Optical fibres - Part 1-47: Measurement methods and test procedures - Macrobending loss

IEC 60793-1-47:2009 establishes uniform requirements for measuring the macrobending loss of single-mode fibres (category B) at 1 550 nm or 1 625 nm, category A1 multimode fibres at 850 nm or 1 300 nm, and category A3 and A4 multimode fibres at 650 nm, 850 nm or 1 300 nm, thereby assisting in the inspection of fibres and cables for commercial purposes. The standard gives two methods for measuring macrobending sensitivity:
- Method A: Fibre winding, pertains to category B single-mode fibres and category A1 multimode fibres;
- Method B: Quarter circle bends, pertains to category A3 and A4 multimode fibres. For both of these methods, the optical power is measured using either the power monitoring or the cut-back technique. This third edition cancels and replaces the second edition published in 2006. It constitutes a technical revision. The main change is: Introduction of the Annex A describing small bend radius phenomena. Keywords: inspection of fibres and cables for commercial purposes
This publication is to be read in conjunction with IE C 60793-1-1:2008.

Fibres optiques - Partie 1-47: Méthodes de mesure et procédures d'essai - Pertes par macrocourbures

L'IEC 60793-1-47:2009 établit des exigences uniformes pour la mesure des pertes par macrocourbures pour les fibres optiques unimodales (catégorie B) à 1 550 nm ou 1 625 nm, pour les fibres multimodales de catégorie A1 à 850 nm ou 1 300 nm, et les fibres multimodales de catégorie A3 et A4 à 650 nm, 850 nm ou 1 300 nm, contribuant ainsi au contrôle des fibres et câbles dans des relations commerciales. Cette norme décrit deux méthodes destinées à mesurer la sensibilité aux macrocourbures:
- Méthode A: Enroulement de fibre, se rapporte aux fibres unimodales de catégorie B et aux fibres multimodales catégorie A1;
- Méthode B: Courbes d'un quart de cercle, se rapporte aux fibres multimodales de catégories A3 et A4. Pour les deux méthodes, la puissance optique est mesurée par la technique de mesure de la puissance ou par la technique de la fibre coupée. Cette troisième édition annule et remplace la deuxième édition publiée en 2006. Elle constitue une révision technique. La principale modification figure ci-dessous: Introduction de l'annexe A décrivant les phénomènes liés aux petits rayons de courbure. La présente version bilingue (2015-12) correspond à la version anglaise monolingue publiée en 2009-03. Mots clé: contrôle des fibres et câbles dans des relations commerciales
Cette publication doit être lu conjointement avec l'IE C 60793-1-1:2008.

General Information

Status
Published
Publication Date
04-Mar-2009
Technical Committee
Drafting Committee
Current Stage
DELPUB - Deleted Publication
Completion Date
11-Oct-2017
Ref Project

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IEC 60793-1-47
®
Edition 3.0 2009-03
INTERNATIONAL
STANDARD


Optical fibres –
Part 1-47: Measurement methods and test procedures – Macrobending loss



IEC 60793-1-47:2009(E)

---------------------- Page: 1 ----------------------
THIS PUBLICATION IS COPYRIGHT PROTECTED
Copyright © 2009 IEC, Geneva, Switzerland

All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form
or by any means, electronic or mechanical, including photocopying and microfilm, without permission in writing from
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IEC 60793-1-47
®
Edition 3.0 2009-03
INTERNATIONAL
STANDARD


Optical fibres –
Part 1-47: Measurement methods and test procedures – Macrobending loss


INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
PRICE CODE
P
ICS 33.180.10 ISBN 978-2-88910-289-1
® Registered trademark of the International Electrotechnical Commission

