Post on 04-Mar-2016
description
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Conducting Value
Fire
ResistantCables
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The Last Cable Standing
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Fire Resistant Cables
CAVICEL 4
Construction and General Information 6
Construction 6
Standards at a glance 8
Standards 14
Cable Selection 15
Fire Resistant Cables 16
SR 114H 16
SR 114E 17
SR 125 E30 18
SR 125 RF1 19
SR 125H 20
SR 225 21
SR 118 22SR 220 23
SR 109 24
SR 116H 25
SR 112 26
SR 206 27
SR 106H 28
SR 145 29
SR 140 30
SLO-FR / MLO-FR 31
Fire Tests 32
Recommendation for handling and storage 34
Reference Installations 35
ISO 9001:2008
Certifcate No. 217
ISO 14001:2004
n. 9191.CVCL
ISO 9001:2008
n. 9125.CAVL
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Fire Resistant Cables
The Last Cable Standing
Fire: a serious problem
Fires have ahigh costin terms of loss of
human lifeand of damages to plants andstructures.
About athirdof fires originateinside buildings.
Research studies in this field state that the
most commonly identified cause of deathfrom
a fire accident is being overcome by gasor
smoke(Department for Communities and Local
Government - formerly ODPM - Fire Statistics,
United Kingdom, 2005).
Other influential sources have demonstratedthatfor the last 50 years, the average time
from ignition of a fire to flashover has gone
from 15 minutes to 3 minutes, thus seriously
complicating the escapefrom fire. And this is
due only to the increase of plastics in home and
buildings.
It has to be kept into consideration, then, that
even the most sophisticated alarm systems
or emergency systems can be uselessiftheir performances are compromisedby the
destructionof the cables because of the fire. This
is the reason why, over the last few years, the
companies havestrongly invested in designand
development of insulation material and of
cables granting the best performancesin case of
fire, while reducingfumes and acid gases emission
and grantingthe circuit integrity even in
case of fire.
Cavicelhas been present for years onto the market
with its own products and its own experience.
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CAVICEL
When talking about safety, a particular care must be paid to your interlocutor.When you then have to choose products that must safeguard systems and human lives, you haveto make sure that your choice is the right one.The cables, for instance, that quite often cannot be seen, being hidden in walls or below the oor,but run for kilometres around us, must be chosen by a company you trust.
Cavicel is present onto the market with a wide range of products, including the reresistant cables FIRECEL that are installed in over 30 countries.Buildings, skyscrapers, public buildings, chemical andpetrochemical plants, undergrounds, manifold applications thathave a common denominator: they require a safe use of cables.When selecting cables that should guarantee specicperformances in case of re, it is necessary to choose a reliablecompany, with a long experience and careful to technologyevolution.A reliable company, having a long experience that allows to gain themarket trust.
The security of our cables during a fireCavicel has started designing and manufacturing re resistant cables
in the rst 70s. Before that, it studied halogen free special compoundshaving very low fume development, when the relevant norms were notdened yet; Cavicel has then used these products in the manufacturingof its re resistant cables. In 1983 the rst patent covering an enhancedame resistant cable had been deposited and the manufacturing ofspecial products for specic requirements had been enlarged.Those have been more and more used with a wider and wider diffusion in many elds. The studyhas then included the optic bres and in 1999 Cavicel deposited a patent covering re resistantbre optic cables.To improve as much as possible the research and development activity, Cavicel has equippeditself since many years with a re test laboratory capable to carry out tests according to severalinternational standards. A bigger guarantee for our Customer.
Why CAVICELWe have a long experience in designing and manufacturing special cables for over 50 years, andwe have always worked closed to our customers to understand the real needs.Our cables installed in more than 50 countries say that we have the right knowledge andexperience in approaching the market.We know the problems that a re could cause to the cables, in terms of both signal interruption andfume emission that could prevent the evacuation or the rescue.There are a lot of problems to handle, we know, and this is why we work together with ourcustomers to deepen all the problems.The right Partner is important to CAVICEL and this is why we put our experience at customersdisposal.
