v. 01 - EURAMET
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1. Values and frequencies Aae 2 90 50 Hz 1 kHz All intermediate 90 50 Hz 1 kHz Values or frequencies to be done only on instruments with a resolution equal to 4 1 2 digits EURAMET cg 15 v 01 Page 8 TABLE 2 Measurement points for high accuracy DMMs resolution of 5 1 2 digits or more The values of the measurement points are reported as a percentage of full scale see 3 4 6 2 DC voltage nstrument ranges Measurement points o No 7 1096 3096 50 7096 90 1096 90 DC current Ne Nats 1096 5096 90 Resistance Measurement points et Values 1096 90 AC voltage nstrument ranges Measurement points Values and frequencies 85 106 50 Hz 1 kHz 20 kHz 6 50 and 1 20 50 100 kHz Nom value lt 0 5V 10 90 50 Hz 1 kHz 20 kHz One 13 50 Hz 1 kHz 20 kHz intermediate 30 50 70 1 kHz 50 Hz and 1 20 50 100 300 1000 kHz Nominal 50 Hz 1 kHz 20 kHz value gt 200V 1 kHz 50 kHz 50 Hz 1 kHz 30 kHz AC current nstrument ranges Measurement points eee TNI Values and frequencies Al 3 4 10 1 kHz 90 50 Hz 1 kHz 5 kHz 3 Values to be done only on high precision instruments resolution equal to or higher than 7 digits in Vcc 3 Frequency to be done only on instruments with a resolution equal to or higher than 6 digits EURAMET cg 15 v 01 Page 9 APPENDIX A E2. meet this requirement for low resolution DMMs where the resolution of the DMM reading dominates both the accuracy specification and the calibration uncertainty Also in the case of more accurate DMMs it is not always possible to achieve a 4 1 ratio for all functions and ranges The ACL should strive for limiting the number of calibration points where a ratio lower than 4 1 is used CONTENTS OF CALIBRATION CERTIFICATE When compiling the calibration certificate the guidelines laid down in the EA Publication EA 4 01 will be followed As a complement to this guide for DMMs the following information is considered necessary in order to provide full knowledge of the operations performed on the instrument 1 General information about the calibration 2 Method 3 Identification of the procedures employed 4 Results 5 Measurement uncertainty 6 Comments The information to be provided under each heading is indicated below Examples of certificates are shown in Appendix A General information about the calibration Report here if needed additional information on the instrument the extent of the calibration and any other information not covered under the other headings Method This is the heading under which all information is given that can provide more detailed knowledge of the calibration process performed more particularly the information listed below must be considered 5 1 2 1 Sequence of operations performed on the instrument
3. probability of at least 95 The standard uncertainty is a combination of a rectangular distributed component with width equal to 1 digit of resolution and normally distributed components The standard uncertainty of measurement has been determined in accordance with EA Publication EA 4 02 COMMENTS The results reported in this certificate refer to the condition of the instrument on the date of calibration and carry no implication regarding the long term stability of the instrument EURAMET cg 15 v 01 Page 10 Table 1 Function DC voltage Applied Measurement result Voltage Range Reading pel E 20 0 mV 0 00 mV 3100 00 mv 999mv 0 10 mV 10000mv 999mv 0 10 mV EXERCERE eet 0 2000v_ 1V 0 200V 0 0 mV 1 0000v 0999V 1 0 mV 1000V 0999V 1 0 mV Sa ae 2 000V_ 200V 200V 0 mV 310000 V 999V 10 mV 315000 V 20 mV NN 2 00 V 0 mV IV 10V 15 000 V CE ara 20 00 V 20 0 V 00 V 100 00V 1 3998 0 20 V 10000 997V 30 V 1000V 200 0 V 1000 V 200 V 0 0 V 10000V J 4997 3 0 V 10000v j 96 4 0 V 14 97 V 30 mV EURAMET cg 15 v 01 Page 11 Table 2 Function AC voltage 0 10 mV 0 10 mV 0 30 mV 0 10 mV 20m LO mW 20 30 mi I0 mV 30 190 mi 30 0 20 V 0 10 V 0 50 V 0
4. the measurement points and 50 if the point corresponds to a value for which the instrument was adjusted For other more accurate instruments the limit can be set at 50 of the specification for all measurement points If the calibration state of the instrument when it arrives at the ACL is not relevant to the customer it is possible to omit the preliminary calibration and to follow sequence c This may be the case if the instrument has never been submitted to periodical calibration or if operations have been carried out for example repairs that have significantly altered its metrological characteristics This sequence may only be chosen at the explicit request of the customer or if the repair has been carried out immediately before calibration by the ACL or by a laboratory directly related to it Adjustment must be performed according to the method prescribed by the manufacturer All the operations listed in the instruction manual of the instrument must be carried out except for those of an exceptional nature Usually calibration procedures must be performed configuring the instrument in such a way as to be able to obtain the best measurement accuracy For high accuracy DMMs to reduce the calibration time a less demanding configuration can be used if the increase in uncertainty is negligible with respect to specification Definition of Measurement Points The definition of a minimum set of measurement points for the calibration of a
