SIST EN ISO 10052:2005
(Main)Acoustics - Field measurements of airborne and impact sound insulation and of service equipment sound - Survey method (ISO 10052:2004)
Acoustics - Field measurements of airborne and impact sound insulation and of service equipment sound - Survey method (ISO 10052:2004)
This document specifies field survey methods for measuring:
a) airborne sound insulation between rooms;
b) impact sound insulation of floors;
c) airborne sound insulation of façades; and
d) sound pressure levels in rooms caused by service equipment.
The methods described in this document are applicable for measurements in rooms of dwellings or in rooms of comparable size with a maximum of 150 m3.
For airborne sound insulation, impact sound insulation and façade sound insulation the method gives values which are (octave band) frequency dependent. They can be converted into a single number characterising the acoustical performances by application of EN ISO 717-1 and EN ISO 717-2. For service equipment sound the results are given directly in A - or C -weighted sound pressure levels.
Akustik - Messung der Luftschalldämmung und Trittschalldämmung und des Schalls von haustechnischen Anlagen in Gebäuden - Kurzverfahren (ISO 10052:2004)
Dieses Dokument legt Kurzverfahren für die Messung von
a) Luftschalldämmung zwischen Räumen;
b) Trittschalldämmung von Decken;
c) Luftschalldämmung von Fassaden und
d) durch haustechnische Anlagen in Räumen erzeugten Schalldruckpegel
in Gebäuden fest.
Die in diesem Dokument beschriebenen Verfahren gelten für Messungen in Räumen von Wohnhäusern oder
in Räumen vergleichbarer Größe bis höchstens 150 m 3 .
Bei der Luftschalldämmung, der Trittschalldämmung und der Fassadenschalldämmung ergibt das Verfahren
(oktavband-)frequenzabhängige Werte. Sie können durch Anwendung von EN ISO 717-1 und EN ISO 717-2
in Einzahlangaben umgewandelt werden, die die akustischen Eigenschaften kennzeichnen. Für den Schall
von haustechnischen Anlagen werden die Ergebnisse direkt als A- oder C-bewertete Schalldruckpegel
angegeben.
Acoustique - Mesurages in situ de l'isolement aux bruits aériens et de la transmission des bruits de choc ainsi que du bruit des équipements - Méthode de contrôle (ISO 10052:2004)
La présente Norme européenne spécifie des méthodes de contrôle in situ pour le mesurage :
a) de l'isolement aux bruits aériens entre les pieces ;
b) de la transmission des bruits de choc par les planchers ;
c) de la transmission des bruits aériens par les façades ; et
d) des niveaux de pression acoustique émis par les équipements techniques dans les pieces.
Les méthodes décrites dans la présente Norme européenne sont applicables aux mesurages effectués dans les pieces de bâtiments d'habitation ou dans des locaux de dimensions comparables de 150 m3 maximum.
Pour l'isolement aux bruits aériens, la transmission des bruits de choc et la transmission des bruits par les façades, la méthode donne des valeurs en fonction de la fréquence (bande d'octave). En appliquant les EN ISO 717-1 et EN ISO 717-2, elles peuvent etre converties en une valeur unique caractérisant les performances acoustiques. Pour le bruit des équipements techniques, les résultats sont donnés directement en niveaux de pression acoustique pondérés A ou C.
Akustika – Terenska merjenja izolirnosti pred zvokom v zraku in udarnim zvokom - Informativna metoda (ISO 10052:2004)
Ta dokument določa terenske informativne metode za merjenje: a) izolirnosti pred zvokom v zraku med sobami; b) izolirnosti tal pred udarnim zvokom; c) izolirnosti fasad pred zvokom v zraku; in d) stopenj zvočnega tlaka v sobah, ki je povzročen s servisno opremo. Metode, opisane v tem dokumentu, veljajo za merjenje v sobah bivališč ali v sobah primerljive velikosti z maksimalno velikostjo 150 m3. Za izolirnost pred zvokom v zraku, izolirnost pred udarnim zvokom in zvočno izolirnost fasad metoda podaja vrednosti, ki so (oktavni pas) odvisne od frekvenc. Lahko se pretvorijo v eno število, ki označuje akustično delovanje z uporabo EN ISO 717-2 in EN ISO 717-2. Za zvok servisne opreme so rezultati podani naravnost v A ali C – ovrednotene stopnje zvočnega tlaka.