---------------------- Page: 3 ----------------------
– 2 – 60793-1-47 © IEC:2009(E)
CONTENTS
FOREWORD.3
INTRODUCTION.5
1 Scope.6
2 Normative references .6
3 Specimen .7
3.1 Specimen length.7
3.1.1 Method A – Fibre winding .7
3.1.2 Method B – Quarter circle bends .7
3.2 Specimen end face.7
4 Apparatus.7
4.1 Method A – Fibre winding .7
4.2 Method B – Quarter circle bends .7
5 Procedure .8
5.1 Method A – Fibre winding .8
5.1.1 General .8
5.1.2 Single-mode fibres .9
5.1.3 Multimode (A1) fibres .10
5.2 Method B – Quarter circle bends .10
6 Calculations .12
7 Results .12
7.1 Information available with each measurement .12
7.2 Information available upon request.12
8 Specification information .13
Annex A (informative) Small bend radius phenomena .14
Bibliography.16

Figure 1 – Quarter circle guide groove in plate.8
Figure 2 – Multiple bends using stacked plates .11
Figure A.1 – Loss curves versus curve fits .14

---------------------- Page: 4 ----------------------
60793-1-47 © IEC:2009(E) – 3 –
INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________

OPTICAL FIBRES –

Part 1-47: Measurement methods and test procedures –
Macrobending loss


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,
Technical Reports, Publicly Available Specifications (PAS) and Guides (hereafter referred to as “IEC
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
misinterpretation by any end user.
4) In order to promote international uniformity, IEC National Committees undertake to apply IEC Publications
transparently to the maximum extent possible in their national and regional publications. Any divergence
between any IEC Publication and the corresponding national or regional publication shall be clearly indicated in
the latter.
5) IEC provides no marking procedure to indicate its approval and cannot be rendered responsible for any
equipment declared to be in conformity with an IEC Publication.
6) All users should ensure that they have the latest edition of this publication.
7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
members of its technical committees and IEC National Committees for any personal injury, property damage or
other damage of any nature whatsoever, whether direct or indirect, or for costs (including legal fees) and
expenses arising out of the publication, use of, or reliance upon, this IEC Publication or any other IEC
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 60793-1-47 has been prepared by subcommittee 86A: Fibres and
cables, of IEC technical committee 86: Fibre optics.
This third edition cancels and replaces the second edition published in 2006. It constitutes a
technical revision. The main change is listed below:
• Introduction of the Annex A describing small bend radius phenomena.
This standard is to be read in conjunction with IEC 60793-1-1.

---------------------- Page: 5 ----------------------
– 4 – 60793-1-47 © IEC:2009(E)
The text of this standard is based on the following documents:
CDV Report on voting
86A/1207/CDV 86A/1240/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.
This publication has been drafted in accordance with the ISO/IEC Directives, Part 2.
A list of all parts of IEC 60793 series, published under the general title Optical fibres, can be
found on the IEC website.
The committee has decided that the contents of this publication will remain unchanged until
the maintenance result 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.
A bilingual version of this publication may be issued at a later date.

---------------------- Page: 6 ----------------------
60793-1-47 © IEC:2009(E) – 5 –
INTRODUCTION
Publications in the IEC 60793-1 series concern measurement methods and test procedures as
they apply to optical fibres.
Within the same series, several different areas are grouped, but all numbers are possibly not
used, as follows:
– Parts 1-10 to 1-19: General
– Parts 1-20 to 1-29: Measurement methods and test procedures for dimensions
– Parts 1-30 to 1-39: Measurement methods and test procedures for mechanical
characteristics
– Parts 1-40 to 1-49: Measurement methods and test procedures for transmission and
optical characteristics
– Parts 1-50 to 1-59: Measurement methods and test procedures for environmental
characteristics

