1.1 General

This International Standard specifies a method for determining the emission sound pressure levels of machinery or equipment, at a work station and at other specified positions nearby, in situ. A work station is occupied by an operator and may be located in open space, in the room where the source under test operates, in a cab fixed to the source under test, or in an enclosure remote from the source under test. One or more specified positions may be located in the vicinity of a work station, or in the vicinity of an attended or unattended machine. Such positions are sometimes referred to as bystander positions.

Emission sound pressure levels are determined as A-weighted levels. Additionally, levels in frequency bands and C-weighted peak emission sound pressure levels can be determined in accordance with this International Standard, if required.

NOTE 1 The contents of the series ISO 11200^[15] to ISO 11205^[19] are summarized in ISO 11200^[15].

Methods are given for determining a local environmental correction (subject to a specified limiting maximum value) to be applied to the measured sound pressure levels in order to eliminate the influence of reflecting surfaces other than the plane on which the source under test is placed. This correction is based on the equivalent sound absorption area of the test room and on radiation characteristics (source location or directivity at the work station).

With the method specified in this International Standard, results of accuracy grade 2 (engineering grade) or accuracy grade 3 (survey grade) are obtained. Corrections are applied for background noise and, as described above, for the acoustic environment. Instructions are given for the mounting and operation of the source under test and for the choice of microphone positions for the work station and for other specified positions. One purpose of the measurements is to permit comparison of the performance of different units of a given family of machines, under defined environmental conditions and standardized mounting and operating conditions.

NOTE 2 The data obtained can also be used for the declaration and verification of emission sound pressure levels as specified in ISO 4871^[9].

1.2 Types of noise and noise sources

The method specified in this International Standard is suitable for all types of noise (steady, non-steady, fluctuating, isolated bursts of sound energy, etc.) defined in ISO 12001.

The method specified in this International Standard is applicable to all types and sizes of noise sources.

NOTE Throughout this International Standard the words “machine” and “source under test” are used to represent either a machine or a piece of equipment.

1.3 Test environment

The type of test environment influences the accuracy of the determination of emission sound pressure levels. For this International Standard, any room meeting prescribed requirements is applicable. These requirements on the room are less strict than those of ISO 11201^[16], in particular regarding the acoustical quality of the environment.

1.4 Work station and other specified positions

This International Standard is applicable to work stations and other specified positions where emission sound pressure levels are to be determined.

Appropriate positions where measurements may be made include the following:

work station located in the vicinity of the source under test; this is the case for many industrial machines and domestic appliances;
work station within a cab which is an integral part of the source under test; this is the case for many industrial trucks and earth-moving machines;
work station within a partial or total enclosure (or behind a screen) supplied by the manufacturer as an integral part of the source under test;
work station partially or totally enclosed by the source under test – this situation may be encountered with some large industrial machines;
bystander positions occupied by individuals not responsible for the operation of the source under test, but who may be in its immediate vicinity, either occasionally or continuously;
other specified positions, not necessarily work stations or bystander positions.

The work station may also lie on a specified path along which an operator moves (see 10.4).

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PDF Pages	PDF Title
2	National foreword
6	European foreword Anchor 3 Foreword to amendment A1
8	Annex ZA (informative) Relationship between this European Standard and the essential requirements of Directive 2006/42/EC aimed to be covered
11	Foreword
12	Introduction
13	1 Scope 1.1 General 1.2 Types of noise and noise sources 1.3 Test environment
14	1.4 Work station and other specified positions 2 Normative references 3 Terms and definitions
20	4 Instrumentation 4.1 General 4.2 Calibration 5 Procedures to determine the local environmental correction, K3A 5.1 General 5.2 Identifiable dominant source 5.3 Dominant source not identifiable
21	5.4 Selection of method to be used 6 Test environment 6.1 General 6.2 Criterion for the adequacy of the test environment 6.3 Enclosed work station positions
22	6.4 Criteria for background noise 6.4.1 General 6.4.2 Corrections for background noise 6.5 Ambient conditions during measurements
23	7 Measured quantities 8 Quantities to be determined
24	9 Mounting and operation of source under test 9.1 General 9.2 Location of source 9.3 Mounting of source 9.3.1 General
25	9.3.2 Hand-held machines 9.3.3 Base-mounted and wall-mounted machines 9.4 Auxiliary equipment 9.5 Operation of source during test
26	10 Microphone positions 10.1 General 10.2 Microphone position(s) for a seated operator 10.3 Microphone position(s) for a standing, stationary operator
27	10.4 Microphone position(s) for an operator moving along a specified path 10.5 Microphone positions for bystanders and for unattended machines 11 Measurements 11.1 Measurement time interval 11.1.1 General
28	11.1.2 Steady noise 11.1.3 Non-steady noise 11.1.4 Measurements in frequency bands 11.1.5 Summarization of sub-measurement time intervals 11.2 Measurement procedure 11.2.1 General 11.2.2 Repetition of measurements
29	11.2.3 Procedure for impulsive noise 12 Measurement uncertainty 12.1 Methodology
30	12.2 Determination of σomc 12.3 Determination of σR0 12.3.1 General 12.3.2 Round robin test
31	12.3.3 Modelling approach for σR0 12.4 Typical upper bound values of σR0
32	12.5 Total standard deviation, σtot, and expanded uncertainty, U 13 Information to be recorded 13.1 General 13.2 Source under test
33	13.3 Test conditions 13.4 Acoustic environment 13.5 Instrumentation 13.6 Location of work station(s) 13.7 Noise data
34	14 Test report
35	Annex A (normative) Environmental correction for a work station – Determination of the local environmental correction, K3
41	Annex B (normative) Criteria for background noise for measurements in frequency bands
43	Annex C (informative) Guidance on the development of information on measurement uncertainty
51	Annex D (informative) Principles of the methodology
53	Annex E (informative) Example of a test table
54	Bibliography

Status	Definitive
Title	Acoustics. Noise emitted by machinery and equipment. Determination of emission sound pressure levels at a work station and at other specified positions applying approximate environmental corrections
Replaces	BS EN ISO 11202:2009
Publisher	BSI
Committee	EH/1/4
Pages	56
Publication Date	2021-06-02
ISBN	978 0 539 03282 6
Standard Number	BS EN ISO 11202:2010+A1:2021
Identical National Standard Of	ISO 11202:2010/Amd.1:2020, EN ISO 11202:2010/A1:2021
Descriptors	Field testing, Noise (environmental), Work stations, Testing conditions, Measurement characteristics, Accuracy, Grades (quality), Acoustic measurement, Reproducibility, Test equipment, Acoustics, Sound intensity
Amends	BS EN ISO 11202:2010
ICS Codes	17.140.20 - Noise emitted by machines and equipment


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