Acoustics - Test code for the measurement of airborne noise emitted by rotating electrical machinery - Part 2: Survey method (ISO 1680-2:1986)

Definition of a measurement method for rotating electrical machines operating under steady noise conditions, the result of which can be expressed in sound power levels so that all machines tested using this code can be directly compared.

Akustik - Verfahren zur Messung der Geräuschemission von rotierenden elektrischen Maschinen - Teil 2: Verfahren der Genauigkeitsklasse 3 (ISO 1680-2:1986)

Acoustique - Code d'essai pour le mesurage du bruit aérien émis par les machines tournantes - Partie 2: Méthode de contrôle (ISO 1680-2:1986)

Akustika - Preskusni postopek za meritev hrupa v zraku, ki ga sevajo električni vrtilni stroji - 2. del: Informativna metoda (ISO 1680-2:1986)

General Information

Status
Withdrawn
Publication Date
31-Mar-1997
Withdrawal Date
31-Aug-2001
Technical Committee
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
01-Sep-2001
Due Date
01-Sep-2001
Completion Date
01-Sep-2001

Relations

Buy Standard

Standard
EN 21680-2:1997
English language
16 pages
sale 10% off
Preview
sale 10% off
Preview
e-Library read for
1 day

Standards Content (Sample)

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Akustik - Verfahren zur Messung der Geräuschemission von rotierenden elektrischen Maschinen - Teil 2: Verfahren der Genauigkeitsklasse 3 (ISO 1680-2:1986)Acoustique - Code d'essai pour le mesurage du bruit aérien émis par les machines tournantes - Partie 2: Méthode de contrôle (ISO 1680-2:1986)Acoustics - Test code for the measurement of airborne noise emitted by rotating electrical machinery - Part 2: Survey method (ISO 1680-2:1986)29.160.01Rotacijski stroji na splošnoRotating machinery in general17.140.20Emisija hrupa naprav in opremeNoise emitted by machines and equipmentICS:Ta slovenski standard je istoveten z:EN 21680-2:1991SIST EN 21680-2:1997en01-april-1997SIST EN 21680-2:1997SLOVENSKI
STANDARD



SIST EN 21680-2:1997



SIST EN 21680-2:1997



SIST EN 21680-2:1997



International Standard INTERNATIONAL ORGANIZATION FOR STANDARDIZATION.MEMC1YHAPOflHAR OPI-AHM3A~MFl I-IO CTAHJJAPTM3A~MM.ORGANISATION INTERNATIONALE DE NORMALlSATlON Acoustics - Test code for the measurement of airborne noise emitted by rotating electrical machinery - Part 2 : Survey method Acoustiquc - Code d’essai pour Ie mesurage du bruit ahien emis par les machines hlectriques tournantes - Partie 2: Methode de contr6le First edition - 1986-06-15 - _ W - 8 UDC 534.61 : 621.313 Ref. No. ISO WO/24986 (E) z Descriptors : acoustics, rotating electric machines, tests, acoustic tests, determination, airborne Sound, Sound pressure, Sound power. n Price based on 14 pages SIST EN 21680-2:1997



Foreword ISO (the International Organization for Standardization) is a worldwide federation of national Standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Esch member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, govern- mental and non-governmental, in liaison with ISO, also take patt in the work. Draft International Standards adopted by the technical committees are circulated to the member bodies for approval before their acceptance as International Standards by the ISO Council. They are approved in accordance with ISO procedures requiring at least 75 % approval by the member bodies voting. International Standard ISO 1680/2 was prepared by Technical Committee ISO/TC 43, Acous tics. Users should note that all International Standards undergo revision from time to time and that any reference made herein to any other International Standard implies its latest edition, unless otherwise stated. lt cancels and replaces ISO Recommendation R 1680-1970, of which it constitutes a technical revision. 0 International Organkation for Standardkation, 1986 Printed in Switzerland SIST EN 21680-2:1997