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Fire Resistant Cables
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Where CAVICELOur cables are installed in the following countries:Algeria, Austria, Bangladesh, Belgium, Brunei, Bulgaria,Cyprus, Czech Republic, Denmark, Egypt, Estonia,
Finland, France, Germany, Greece, Holland, Hong Kong,Hungary, India, Indonesia, Iran, Ireland, Italy, Japan,Jordan, Kuwait, Lebanon, Luxembourg, Malaysia,Maldive, Malta, Nigeria, Oman, Pakistan, Philippines,Poland, Portugal, Qatar, Romania, San Marino, SaudiArabia, Singapore, Spain, Sudan, Sweden, Syria,Taiwan, Turkey, United Arab Emirates, United Kingdom,Usa, Venezuela, Vietnam, Yemen.Many destinations, but only one origin: Italy
Total QualityQuality means different things to different people.Quality is not only our approved Quality Systemaccording to ISO 9001 by CSQ Italy and LPCB UK.
Quality is not only our full equipped test laboratory tocertied required characteristics of cables.For CAVICEL Quality simply means to satisfy customersnot only supplying them the required products, butworking together in a professional way to create a longlasting successfully relationship.Our growth and success stem from the quality of ourpromise and the certainty of delivering on promise.Quality also means respect for the environment and thisis why Cavicel is now ISO 14001 certied.
Our ValueWe are cable manufacturer, but we do not only supplycables. We grant the satisfaction of the right solution incable application. And this means to have fully evaluatedall customers requirements, not only in term of cableperformance, but in term of service, knowledge, reliabilityin order to assure the best value for the customer. We tryto understand our partners situation and criticality. Thanwe just create a cable which lets your value ow free.This is CAVICEL: Conducting Value.
Cavicel, Conducting Value 5
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Construction andGeneral Information
CablingFire resistant cables generally can be laid-up inconcentric construction and in pairs.Twisting is important to reduce noise in circuits andalso the lay of twist in some constructions must becarefully considered.
ScreeningScreens are often used in instrumentation cables to prevent or reducepossible interference in cables that can be caused by the followingreasons:
Cross-talk from adjacent pairs or triples; Interference induced by external source such as electricalequipments, machinery, power line.
The most popular screen is:
Aluminium/polyester tapewith a tinned copper drain wireor earth conductor
Following screens can also been used, when required:
Copper/polyester tapewith a tinned copper drainwire, for a better screen effect
Bare copper braidfor electromagneticinterference or when the cableis subject to movements
Aluminium/polyester or copper/polyester tapes normally have a total thicknessfrom 25 to 100 m, according to standards and are wrapped with an overlap>125% to assure a full coverage even in case of bending.In continuous contact with metallic side there could be an earth tinnedconductor, same cross section of the other cores, or a drain wire, normally
tinned copper, 0.5 sqmm, stranded or solid, according to cable specifications.Copper braid normally has a coverage from 80% to 95%. This type of
screen presents a lower electrical resistance, a very good protection alsoto electromagnetic noises and a higher mechanical resistance compared to
aluminium/polyester tape. It is suitable for mobile applications.
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Insulation
The most widespread technologies to guarantee theelectric cables connection integrity during a re arecurrently the following:
ceramied silicone-rubber mica-glass tape and cross-linked polyolene
The taping with mica tape is the most typical solution;it allows the use of several insulation materials sincethe re resistance is guaranteed by the tape.The silicone rubber is currently the most frequentlyused solution and simplies and speeds up theinstallation, thanks to the easy peeling and to the lackof tape.
Mica-glass tape Silicone rubber
ConductorsConductors can generally be according to EN 60288:
class 1solid
class 2stranded
class 5exible
Type of conductors are chosen according to electrical characteristics,required exibility, type of connection systems or specic installationconditions, for example:
in presence of vibration or movement or reduced bending radius ispreferable class 5 exible conductor,
class 1 solid conductor is preferable for permanent installation,crimping termination,
in presence of corrosive atmosphere, high temperature or tofacilitate the soldering is preferable tinned conductor.