5. 10 V ERE Applied Voltage Frequency 100 00 mV 50 Hz 100 00 mV 1 kHz 1 0000 V 50 Hz 1 0000 V 1 kHz 2 000 V 1 kHz 10 000 V 50 Hz 10 000 V 1 kHz 10 000 V 20 kHz 10 000 V 100 kHz 15 000 V 1 kHz 100 00 V 50 Hz 100 00 V 1 kHz 1000 0 V 50 Hz 1000 0 V 1 kHz Range Reading 100 mV 99 9 mV 99 7 mV nM lt 0 998 V 0 999 V 2 02 V 10 03 V 10 01 V 9 91 V 9 81 V 14 98 V 100 V 99 8 V 99 5 V 1000 V 995 V 992 V EURAMET cg 15 v 01 Page 12 Example 2 GENERAL INFORMATION ABOUT CALIBRATION The digital multimeter has been calibrated on the functions DC voltage AC voltage DC current AC current resistance METHOD The following operations were performed on the instrument in accordance with the customer s request and EURAMET Calibration Guide EM cg 15 1 Stabilisation in the 24 hours preceding calibration the instrument was powered by the mains and placed in the laboratory environment Functional self verification procedure FULL TEST positive result Self calibration procedure AUTOCAL no faults in the operating procedure Initial calibration E Adjustment all operations indicated in par 4 1 of the instruction manual were carried out 6 Final calibration The measurement points of calibration include the points recommended by the instruction manual and are in accordance with EURAMET Calibration Guide EM cg 15 Instrument settings during calibration are indicated al
6. 5 5 1 2 6 Environmental conditions temperature and humidity under which calibration took place 5 1 2 7 Instrument s stabilisation times concerning both the length of time the instrument 5 1 3 5 1 4 remained in the laboratory environment and if powered by the mains the length of time it was powered on before starting calibration Identification of the procedures employed List or identify the calibration procedures employed in order to obtain measurement data Results The results are normally shown in tables in subsequent pages 5 1 4 1 An example of a set of suitable column headings in the tables are Applied Value or for example Applied Voltage Instrument Range if more than one is to be considered Instrument Reading Error of Indication and the corresponding Measurement Uncertainty For AC input quantities the Applied Value column will be subdivided to give separate columns for the level and frequency of the input The column Instrument Reading may also be subdivided to allow the reporting of initial calibration and final calibration results when the instrument is adjusted 5 1 4 2 In the event of one or more measurement results reported in the tables being obtained with instrument settings different from those indicated under 5 1 2 Method these results may be marked and the specific instrument settings given in a note below the table 5 1 4 3 The unit of measurement may be indicated next
7. EURAIMET European Association of National Metrology Institutes Guidelines on the Calibration of Digital Multimeters EURAMET cg 15 v 01 Previously EA 10 15 July 2007 CallibizationaGeice Calibration Guide EURA EURAM ET cg 15 v 0 1 European Association of National GUI DELI NES ON THE CALI BRATI ON OF DI GITAL MULTI METERS July 2007 Purpose This guidance document is intended to improve harmonisation of Guidelines on the Calibration of Digital Multimeters In the absence of specific requirements it may be used by calibration laboratories and their customers to formulate a technically sound calibration procedure for such instruments Authorship The publication was originally published by EA Committee 2 Technical Activities based on a draft produced by the EA Expert Group DC LF Electrical Quantities It is revised and re published by the EURAMET Technical Committee for Electricity and Magnetism Official language The English language version of this publication is the definitive version The EURAMET Secretariat can give permission to translate this text into other languages subject to certain conditions available on application In case of any inconsistency between the terms of the translation and the terms of this publication this publication shall prevail Copyright The copyright of this publication EURAMET cg 15 v 01 English version is held by EURAMET e V 2007 It was originally published b