---------------------- Page: 7 ----------------------
– 6 – 60793-1-47 © IEC:2009(E)
OPTICAL FIBRES –

Part 1-47: Measurement methods and test procedures –
Macrobending loss



1 Scope
This part of IEC 60793 establishes uniform requirements for measuring the macrobending
loss of single-mode fibres (category B) at 1 550 nm or 1 625 nm, category A1 multimode
fibres at 850 nm or 1 300 nm, and category A3 and A4 multimode fibres at 650 nm, 850 nm or
1 300 nm, thereby assisting in the inspection of fibres and cables for commercial purposes.
The standard gives two methods for measuring macrobending sensitivity:
• Method A – Fibre winding, pertains to category B single-mode fibres and category A1
multimode fibres.
• Method B – Quarter circle bends, pertains to category A3 and A4 multimode fibres.
For both of these methods, the optical power is measured using either the power monitoring
or the cut-back technique.
Methods A and B are expected to produce different results if they are applied to the same
fibre. This is because the key difference between the two methods is the deployment,
including the bend radius and amount of fibre that is bent. The reason for the difference is
that A3 and A4 multimode fibres are expected to be deployed in short lengths with relatively
fewer bends compared to single-mode and category A1 multimode fibres.
In the following text, the “curvature radius” is defined as the radius of the suitable circular
shaped support (e.g. mandrel or guiding groove on a flat surface) on which the fibre can be
bent.
2 Normative references
The following referenced documents are indispensable for the application of this document.
For dated references, only the edition cited applies. For undated references, the latest edition
of the referenced document (including any amendments) applies.
IEC 60793-1-1: Optical fibres – Part 1-1: Measurement methods and test procedures –
General and guidance
IEC 60793-1-40: Optical fibres – Part 1-40: Measurement methods and test procedures –
Attenuation
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: Cable plant
and links – Multimode fibre-optic cable plant attenuation measurement

---------------------- Page: 8 ----------------------
60793-1-47 © IEC:2009(E) – 7 –
3 Specimen
3.1 Specimen length
3.1.1 Method A – Fibre winding
The specimen shall be a known length of fibre, as specified in the detail specification. In
particular, the length of the sample tested for loss is determined by the measurement set-up,
i.e. curvature radius (R) and number of turns (N); any further fibre length does not affect the
measurement results, provided that the signal to noise (S/N) ratio is optimised.
3.1.2 Method B – Quarter circle bends
The specimen length shall be determined according to the details shown in 5. 2.
3.2 Specimen end face
Prepare a flat end face, orthogonal to the fibre axis, at the input and output ends of each test
specimen.
4 Apparatus
4.1 Method A – Fibre winding
The apparatus consists of a tool (e.g. a mandrel or a guiding groove on a flat surface) able to
hold the sample bent with a radius as stated in the specification (e.g. 30 mm for single-mode
fibres and 37,5 mm for multimode fibres) and a loss-measurement instrument. Determine the
macrobending loss at the wavelength as stated in the specification (e.g. 850 nm or 1 300 nm
for multimode fibres, 1 550 nm or 1 625 nm for singlemode fibre) by using either the
transmitted power monitoring technique (method A of IEC 60793-1-46) or the cut-back
technique (method A of IEC 60793-1-40), taking care of the appropriate launch condition for
the specific fibre type.
4.2 Method B – Quarter circle bends
The apparatus consists of one or more plates, each containing one or more “guide grooves,”
and a loss-measurement instrument. The plates shall be designed to be stacked during the
test without contacting the sample fibre in a lower or higher plate; such contact will affect the
measurement results. Each guide groove shall have a quarter circle segment (i.e. 90°) as
shown in Figure 1. The bend radius r, i.e. the radius of the quarter circle segment, shall be
stated in the detail specification. The width of each guide groove shall be at least 0,4 mm
greater than the diameter of the fibre.
Determine the macrobending loss at the wavelength as stated in the specification (e.g.
650 nm, 850 nm, or 1 300 nm) by using either the transmitted power monitoring technique
(method A of IEC 60793-1-46) or the cut-back technique (method A of IEC 60793-1-40),
taking care of the appropriate launch condition for the specific fibre type.

---------------------- Page: 9 ----------------------
– 8 – 60793-1-47 © IEC:2009(E)

Guide groove
Bend
radius r
IEC  1485/06

Figure 1 – Quarter circle guide groove in plate
5 Procedure
5.1 Method A – Fibre winding
5.1.1 General
Loosely wind the fibre on the tool, avoiding excessive fibre twist. The number of turns,
curvature radius and wavelength at which loss is to be measured are discussed in the
following paragraphs.
Since the actual curvature radius is critical, a maximum tolerance of ± 0,1 mm (for radii lower
than or equal to 15 mm) or ± 0,5 m
...