Fire Resistant Cables
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SheathTo optimize the behaviour in case of re, best sheathis made of LSZH (Lows Smoke Zero Halogen)materials since, thanks to that, re would not bepropagated, toxic or corrosive gases would not bedeveloped and a minimum quantity of white fumesare emitted.Other materials can obviously be used in case ofspecic installation requirements, such as:PVC, for example, where a higher resistance to oilsand chemicals is required (this material containshalogens, so it emits acid gas and smoke).
PE, when a higher resistance to water and moistureis required (this material is no anti-ame, though).
Cavicel, Conducting Value 7
Construction and General Information
ArmouringMetallic armour are used when cables have to be installed direct buried,or if mechanical protection is required.Following points must be considered:
Required tensile load
Expected pressure on cable during service Protection against rodent Protection against accidental damage Minimum required bending radius.
SWA: single layer of galvanized steelwires, with diameters according torelevant standards, coverage min.90%. This armour assures a very goodmechanical protection and tensilestrength. An additional counterspiraltape increases solidity, if required.
GSWB: galvanized steel wire braid,diameter of wire: 0.20 - 0.25 -0.30 - 0.40 mm, with coverage of>80%. It assures a good mechanicalresistance, allowing a lower bendingradius compared to other armour. It ispreferable when there is movement orvibration.For special application is possible touse stainless steel, tinned copper orspecial alloy wires.
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Standards at a glanceA higher and higher care is paid towards safetyin many places and environments in general.Fire is considered one of the most frequent cause of disasters and human lives loss.The standards have tried more and more to face this problem under various aspects.Over the last few years, particularly, both national(BS, DIN, CEI) and international(EN, IEC) standardshave gone through a remarkable evolution.The evolution, though, is so fast that it is difcult to always have an updated picture.The purpose of this sectionis therefore to provide an overview on how the standards have faced
the denition, the choice and the installation of the electric cables concerning the re risks.Reference is also made to outdated standards since they are still present in many specications.
Fire Resistant Cables
Fire resistance
Fire resistance means that the cable or the installation where the cable is
installed is capable tocontinue to operate even in case of refor aspecic period of time (from 30 to 180 minutes).
To be more precise, it is possible to have two different denitions: Circuit Integrity (or Insulation Integrity)which indicates testsexclusively referred to cables;
System Circuit Integrity is referred to tests on cables and systems
(ladder, cable tray, clamps).
In some countries, such as Germany or Belgium, the rst characteristics
(Circuit Integrity) is often indicated by an abbreviation (FE180 in case the
test lasts 180 min) and the second one (System Circuit Integrity) by the
abbreviations E30, E60, E90 that indicate the cable resistance for 30, 60 and
90 minutes according to a specic test and with different installation systems.
Fire resistance - Circuit integrity - Reference Standards
Fire resistance - Circuit Integrity
Fire resistance - System CircuitIntegrity - Reference Standards
Fire resistance - System Circuit Integrity Flame non propagation
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Standards at a glance
Cavicel, Conducting Value 9
Reaction to fire propagation
Cables can be a critical vehicle for the re transmissionsince they run for long tracts, even in vertical ducts that couldbehave as chimneys and therefore propagate the re even inother areas.CAVICEL useshigh self-extinguishing materials andrealizes constructive solutions that contrast the amepropagation.Normally two characteristicsare checked: non propagation
of ame on a single cable alike the wiring and the nonpropagation of ame on more cables assembled as a bunch,as generally happens for electric installations.
Behaviour to the fire of the electric cables
The behaviour of the electric cables in case of re can be evaluated according to various aspects:Fire resistance - Non propagation of re - Emission of fumes and acid gases
The rst aspect can be considered as active since the cable continues to perform its main function:
transmit power and signals even during the fire.
The other characteristics can be dened as passive, but of primary importance,by limiting the fire
propagationandby reducing fumes and gasesthat are developed by the combustion and that cause
severe damages and human lives losses. It must be considered, in fact, that most commonly identied
causes for death from a re incident are due to gas or smoke.