8. This sequence can include for example functional verification self test self calibration e g zero settings or calibration with respect to internal standards or linearisation of the converters initial calibration adjustment final calibration If any of the operations that are listed have not been carried out in a comprehensive manner this fact should be indicated 5 1 2 2 Reasons for the choice of the sequence of operations and measurement points Such reasons could be one or more of the following customer s request manufacturer s instructions contained in the user s manual of the instrument EURAMET Calibration Guides 5 1 2 3 Instrument settings during calibration of the various functions For example if the instrument is able to measure resistance at two or four terminals the pre selected mode should be specified Any zero settings performed on the instrument should also be indicated and if there is more than one input the one which has been used should be reported This information may also be shown alongside the tables of results 5 1 2 4 Information on the measurement circuit e g connection of a terminal to ground on the measurement method and on the course of operations allowing for a correct evaluation of the results obtained 5 1 2 5 If the DMM under test is sensitive to crest factor any appropriate information concerning the distortion of the AC calibration signals should be given EURAMET cg 15 v 01 Page
9. at an item of measuring equipment is in a state of compliance with requirements for its intended use ISO 10012 Resolution of a displaying device Smallest difference between indications of a displaying device that can be meaningfully distinguished VIM 5 12 For digital instruments the resolution feature is often expressed by the number of digits displayed by the instrument Range of indication Set of values bounded by the extreme indications VIM 4 19 Full scale Absolute maximum indication of an instrument in a specified range Functional test verification A test verification performed on an instrument in order to verify if its functions are working properly Self calibration auto calibration nternal calibration process of an instrument with the aim of improving its accuracy Crest factor Ratio between the peak value of an AC signal and its rms value PROCEDURE General Considerations The procedure must ensure that the instrument under calibration gives to the user traceable measurements results The user should be able to use the measurement results reported in the calibration certificate during metrological confirmation of the instrument Preliminary Tests If available the following procedures should be performed as a preliminary functional verification TEST of the multimeter and if the instrument allows self calibration ACAL SELFCAL etc in order to place the instrument into a defined condition Sequ
10. ation see Publication EA 4 03 give the location LIST OF REFERENCES EA 4 01 Requirements Concerning Certificates Issued by Accredited Calibration Laboratories previously EAL R1 Nov 1995 EA 4 02 Expressions of the Uncertainty of Measurements in Calibration previously EAL R2 Apr 1997 EA 4 03 Requirements for the Accreditation of Laboratories and Organisations Performing Site Calibration previously EAL R3 Jan 1996 VIM International Vocabulary of Basic and General Terms in Metrology second edition 1993 ISO 10012 2 Quality Assurance for Measuring Equipment Part 2 first edition 1997 ILAC G8 1996 Guidelines on Assessment and Reporting of Compliance with Specification EURAMET cg 15 v 01 Page 7 TABLE 1 Measurement points for low accuracy DMMs resolution of no more than 4 1 2 digits The values of the measurement points are reported as a percentage of full scale see 3 4 6 2 DC voltage Instrument ranges Measurement points Values 1096 90 90 One 7 1096 30 1 50 70 90 intermediate 10 90 DC current Measurement points Ne Resistance Measurement points PN 1 2 AC voltage Measurement points PN Valuesandfrequendes Nom value 05V 4 10 90 One 1096 50 50 Hz or 1 kHz intermediate 90 50 Hz and 1 20 100 kHz Nominal value gt 200V 1096 90 50 Hz 1 kHz AC current Measurement points aes
