IEC 60793-1-54:2012

IEC 60793-1-54


®


Edition 2.0 2012-10



INTERNATIONAL



STANDARD



NORME
INTERNATIONALE


Optical fibres –
Part 1-54: Measurement methods and test procedures – Gamma irradiation

Fibres optiques –
Partie 1-54: Méthodes de mesure et procédures d’essai – Irradiation gamma


IEC 60793-1-54:2012

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IEC 60793-1-54



®



Edition 2.0 2012-10







INTERNATIONAL





STANDARD







NORME



INTERNATIONALE











Optical fibres –

Part 1-54: Measurement methods and test procedures – Gamma irradiation




Fibres optiques –

Partie 1-54: Méthodes de mesure et procédures d’essai – Irradiation gamma

















INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE

PRICE CODE
INTERNATIONALE

CODE PRIX M


ICS 33.180.10 ISBN 978-2-8322-0930-1



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

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CONTENTS



FOREWORD . 3

1 Scope . 5

2 Normative references . 5


3 Apparatus . 6

3.1 Radiation source . 6

3.1.1 Testing of environmental background radiation . 6

3.1.2 Testing of adverse nuclear environments . 6

3.2 Optical source . 6
3.3 Optical filters/monochromators . 6
3.4 Cladding mode stripper . 6
3.5 Fibre support and positioning apparatus . 6
3.6 Optical splitter . 6
3.7 Input launch conditions . 7
3.7.1 Class A, category A1 fibres (graded index multimode fibres) . 7
3.7.2 Class B fibres (single-mode fibres) . 7
3.7.3 Class A, category A2 fibres (quasi-step and step index fibres) . 7
3.8 Detector – Signal detection electronics . 7
3.9 Optical power meter . 7
3.10 Radiation dosimeter . 7
3.11 Temperature controlled container . 7
3.12 Test reel . 7
4 Sampling and specimens . 7
4.1 Specimens . 7
4.1.1 Fibre specimen . 7
4.1.2 Cable specimen . 8
4.2 Specimen for environmental background radiation test . 8
4.3 Specimen for testing adverse nuclear environments . 8
4.4 Test reel . 8
4.5 Ambient light shielding . 8
5 Procedure. 8
5.1 General . 8
5.2 Calibration of radiation source . 8

5.3 Preparation and pre-conditioning . 8
5.4 Attenuation measurement for environmental background radiation . 9
5.5 Attenuation measurement for adverse nuclear environment . 9
6 Calculations . 10
6.1 Change in optical attenuation Δa (environmental background radiation test) . 10
6.2 Change in optical transmittance, a (adverse nuclear environmental radiation
test) . 10
6.3 Normalization of the results . 10
7 Results . 11
7.1 Information to be provided with each measurement . 11
7.2 Information available upon request . 11
8 Specification information . 11
Bibliography . 12

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60793-1-54 © IEC:2012 – 3 –


INTERNATIONAL ELECTROTECHNICAL COMMISSION

____________



OPTICAL FIBRES –



Part 1-54: Measurement methods and test procedures –

Gamma irradiation





FOREWORD

1) The International Electrotechnical Commission (IEC) is a worldwide organization for standardization comprising
all national electrotechnical committees (IEC National Committees). The object of IEC is to promote
international co-operation on all questions concerning standardization in the electrical and electronic fields. To
this end and in addition to other activities, IEC publishes International Standards, Technical Specifications,
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Publication(s)”). Their preparation is entrusted to technical committees; any IEC National Committee interested
in the subject dealt with may participate in this preparatory work. International, governmental and non-
governmental organizations liaising with the IEC also participate in this preparation. IEC collaborates closely
with the International Organization for Standardization (ISO) in accordance with conditions determined by
agreement between the two organizations.
2) The formal decisions or agreements of IEC on technical matters express, as nearly as possible, an international
consensus of opinion on the relevant subjects since each technical committee has representation from all
interested IEC National Committees.
3) IEC Publications have the form of recommendations for international use and are accepted by IEC National
Committees in that sense. While all reasonable efforts are made to ensure that the technical content of IEC
Publications is accurate, IEC cannot be held responsible for the way in which they are used or for any
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Publications.
8) Attention is drawn to the Normative references cited in this publication. Use of the referenced publications is
indispensable for the correct application of this publication.
9) Attention is drawn to the possibility that some of the elements of this IEC Publication may be the subject of
patent rights. IEC shall not be held responsible for identifying any or all such patent rights.

