IEC 61000-4-11:2004/AMD1:2017
(Amendment)Amendment 1 - Electromagnetic compatibility (EMC) - Part 4-11: Testing and measurement techniques - Voltage dips, short interruptions and voltage variations immunity tests
Amendment 1 - Electromagnetic compatibility (EMC) - Part 4-11: Testing and measurement techniques - Voltage dips, short interruptions and voltage variations immunity tests
Amendement 1 - Compatibilité électromagnétique (CEM) - Partie 4-11: Techniques d'essai et de mesure - Essais d'immunité aux creux de tension, coupures brêves et variations de tension
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IEC 61000-4-11 ®
Edition 2.0 2017-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
BA SIC EMC PUBLICATION
PU BLICATION FONDAMENTALE EN CEM
AMENDMENT 1
AMENDEMENT 1
Electromagnetic compatibility (EMC) –
Part 4-11: Testing and measurement techniques – Voltage dips, short
interruptions and voltage variations immunity tests
Compatibilité électromagnétique (CEM) –
Partie 4-11: Techniques d'essai et de mesure – Essais d'immunité aux creux de
tension, coupures brèves et variations de tension
IEC 61000-4-11:2004-03/AMD1:2017-05(en-fr)
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IEC 61000-4-11 ®
Edition 2.0 2017-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
BA SIC EMC PUBLICATION
PU BLICATION FONDAMENTALE EN CEM
AMENDMENT 1
AMENDEMENT 1
Electromagnetic compatibility (EMC) –
Part 4-11: Testing and measurement techniques – Voltage dips, short
interruptions and voltage variations immunity tests
Compatibilité électromagnétique (CEM) –
Partie 4-11: Techniques d'essai et de mesure – Essais d'immunité aux creux de
tension, coupures brèves et variations de tension
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 33.100.20 ISBN 978-2-8322-4295-7
– 2 – IEC 61000-4-11:2004/AMD1:2017
© IEC 2017
FOREWORD
This amendment has been prepared by subcommittee 77A: EMC – Low frequency
phenomena, of IEC technical committee 77: Electromagnetic compatibility.
The text of this amendment is based on the following documents:
FDIS Report on voting
77A/951/FDIS 77A/961/RVD
Full information on the voting for the approval of this amendment can be found in the report
on voting indicated in the above table.
The committee has decided that the contents of this amendment and the base publication will
remain unchanged until the stability date indicated on the IEC website under
"http://webstore.iec.ch" in the data related to the specific publication. At this date, the
publication will be
• reconfirmed,
• withdrawn,
• replaced by a revised edition, or
• amended.
_____________
Add, after Annex C, the following new Annex D:
© IEC 2017
Annex D
(informative)
Rationale for generator specification regarding voltage, rise-time
and fall-time, and inrush current capability
D.1 Concept of basic standard
The immunity basic standards of the IEC 61000-4-x series are based on the concept of
defining a test system in one document representing typically one type of electromagnetic
disturbance. The environmental description of the IEC 61000-2-x series (which includes also
compatibility levels) together with practical industry experience are the basis for defining the
disturbance source simulator, the necessary coupling and decoupling networks and the range
of test levels.
Parameters in the basic standard are always compromises selected from a large amount of
data derived from the disturbance source. The compromise is assumed to be correct if, once
the immunity test is applied, only a few malfunctions occur in the real world.
To keep the immunity test as easy as possible, the generator output shall be verified in a
calibration set-up and not with the EUT connected to the output of the generator. The purpose
of the calibration is to guarantee comparable test results between different brands of
generators.
D.2 IEC 61000-4-11:1994 (first edition)
Data from UNIPEDE report was used which indicated short circuit in terms of voltage
reduction and interrupt duration. At that time, rare measurement results were available
showing how equipment on the same phase was affected, in the public power network.
Based on this information, IEC 61000-4-11:1994 (first edition) was defined and published in
1994. For the switching time a value of 1 µs to 5 µs was chosen for representing the short
circuit's worst case occurring at a distance of up to 50 m between the source and the affected
equipment. For example, the equipment used in a laboratory or in an industrial plant has a
greater risk of being affected by voltage dips and short interruptions within 50 m.
