SIST EN IEC 61676:2023

SLOVENSKI STANDARD
oSIST prEN IEC 61676:2022
01-marec-2022
Medicinska električna oprema - Dozimetrijska oprema za posredno merjenje
napetosti rentgenske elektronke v diagnostični radiologiji
Medical electrical equipment - Dosimetric instruments used for non-invasive
measurement of X-ray tube voltage in diagnostic radiology
Medizinische elektrische Geräte - Geräte für die nicht-invasive Messung der
Röntgenröhrenspannung in der diagnostischen Radiologie
Appareils électromédicaux - Instruments de dosimétrie pour la mesure non invasive de la
tension du tube radiogène dans la radiologie de diagnostic
Ta slovenski standard je istoveten z: prEN IEC 61676:2022
ICS:
11.040.50 Radiografska oprema Radiographic equipment
11.040.55 Diagnostična oprema Diagnostic equipment
17.240 Merjenje sevanja Radiation measurements
oSIST prEN IEC 61676:2022 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN IEC 61676:2022
62C/830/CDV

COMMITTEE DRAFT FOR VOTE (CDV)
PROJECT NUMBER:
IEC 61676 ED2
DATE OF CIRCULATION: CLOSING DATE FOR VOTING:
2022-01-21 2022-04-15
SUPERSEDES DOCUMENTS:
62C/796A/CD, 62C/808A/CC

IEC SC 62C : EQUIPMENT FOR RADIOTHERAPY, NUCLEAR MEDICINE AND RADIATION DOSIMETRY
SECRETARIAT: SECRETARY:
Germany Ms Regina Geierhofer
OF INTEREST TO THE FOLLOWING COMMITTEES: PROPOSED HORIZONTAL STANDARD:
SC 62B
Other TC/SCs are requested to indicate their interest, if any,
in this CDV to the secretary.
FUNCTIONS CONCERNED:
EMC ENVIRONMENT QUALITY ASSURANCE SAFETY
SUBMITTED FOR CENELEC PARALLEL VOTING NOT SUBMITTED FOR CENELEC PARALLEL VOTING
Attention IEC-CENELEC parallel voting
The attention of IEC National Committees, members of
CENELEC, is drawn to the fact that this Committee Draft
for Vote (CDV) is submitted for parallel voting.
The CENELEC members are invited to vote through the
CENELEC online voting system.

This document is still under study and subject to change. It should not be used for reference purposes.
Recipients of this document are invited to submit, with their comments, notification of any relevant patent rights of which
they are aware and to provide supporting documentation.

TITLE:
Medical electrical equipment - Dosimetric instruments used for non-invasive measurement of X-ray
tube voltage in diagnostic radiology

PROPOSED STABILITY DATE: 2026

NOTE FROM TC/SC OFFICERS:

Copyright © 2021 International Electrotechnical Commission, IEC. All rights reserved. It is permitted to download
this electronic file, to make a copy and to print out the content for the sole purpose of preparing National Committee
positions. You may not copy or "mirror" the file or printed version of the document, or any part of it, for any other
purpose without permission in writing from IEC.

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1 CONTENTS
2 FOREWORD . 4
3 INTRODUCTION . 6
4 1 Scope and object . 7
5 2 Normative references . 7
6 3 Terminology and definitions . 8
7 4 General performance requirements for measurement of PRACTICAL PEAK VOLTAGE
8 measurements . 10
9 4.1 Quantity to be measured . 10
10 4.2 Limits of PERFORMANCE CHARACTERISTICs . 11
11 4.3 LIMITS OF VARIATION for effects of INFLUENCE QUANTITIES . 13
12 4.4 Performance test procedures . 15
13 5 Special instrumental requirements and marking . 22
14 5.1 Requirements for the complete instruments . 22
15 5.2 General . 22
16 5.3 Display . 22
17 5.4 Range of measurement . 22
18 5.5 Connectors and cables . 22
19 6 ACCOMPANYING DOCUMENTS . 22
20 6.1 General . 22
21 6.2 Information provided . 22
22 6.3 Instrument description . 22
23 6.4 Detector . 23
24 6.5 Delay time . 23
25 6.6 Measurement window . 23
26 6.7 Data outlet . 23
27 6.8 Transport and storage . 23
28 Annex A (informative) COMBINED STANDARD UNCERTAINTY . 24
29 Annex B (informative) Additional information on PRACTICAL PEAK VOLTAGE . 25
30 INDEX OF DEFINED TERMS . 31
31
32 Figure B.1 – Example of a waveform of a two-pulse generator . 27
33 Figure B.2 – Example of a waveform of a constant-voltage generator . 27
34 Figure B.3 – Example of falling load waveform . 28
35
36 Table 1 – MINIMUM EFFECTIVE RANGES . 11
37 Table 2 – Minimum RATED RANGE OF USE, REFERENCE CONDITIONS, STANDARD TEST
38 CONDITIONS, LIMITS OF VARIATION ( L) and INTRINSIC ERROR (E) over the EFFECTIVE
39 RANGE of use, for the pertaining INFLUENCE QUANTITY . 14
40 Table 3 – Minimum test points and test values of PRACTICAL PEAK VOLTAGE for
41 INFLUENCE QUANTITIES . 15
42 Table 4 – Maximum HALF-VALUE LAYER (HVL) depending on anode angle . 21
43 Table B.1 – Values of 20 samples of the falling load waveform in figure B.3 . 28
44 Table B.2 – Voltage bins, probability and weighting factors for the 20 samples of the
45 falling load waveform in figure B.3 . 29