International Standard IEC 60793-1-54 has been prepared by subcommittee 86A: Fibres and
cables, of IEC technical committee 86: Fibre optics.
This second edition cancels and replaces the first edition, published in 2003. It constitutes a
technical revision.
This edition includes the following significant technical changes with respect to the previous
edition:
– launching conditions and optical sources have been reviewed and are better defined.

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This bilingual version (2013-07) corresponds to the monolingual English version, published in

2012-10.


The text of this standard is based on the following documents:


CDV Report on voting


86A/1413/CDV 86A/1433/RVC



Full information on the voting for the approval of this standard can be found in the report on

voting indicated in the above table.

The French version of this standard has not been voted upon.
This publication has been drafted in accordance with the ISO/IEC Directives, Part 2.
A list of all parts of the IEC 60793 series can be found, under the general title Optical Fibres,
on the IEC website.
The committee has decided that the contents of this publication will remain unchanged until
the stability date indicated on the IEC web site 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.

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60793-1-54 © IEC:2012 – 5 –


OPTICAL FIBRES –



Part 1-54: Measurement methods and test procedures –

Gamma irradiation








1 Scope


This part of IEC 60793 outlines a method for measuring the steady state response of optical
fibres and optical cables exposed to gamma radiation. It can be employed to determine the
level of radiation induced attenuation produced in Class B single-mode or Class A, category
A1 and A2 multimode optical fibres, in either cabled or uncabled form, due to exposure to
gamma radiation.
The attenuation of cabled and uncabled optical fibres generally increases when exposed to
gamma radiation. This is primarily due to the trapping of radiolytic electrons and holes at
defect sites in the glass (i.e. the formation of “colour centres”). This test procedure focuses on
two regimes of interest: the low dose rate regime suitable for estimating the effect of
environmental background radiation, and the high dose rate regime suitable for estimating the
effect of adverse nuclear environments. The testing of the effects of environmental
background radiation is achieved with an attenuation measurement approach similar to
IEC 60793-1-40 Method A, cut-back. The effects of adverse nuclear environments are tested
by monitoring the power before, during and after exposure of the test sample to gamma
radiation. The depopulation of colour centres by light (photo bleaching) or by heat causes
recovery (lessening of radiation induced attenuation). Recovery may occur over a wide range
of time which depends on the irradiation time and annealing temperature. This complicates
the characterization of radiation induced attenuation since the attenuation depends on many
variables including the temperature of the test environment, the configuration of the sample,
the total dose and the dose rate applied to the sample and the light level used to measure it.
This test is not a material test for the non-optical material components of a fibre optic cable. If
degradation of cable materials exposed to irradiation is to be studied, other test methods will
be required.
This test method is written to contain a clear, concise listing of instructions. The background
knowledge that is necessary to perform correct, relevant and expressive irradiation tests as
well as to limit measurement uncertainty is presented separately in IEC/TR 62283.
Attention is drawn to the fact that strict regulations and suitable protective facilities are to be

adopted in the laboratory for this test. Carefully selected trained personnel shall be used to
perform this test. It can be extremely hazardous to test personnel if it is improperly performed
or without qualified conditions.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and
are indispensable for its application. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any
amendments) applies.
IEC 60793-1-40, Optical Fibres – Part 1-40: Measurement methods and test procedures –
Attenuation
IEC 60793-1-44, Optical fibres – Part 1-44: Measurement methods and test procedures –
Cut-off wavelength

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IEC 60793-1-46, Optical fibres – Part 1-46: Measurement methods and test procedures –