Emission of fumes and acid gases
CAVICELalways usesLSZH (Low Smoke Zero Halogen)sheaths for its FIRECELcables (unless when specicallyprescribed because of special working conditions). This term
indicates materials that are properly formulated to guarantee,besides the high self-estinguishing characteristic, also a low
emission of clear fumes, without halogens (corrosive gases)
and that do not developtoxic gases in case of combustion.
Other acronyms are used, some of which are registered; it
is important though that the required performance are clear.
A term which is not too clearis, for instance, the acronymLSF (Low Smoke and Fumes), that, not making any reference
to halogens, could also be referred to PVC; in this case, the
characteristics of corrosive gases absenceis missing.
Non propagation of fire Smoke Density Acid Gas Emission
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Fire Resistant Cables
Fire resistance
Fire resistance - Circuit Integrity
The rst testson re resistance cables were only providing
the presence of ame, for example for IEC 331 standards, for a
period of 180 minutes at a temperature of 750C.
Subsequentlythe test conditions have been extended, by
changing the duration, by increasing the temperature of the
ame and by adding mechanical stress and water sprays.These modications allowed to better simulatethe real re
conditions, with mechanical stresses due to the fall of materials
and with the presence of water for the putting out of the same.
The standard BS 6387has been introduced by keeping that
into consideration: it was providing three tests on three
different cable samples: one only with the ame, up to 950C
(cat. C), one with the ame and water spray (cat. W), one with
the ame and mechanical stresses (cat. Z). This test is still used
but its limit is to require three different tests on three different
cable samples.
BS EN 50200standard has solved this problem since the same
cable sample is simultaneouslystressed by the ame action,
by the mechanical shock and by water spray.
Fire resistance - Circuit integrity - Reference Standards
IEC 60331- Tests for electric cables under fire conditions - Circuit integrity. This is one of the rst tests that had been introduced to verify electric cables reresistance. Currently it is divided in more parts that describe the test modes, the conditions and the equipment to use. The test, originally carried out only inpresence of re, now also stresses the cable with mechanical shocks. In details, the standard is subdivided in several parts:IEC 60331-1 ed1.0 (2009-05)- Part 1: Test method for fire with shock at a temperature of at least 830 C for cables of rated voltage up to and including0,6/1,0 kV and with an overall diameter exceeding 20 mIEC 60331-2 ed1.0 (2009-05)- Part 2: Test method for fire with shock at a temperature of at least 830 C for cables of rated voltage up to and including0,6/1,0 kV and with an overall diameter not exceeding 20 mm IEC 60331-3 ed1.0 (2009-05)- Part 3: Test method for fire with shock at a temperature of at least 830 C for cables of rated voltage up to and including0,6/1,0 kV tested in a metal enclosureIEC 60331-11 ed1.1 Consol. with am1 (2009-07) - Part 11: Apparatus - Fire alone at a flame temperature of at least 750 C
IEC 60331-21 ed1.0 (1999-04)- Part 21: Procedures and requirements Cables of rated voltage up to and including 0,6/1,0 kVIEC 60331-23 ed1.0 (1999-04)- Part 23: Procedures and requirements - Electric data cablesIEC 60331-25 ed1.0 (1999-04)- Part 25: Procedures and requirements - Optical fibre cables
BS EN 50200:2006 - Method of test for resistance to fire of unprotected small cables for use in emergency circuits. The cable undergoes the action of the ameat 850C and mechanical shocks. The test duration is expressed in minutes and is recorded in the classication: PH 15 - PH 30 - PH 60 - PH 90 - PH 120.Annex E of the standard also foresees the water stress, as previously provided by BS 8434-1 standard.This test is equivalent to IEC 60331-2.