INTERNATIONAL STANDARD ISO 1680/2-1986 (E) Acoustics - Test code for the measurement of airborne noise emitted by rotating electrical machinery - Part 2: Survey method 0 lntroduction This part of ISO 1680 is based on ISO 3746 and has been drafted in accordance with ISO 3740. The main purpose of this part of ISO 1680 is to specify a Survey method requiring less effort for the measurements than laid down in the engineering method (see ISO 1680/1) and which, in general, results in a lower grade of accuracy. lt may also be applied in those cases where one or several conditions (such as operating conditions, number or positioning of microphones) for an otherwise engineering type of measurement cannot be obtained. 1 Scope and field of application 1 .l General This part of ISO 1680 defines a measurement method for rotating electrical machines operating under steady noise con- ditions, the result of which tan be expressed in Sound power levels so that all machines tested using this code tan be directly compared. This patt of ISO 1680 applies to the measurement of airborne noise from rotating electrical machines, such as motors and generators (d.c. and a.c. machines) of all sizes, when fitted with all auxiliaries which are necessary to achieve the agreed operating conditions (see clause 6). This part of ISO 1680 requires the Sound pressure levels to be measured on a rectangular parallelepiped surface enveloping the machines from which the A-weighted Sound power level produced by the machine is calculated. lt outlines the pro- cedures which shall be used to evaluate the test environment and specifies the characteristics of suitable measuring in- struments. This part of ISO 1680 applies to measurements carried out in environmental conditions that meet the criteria given in clause 4 and annex A (environmental correction K < 7 dB, correction for background noise < 3 dB). 1.2 Measurement uncertainty Measurements carried out in conformity with this part of ISO 3740, Acoustics - Determination of soundpower levels of ISO 1680 usually result in Standard deviations which are equal noise sources - Guidelines for the use of basic Standards and to or less than those given in table 1. for the preparation of noise fest Codes. Table 1 - Uncertainty in determining A-weighted Sound power level by the Survey method Application Standard deviation dB For a Source which produces Sounds that contain prominent discrete tones For a Source which produces broad-band Sounds without prominent discrete tones NOTES 1 The Standard deviations in table 1 include the effects of allowable variations in the positioning of the measurement positions and in the selection of the stipulated measurement sur-face. 2 The Standard deviations given in table 1 reflect the cumulative effects of all Causes of measurement uncertainty, excluding variations in the Sound power level from test to test, which may be caused, for example, by changes in the mounting or operating conditions of the Source. The reproducibility and ‘repeatability of the test results may be considerably better (that is, smaller Standard deviations) than the uncertainties given in table 1 would indicate. 3 If the method specified in this patt of ISO 1680 is used to compare the A-weighted Sound power levels of similar machines which radiate noise acoustically omnidirectional and broad-band in its Character, the uncertainty in comparison tends to result in a Standard deviation which is equal to or less than 3 dB, provided that the measurements are carried out in the same environment. 4 The Standard deviations given in table 1 may be higher when the environmental correction, K, established in accordance with the pro- cedure given in annex A, exceeds 7 dB. 2 References ISO 354, Acoustics - Measurement of Sound absorption in a reverberation room. ISO 1680/1, Acoustics - Test Code for the measurement of airborne noise emitted b y rotating electrical machinery - Part 1: Engineering method for free-field conditions over a re flecting plane. 1 SIST EN 21680-2:1997