11. be determined so as to verify the various frequency bands defined in the specifications of the instrument 3 4 6 5 For AC voltage measurements care must be taken that the values given in Tables 1 and 4 2 4 3 2 do not reach the limits of the instrument in peak voltage and in voltage frequency product MEASUREMENT UNCERTAINTY The measurement uncertainty should be evaluated for each measurement result according to the EA 4 02 previously EAL R2 guideline In particular in this document the example S9 concerning the calibration of a hand held digital multimeter at 100 V DC should be considered Subsequent to calibration and under normal conditions of use the uncertainty associated with the readings of a DMM will be the combination of the DMM s specification and the calibration uncertainty In the absence of a specific different request by the customer for a meaningful calibration of the DMM the uncertainties of the standards used in the adjustment and the measurement uncertainties should be low enough as to be possibly neglected in comparison with the manufacturer s accuracy specification Reference should be made to the specification after one year because this is in general referred to by the customer during the period of validity of the calibration EURAMET cg 15 v 01 Page 4 4 4 5 1 1 5 1 2 As an example a ratio between specification and calibration uncertainties of 4 1 is usually sufficient It may not be possible to
12. d uncertainty of measurement has been determined in accordance with EA Publication EA 4 02 5 1 5 4 NOTE for low resolution DMM n some cases the combined standard uncertainty will be composed of two major contributions a component from the finite resolution of the instrument or from unstable reading usually handled as a rectangular distributed component and a component from other uncertainty contributions which is usually assigned a normal distribution To obtain an expanded uncertainty with about 9596 coverage interval the coverage factor will depend on the ratio between the rectangular and normal components and will vary from k 1 65 when the rectangular component dominates to k 2 when the normal component dominates However it is not possible to write a closed form formula for and there are no obvious simple approximations for this EURAMET cg 15 v 01 Page 6 5 1 6 relation The deviation from k 2 becomes significant 596 when the reading resolution is equal to or larger than 1 5 times the combination of the other uncertainty components The problem often occurs for low accuracy limited resolution e g 3 digit instruments These instruments are usually calibrated at low cost and the end user is seldom concerned with the detailed uncertainty contributions In this case the calculation of the individual coverage factors does not add enough value for the typical user to justify the expense It is therefore the recommendat
13. e nnns 4 5 CONTENTS OF CALIBRATION Hmmm 5 6 LIST OF REFERENCES 7 GABE MET 8 TABLE 2 M 9 unu uud an iion 10 Examples for the compilation of certificates for digital multimeters 10 Calibration Guide EURA EURAMET cg 15 v 01 European Association of Ae Guidelines on the Calibration of Digital Multimeters 1 INTRODUCTION 11 The aim of this document is to provide guidelines on the Calibration of Digital Multimeters DMM for accredited calibration Laboratories ACL In the absence of specific international written standards on DMMs this document supplements the manufacturer s recommendations and the calibration procedures of the ACLs Even though these guidelines are not intended to cover the question of judging compliance of a DMM to specification they suggest a suitable calibration method on which a statement of compliance can be based For assessment and reporting of compliance readers may refer to ILAC Guideline G8 1 2 The category of apparatus referred to is that of multifunctional measuring instruments with digital reading for the measurement of the quantities DC voltage AC voltage low frequency DC current AC current low frequency resistance This category does not include instruments which although they also measure one o
14. ence of Operations Depending upon the as received calibration state of the DMM and the customer s requirements three different sequences of operation can be performed a Pre adjustment calibration b Calibration C Adjustment Adjustment Calibration Post adjustment calibration Sequence a is the standard sequence Pre adjustment calibration provides information on the behaviour of the instrument in the period that has elapsed since the previous calibration Adjustment brings the readings of the instrument within the limits of manufacturer s specifications The post adjustment calibration documents the state of the instrument after the adjustment has been performed If the instrument turns out to have maintained its accuracy in a highly satisfactory manner it is possible not to perform adjustment and to follow sequence b The limits which must not be exceeded by the calibration results in order for this to be possible must be selected in such a way that the instrument remains presumably within specification during the following period of use EURAMET cg 15 v 01 Page 2 3 3 4 3 3 6 3 4 3 4 1 3 4 2 3 4 3 3 4 4 3 4 5 For example for non high accuracy instruments with manual type adjustment which usually have low drift with respect to specification the limits to the deviation between the applied quantity and the reading can be set at 70 of the annual specification declared by the manufacturer at all