BS EN 50362:2003 - Method of test for resistance to fire of larger unprotected power and control cables for use in emergency circuits. This standard providesthe same tests foreseen by IEC 60331-1 standards (Temperature of the ame 830C, with mechanical stresses)
BS 6387:1994- Specification for performance requirements for cables required to maintain circuit integrity under fire conditions.This can be dened as thehistorical standard for re resistance cables since in many countries it is still the most widespread one. It has been the rst to include also mechanical stress andwater action in the re resistance test of electric cables. The cables can be tested in different conditions, but most commonly required are:Cat C- test with ame at 950C for 180 minutes.Cat W- test with ame for 15 minutes and ame and water for further 15 minutes at 650C.Cat Z - test with ame and mechanical shocks for 15 minutes at 950C.Reference is also made to constructive standards, such as BS 7629 one.
BS 8434-2:2003+A2:2009- Methods of test for assessment of the fire integrity of electric cables. Test for unprotected small cables for use in emergencycircuits. BS EN 50200 with a 930 flame and with water spray.This standard is foreseen by BS 5839-1:2002 standards and is an extension of the testconditions according to BS EN 50200 standards. The cable is stressed by the ame at 930C with mechanical shocks for 60 minutes and further 60 minuteswith the addition of water spray. Since it has not been included in the BS EN 50200 standard yet, it is still in force.
BS 8491:2008 - Method for assessment of fire integrity of large diameter power cables for use as components for smoke and heat control systems and certainother active fire safety systems.This standard is related to cables included in BS 7346-6, and certain other active re safety systems. It is applicable to cablesof rated voltage not exceeding 600/1 000 V and of overall diameter greater than 20 mm. The test method in BS 8491:2008 includes subjecting the cable undertest to radiation via direct impingement corresponding to a constant temperature attack of 842 C, to direct mechanical impacts corresponding to a force ofapproximately 10 N, and to direct application of a water jet simulating a water re ghting jet. The test method given in this standard includes three different testdurations to allow testing of cables intended for different applications.
BS 8434-1:2003 (SUPERSEDED)- Methods of test for assessment of the fire integrity of electric cables. Test for unprotected small cables for use inemergency circuits. BS EN 50200 with addition of water spray.This standard is no longer in force since it has been replaced by Annex E of the S EN 50200
standard. Reference to it is made in BS 5839-1:2002 standard, in order to add a test with water. The cable is tested at 830C for 15 minutes in presence of
ame and mechanical shocks and for 15 minutes with ame, mechanical shocks and water spray.
NF C 32-070- Tests for classification of conductors and cables with respect to their fire behaviour.This test differs from the others since the cable is not directly
in contact with the ame, but it is positioned in a steel conduit inside a circular oven. The oven reaches a temperature of 920C and this causes the cable
combustion. Mechanical shocks are applied to the conduit containing the cable; furthermore, the cable is subjected to tensile strength.
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Standards at a glance
Cavicel, Conducting Value 11
Reaction to fire propagation
Behaviour to the fire of the electric cables
Emission of fumes and acid gases
Fire resistance - System Circuit Integrity
In this case it is required a re resistance verication onthe installed cables, as for instance according to DIN 4102standards, part 12, where the cables are tested in realinstallation conditions and the resistance is veried at 30, 60and 90 minutes (the cables are in fact classied E30, E60,E90).Another standard included in this category is NBN 731.020.
Constructive standards
BS 7629-1:2008- Electric cables. Specificationfor 300/500 V fire resistant screened cables havinglow emission of smoke and corrosive gases whenaffected by fire. Multicore and multipair cables.This standard includes the currently most commoncables onto the market of the re resistant cables.Those cables are used in re alarm and emergencylighting applications. They have a rated voltage of300/500 V.Generally, the cables are particularly exible and easyto be installed.These standards require that the cables get throughthe re resistance tests prescribed by BS 6387standards.
BS 7846:2009- Electric cables. Thermosettinginsulated, armoured, fire-resistant cables of ratedvoltage 600/1000 V, having low emission ofsmoke and corrosive gases when affected by fire.Specification.
This standard refers to the armoured cables withrated voltage 600/1000 V.The circuit integrity performance under re conditionsis assessed on the basis of various tests which eitherseparately measure resistance to re, resistance tore with water, and resistance to re with mechanicalshock, or in combination measure resistance to rewith mechanical shock and water.