General Information
Relations
Standards Content (Sample)
SLOVENSKI STANDARD
SIST EN ISO 10052:2005
01-junij-2005
Akustika – Terenska merjenja izolirnosti pred zvokom v zraku in udarnim zvokom -
Informativna metoda (ISO 10052:2004)
Acoustics - Field measurements of airborne and impact sound insulation and of service
equipment sound - Survey method (ISO 10052:2004)
Akustik - Messung der Luftschalldämmung und Trittschalldämmung und des Schalls von
haustechnischen Anlagen in Gebäuden - Kurzverfahren (ISO 10052:2004)
Acoustique - Mesurages in situ de l'isolement aux bruits aériens et de la transmission
des bruits de choc ainsi que du bruit des équipements - Méthode de contrôle (ISO
10052:2004)
Ta slovenski standard je istoveten z: EN ISO 10052:2004
ICS:
17.140.01 $NXVWLþQDPHUMHQMDLQ Acoustic measurements and
EODåHQMHKUXSDQDVSORãQR noise abatement in general
91.120.20 $NXVWLNDYVWDYEDK=YRþQD Acoustics in building. Sound
L]RODFLMD insulation
SIST EN ISO 10052:2005 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST EN ISO 10052:2005
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SIST EN ISO 10052:2005
EUROPEAN STANDARD
EN ISO 10052
NORME EUROPÉENNE
EUROPÄISCHE NORM
December 2004
ICS 91.120.20; 17.140.20; 91.140.01
English version
Acoustics - Field measurements of airborne and impact sound
insulation and of service equipment sound - Survey method (ISO
10052:2004)
Acoustique - Mesurages in situ de l'isolement aux bruits Akustik - Messung der Luftschalldämmung und
aériens et de la transmission des bruits de choc ainsi que Trittschalldämmung und des Schalls von haustechnischen
du bruit des équipements - Méthode de contrôle (ISO Anlagen in Gebäuden - Kurzverfahren (ISO 10052:2004)
10052:2004)
This European Standard was approved by CEN on 24 June 2004.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European
Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national
standards may be obtained on application to the Central Secretariat or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CEN member into its own language and notified to the Central Secretariat has the same status as the official
versions.
CEN members are the national standards bodies of Austria, Belgium, Cyprus, Czech Republic, Denmark, Estonia, Finland, France,
Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia,
Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36 B-1050 Brussels
© 2004 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN ISO 10052:2004: E
worldwide for CEN national Members.
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
Contents Page
Foreword.3
1 Scope .5
2 Normative references .5
3 Terms and definitions .5
4 Single number quantities.11
5 Instrumentation.11
6 Test procedure and evaluation.12
6.1 General.12
6.2 Generation of sound field .12
6.2.1 General.12
6.2.2 Airborne sound insulation between rooms .12
6.2.3 Impact sound insulation between rooms.13
6.2.4 Airborne sound insulation of façades .13
6.3 Measurement of sound pressure levels .14
6.3.1 Airborne and impact sound insulation between rooms .14
6.3.2 Airborne sound insulation of façades .14
6.3.3 Service equipment sound pressure level.15
6.4 Frequency range of measurements.15
6.5 Reverberation index data.15
6.6 Precision.18
7 Expression of results .18
7.1 Airborne sound insulation .18
7.2 Impact sound insulation .18
7.3 Service equipment sound pressure level.18
8 Test report .19
Annex A (informative) Forms for the expression of results.21
Annex B (normative) Operating conditions and operating cycles for measuring the maximum
sound pressure level and the equivalent continuous sound pressure level .27
B.1 General principles.27
B.1.1 General.27
B.1.2 Maximum sound pressure level (L ).27
max
B.1.3 Equivalent continuous sound pressure level (L ).27
eq
B.2 Water installations.27
B.2.1 General operating conditions.27
B.2.2 Water tap.28
B.2.3 Shower cabin.29
B.2.4 Bath (tub).29
B.2.5 Filling and emptying sinks and baths.29
B.2.6 Water closet (Toilet).30
B.3 Mechanical ventilation .30
B.4 Heating and cooling service equipment.31
B.5 Lift (Elevator).31
B.6 Rubbish chute.32
B.7 Boilers, blowers, pumps and other auxiliary service equipment .32
B.8 Motor driven car park door .32
B.9 Other types of building service equipment.33
Bibliography .34
2
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
Foreword
This document (EN ISO 10052:2004) has been prepared by Technical Committee CEN/TC 126 “Acoustic
properties of building products and of buildings”, the secretariat of which is held by AFNOR, in collaboration
with Technical Committee ISO/TC 43 “Acoustics”.