15. generic DMM should be flexible enough to allow the application to different models of instruments When customising the set of measurement points for a specific model of DMM the ACL should consider the working principles of the instrument so as to determine the most appropriate calibration points Guidance on the selection of calibration points may sometimes also be obtained from the manufacturer s instructions although the points listed therein should not necessarily be considered exhaustive Due to the wide variety of types of instruments it is necessary to find criteria on the basis of which to subdivide DMMs into categories so as to grade the number of calibration points and the uncertainty level according to the accuracy and use of the instrument In this document the reference parameter used for this purpose is the resolution of the reading expressed by a number of digits if this number varies from one function of the instrument to another reference is made to the maximum number Two main categories can be identified The first includes low accuracy working instruments with a resolution of no more than 4 1 2 digits no more than 50000 display counts A typical instrument in this category is the hand held DMM used largely for production line measurements For this category of instruments Table 1 lists the set of recommended calibration points The second category groups together instruments with more advanced characteristics in particu
16. ion of this Guide that a coverage factor of k 2 is used overall in these cases and when the reading resolution is significant see above that the sentence of the previous paragraph be modified as follows The reported expanded uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by a coverage factor k 2 which corresponds to a coverage probability of at least 95 The standard uncertainty is a combination of a rectangular distributed component with width equal to N digits of resolution and normally distributed components The standard uncertainty of measurement has been determined in accordance with EA Publication EA 4 02 In this sentence V is the number of digits the reading varied and for a stable reading is equal to one A note in this form allows the advanced user to recover the information about the two significant uncertainty components and use this information directly in his her own uncertainty calculations Comments 5 1 6 1 A statement concerning the validity of the calibration results reported in the certificate should be included For example a sentence such as The results reported n this certificate refer to the condition of the instrument on the date of calibration and carry no implication regarding the long term stability of the instrument 5 1 6 2 Indicate any malfunctioning or anomaly detected 5 1 6 3 If the calibration was not performed at the ACL premises site calibr
17. lar bench instruments with a resolution of between 5 1 2 and 8 1 2 digits These are apparatuses normally used for more demanding measurements or as laboratory reference instruments Table 2 lists the set of recommended measurement points for this category In the Tables the measurement points are expressed as a percentage of the full scale value The number of measurement points indicated for each range is to be understood as a lower limit The values given are indicative and to be interpreted in a flexible manner taking into account the instrument characteristics and the customer s requirements In EURAMET cg 15 v 01 Page 3 3 4 6 particular it is necessary to adapt the overall values so as to include all the measurement points requested by the instrument manufacturer and listed in the instruction manual Remarks to be considered for a correct interpretation of Tables 1 and 2 are given in the following 3 4 6 1 For DC measurements on voltage current and resistance it is intended that a preliminary zero operation be performed on each range when this function is available For DC voltage a low thermal emf short circuit will be used to null the input For DC current the input circuit will be left open In case of 2 wire resistance compensation for lead resistance will be obtained shorting the leads on the side of the resistor under measurement In case of 4 wire resistance measurement offset compensation is usually obtained by shorting