BS EN 60702-1:2002- Mineral insulated cables andtheir terminations with a rated voltage not exceeding750 V. Cables.These standards apply to mineral insulated cables.Those cables have an insulation completely differentfrom those seen so far: they are extremely resistant
but rigid. Their installation is not handy and aparticular care has to be paid to the installation toprevent moisture absorption by the mineral oxide.
Fire resistance - System CircuitIntegrity - Reference Standards
DIN 4102-12- Fire behaviour of building materials and building
components - Part 12: Circuit integrity maintenance of electric
cable systems - Requirements and testing.This test foresees the
installation of cables in specically dened conditions, on ladder,
cable tray, ceiling installations, in a 3 meters long oven, for a period
up to 90 minutes, with a ame temperature that reaches 1000C. In
this case, the SYSTEM formed by cables and accessories is tested.
NBN 713.020- Protection contre lincendie - Comportement au feu
des matriaux et lments de construction - Rsistance au feu des
lments de construction (avec addendum 1994)(Fire ghting - Fire
performance of building materials and products - Fire resistance
of building materials). The cables are installed in a 3 x 3 m testing
room. They are installed on cable trays and undergo the ame
action up to 1000C. The cables are classied according to their
operating life.
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Fire Resistant Cables
Flame non propagation
Code of practice and general standards
BS 5839-1:2002+A2:2008- Fire detection and fire alarm systems for buildings. Code of practice for system design, installation, commissioning andmaintenance. BS 5839-1:2002+A2:2008 provides recommendations for the planning, design, installation, commissioning and maintenance of redetection and re alarm systems in and around buildings, other than dwellings. It does not recommend whether or not a re alarm system should beinstalled in any given premises. Recommendations for re detection and alarm systems in dwellings are given in BS 5839-6. Cables are describedin clause 26. This standard introduces two different levels of resistance of cables during a re (standard and enhanced type) and many prescriptionsregarding installations. The standard cable must withstand the ame at 830C for 30 minutes, the enhanced type at 930C for 120 minutes.Besides the EN 50200 test, the cable must also get through specic BS tests, such as the BS 8434, that, however, will be gradually absorbed by theEN standards. New re tests are described in this standard, based on EN 50200, modied to include exposure to water spray. Even if BS 6387 is notexpressively called up, for standard cross reference anyway this standard is still required. Other standards of the same series are:BS 5839-6:2004- Fire detection and fire alarm systems for buildings. Code of practice for the design, installation and maintenance of fire detection andfire alarm systems in dwellings.BS 5839-8:2008- Fire detection and fire alarm systems for buildings. Code of practice for the design, installation, commissioning and maintenance ofvoice alarm systems.BS 5839-9:2003- Fire detection and alarm systems for buildings. Code of practice for the design, installation, commissioning and maintenance ofemergency voice communication systems
BS 5266-1:2005- Emergency lighting. Code of practice for the emergency lighting of premises.Cables installed for these systems have to withstand tore for at least 60 minutes according to BS EN 50200.
BS 7346-6:2005 (SUPERSEDED)- Components for smoke and heat control systems. Specifications for cable systems.
BS 8519:2010- Selection and installation of fire-resistant power and control cable systems for life safety and fire-fighting applications. Code of practice.BS 8519 gives guidance and recommendations on the selection and installation of power and control cable systems. It covers systems that arerequired to maintain their circuit integrity for life safety and re-ghting applications. It also gives specic recommendations for electrical system design
for such applications, and recommended limits for survival times.
Flame non propagation
In this case, a single cable sampleundergoes the ame
action of a bunsen burner. The test only lasts few minutes.
BS EN 60332- Tests on electrical and optical cables under
fire conditions.These stardards describe the test conditions
for a single cable. The test lasts between 1 and 8 minutes,
depending on the cable diameter.
BS EN 60332-1-1:2004- Tests on electrical and optical cables
under fire conditions. Test for a vertical flame propagation for
a single insulated wire or cable. Apparatus.This test refers to
cables having standard dimensions.