IEC 60793-1-47
®

Edition 3.0 2009-03
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE


Optical fibres –
Part 1-47: Measurement methods and test procedures – Macrobending loss

Fibres optiques –
Partie 1-47: Méthodes de mesure et procédures d’essai – Pertes par
macrocourbures

IEC 60793-1-47:2009-03(en-fr)

---------------------- Page: 1 ----------------------
THIS PUBLICATION IS COPYRIGHT PROTECTED
Copyright © 2009 IEC, Geneva, Switzerland

All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form
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International Standards for all electrical, electronic and related technologies.

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---------------------- Page: 2 ----------------------
IEC 60793-1-47

®


Edition 3.0 2009-03




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE











Optical fibres –

Part 1-47: Measurement methods and test procedures – Macrobending loss




Fibres optiques –

Partie 1-47: Méthodes de mesure et procédures d’essai – Pertes par

macrocourbures















INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE


INTERNATIONALE




ICS 33.180.10 ISBN 978-2-8322-3073-2



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

---------------------- Page: 3 ----------------------
– 2 – IEC 60793-1-47:2009  IEC 2009
CONTENTS
FOREWORD . 3
INTRODUCTION . 5
1 Scope . 6
2 Normative references . 6
3 Specimen . 7
3.1 Specimen length. 7
3.1.1 Method A – Fibre winding . 7
3.1.2 Method B – Quarter circle bends . 7
3.2 Specimen end face . 7
4 Apparatus . 7
4.1 Method A – Fibre winding . 7
4.2 Method B – Quarter circle bends . 7
5 Procedure . 8
5.1 Method A – Fibre winding . 8
5.1.1 General . 8
5.1.2 Single-mode fibres . 9
5.1.3 Multimode (A1) fibres . 10
5.2 Method B – Quarter circle bends . 10
6 Calculations . 12
7 Results . 12
7.1 Information available with each measurement . 12
7.2 Information available upon request . 12
8 Specification information . 13
Annex A (informative) Small bend radius phenomena . 14
Bibliography . 16

Figure 1 – Quarter circle guide groove in plate . 8
Figure 2 – Multiple bends using stacked plates . 11
Figure A.1 – Loss curves versus curve fits . 14

---------------------- Page: 4 ----------------------
IEC 60793-1-47:2009  IEC 2009 – 3 –
INTERNATIONAL ELECTROTECHNICAL COMMISSION
____________

OPTICAL FIBRES –

Part 1-47: Measurement methods and test procedures –
Macrobending loss


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,
Technical Reports, Publicly Available Specifications (PAS) and Guides (hereafter referred to as “IEC
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
misinterpretation by any end user.
4) In order to promote international uniformity, IEC National Committees undertake to apply IEC Publications
transparently to the maximum extent possible in their national and regional publications. Any divergence
between any IEC Publication and the corresponding national or regional publication shall be clearly indicated in
the latter.
5) IEC provides no marking procedure to indicate its approval and cannot be rendered responsible for any
equipment declared to be in conformity with an IEC Publication.
6) All users should ensure that they have the latest edition of this publication.
7) No liability shall attach to IEC or its directors, employees, servants or agents including individual experts and
members of its technical committees and IEC National Committees for any personal injury, property damage or
other damage of any nature whatsoever, whether direct or indirect, or for costs (including legal fees) and
expenses arising out of the publication, use of, or reliance upon, this IEC Publication or any other IEC
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 60793-1-47 has been prepared by subcommittee 86A: Fibres and
cables, of IEC technical committee 86: Fibre optics.
This third edition cancels and replaces the second edition published in 2006. It constitutes a
technical revision. The main change is listed below:
• Introduction of the Annex A describing small bend radius phenomena.
This standard is to be read in conjunction with IEC 60793-1-1.

---------------------- Page: 5 ----------------------
– 4 – IEC 60793-1-47:2009  IEC 2009
This bilingual version (2015-12) corresponds to the monolingual English version, published in
2009-03.
The text of this standard is based on the following documents:
CDV Report on voting
86A/1207/CDV 86A/1240/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 IEC 60793 series, published under the general title Optical fibres, can be
found on the IEC website.
The committee has decided that the contents of this publication will remain unchanged until
the maintenance result 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.