18. libration and carry no implication regarding the long term stability of the instrument Function DC voltage Instrument settings NDIG 8 FILT ON NPL 100 Input FRONT Table 1 Calibration results with DC voltage Applied Instrument Reading Measurement result Voltage Range Initial Final Initial error Final error Uncertainty Calibration Calibration mV mV 107 107 p 1 0005 1 0002 1 0003 100 0000 100 0000 aa 190012 10 0005 11000020 100 0002 1000015 100 0005 mmus ERUNT V v p i o Ooo i E Wwlwlole lr S a 0 500005 0 500001 1 000012 1 000002 i 0 500000 1 000000 1 000000 1 500000 1 000010 1 000001 31 500015 1 500004 p 32 000015 2 000003 2 000000 only a part of the DC voltage table of results is reported in this example EURAMET cg 15 v 01 Page 14
19. ongside the tables of results DC voltage and resistance measurements were executed after short circuiting the input and setting the instrument reading to zero for each range used a similar procedure was carried out for DC current opening the current circuit During calibration the ambient temperature was between 22 C and 24 C and the relative humidity was between 40 rh and 60 rh IDENTIFICATION OF THE PROCEDURES EMPLOYED Identification A01VDC AO2VAC A05IDC AO8IAC AO9RES MEASUREMENT RESULTS The calibration results are shown in the tables on the following pages CALI BRATI ON UNCERTAI NTY The uncertainty values reported in the tables of results have been obtained taking into account all contributing factors to the uncertainty affecting the measurement including those deriving from the resolution and from the short term stability of the instrument being calibrated The reported expanded uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by a coverage factor k 2 corresponding to a coverage probability of approximately 9596 The standard uncertainty of measurement has been determined in accordance with EA Publication EA 4 02 Here a Gaussian probability distribution is assumed Both the value of k and the coverage probability must be reported EURAMET cg 15 v 01 Page 13 COMMENTS The results reported in this certificate refer to the condition of the instrument on the date of ca
20. r more of these quantities are primarily intended for measuring quantities of a different type such as power energy and AC impedance or for measurements at frequencies higher than 1 MHz The guidelines given can also be applied to digital instruments that are able to measure only some of the quantities mentioned above e g digital voltmeters but not for panel instruments or instruments developed for specialised applications 1 3 The information given in paragraphs 3 and 4 below may be ignored in whole or in part in the event of the customer requesting explicitly and in documented form that the instrument be calibrated according to other appropriate methods TERMI NOLOGY 2 1 Calibration Set of operations that establish under specified conditions the relationship between values of quantities indicated by a measuring instrument or measuring system or values represented by a material measure or a reference material and the corresponding values realised by standards VIM 6 11 2 2 Adjustment of a measuring instrument Operation of bringing a measuring instrument into a state of performance suitable for use VIM 4 30 Depending on the instrument the adjustment can be performed by physical adjustment of internal components or via the instrument s firmware EURAMET cg 15 v 01 Page 1 2 3 2 4 2 5 2 6 2 7 2 8 2 9 3 1 3 1 1 3 2 3 2 1 3 3 33 1 Metrological confirmation Set of operations required to ensure th
21. the current terminals and measuring the voltage Special zero procedures reported in the instruction manual of the instrument should be followed In case the instrument can not compensate for the offset a zero measurement will be included in the list of measurement points 3 4 6 2 The figure 10 indicates a beginning of scale value the actual value can be lower than 10 possibly zero for DC functions The figure 90 indicates a full scale value the actual value may vary from 50 to 99 of the full scale for all functions except for resistance where it can vary from 30 to 99 If the figure 90 is indicated for a range with at least 5 measurement points that figure is to be understood in the strictest sense 3 4 6 3 The value 50 Hz denotes a measurement point that is intended to calibrate the instrument at power frequency the actual value may vary from 40 Hz to 60 Hz or at most to 100 Hz It should be noted that for high accuracy instruments powered by the mains it is better to avoid performing this measurement at 50 Hz because of possible beating between the frequency of the applied signal and that of the mains 3 4 6 4 The frequency of 1 kHz denotes the central frequency value given in the specifications at which usually the instrument is adjusted the actual value may vary from 200 Hz to 1 kHz depending on the instrument model Frequency values higher than 1 kHz are indicative but their number is binding The actual values should