BS EN 60332-2-1:2004- Tests on electrical and optical cables
under fire conditions. Test for vertical flame propagation for a
single small insulated wire or cable. Apparatus. This test applies
to small dimensions cables.
BS 4066-1 and 2 :1980 (SUPERSEDED)- Tests on electric
cables under fire conditions. Method of test on a single vertical
insulated wire or cable.This standard is no longer in force and is
replaced by the BS EN 60332.
BS EN 50265-1:1999 (SUPERSEDED)- Common test
methods for cables under fire conditions. Test for resistance
to vertical flame propagation for a single insulated conductor
or cable. Apparatus.This standard is no longer in force and is
replaced by the BS EN 60332 standard.
Non propagation of fire
These tests simulate the chimney effect in vertical installation ofbunch of cables.The tests differ for quantity of installed cables in the verticalstructure and for the duration of the ame application.
BS EN 60332-3:2009- Common test methods for cablesunder fire conditions. Test for vertical flame spread of vertically-mounted bunched wires or cables.This test is the most
common one to verify the behaviour of a cable vs the repropagation. The cables are installed on a vertical ladder insidea metal cabinet and undergo the action of a ribbon ame at
750C.The standard is subdivided in several parts that differ one fromthe other for the quantity of cable to be installed, the installationmode and the ame application time.BS EN 60332-3-10:2009- Common test methods for cablesunder fire conditions. Test for vertical flame spread of vertically-mounted bunched wires or cables. ApparatusBS EN 60332-3-21:2009- Procedures. Category A F/R.Installation in two layers (front and rear). Test time: 40 minutes.
The quantity of the installed cable is equal to 7 litres of insulatingmaterial per 1 meter installed cables.BS EN 60332-3-22:2009- Procedures. Category A.Installation in one layer (front). Test time: 40 minutes. Thequantity of the installed cable is equal to 7 litres of insulatingmaterial per 1 meter installed cables.BS EN 60332-3-23:2009- Procedures. Category B.Installation in one layer (front). Test time: 40 minutes. The
quantity of the installed cable is equal to 3,5 litres of insulatingmaterial per 1 meter installed cables.BS EN 60332-3-24:2009- Procedures. Category C.Installation in one layer (front). Test time: 20 minutes. Thequantity of the installed cable is equal to 1,5 litres of insulatingmaterial per 1 meter installed cables.BS EN 60332-3-25:2009- Procedures. Small cables. Category DInstallation in one layer (front). Test time: 20 minutes. Thequantity of the installed cable is equal to 0,5 litres of insulating
material per 1 meter installed cables.BS 4066-3:1994, IEC 60332-3:1992 (SUPERSEDED)- Tests
on electric cables under fire conditions. Tests on bunched wiresor cables.This standard is no longer in force and is replaced bythe BS EN 60332-3:2009.
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Standards at a glance
Cavicel, Conducting Value 13
Reaction to fire propagation
Behaviour to the fire of the electric cables
Emission of fumes and acid gases
Smoke Density
The standards describe the modality to be followedtomeasure the visibilitydecay inside a closed area, throughthe measurement of a luminous beam, by burning a specicquantity of cables.
BS EN 61034- Measurement of smoke density of cablesburning under defined conditions.The test is carried out in a3 x 3 m metal hood with a luminous beam that is transferred
between two walls. The light decay due to the smoke thatdevelops should not exceed specic values.BS EN 61034-1:2005Test apparatusBS EN 61034-2:2005Measurement of smoke density ofcables burning under defined conditions. Test procedure andrequirements.The previous standards related to fume emission measurementwere:
BS 7622-1:1993 (SUPERSEDED) - Measurement of smokedensity of electric cables burning under defined conditions.Test apparatus.This standard is no longer in force and wasreplaced by the BS EN 50268-1:2000, even though this too issuperseded by now.
BS EN 50268-1:2000 (SUPERSEDED)- Common testmethods for cables under fire conditions. Measurement ofsmoke density of cables burning under defined conditions.Apparatus.This standard is no longer in force and is replacedby the BS EN 61034-1:2005.