---------------------- Page: 6 ----------------------
IEC 60793-1-47:2009  IEC 2009 – 5 –
INTRODUCTION
Publications in the IEC 60793-1 series concern measurement methods and test procedures as
they apply to optical fibres.
Within the same series, several different areas are grouped, but all numbers are possibly not
used, as follows:
– Parts 1-10 to 1-19: General
– Parts 1-20 to 1-29: Measurement methods and test procedures for dimensions
– Parts 1-30 to 1-39: Measurement methods and test procedures for mechanical
characteristics
– Parts 1-40 to 1-49: Measurement methods and test procedures for transmission and
optical characteristics
– Parts 1-50 to 1-59: Measurement methods and test procedures for environmental
characteristics

---------------------- Page: 7 ----------------------
– 6 – IEC 60793-1-47:2009  IEC 2009
OPTICAL FIBRES –

Part 1-47: Measurement methods and test procedures –
Macrobending loss



1 Scope
This part of IEC 60793 establishes uniform requirements for measuring the macrobending
loss of single-mode fibres (category B) at 1 550 nm or 1 625 nm, category A1 multimode
fibres at 850 nm or 1 300 nm, and category A3 and A4 multimode fibres at 650 nm, 850 nm or
1 300 nm, thereby assisting in the inspection of fibres and cables for commercial purposes.
The standard gives two methods for measuring macrobending sensitivity:
• Method A – Fibre winding, pertains to category B single-mode fibres and category A1
multimode fibres.
• Method B – Quarter circle bends, pertains to category A3 and A4 multimode fibres.
For both of these methods, the optical power is measured using either the power monitoring
or the cut-back technique.
Methods A and B are expected to produce different results if they are applied to the same
fibre. This is because the key difference between the two methods is the deployment,
including the bend radius and amount of fibre that is bent. The reason for the difference is
that A3 and A4 multimode fibres are expected to be deployed in short lengths with relatively
fewer bends compared to single-mode and category A1 multimode fibres.
In the following text, the “curvature radius” is defined as the radius of the suitable circular
shaped support (e.g. mandrel or guiding groove on a flat surface) on which the fibre can be
bent.
2 Normative references
The following referenced documents are indispensable for the application of this document.
For dated references, only the edition cited applies. For undated references, the latest edition
of the referenced document (including any amendments) applies.
IEC 60793-1-1: Optical fibres – Part 1-1: Measurement methods and test procedures –
General and guidance
IEC 60793-1-40: Optical fibres – Part 1-40: Measurement methods and test procedures –
Attenuation
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: Cable plant
and links – Multimode fibre-optic cable plant attenuation measurement

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IEC 60793-1-47:2009  IEC 2009 – 7 –
3 Specimen
3.1 Specimen length
3.1.1 Method A – Fibre winding
The specimen shall be a known length of fibre, as specified in the detail specification. In
particular, the length of the sample tested for loss is determined by the measurement set-up,
i.e. curvature radius (R) and number of turns (N); any further fibre length does not affect the
measurement results, provided that the signal to noise (S/N) ratio is optimised.
3.1.2 Method B – Quarter circle bends
The specimen length shall be determined according to the details shown in 5.2.
3.2 Specimen end face
Prepare a flat end face, orthogonal to the fibre axis, at the input and output ends of each test
specimen.
4 Apparatus
4.1 Method A – Fibre winding
The apparatus consists of a tool (e.g. a mandrel or a guiding groove on a flat surface) able to
hold the sample bent with a radius as stated in the specification (e.g. 30 mm for single-mode
fibres and 37,5 mm for multimode fibres) and a loss-measurement instrument. Determine the
macrobending loss at the wavelength as stated in the specification (e.g. 850 nm or 1 300 nm
for multimode fibres, 1 550 nm or 1 625 nm for singlemode fibre) by using either the
transmitted power monitoring technique (method A of IEC 60793-1-46) or the cut-back
technique (method A of IEC 60793-1-40), taking care of the appropriate launch condition for
the specific fibre type.
4.2 Method B – Quarter circle bends
The apparatus consists of one or more plates, each containing one or more “guide grooves,”
and a loss-measurement instrument. The plates shall be designed to be stacked during the
test without contacting the sample fibre in a lower or higher plate; such contact will affect the
measurement results. Each guide groove shall have a quarter circle segment (i.e. 90°) as
shown in Figure 1. The bend radius r, i.e. the radius of the quarter circle segment, shall be
stated in the detail specification. The width of each guide groove shall be at least 0,4 mm
greater than the diameter of the fibre.
Determine the macrobending loss at the wavelength as stated in the specification (e.g.
650 nm, 850 nm, or 1 300 nm) by using either the transmitted power monitoring technique
(method A of IEC 60793-1-46) or the cut-back technique (method A of IEC 60793-1-40),
taking care of the appropriate launch condition for the specific fibre type.