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46 Table B.3 – Weighting factors for the 20 equally spaced samples of the falling load
47 waveform in figure B.3 . 30
48

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49 INTERNATIONAL ELECTROTECHNICAL COMMISSION
50 ⎯⎯⎯⎯⎯
51 MEDICAL ELECTRICAL EQUIPMENT –
52
53 Dosimetric instruments used for non-invasive measurement
54 of X-ray tube voltage in diagnostic radiology
55
56
57 FOREWORD
58 1) The International Electrotechnical Commission (IEC) is a worldwide organization for st andardization comprising
59 all national electrotechnical committees (IEC National Committees). The object of IEC is to promote
60 international co-operation on all questions concerning standardization in the electrical and electronic fields. To
61 this end and in addition to other activities, IEC publishes International Standards, Technical Specifications,
62 Technical Reports, Publicly Available Specifications (PAS) and Guides (hereafter referred to as “IEC
63 Publication(s)”). Their preparation is entrusted to technical committees; any IEC National Committee interested
64 in the subject dealt with may participate in this preparatory work. International, governmental and non-
65 governmental organizations liaising with the IEC also participate in this preparation. IEC collabora tes closely
66 with the International Organization for Standardization (ISO) in accordance with conditions determined by
67 agreement between the two organizations.
68 2) The formal decisions or agreements of IEC on technical matters express, as nearly as possible, an international
69 consensus of opinion on the relevant subjects since each technical committee has re presentation from all
70 interested IEC National Committees.
71 3) IEC Publications have the form of recommendations for international use and are accepted by I EC National
72 Committees in that sense. While all reasonable efforts are made to ensure that the techni cal content of IEC
73 Publications is accurate, IEC cannot be held responsible for the way in which they are used or for any
74 misinterpretation by any end user.
75 4) In order to promote international uniformity, IEC National Committees undertake to apply IEC Pub lications
76 transparently to the maximum extent possible in their national and regional publications. Any divergence
77 between any IEC Publication and the corresponding national or regional publication shall be clearly indicated in
78 the latter.
79 5) IEC provides no marking procedure to indicate its approval and cannot be rendered responsible for any
80 equipment declared to be in conformity with an IEC Publication.
81 6) All users should ensure that they have the latest edition of this publication.
82 7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
83 members of its technical committees and IEC National Committees for any personal injury, property damage or
84 other damage of any nature whatsoever, whether direct or indirect, or for costs (including legal fees) and
85 expenses arising out of the publication, use of, or reliance upon, this IEC Publication or any other IEC
86 Publications.
87 8) Attention is drawn to the Normative references cited in this publication. Use of the referenced publications is
88 indispensable for the correct application of this publication.
89 9) Attention is drawn to the possibility that some of the elements of this IEC Publication may be the subject of
90 patent rights. IEC shall not be held responsible for identifying any or all such patent rights.
91 International Standard IEC 61676 has been prepared by subcommittee SC 62C: Equipment
92 for radiotherapy, nuclear medicine and radiation dosimetry, of IEC Technical Committee 62:
93 Electrical equipment in medical practice.
94 This second edition of IEC 61676 cancels and replaces the edition 1.1, published in 2009. It
95 includes an assessment of the COMBINED STANDARD UNCERTAINTY for the performance of a
96 hypothetical instrument for the non-invasive measurement of the tube high voltage (in
97 Annex A) which replaces Annex A of the edition 1.1 titled “Recommended performance criteria
98 for the invasive divider”.
99
100