ISO WO/24986 (El ISO 3745, Acoustics - Determination of Sound power levels of noise sources - Precision methods for anechoic and semi- anechoic rooms. ISO 3746, Acoustics - Determination noise sources - Survey method. of Sound power levels of ISO 6926, Acoustics - Determination of Sound power levels of noise sources - Characterization and calibration of reference Sound sources. 1) IEC Publication 34-1, Rotating electrical machines - Part 7: Rating and Performance. IEC Publication 651, Sound level meters. 3 Def initions For the purposes of this part of ISO 1680, the following defini- tions apply. 3.1 Sound pressure level, L,, in decibels : Twenty times the logarithm to the base 10 of the ratio of the Sound pressure to the reference Sound pressure. The weighting network used shall be indicated: for example, A-weighted Sound pressure level, LpA. The reference Sound pressure is 20 ppa. 3.2 surface Sound pressure level, Lpf, in decibels: The Sound pressure level averaged over the measurement surface and corrected as required in clause 8. The weighting network used shall be indicated: for example, A-weighted surface Sound pressure level, LpAf. The reference Sound pressure is 20 FPa. 3.3 Sound power level, Lw, in decibels: Ten times the logarithm to the base 10 of the ratio of a given Sound power to the reference Sound power. The weighting netvvork used shall be indicated: for example, A-weighted Sound power level, L WA. The reference Sound power is 1 pW ( = IO-l2 W). 3.4 measurement surface: A hypothetical surface of area S enveloping the Source on which the microphone posi- tions are located and which terminates on the reflecting plane. 3.5 reference box: A hypothetical surface which is the smallest rectangular parallelepiped that just encloses the Source and terminates on the reflecting plane. 3.6 measurement distance : The minimum distance tween the reference box and the measurement surface. be- 3.7 background noise : The Sound pressure level microphone Position with the Source inoperative. at each 4 4.1 Acoustic environment Criteria for adequacy of the test environment Test environments that meet the qualification requirements of annex A are suitable for measurements in accordance with this part of ISO 1680. The test environment shall be adequately isolated from extraneous noise (see 4.2). To comply with this part of ISO 1680, the environmental correc- tion K shall not exceed 7 dB. 42 . Criterion for background noise At each microphone Position, the A-weighted Sound pressure level of the background noise shall be at least 3 dB below the A-weighted Sound pressure level with the Source operating. NOTE - Results determined with higher levels of background noise are not in accordance with this part of ISO 1680, but may be useful as an indication of the upper limit of the Sound power level of the Source. The effects of noise sources other than the rotating electrical machine, for example coupled machinery (see 6.3) or wind (sec 4.3) which may increase the background noise shall be minimized. 4.3 Wind The wind velocity existing at the test site or caused by the machine under test shall be less than 6 m/s. A Windscreen should be used for wind velocities above 1 m/s to ensure that the level of the background noise (caused by the cumulative ef- fett of the wind and other background noise sources) is at least 3 dB below the level with the Source operating. 5 Instrumentation 5.1 General A Sound level meter that meets the requirements for a type 1 in- strument in accordance with IEC Publication 651 shall be used with the time weighting “S”. The observer shall not sta nd between th e microphone and the Source, the Sound power level of which is being determined. 5.2 Calibration At least before each series of measurements, an acoustical calibrator with an accuracy of &0,5 dB shall be applied to the microphone to calibrate the entire measuring System, including cable, if used, at one or more frequencies. One calibration fre- quency shall be in the range from 250 to 1 000 Hz. The calibrator shall be checked annually to verify that its acoustical output has not changed. 1) At present at the Stage of draft. 2 SIST EN 21680-2:1997



~so 1680/2-1986 (El 6 Installation and Operation of the machine 6.1 Machine mounting If practicable, the machine should be mounted in the same way as it would be for normal usage. Care should be taken to minimize the transmission and the radiation of structure-borne noise from all mounting elements including the foundation. Usually, this minimizing tan be achieved by resilient mounting for smaller machines. Larger machines tan usually only be tested under rigid mounting conditions. 6.1.1 Resilient mounting The natura1 frequency of the support System and the machine under test shall be lower than a quarter of the frequency cor- responding to the lowest rotational Speed of the machine. The effective mass of the resilient support shall not be greater than l/lO of that of the machine under test. 6.12 Rigid mounting The machines shall be rigidly mounted to a surface with dimen- sions adequate for the machine type (for example by foot or flange fixed in accordance with the manufacturer’s specifica- tions). The machine shall not be subject to additional mounting Stresses from incorrect shimming. The mass of the support shall be at least twice that of the machine under test. 6.2 Operation of machine during test The machine shall operate at no load, at rated voltage(s) and Speed(s) and with the corresponding excitation(s) (see IEC Pu blication 34-1). For a.c. machines, the sinusoidality of the supply voltage and the degree of Unbalance of the supply voltage System shall comply with the same limits that are specified in IEC Publica- tion 34-1. Synchronous machines shall be run with the excitation current which permits the rated voltage at no load. For machines not suitable for no-load Operation, e.g. machines with the behaviour of series-wound motors, the operating con- ditions shall be agreed upon and stated in the test report. A method for estimating the differente in the level of the noise from a machine between no-load operating conditions and rated load or any other specified load is given in annex B. 63 . Auxiliary equipment and coupled machines All auxiliary equipment (loading machines, gears, transformers, external cooling Systems) and coupled machines which are necessary for the Operation of the machine under test, but which do not form an integral part of the machine, shall not significantly affect the noise measurement (see 8.1). If they do, they should be shielded acoustically or located outside the test environment. 7 Sound pressure levels on the measurement surface 7.1 Reference box and measurement surfaces In Order to facilitate the positioning of the microphone posi- tions, a hypothetical reference box is defined (see 3.5). When defining the dimensions of this reference box, elements pro- truding from the machine which are unlikely to be major radiators of Sound energy may be disregarded. The microphone positions lie on the measurement surface (see 3.4). For rotating electrical machines, regardless of their size, the measurement surface shape is a rectangular parallelepiped (sec figures 2 to 4) the sides of which are parallel to the sides of the reference box and spaced out at a distance d (measurement distance) from the reference box. The measurement distance, d, shall be at least 0,15 m. Qistances larger than 1 m may be excluded by the environmen- tal requirements given in this part of ISO 1880 (see clause 4 and annex A). The preferred measurement distance is 1 m. 7.2 Microphone array 7.2.1 From ment figure 1, array for the principle of how to constru different sizes of reference box Complete measurement Position array ct the measure- tan be derived. Esch side of the measurement surface shall be treated separ- ately. If the length or width of the side of the measurement sur- face under consideration exceeds 3d, this side is divided into a minimum number of partial areas so that their lengths and widths do not exceed 3d (see figure 1). To comply with the Survey method of this patt of ISO 1680, one measurement Position is placed at the middle of each partial area. 1) The resulting complete measurement array is shown figures 2 to 4 for different sizes of the reference box. 1) The array is not in complete accordance with ISO 3746 but in principle. The modification was made to achieve compatibility with the measure- ment array for the engineering method (see ISO 1680/1), for which additional measurement positions are placed at the corners of each partial area, except at those corners which lie in the reflecting plane. 3 SIST EN 21680-2:1997