Monitoring of changes in optical transmittance


IEC 61280-4-1, Fibre-optic communication subsystem test procedures – Part 4-1: Installed

cable plant – Multimode attenuation measurement



3 Apparatus


3.1 Radiation source

3.1.1 Testing of environmental background radiation

60
A Co or equivalent ionising source shall be used to deliver gamma radiation. This
environment is characterised by relatively low total dose and dose rate.
3.1.2 Testing of adverse nuclear environments
60
A Co or equivalent ionizing source(s) shall be used to deliver gamma radiation. This
environment is characterised by higher total dose and dose rate.
3.2 Optical source
An optical source such as a lamp, laser or light emitting diode emitting at wavelengths
compatible with the optical fibres under test shall be used.
The optical source shall be stable in intensity over a time period sufficient to perform the
measurement. The power coupled from the source into the test sample shall be < –30 dBm
(1,0 μW) or as specified in the detail specification. The optical source shall be modulated with
a pulsed signal at a 50 % duty cycle.
NOTE If a source that couples more than 1,0 μW is used, photo bleaching may occur.
3.3 Optical filters/monochromators
Unless otherwise specified, wavelength tolerances of ± 20 nm shall be obtained by filtering
the optical source with a set of optical filters or a monochromator. The 3 dB optical bandwidth
of the filters shall be less than or equal to 25 nm.
3.4 Cladding mode stripper
When necessary, a device that extracts cladding modes shall be employed at the input end
and output end of the test sample. If the fibre coating materials are designed to strip cladding

modes, a cladding mode stripper is not required.
3.5 Fibre support and positioning apparatus
A means of stable support for the input end of the test sample, such as a vacuum chuck, shall
be arranged. This support shall be mounted on a positioning device so that the end of the test
sample can be repeatedly positioned in the input beam.
3.6 Optical splitter
An optical splitter shall divert a small portion of the input light to a reference detector. The
reference path shall be used to monitor system fluctuations for the duration of the test.

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60793-1-54 © IEC:2012 – 7 –


3.7 Input launch conditions


3.7.1 Class A, category A1 fibres (graded index multimode fibres)

An equilibrium mode simulator shall be used to attenuate higher order propagation modes and
to establish a steady-state mode condition near the input end of the fibre. The requirements

for the launch conditions for sub-category A1a graded index multimode fibre measurements

are defined in IEC 61280-4-1.


3.7.2 Class B fibres (single-mode fibres)


An optical lens system or fibre pigtail may be employed to excite the test fibre. The power

coupled into the test sample shall be stable for the duration of the test. If an optical lens
system is used, a method of making the positioning of the fibre less sensitive is to overfill the
fibre end spatially and angularly. If a pigtail is used, it may be necessary to use index
matching material to eliminate interference effects. A high order mode filter shall be employed
to remove high order propagating modes in the wavelength range greater than or equal to the
cut-off wavelength of the test fibre. The test condition specified in IEC 60793-1-44, Method C
satisfies this requirement.
3.7.3 Class A, category A2 fibres (quasi-step and step index fibres)
Launch conditions shall be created as specified in the detail specification.
3.8 Detector – Signal detection electronics
An optical detector which is linear and stable over the range of intensities that are
encountered shall be used. A typical system might include a photovoltaic mode photodiode
amplified by a current input preamplifier, with synchronous detection by a lock-up amplifier.
3.9 Optical power meter
A suitable optical power meter shall be used to determine that the power coupled from the
optical source into the test sample is less than or equal to 1,0 μW or the level specified in the
detail specification.
3.10 Radiation dosimeter
Thermo luminescent LiF or CaF crystal detectors (TLDs) or an ion chamber detector shall be
used to measure the total radiation dose received by the specimen fibre.
3.11 Temperature controlled container

Unless otherwise specified, the temperature controlled container shall have the capability of
maintaining the specified temperatures to within ± 2 °C.
3.12 Test reel
The test reel shall not act as a shield or sink for the radiation used in this test. Reels of wood,
plastic or similar non-conducting materials would, in principle, act as transparent to the
radiation. The additional absorption shall be taken into account for exact measurements.
4 Sampling and specimens
4.1 Specimens
4.1.1 Fibre specimen
The test specimen shall be a representative sample of the fibre specified in the detail
specification.