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101 In this standard the following print types are used:
102 − requirements, compliance with which can be tested, and definitions: in roman type;
103 − notes, explanations, advice, general statements and exceptions: in small roman type;
104 − test specifications: in italic type;
105 − TERMS USED THROUGHOUT THIS STANDARD THAT HAVE BEEN DEFINED IN CLAUSE 3 OR IN IEC
106 60601-1 AND ITS COLLATERAL STANDARDS: IN SMALL CAPITALS.
107 The committee has decided that the contents of the base publication and its amendments will
108 remain unchanged until the maintenance result date indicated on the IEC web site under
109 "http://webstore.iec.ch" in the data related to the specific publication. At this date,
110 the publication will be
111 • reconfirmed,
112 • withdrawn,
113 • replaced by a revised edition, or
114 • amended.
115 A bilingual version of this publication may be issued at a later date.
116 NOTE The committee knows this second edition of the standard does still not address all problems associated
117 with non-invasive high voltage measurements. For mammography only molybdenum filtration is considered in
118 conjunction with a molybdenum anode although in addition tungsten and rhodium anodes with other filtrations are
119 in use like rhodium, aluminium, copper, silver or titanium. At the time when this document was drafted there were
120 not enough data available in the literature to define realistic limits of variation for these types of INFLUENCE
121 QUANTITIES. On the other hand, the committee was informed that several international projects were started to
122 examine the general behaviour of non-invasive X-ray multimeters of the main manufacturers. Results from these
123 studies were to be expected within about 5 years. Therefore, the committee decided to set a short stability time for
124 the second edition and update the standard as soon as the results from these new examinations will be available.
125
126

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127 INTRODUCTION
128 The result of a measurement of the X-RAY TUBE VOLTAGE by means of invasive or non-invasive
129 instruments is normally expressed in the form of one single number for the value of the tube
130 voltage, irrespective of whether the tube voltage is constant potential or shows a time
131 dependent waveform. Non-invasive instruments for the measurement of the X-RAY TUBE
132 VOLTAGE on the market usually indicate the “mean peak voltage”. But the quantity “mean peak
133 voltage” is not unambiguously defined and may be any mean of all voltage peaks. It is
134 impossible to establish test procedures for the performance requirements of non-invasive
135 instruments for the measurement of the X-RAY TUBE VOLTAGE without the definition of the
136 quantity under consideration. Therefore, this standard is based on a quantity called
137 "PRACTICAL PEAK VOLTAGE". The PRACTICAL PEAK VOLTAGE is unambiguously defined and
138 applicable to any waveform. This quantity is related to the spectral distribution of the emitted
139 X-RADIATION and the image properties. X-RAY GENERATORS operating at the same value of the
140 PRACTICAL PEAK VOLTAGE will produce the same low-level contrast in the RADIOGRAMS, even
141 when the waveforms of the tube voltages are different. Detailed information on this concept is
142 provided in Annex B. An example for the calculation of the PRACTICAL PEAK VOLTAGE in the
143 case of a “falling load” waveform is also given in Annex B.
144 The calibration and adjustment of the X-RAY TUBE VOLTAGE of an X-RAY GENERATOR is
145 generally performed by the MANUFACTURER using a direct INVASIVE MEASUREMENT. Instruments
146 utilising NON-INVASIVE MEASUREMENTS can also be used to check the calibration or to adjust
147 the X-RAY TUBE VOLTAGE. These instruments are required to have uncertainties of the voltage
148 measurement comparable with the INVASIVE MEASUREMENT. One of the most important
149 parameters of diagnostic X-RAY EQUIPMENT is the voltage applied to the X-RAY TUBE, because
150 both the image quality in diagnostic radiology and the DOSE received by the PATIENT
151 undergoing radiological examinations are dependent on the X-RAY TUBE VOLTAGE. An overall
152 uncertainty below ±5 % is required, and this value serves as a guide for the LIMITS OF
153 VARIATION for the effects of INFLUENCE QUANTITIES.
154