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– 8 – IEC 60793-1-47:2009  IEC 2009

Guide groove
Bend
radius r
IEC  1485/06

Figure 1 – Quarter circle guide groove in plate
5 Procedure
5.1 Method A – Fibre winding
5.1.1 General
Loosely wind the fibre on the tool, avoiding excessive fibre twist. The number of turns,
curvature radius and wavelength at which loss is to be measured are discussed in the
following paragraphs.
Since the actual curvature radius is critical, a maximum tolerance of ± 0,1 mm (for radii lower
than or equal to 15 mm) or ± 0,5 mm to 1,0 mm (for larger radii) is accepted: a tighter
tolerance on small radii is required for higher measurement sensitivity.
Both for single-mode and for multimode fibres, two optical powers can be measured using:
– the power-monitoring technique, which measures the fibre attenuation increase due to a
change from the straight condition to a bent condition, or
– the cut-back technique, which measures the total attenuation of the fibre in the bent
condition. In order to determine the induced attenuation due to macrobending, this value
should be corrected for the intrinsic attenuation of the fibre.
The fibre length outside the mandrel and the reference cut-back length shall be free of bends
that might introduce a significant change in the measurement result. Collection of excess fibre
in a bend radius of at least 140 mm is recommended.
It is also possible to rewind the fibre from a mandrel with a large radius (introducing negligible
macrobend loss) to the mandrel with the required radius. In this case, the macrobend loss can
be determined directly by using the power-monitoring technique (without the correction for the
intrinsic attenuation of the fibre).
Care must be taken in order not to introduce torsion on any fibre part during the
measurements, as this would affect the result.

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IEC 60793-1-47:2009  IEC 2009 – 9 –
5.1.2 Single-mode fibres
Different applications may require different deployment conditions: fibre types have been
developed which exhibit bending performances optimized for each condition.
Two typical environments are recognized for (possibly) different fibre types, for which different
measurement set-ups should be considered when characterizing fibre performances.
a) Long distance networks: far from urban areas, space occupancy is not typically an
issue, and bends imposed to the fibres can be limited to relatively large radii. Fibres
designed for this application should be tested in similar conditions, i.e. with the
samples wrapped around relatively large radius mandrels, e.g. in the range 25 mm to
30 mm.
This measurement set-up is mainly affected by errors related to low S/N ratio and by
unwanted tension, torsions or kinks on the relatively long fibre length used for the
measurement.
b) Access networks: operating conditions require bending radii as small as possible,
compatible with lifetime expectations and acceptable losses. Fibres designed for this
application should be tested in similar conditions, i.e. with the samples bent at small
radii, e.g. in the range 7,5 mm to 15 mm (see Annex A).
The measurement can be affected by different sources, one of which is reflections.
The reflection of light at the coating/air or coating/glass, at surrounding surfaces
(including, when used, the mandrel surface), or at connectors are some examples.
o
The test can be carried out on samples either making complete (360 ) turn(s), in open air or
around a suitable support (mandrel), or making an equivalent number of partial turns, for
o o
example u-turns (180 ) or quarter turns (90 ), in open air or around suitable supports. The
length under test is different for complete and partial turns, for example the length of a
complete turn being twice the length of a u-turn or four times the length of a quarter turn. In
the following, the term "coil" refers to one complete turn. One coil could also be made of, for
1
example two consecutive u-turns or four consecutive quarter turns. This should be taken into
account while normalizing the results to the length o the sample (number of coils).
The following recommendations apply to test conditions in both cases (items a) and b)
above):
Number of turns
The number of turns should be in accordance with the values stated in the product
specification.
For single-mode fibres, the attenuation increases in a linear fashion with the number of
turns.
For each radius, the number of turns shall be chosen in such a way that:
– the induced loss is significantly higher than the detection limit of the set-up; when
necessary, for example for low bend loss fibres, tests may be carried out with more
turns than the specification requires – followed by linear normalization to the
specified number;
– the induced loss is significantly lower than the onset of the non-linear region in the
set-up; for bending radii in the range 5 mm to 10 mm this may imply that not more
than 5 to 10 turns should be used.
Bend radius
—————————
1
If there is excessive displacement between successive u-turns, the length of the sample arranged on two u-
turns can be shorter than one coil. A maximum displacement between adjacent u-turns of 0,5 mm is therefore
suggested.

