équipements auxiliaires
    8
  • 6.3 Emplacement de la source sonore
    8
  • 6.4 Conditions d'installation et de montage
    9
  • 6.5 Fonctionnement de la source pendant l'essai
    9
  • 7 Mode opératoire de mesurage
    10
  • 7.1 Généralités
    10
  • 7.2 Emplacement de la source de bruit en essai et de la source sonore de référence
    10
  • 7.3 Positions de microphone
    10
  • 7.4 Mesurages préliminaires pour les sources émettant des composantes tonales discrètes audibles ou des bruits en bande étroite
    11
  • 7.5 Mesurage des niveaux de pression acoustique d'une source émettant un bruit continu
    11
  • 7.6 Mesurage des niveaux de pression acoustique d'une source de bruit émettant des impulsions isolées
    12
  • 8 Détermination des niveaux de puissance acoustique et des niveaux d'énergie acoustique
    12
  • 8.1 Détermination du niveau de puissance acoustique
    12
  • 8.2 Détermination du niveau d'énergie acoustique
    14
  • 8.3 Niveau de puissance acoustique et niveau d'énergie acoustique pondérés A
    17
  • 9 Incertitude de mesure
    17
  • 9.1 Méthodologie
    17
  • 9.2 Détermination de sigma omc
    17
  • 9.3 Détermination de sigma R0
    18
  • 9.4 Valeurs supérieures typiques de sigma R0
    19
  • 9.5 Écart-type total, sigma tot , et incertitude de mesure élargie, U
    20
  • 10 Informations à enregistrer
    20
  • 10.1 Généralités
    20
  • 10.2 Source de bruit en essai
    20
  • 10.3 Salle d'essai
    20
  • 10.4 Appareillage
    21
  • 10.5 Données acoustiques
    21
  • 11 Rapport d'essai
    21
  • Annexe A (normative) Niveau de puissance acoustique et niveau d'énergie acoustique dans les conditions météorologiques de référence
    22
  • Annexe B (normative) Calcul des niveaux de puissance acoustique pondérés A et des niveaux d'énergie acoustique pondérés A à partir des niveaux par bande d'octave
    24
  • Annexe C (informative) Lignes directrices pour l'élaboration de données sur l'incertitude de mesure
    26
  • Bibliographie
    35
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