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155 MEDICAL ELECTRICAL EQUIPMENT –
156
157 Dosimetric instruments used for non-invasive measurement
158 of X-ray tube voltage in diagnostic radiology
159
160
161
162 1 Scope and object
163 This International Standard specifies the performance requirements of instruments as used in
164 the NON-INVASIVE MEASUREMENT of X-RAY TUBE VOLTAGE up to 150 kV and the relevant
165 compliance tests. This standard also describes the method for calibration and gives guidance
166 for estimating the uncertainty in measurements performed under conditions different from
167 those during calibration.
168 Applications for such measurement are found in diagnostic RADIOLOGY including
169 mammography, COMPUTED TOMOGRAPHY (CT), dental radiology and RADIOSCOPY. This standard
170 is not concerned with the safety aspect of such instruments. The requirements for electrical
171 safety applying to them are contained in IEC 61010-1.
172 2 Normative references
173 The following documents are referred to in the text in such a way that some or all of their
174 content constitutes requirements of this document. For dated references, only the edition
175 cited applies. For undated references, the latest edition of the referenced document (including
176 any amendments) applies.
177 IEC 60417, Graphical symbols for use on equipment (available at http://www.graphical-
178 symbols.info/equipment)
179 IEC TR 60788:2004, Medical electrical equipment – Glossary of defined terms
180 IEC 61000-4-2, Electromagnetic compatibility (EMC) – Part 4-2: Testing and measurement
181 techniques – Electrostatic discharge immunity test
182 IEC 61000-4-3, Electromagnetic compatibility (EMC) – Part 4-3: Testing and measurement
183 techniques – Radiated, radio-frequency, electromagnetic field immunity test
184 IEC 61000-4-4, Electromagnetic compatibility (EMC) – Part 4-4: Testing and measurement
185 techniques – Electrical fast transient/burst immunity test
186 IEC 61000-4-5, Electromagnetic compatibility (EMC) – Part 4-5: Testing and measurement
187 techniques – Surge immunity test
188 IEC 61000-4-6, Electromagnetic compatibility (EMC) – Part 4-6: Testing and measurement
189 techniques – Immunity to conducted disturbances induced by radio-frequency fields
190 IEC 61000-4-11, Electromagnetic compatibility (EMC) – Part 4-11: Testing and measurement
191 techniques – Voltage dips, short interruptions and voltage variations immunity tests
192 IEC 61010-1, Safety requirements for electrical equipment for measurement, control, and
193 laboratory use – Part 1: General requirements
194 IEC 61187, Electrical and electronic measuring equipment – Documentation

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195 ISO 7000:1989, Graphical symbols for use on equipment – Index and synopsis
196 3 Terminology and definitions
197 For the purposes of this document, the terms and definitions given in IEC 60601-1:2005,
198 IEC TR 60788:2004 and the following apply.
199 ISO and IEC maintain terminological databases for use in standardization at the following
200 addresses:
201 • IEC Electropedia: available at http://www.electropedia.org/
202 • ISO Online browsing platform: available at http://www.iso.org/obp
203 NOTE 1 An index of defined terms is to be found at the end of the document.
204 NOTE 2 A searchable IEC Glossary can be found at std.iec.ch
205 3.1
206 CORRECTION FACTOR
207 dimensionless multiplier which corrects the INDICATED VALUE of an instrument from its value
208 when operated under particular conditions to its value when operated under stated REFERENCE
209 CONDITIONS
210 3.2
211 EFFECTIVE RANGE
212 range of INDICATED VALUES for which an instrument complies with a stated performance. The
213 maximum (minimum) effective INDICATED VALUE is the highest (lowest) in this range
214 3.3
215 INDICATED VALUE
216 value of quantity derived from the scale reading of an instrument together with any scale
217 factors indicated on the control panel of the instrument
218 3.4
219 INFLUENCE QUANTITY
220 any external quantity that may affect the performance of an instrument (e.g., ambient
221 temperature etc.) and any property of the X-RAY EQUIPMENT under test that needs to be taken
222 into account in using the instrument for NON-INVASIVE MEASUREMENT of X-RAY TUBE VOLTAGE
223 (e.g., range of X-RAY TUBE VOLTAGE, ANODE ANGLE, anode material, TOTAL FILTRATION etc.)
224 3.5
225 INSTRUMENT PARAMETER
226 any internal property of an instrument that may affect the performance of the instrument
227 3.6
228 INTRINSIC ERROR
229 deviation of the MEASURED VALUE (i.e., the INDICATED VALUE, corrected to REFERENCE
230 CONDITIONS) from the CONVENTIONAL TRUE VALUE under STANDARD TEST CONDITIONS
231 3.7
232 INVASIVE MEASUREMENT
233 measurement of the X-RAY TUBE VOLTAGE by external connection of a suitable meter or a high
234 resistance divider
235 3.8
236 LIMITS OF VARIATION
237 maximum VARIATION of a PERFORMANCE CHARACTERISTIC y, permitted by this standard. If the
238 LIMITS OF VARIATION are stated as ±L % the VARIATION y / y, expressed as a percentage, shall
239 remain in the range from −L % to +L %