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– 10 – IEC 60793-1-47:2009  IEC 2009
The value of bend radius shall be in accordance with the values stated in the product
2.
specification
Wavelength
The measurement wavelength shall be 1 550 nm or 1 625 nm, in accordance with the relevant
product specification; it should be considered that bending losses increase exponentially with
the wavelength.
NOTE The homogeneity of bend loss in different angular positions over the cross section needs to be verified
either by multiple angular position tests or by verifying the homogeneity of the effective refractive index profile
establishing the guiding properties of the bent fibre under test
5.1.3 Multimode (A1) fibres
Macrobending loss in A1 multimode fibres varies with bend radius and number of turns around
a mandrel, but is rather independent of the measuring wavelength, except for possible
oscillating effects with wavelength, which are related to successive mode groups passing cut-
off and having increased bend loss at these wavelengths.
The values of bend radius and number of turns shall be in accordance with the values stated
in the specification. When testing multiple turns, the attenuation that occurs over a specific
turn depends on the attenuation of the preceding turns. The incremental macrobending added
loss decreases with each added turn. Macrobending added loss produced by multiple turns
should not be expressed in the units of “dB/turn” by dividing the total added loss by the
number of turns. Instead it must be reported in dB for the specified number of bends. An
extrapolation to more than the specified number of turns will result in an overestimation of the
overall loss.
For multimode fibres only, the launching characteristics of the light source at the launching
position of the fibre being tested shall be consistent with the expected fibre application.
Further details on MM launching conditions can be found in IEC 61280-4-1.
5.2 Method B – Quarter circle bends
The fibre to be tested should be carefully set in the guide groove(s). See Figure 1. The
beginning of each controlled bend shall be s metres apart from the beginning of the next
controlled bend. The beginning of the controlled bend closest to the launch end shall be 1 m
from launch. The end of the controlled bend closest to the detector end shall be 1 m from the
detector. See Figure 2.
The minimum specimen length shall be determined according to the following Equation (1):
L= ( n−1)× s+ 2
  (1)
3
s= π× R+ 2× R
2
where
L is the minimum sample length, (m)
n is the number of quarter-turn bends,
s is the interval between each bend, (m) and
R is the slack bend radius (m).
—————————
2
 Bending loss on single-mode fibre increases exponentially as wavelength increases and as radius decreases
(see Annex A).

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IEC 60793-1-47:2009  IEC 2009 – 11 –


Guide groove
1 m
plates
Fibre under test
Light
source
r
1
2
3
n
R > 150 mm
Photo
detector
IEC  1486/06


Figure 2 – Multiple bends using stacked plates
Macrobending loss caused by multiple bends of various radii can be measured simultaneously
by stacking plates cut with grooves of various specified bend radii. See Figure 2.
Unless otherwise specified in the detail specification, the default values for the test are as
follows:
• macrobend radius: r = 25 mm,
• number of macrobends: n = 10,
• slack bend radius, R ≥ 150 mm,
• wavelengths: 650 nm, 850 nm or 1 300 nm.
These parameters correspond to the interval between each macrobend being s ≥ 1 m, and a
sample length L ≥ 11 m.
The added fibre loss caused by bending shall be measured using either the transmitted power
monitoring technique (method A of IEC 60793-1-46) or the cut-back technique (method A of
...

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