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4.1.2 Cable specimen


The test specimen shall be a representative sample of the cable described in the detail

specification and shall contain at least one of the specified fibres.


4.2 Specimen for environmental background radiation test

Unless otherwise specified in the detail specification, the length of the test sample shall be
(3 000 ± 30) m. (Where reactor constraints dictate smaller lengths, the length of the test
sample may be (1 100 ± 20) m.) A minimum length at the ends of the test sample (typically
5 m) shall reside outside of the test chamber and be used to connect the optical source to the

detector. The irradiated length of the test sample shall be reported.

4.3 Specimen for testing adverse nuclear environments
Unless otherwise specified in the detail specification, the length of the test sample shall be
(250 ± 2,5) m. (When test conditions require a high total dose and dose rate a shorter test
sample length may be necessary). A minimum length at the ends of the test sample (typically
5 m) shall remain outside of the test chamber and be used to connect the optical source to the
detector. The irradiated length of the test sample shall be reported.
4.4 Test reel
The test sample shall be spooled onto a reel with a drum diameter that is specified in the
detail specification. Allowance shall be made for the unspooling of a measured length of the
test sample from each end of the reel to allow for attachment to the optical measurement
equipment. An alternative deployment method allows the fibre to be loosely wound in a coil of
specified diameter.
4.5 Ambient light shielding
The test sample shall be shielded from ambient light to prevent external photo bleaching.
5 Procedure
5.1 General
The radiation tests differ in exposure dose, dose rate, exposure time and temperature. The
tests are environmental background radiation test and adverse nuclear radiation test.
5.2 Calibration of radiation source

Calibration of the radiation source for dose uniformity and level shall be made prior to the test
sample being set up in the chamber. Four TLDs shall be placed in the area of exposure and
the centre of the TLDs shall be placed where the axis of the test reel will be placed. (Four
TLDs are used to get a representative average value.) A dose equal to or greater than the
actual test dose shall be used to calibrate the system. To maintain the highest possible
accuracy in measuring the test dose, the TLDs shall not be used more than once.
5.3 Preparation and pre-conditioning
The test sample shall be preconditioned in the temperature chamber at (25 ± 5) °C for 1 h
prior to testing, or at the test temperature for a preconditioned time as specified in the detail
specification.
The input end of the short test length shall be placed in the positioning device and aligned in
the test set to obtain maximum optical power as measured with a calibrated power meter.

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60793-1-54 © IEC:2012 – 9 –


The power at the input end of the test sample shall be measured with a calibrated power

meter. If necessary, the source power level shall be adjusted so that the power at the input

end of the fibre is less than 1,0 μW or as specified in the detail specification.


NOTE If a source that couples more than 1,0 μW is used, photobleaching may occur.


With the radiation source off, the input end of the test sample shall be positioned to obtain

maximum optical power at the detector. Once set, the input launch conditions shall not be

changed during the gamma irradiation portion of the test.


A chart recorder or suitable continuous measurement device shall be connected to the

detection system so that a continuous power measurement can be made. The measurement
equipment shall be set up such that the detection signal does not exceed the limits of the
equipment.
60
A Co or equivalent ionizing source(s) shall be used to deliver gamma radiation at a desired
dose rate.
Dose rate levels are only approximate levels since the radiation source characteristics
change. A variation in dose rate as high as ± 50 % can be expected between sources. The
time required to turn the radiation source on or off shall be < 10 % of the total exposure time.
It is important that the temperature is kept constant during the tests. If the test should be
performed at different temperatures, then the attenuation prior to irradiation has to be
measured for different temperatures for each specified wavelength.
5.4 Attenuation measurement for environmental background radiation
An attenuation measurement of the test sample shall be performed, at the specified test
wavelengths, in accordance with IEC 60793-1-40, Method A, cut-back. The attenuation a of
1
the fibre prior to exposure to the gamma radiation source shall be recorded. The
environmental temperature shall be the same as during the up-coming irradiation tests when
the initial attenuation measurement is performed.
Environmental background radiation effects, d
...