This European Standard shall be given the status of a national standard, either by publication of an identical
text or by endorsement, at the latest by June 2005, and conflicting national standards shall be withdrawn at
the latest by June 2005.
According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following
countries are bound to implement this European Standard: Austria, Belgium, Cyprus, Czech Republic,
Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Slovakia, Slovenia, Spain, Sweden, Switzerland
and United Kingdom.
3
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
Introduction
This document describes survey test methods which can be used for surveying the acoustic characteristics of
the airborne sound insulation, impact sound insulation and of the sound pressure levels from service
equipment. The methods may be used for screening tests of the acoustical properties of buildings. The
methods are not intended to be applied for measuring acoustical properties of building elements.
The approach of the survey methods is to simplify the measurement of sound pressure levels in rooms by
using a hand-held sound level instrument and by manually sweeping the microphone in the room space. The
correction for reverberation time can be either estimated by usage of tabular values or be based on
measurements. The measurement of airborne and impact sound insulation is carried out in octave bands. For
measuring sound from domestic service equipment, A - or C -weighted sound pressure levels are recorded.
Measurements are performed with specified operation conditions and operation cycles. The operating
conditions and operating cycles given in Annex B are only used if they are not opposed to national
requirements and regulations.
The measurement uncertainty of the results obtained using the survey method is a priori larger than the
uncertainty inherent in the corresponding test methods on engineering level.
NOTE Engineering methods for field measurements of airborne and impact sound insulation are dealt with in
EN ISO 140-4 and EN ISO 140-7. Engineering methods for field measurements of airborne sound insulation of façade
elements and façades are dealt with in EN ISO 140-5. An engineering method for measurement of service equipment
sound is dealt with in EN ISO 16032.
4
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
1 Scope
This document specifies field survey methods for measuring:
a) airborne sound insulation between rooms;
b) impact sound insulation of floors;
c) airborne sound insulation of façades; and
d) sound pressure levels in rooms caused by service equipment.
The methods described in this document are applicable for measurements in rooms of dwellings or in rooms
3
of comparable size with a maximum of 150 m .
For airborne sound insulation, impact sound insulation and façade sound insulation the method gives values
which are (octave band) frequency dependent. They can be converted into a single number characterising the
acoustical performances by application of EN ISO 717-1 and EN ISO 717-2. For service equipment sound the
results are given directly in A - or C -weighted sound pressure levels.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
EN 20140-2, Acoustics — Measurement of sound insulation in buildings and of building elements — Part 2:
Determination, verification and application of precision data (ISO 140-2:1991).
EN 61260, Electroacoustics - Octave-band and fractional-octave-band filters (IEC 61260:1995).
EN 60651, Sound level meters (IEC 60651:1993).
EN 60804, Integrating-averaging sound level meters (IEC 60804:2000).
EN ISO 140-7:1998, Measurements of sound insulation in buildings and of building elements — Part 7: Field
measurements of impact sound insulation of floors (ISO 140-7:1998).
EN ISO 717-1, Acoustics — Rating of sound insulation in buildings and of building elements — Part 1:
Airborne sound insulation (ISO 717-1:1996).
EN ISO 717-2, Acoustics — Rating of sound insulation in buildings and of building elements — Part 2: Impact
sound insulation (ISO 717-2:1996).