22. to the relevant value or included in the column heading 5 1 4 4 As regards the number of digits by which data should be reported on the certificate the value of the quantity applied must have a resolution that is commensurate with the its uncertainty On the other side for the multimeter reading the number of digits to be given is related to the resolution of the instrument if this has a large number of digits non significant digits or those contained within the short term instability of the reading may be discarded Uncertainty The values of the uncertainty of measurement are reported alongside the corresponding measurement results If the adjustment has been performed also the uncertainties of the standards used should be reported in the certificate or qualified as negligible with respect to the instrument specifications where relevant 5 1 5 1 Make the user aware that the given uncertainties take into account the resolution and the short term instability of the instrument being calibrated 5 1 5 2 If the DMM under test is sensitive to crest factor the effect of the distortion of the AC calibration signals should be taken into account when evaluating the calibration uncertainty 5 1 5 3 Include a sentence such as The reported expanded uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by a coverage factor k 2 corresponding to a coverage probability of approximately 95 The standar
23. xamples for the compilation of certificates for digital multimeters Example 1 GENERAL I NFORMATI ON ABOUT THE CALI BRATI ON The 3 Y digits hand held digital multimeter has been calibrated on the functions DC voltage AC voltage DC current AC current resistance METHOD The calibration of the instrument was carried out at the points indicated by EURAMET Calibration Guide EM cg 15 following the manufacturer s instructions given in the user s manual As agreed with the customer no adjustment of the multimeter was carried out Before executing the measurements given in this certificate a self test Test procedure was successfully performed on the instrument The ambient temperature was in the range 22 C to 24 C and the relative humidity between 40 rh and 60 9 6 rh I DENTI FI CATION OF THE PROCEDURES EMPLOYED Identification A01VDC AO2VAC A05IDC AO8IAC AO9RES MEASUREMENT RESULTS The calibration results are shown in the tables on the following pages CALI BRATI ON UNCERTAI NTY The uncertainty values reported in the tables of results have been obtained taking into account all contributing factors to uncertainty affecting the measurement including those deriving from the resolution and from the short term stability of the instrument being calibrated The reported expanded uncertainty of measurement is stated as the standard uncertainty of measurement multiplied by a coverage factor k 2 which corresponds to a coverage
24. y EA as Guide EA 10 15 The text may not be copied for resale and may not be reproduced other than in full Extracts may be taken only with the permission of the EURAMET Secretariat Guidance Publications This document represents preferred practice on how the relevant clauses of the accreditation standards might be applied in the context of the subject matter of this document The approaches taken are not mandatory and are for the guidance of calibration laboratories The document has been produced as a means of promoting a consistent approach to laboratory accreditation No representation is made nor warranty given that this document or the information contained in it will be suitable for any particular purpose In no event shall EURAMET the authors or anyone else involved in the creation of the document be liable for any damages whatsoever arising out of the use of the information contained herein Further information For further information about this publication contact your National member of the EURAMET Technical Committee for Electricity and Magnetism see www euramet org Calibration Guide EURA EURAM ET cg 15 v 01 European Association of National GUI DELI NES ON THE CALI BRATI ON OF DI GITAL MULTI METERS July 2007 Contents 1 INTRODUCH Ferme 1 2 TERMINOLOGY EE 1 3 PROCEDURE A EE 2 3 1 General Considerations 2 3 2 Preliminary Tests 2 3 4 Definition of Measurement Points 3 4 MEASUREMENT UNCERTAINTY 00 0 eect He
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