ISO 1680/2-1986 EI For irregularly shaped machines (see figu re 51, the ment array is fixed according to the same procedure measure- Neighbouring measurement positions may be connected to achieve continuous paths along which the microphone is car- ried continuously with constant velocity (see figures 2 to 4). 7.2.2 Simplified measurement Position array The arrangement of the measurement positions given in figures 1 to 4 may, especially for large machines, be simplified, if, for that type of machine, it tan be shown, with the help of preliminary investigations on some machines of that type, that the Sound field is adequately uniform and that measurements lead to values of Sound power level deviating by no more than 1 dB from those determined with a complete arrangement of measurement positions. For sources that produce a symmetrical radiation Pattern, it may be sufficient to distribute the measurement positions over only a Portion of the measurement surface. This is acceptable if, for that type of machine, it tan be shown, with the help of preliminary investigations on some machines of that type, that the measurements lead to values of Sound power level deviating by no more than 1 dB from those determined with a complete arrangement of measurement positions. 7.2.3 Measurement shaped machines positions for large, irreg ularly For large, irregularly shaped machines, the reference surface may be composed of several separate reference boxes placed in juxtaposition so that they just enclose the different Parts of the machine (sec figure 5). The construction of the reference sur- face and of the measurement surface and the distribution of the microphone positions shall be clearly described in the measure- ment test report. 7.3 Measurement of Sound pressure levels Environmental conditions may have an adverse effect on the microphone used for the measurements. Such conditions (for example, due to strong electric or magnetic fields, wind, imp- ingement of air discharged from the machine under test, high or low temperatures) shall be minimized by proper selection or positioning of the microphone. The microphone shall always be directed in such a way that the angle of incidence of the Sound waves is that for which the microphone is calibrated. The A-weighted Sound pressure level shall be measured at each microphone Position on the measurement surface. The measurements shall be carried out after the machine has reached a steady condition of the defined operating mode. Measurements of the background noise shall be made at each microphone Position after the machine under test has been switched off. SIST EN 21680-2:1997



SIST EN 21680-2:1997



SIST EN 21680-2:1997



ISO 1680/2-1986 (Eb 8 Calculation of surface Sound pressure level and Sound power Ievel 8.1 Correction for background noise The Sound pressure ievels recorded at each of the microphone positions shall be corrected for background noise in accor- dance with table 2. 8.3 Calculation of surface Sound pressure level The A-weighted surface Sound pressure level, LpAf, shall be obtained by correcting the value of LpA for reflected Sound ts approximate the average value of the Sound pressure levell which would be obtained under free-field conditions, by using the following equation : L PAf = LPA - K . . . (21) Table 2 - Corrections for backg pressure levels round Sound Differente A between Corrections to be Sound pressure level subtracted from Sound measured with Sound Source pressure level measured with operating and background Sound Source operating to Sound pressure obtain Sound pressure level level alone due to Sound Source alone dB dB 3 3 4 2 5 2 6 1 7 1 8 1 9 0,5 10 0,5 > 10 0 NOTE - If the differentes A are smaller than 3 dB, it is not permissible to calculate the corrected Sound pressure levels. In these cases, the un- corrected Sound pressure levels are upper limits for the corrected ones. 82 . Calculation of Sound pressure level averaged over the measurement surface An A-weighted Sound pressure level, LpA, shall be calculated from the measured va
...

Questions, Comments and Discussion

Ask us and Technical Secretary will try to provide an answer. You can facilitate discussion about the standard in here.