EN ISO 3822-1, Acoustics - Laboratory tests on noise emission from appliances and equipment used in water
supply installations - Part 1: Method of measurement (ISO 3822-1:1999)
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
5
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
3.1
average sound pressure level in a room L
ten times the logarithm to the base 10 of the ratio of the space and time average of the sound pressure
squared to the square of the reference sound pressure, the space average being taken over the entire room
with the exception of those parts where the direct radiation of a sound source or the near field of the
boundaries (wall, etc.) is of significant influence. It is expressed in decibels as:
T
m
2
1
p t dt
∫
T
m
0
L = 10lg dB (1)
2
p
0
where
p is the sound pressure level, in Pascal, p = 20 µPa is the reference sound pressure;
0
T is the integration time in seconds
m
3.2
level difference D
difference in the space and time average sound pressure levels produced in two rooms by one sound source
in one of them. It is expressed in decibels as:
D = L − L dB (2)
1 2
where
is the average sound pressure level in the source room, in decibels;
L
1
L is the average sound pressure level in the receiving room, in decibels
2
3.3
reverberation index k
ten times the logarithm to the base 10 of the ratio of the actual reverberation time T of the receiving room to
the reference reverberation time T . It is expressed in decibels. This quantity is denoted by:
0
T
k = 10 lg dB (3)
T
0
where
T = 0,5 s
0
3.4
standardized level difference D
nT
level difference corresponding to a reference value of the reverberation time in the receiving room. It is
expressed in decibels as:
D = D + k dB (4)
nT
where
D is the level difference (see equation (2)), in decibels;
k is the reverberation index (see equation (3)), in decibels
6
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
3.5
normalized level difference D
n
level difference D corresponding to the reference absorption area in the receiving room. It is expressed in
decibels as:
A T
0 0
D = D + k + 10 lg dB (5)
n
0,16 V
where
k is the reverberation index;
T is the reference reverberation time (T = 0,5 s);
0 0
V is the volume of the receiving room, in cubic metres;
2
A is the reference equivalent absorption area, in square metres, (A = 10 m );
0 0
0,16 has the unit s/m
3.6
apparent sound reduction index R’
ten times the logarithm to the base 10 of the ratio of the sound power W which is incident on a partition under
1
test to the total sound power transmitted into the receiving room, if, in addition to the sound power W
2
transmitted through the separating element, the sound power W , transmitted through flanking elements or by
3
other components, is significant.
It is expressed in decibels as:
W
'
1
R =10lg dB (6)
W + W
2 3
NOTE 1 The expression "apparent sound transmission loss" is also in use in English-speaking countries. It is
equivalent to "apparent sound reduction index".
Under the assumption of diffuse sound fields in the two rooms, the apparent sound reduction index in this
document is calculated from:
S T
'
0
R = D + k +10 lg dB (7)
0,16 V
7
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
where
D is the sound pressure level difference, in decibels;
k is the reverberation index;
S is the area of the partition, in square metres;
V is the volume of the receiving room, in cubic metres;
T is the reference reverberation time (T = 0,5 s);
0 0
0,16 has the unit s/m.
In the case of staggered or stepped rooms, S is that part of the area of the partition common to both rooms. If
2
the common area between the stepped or staggered rooms is less than 10 m , this shall be indicated in the
3
test report. If V/7,5 is larger than S, insert this value for S where V is the volume in m of the receiving room
which should be the smaller room.
In the case that no common area exists the normalized level difference D shall be determined.
n
NOTE 2 In the apparent sound reduction index, the sound power transmitted into the receiving room is related to the
sound power incident on the common partition irrespective of actual conditions of transmission.