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240 3.9
241 MAXIMUM PEAK VOLTAGE
242 maximum value of the X-RAY TUBE VOLTAGE in a specified time interval. The unit of this
243 quantity is the volt (V)
244 3.10
245 MEAN PEAK VOLTAGE
246 mean value of all X-RAY TUBE VOLTAGE peaks during a specified time interval. The unit of this
247 quantity is the volt (V)
248 3.11
249 MEASURED VALUE
250 best estimate of the CONVENTIONAL TRUE VALUE of a quantity, being derived from the INDICATED
251 VALUE of an instrument together with the application of all relevant CORRECTION FACTORS
252 NOTE The CONVENTIONAL TRUE VALUE will usually be the value determined by the working standard with which the
253 instrument under test is being compared.
254 3.12
255 MINIMUM EFFECTIVE RANGE
256 smallest permitted range of INDICATED VALUES for which an instrument complies with a stated
257 performance
258 3.13
259 NON-INVASIVE MEASUREMENT
260 measurement of X-RAY TUBE VOLTAGE by analysis of the emitted RADIATION
261 3.14
262 PERFORMANCE CHARACTERISTIC
263 one of the quantities used to define the performance of an instrument (e.g., RESPONSE)
264 3.15
265 VOLTAGE RIPPLE
266 VOLTAGE RIPPLE at the X-RAY TUBE, r, is expressed as a percentage of the peak voltage, U ,
max
267 over a specified time interval. This is expressed by the formula:
U − U
max min
268 r =  100%
U
max
269 where U is the highest voltage in the interval, and U is the lowest voltage in the interval
max min
270 3.16
271 PRACTICAL PEAK VOLTAGE (PPV)
ˆ
U
272 PRACTICAL PEAK VOLTAGE is defined as:
U
max
p(U)  w(U)  U dU

U
max
U
ˆ min
273 U =   with   p(U) dU = 1

U
max
U
min
p(U)  w(U) dU

U
min
274 where p(U) is the distribution function for the voltage U and w(U) is a weighting function. Umax
275 is the highest voltage in the interval, and U is the lowest voltage in the interval. The unit of
min
276 the quantity PRACTICAL PEAK VOLTAGE is the volt (V)
277 NOTE Additional information on the PRACTICAL PEAK VOLTAGE, the weighting function w(U) and the distribution
278 function p(U) is provided in Annex C. Using this weighting function w(U) the PRACTICAL PEAK VOLTAGE will be
279 defined as the constant potential which produces the same AIR KERMA contrast behind a specified PHANTOM as the
280 non-dc voltage under test.