D.3 Rationale for the need of rapid fall-times
In case of short circuit in the line, the voltage at the input terminals of the equipment might go
to zero in less than 5 µs.
If the short circuit originates from the public network, the fall-time will be relatively slow, in the
order of hundreds of microseconds to some milliseconds. If, however, the short circuit is at
the local premise, for example due to the failure of another equipment installed in close
proximity, the mains voltage will go to zero within microseconds, with fall-times shorter than
1 µs reported for some cases.
In this case, the input rectifier diodes of the equipment will be commutated from conduction
mode to blocking mode with a sudden high reverse voltage due to that very fast voltage rise-
time. As those diodes are usually designed for natural line commutation with a rise-time of the
voltage in the range of milliseconds, this event is an increased stress for the rectifier diodes.
More generally, fast voltage transients may disturb electronics as well, leading to the damage
of the equipment.
– 4 – IEC 61000-4-11:2004/AMD1:2017
© IEC 2017
Tests performed with a fast fall-time in the range of a few microseconds emulating the short
circuit condition can be used to test the robustness of equipment against fast transient short
circuits of the line.
D.4 Interpretation of the rise-time and fall-time requirements during EUT
testing
In 2010 an interpretation sheet for IEC 61000-4-11:2004 was issued. The content of this sheet
is as follows:
1) "In IEC 61000-4-11:2004, Table 4 does not apply to EUT (equipment under test) testing.
Table 4 is for generator calibration and design only.
2) With reference to Table 1 and Table 2, there is no requirement in 61000-4-11:2004 for
rise-time and fall-time when testing EUT; therefore, it is not necessary to measure these
parameters during tests.
3) With reference to Table 4, all of the requirements apply to design and calibration of the
generator. The requirements of Table 4 only apply when the load is a non-inductive 100 Ω
resistor. The requirements of Table 4 do not apply during EUT testing."
D.5 Main conclusions
With respect to rise-time and fall-time, the main conclusions are the following.
• It is possible, for real-world voltage dips, to have fall-times faster than 5 µs in the case of
short circuits close to the equipment. However, for the time being, this standard does not
consider the effects of voltage fall times shorter than 1 µs.
• Rise-time depends on several factors including the impedance of the network, cabling and
equipment connected in parallel.
• The rise-time and fall-time requirements have remained unchanged and the standard has
been used worldwide since its first publication in 1994, but, as in the interpretation sheet,
these rise-time and fall-time requirements do not apply during a test of an EUT. They only
apply when calibrating a dip generator with a 100 Ω resistive load. These rise-times and
fall-times do not necessarily occur during an actual EUT test.
• Most voltage dip and short interruption immunity tests begin and end at 0˚ or 180˚.
Published research generally concludes that these are the most severe phase angles for
voltage ride-through tests. Note that at 0˚ and at 180˚ the instantaneous waveform voltage
is zero, so rise-time and fall-time have no meaning.
• Pre-compliance testing could be considered using a dip generator with a longer rise-time
and fall-time up to 200 µs for voltage dip and short interruption tests that begin and end at
0˚ or 180˚, as rise-time and fall-time are not important at these angles. However, full
compliance with the test methods of this standard requires to use a generator that, when
tested with a 100 Ω resistive load, meets the 1 µs to 5 µs requirement in 6.1.2.
D.6 Rationale for inrush current capability
During the connection of an equipment to a power line, an inrush current flows into it. This
inrush current could conceivably damage parts of the equipment, for example an input rectifier
with capacitive smoothing. In order to prevent damage, measures for inrush current limitation
are usually incorporated inside the equipment.
An inrush current will also occur when the line voltage recovers after a voltage dip or
interruption. In this case, the inrush current limitation measures might not be activated in the
equipment with disabled pre-charge circuit, so it is possible for the post-dip inrush current to
damage the equipment.
©
...
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