The apparent sound reduction index is independent of the measuring direction between the rooms if the
sound fields are diffused in both rooms
3.7
impact sound pressure level L
i
average sound pressure level in the receiving room when the floor under test is excited by the standardized
tapping machine. It is expressed in decibels. If more than one position of the tapping machine is used, the
impact sound pressure level is calculated by averaging the sound pressure levels L at N positions according
i,n
to:
N
L / 10
1 i,n
L = 10 lg 10 dB (8)
∑
i
N
n = 1
3.8
standardized impact sound pressure level L’
nT
impact sound pressure level L reduced by the reverberation index k, and expressed in decibels:
i
L’ = L - k dB (9)
nT i
3.9
normalized impact sound pressure level L’
n
impact sound pressure level L reduced by a correction term which is given in decibels, being ten times the
i
logarithm to the base 10 of the ratio between the reference equivalent absorption area and the actual
equivalent sound absorption area A of the receiving room. The actual equivalent absorption area is calculated
from the reverberation index, the reference reverberation time and the room volume:
A A T
' 0 0 0
L = L − 10 lg dB = L − k − 10 lg dB (10)
n i i
A 0,16 V
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
where
V is the volume of the receiving room in cubic metres;
k is the reverberation index;
is the reference reverberation time (T = 0,5 s);
T
0 0
2
A is the reference absorption area (A = 10 m );
0 0
0,16 has the unit s/m
3.10
average sound pressure level on a test surface L
1,s
ten times the logarithm to the base 10 of the ratio of the surface and time average of the sound pressure
squared to the square of the reference sound pressure, the surface average being taken over the entire test
surface including reflecting effects from the test specimen and façade; it is expressed in decibels
3.11
façade level difference D
2m
difference between the outdoor sound pressure level 2 m in front of the façade, L , and the space and time
1;2m
averaged sound pressure level, L , in the receiving room. It is expressed in decibels as:
2
D = L – L (11)
2m 1,2m 2 dB
It is also possible to measure in the plane of the façade. In this case the denotation is L instead of L
1,s 1;2m.
If road traffic sound has been used as sound source the notation is D and if a loudspeaker has been used
tr,2m
it is D and is expressed in decibels
ls,2m
3.12
standardized façade level difference D
2m,nT
façade level difference D corresponding to a reference value of the reverberation time in the receiving room.
2m
It is expressed in decibels as
D = D + k dB (12)
2m,nT 2m
where
k is the reverberation index
3.13
normalized façade level difference D
2m,n
façade level difference D corresponding to the reference equivalent absorption area in the receiving room:
2m
A T
0 0
D = D + k + 10 lg dB (13)
2m,n 2m
0,16 V
where
V is the volume of the receiving room in cubic metres;
k is the reverberation index;
T is the reference reverberation time (T = 0,5 s);
0 0
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EN ISO 10052:2004 (E)
2
A is the reference equivalent absorption area in square metres (A = 10 m );
0 0
0,16 has the unit s/m
3.14
service equipment sound pressure level
the average sound pressure level in the room obtained by the procedure described in 6.3.3 indexes 1 and 2
relate to the position of the measuring points
1 2
L / 10 L / 10
XY,1 XY,2
L = 10 lg × 10 + × 10 dB (14)
XY
3 3
where
L is the weighted sound pressure level at position 1 being the corner position
XY,i
L is the weighted sound pressure level measured at the position 2 being in the reverberant field of
xy,2
the room.
Index x relates to frequency weighting used (x = A or C).
- Index y characterizes there the temporal weighting (y = F, S or equivalent continuous level L )
eq
NOTE The different measures L are not comparable. Only measurement results obtained with the same
XY
measuring parameters should be compared
3.15
standardized service equipment sound pressure level
sound pressure level corresponding to a reference of the reverberation time in the receiving room. This
quantity is denoted by L
XY,nT
L = L - k dB (15)
XY,nT XY
where
L is the service equipment sound pressure level;
XY
k is the reverberation index
in this case, k is calculated from the arithmetic average of the reverberation times measured for the octave-
bands 500Hz, 1kHz and 2kHz.
K = 10lg 1/3 [(T + T + T )/T ]
500 1000 2000 0
3.16
normalized service equipment sound pressure level
service equipment sound pressure level corresponding to the reference equivalent absorption area in the
receiving room. This quantity is denoted by L
XY,n
A T
0 0
L = L − k − 10 lg dB (16)
XY,n XY
0,16 V
where
L is the service equipment sound pressure level;
XY
10
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SIST EN ISO 10052:2005
EN ISO 10052:2004 (E)
V is the volume of the receiving room in cubic metres;
k is the reverberation index;
in this case, k is calculated from the arithmetic average of the reverberation times measured for
the octave-bands 500Hz, 1kHz and 2kHz.