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281 3.17
282 RATED RANGE (of use)
283 range of values of an INFLUENCE QUANTITY or INSTRUMENT PARAMETER within which the
284 instrument will operate within the LIMITS OF VARIATION. Its limits are the maximum and
285 minimum RATED values.
286 The MINIMUM RATED RANGE is the least range of an INFLUENCE QUANTITY or INSTRUMENT
287 PARAMETER within which the instrument shall operate within the specified LIMITS OF VARIATION
288 in order to comply with this standard
289 3.18
290 REFERENCE CONDITIONS
291 conditions under which all INFLUENCE QUANTITIES and INSTRUMENT PARAMETERS have their
292 REFERENCE VALUES
293 3.19
294 REFERENCE VALUE
295 particular value of an INFLUENCE QUANTITY (or INSTRUMENT PARAMETER) chosen for the
296 purposes of reference i.e., the value of an INFLUENCE QUANTITY (or INSTRUMENT PARAMETER) at
297 which the CORRECTION FACTOR for dependence on that INFLUENCE QUANTITY (or INSTRUMENT
298 PARAMETER) is unity
299 3.20
300 RELATIVE INTRINSIC ERROR
301 ratio of the INTRINSIC ERROR to the CONVENTIONAL TRUE VALUE
302 3.21
303 RESPONSE
304 quotient of the INDICATED VALUE divided by the CONVENTIONAL TRUE VALUE
305 3.22
306 STANDARD TEST CONDITIONS
307 conditions under which all INFLUENCE QUANTITIES and INSTRUMENT PARAMETERS have their
308 STANDARD TEST VALUES
309 3.23
310 STANDARD TEST VALUES
311 value, values, or a range of values of an INFLUENCE QUANTITY or INSTRUMENT PARAMETER,
312 which is/are permitted when carrying out calibrations or tests on another INFLUENCE QUANTITY
313 or INSTRUMENT PARAMETER
314 3.24
315 VARIATION
316 relative difference y / y, between the values of a PERFORMANCE CHARACTERISTIC y, when one
317 INFLUENCE QUANTITY (or INSTRUMENT PARAMETER) assumes successively two specified values,
318 the other INFLUENCE QUANTITIES (and INSTRUMENT PARAMETERS) being kept constant at the
319 STANDARD TEST VALUES (unless other values are specified)
320 3.25
321 X-RAY TUBE VOLTAGE
322 potential difference applied to an X-RAY TUBE between the anode and the cathode. The unit of
323 this quantity is the volt (V)
324 4 General performance requirements for measurement of PRACTICAL PEAK
325 VOLTAGE measurements
326 4.1 Quantity to be measured
327 The quantity to be measured is the PRACTICAL PEAK VOLTAGE.

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328 NOTE Additional quantities may be displayed.
329 The MINIMUM EFFECTIVE RANGES of PRACTICAL PEAK VOLTAGE shall be as listed in table 1 for the
330 relevant X-RAY applications.
331 Table 1 – MINIMUM EFFECTIVE RANGES
Application Nominal anode material MINIMUM EFFECTIVE RANGE
Mammography
a)
24 kV to 35 kV
Mo
(20 kV to 50 kV)
Diagnostic
W 60 kV to 120 kV
(40 kV to 150 kV)
CT
W 80 kV to 140 kV
(70 kV to 150 kV)
Dental
W 60 kV to 90 kV
(40 kV to 110 kV)
Fluoroscopic
W 60 kV to 120 kV
(40 kV to 130 kV)
a)
For mammography anode materials other than Mo, the MINIMUM EFFECTIVE RANGE of PPV shall be at least 10 kV.
332
333 4.2 Limits of PERFORMANCE CHARACTERISTICs
334 4.2.1 Limits
335 All values of the limits of PERFORMANCE CHARACTERISTICS stated in this subclause do not
336 contain the uncertainty of the test equipment.
337 4.2.2 Maximum error
338 4.2.2.1 Maximum RELATIVE INTRINSIC ERROR for voltages above 50 kV
ˆ
339 The RELATIVE INTRINSIC ERROR, l, of PRACTICAL PEAK VOLTAGE, , measurements made under
U
340 STANDARD TEST CONDITIONS, shall not be greater than ±2 % over the EFFECTIVE RANGE of
341 voltages. This is expressed by the formula:
ˆ ˆ
U − U
meas true
342 I =  0,02
ˆ
U
true
ˆ ˆ
343 where U is the MEASURED VALUE of PRACTICAL PEAK VOLTAGE and U is the true value of
meas true
344 the PRACTICAL PEAK VOLTAGE. The voltages for the MINIMUM EFFECTIVE RANGE are listed in
345 table 1.
346 The compliance test for performance requirement 4.2.2.1 is listed under 4.2.2.2.
347 4.2.2.2 Maximum INTRINSIC ERROR for voltages below 50 kV
ˆ
348 The maximum INTRINSIC ERROR, E, of PRACTICAL PEAK VOLTAGE, , measurements made under
U
349 STANDARD TEST CONDITIONS shall not be greater than ±1 kV over the EFFECTIVE RANGE of
350 voltages. This is expressed by the formula:
ˆ ˆ
351
E = U − U  1,0 kV
meas true

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ˆ ˆ
352 where is the MEASURED VALUE of PRACTICAL PEAK VOLTAGE and is the conventional
U U
meas true
353 true value of the PRACTICAL PEAK VOLTAGE. The voltages for the MINIMUM EFFECTIVE RANGE are
354 listed in table 1.
355 C
...