K = 10lg 1/3 [(T + T + T )/T ]
500 1000 2000 0
T is the reference reverberation time (T = 0,5 s);
0 0
2
A is the reference absorption area (A = 10 m );
0 0
0,16 has the unit s/m
4 Single number quantities
The single number quantities of service equipment noise which can be determined according to this document
are given in Table 1. When reporting measurement results the notation in Table 1 shall be used. The different
quantities can be combined according to e.g. requirements in national building code regulations. Single
number quantities of airborne and impact sound insulation can be obtained according to EN ISO 717-1.
Table 1 — Quantities for service equipment sound pressure level
A-weighted value C- weighted value
1 1
Maximum sound pressure level, time weighting «S»
L L
ASmax CSmax
2 1
L L
ASmax,nT CSmax,nT
3 3
L L
ASmax,n CSmax,n
1 1
Maximum sound pressure level, time weighting «F»
L L
AFmax CFmax
2 2
L L
AFmax,nT CFmax,nT
3 3
L L
AFmax,n CFmax,n
1 1
Equivalent sound pressure level
L L
Aeq Ceq
2 2
L L
Aeq,nT Ceq,nT
3 3
L L
Aeq,n Ceq,n
1
No standardization/normalization.
2
Standardization to a reverberation time of 0,5 s.
3 2
Normalization to an equivalent sound absorption area of 10 m .
5 Instrumentation
The measuring service equipment shall comply with the requirements of Clause 6.
The sound source for measuring sound insulation between rooms shall be as omnidirectional as practicable.
In façade measurement, the opening angle shall cover the whole façade. The directivity of the sound source
and the distance to the façade must be such that the variations between pressure levels measured in front of
the façade, for each frequency band of interest, are less 5 dB.
The tapping machine shall comply with the requirements given in Annex A of EN ISO 140-7:1998.
The accuracy of the sound pressure level measurement equipment shall comply with the requirements of
accuracy classes 0 or 1 defined in EN 60651 and EN 60804. The complete measuring system including the
11
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EN ISO 10052:2004 (E)
microphone shall be adjusted before each measurement to enable absolute values of sound pressure levels
to be obtained.
For all measurements diffuse field microphones are required. For sound level meters with free field
microphones corrections for accounting the diffuse sound field shall be applied.
Filters shall comply with the requirements defined in EN 61260.
NOTE For pattern evaluation (type testing) and regular verification tests recommended procedures for sound level
meters are given in OIML R58 and R88, for the tapping machine requirements are given in Annex A of EN ISO 140-7:1998.
6 Test procedure and evaluation
6.1 General
The measurements of airborne sound insulation and of impact sound insulation are made in octave bands.
The measurements of service equipment sound pressure levels are made in A-weighted or C-weighted sound
pressure levels. The measurements shall be performed with doors and windows closed and shutters normally
open. Operating cycles and operating conditions for measuring of service equipment noise are given in
Annex B. They shall only be used if they are not opposed to national requirements and regulations.
6.2 Generation of sound field
6.2.1 General
If the difference between the signal level and the background noise level is less than 6 dB, the measured
signal level shall be recorded in the report. A note shall be added to say that the measured receiving room
level was affected by background noise and the corresponding level difference has been underestimated or
than the measurement level (service equipment) has been overestimated by an unknown amount.
No correction for background noise shall be applied.
For measurements of the airborne sound insulation between rooms and the airborne sound insulation of
façades using the loudspeaker method, the sound power of the source should be adjusted so that the sound
pressure level in the receiving room (in each frequency band) is at least 6 dB higher than the background
noise level. This shall be checked by switching the source on and off before starting the measurement.
When measuring the airborne sound insulation of façades by the traffic sound method, the background noise
level in the receiving room cannot easily be assessed. Because of this, steps should be taken to ensure that
the noise level in the receiving room due to sources within the building is as low as practicable. Excessive
background noise from internal sources will lead to an underestimate of the façade insulation. A comment
shall be made in the report if this is thought to have occurred.
6.2.2 Airborne sound insulation between rooms
The sound generated in the source room shall be steady and have a continuous spectrum in the frequency
range considered. Filters with a bandwidth of one octave may be used. When using broad-band noise, the
spectrum of the soun
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