Acid Gas Emission
The gases developed by the cables in case of re could be
corrosive. A cause for their corrosivity can be the emissionof halogensthat can be present either in the polymers thatform the cable insulation or sheath (PVC for example) or addeddisguised as anti-ame products.
There are mainly two systemsto measure how dangerousthey are. A system allows to measure the halogen contentsin the gas; the second one measures both the pHand the gasconductivity.
BS EN 50267- Common test methods for cables underfire conditions. Tests on gases evolved during combustionof materials from cables.This test allows to determine the
corrosivity of the acid gases, generally halogens, that developduring the electric cable combustion.BS EN 50267-1:1999Apparatus.
BS EN 50267-2-1:1999Procedures. Determination of theamount of halogen acid gas.This part of the standard denes
the method to measure the halogens quantity, by having thembubbling in a solution that is then titrated.
BS EN 50267-2-2:1999Procedures. Determination ofdegree of acidity of gases for materials by measuring pH and
conductivity.In this case the standard allows to measure thepH and the conductivity of a solution where are collected thegases developed by the combustion of the single materials
(insulation and sheath).BS EN 50267-2-3:1999Procedures. Determination of degree
of acidity of gases for cables by determination of the weightedaverage of pH and conductivity. In this case the standard allows
to calculate a weighed average of the measured value of pH,conductivity of a solution where the gases developed by the
combustion of the materials forming the cable are collected(normally insulation and sheaths).
BS 6425-1:1990 (SUPERSEDED) - Test on gases evolvedduring the combustion of materials from cables. Method fordetermination of amount of halogen acid gas evolved during
combustion of polymeric materials taken from cables.Thisstandard is no longer in force and is replaced by the BS EN
50267 standard.
BS 6425-2:1993 (SUPERSEDED)- Test on gases evolvedduring the combustion of materials from cables. Determination
of degree of acidity (corrosivity) of gases by measuring pH andconductivity.This standard is no longer in force and is replaced
by the BS EN 50267 standard.
The contents of this section is an overview of the problems related
to the state of the art behaviour of the electric and bre optic cables
in case of re. The picture is quite complex, both for the problems
critical state and for all the connections and prescriptions existing
between the various standards.
Deliberately we did not deepen this topic since this would require
many more pages and it would be useless in this context.
It is anyhow the position of Cavicel as far as the cable behaviour
in case of re in industrial plants is concerned; more detailed
technical information could be required any time at our Technical
Department.
(updated to March 2010)
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Fire Resistant Cables
StandardsBS British Standard Institution
BS 5266-1Emergency lighting. Code of practice for the emergency
lighting of premises
BS 5839-1
Fire detection and re alarm systems for buildings. Code
of practice for system design, installation, commissioning
and maintenance
BS 5839-6
Fire detection and re alarm systems for buildings. Code of
practice for the design, installation and maintenance of re
detection and re alarm systems in dwellings
BS 5839-8
Fire detection and re alarm systems for buildings. Code
of practice for the design, installation, commissioning and
maintenance of voice alarm systems
BS 5839-9
Fire detection and alarm systems for buildings. Code of
practice for the design, installation, commissioning and
maintenance of emergency voice communication systems
BS 6387Specication for performance requirements for cables
required to maintain circuit integrity under re conditions
BS 7211
Electric cables. Thermosetting insulated, non-armoured
cables for voltages up to and including 450/750 V, for
electric power, lighting and internal wiring, and having low
emission of smoke and corrosive gases when affected
by re
BS 7346-6Components for smoke and heat control systems.
Specications for cable systems
BS 7629-1
Electric cables. Specication for 300/500 V re resistant
screened cables having low emission of smoke and
corrosive gases when affected by re. Multicore and
multipair cables
BS 7846
Electric cables. Thermosetting insulated, armoured, re-
resistant cables of rated voltage 600/1000 V, having low
emission of smoke and corrosive gases when affected by
re. Specication
BS 8434-2
Methods of test for assessment of the re integrity of
electric cables. Test for unprotected small cables for use in
emergency circuits. BS EN 50200 with a 930 ame and
with water spray
BS 8491
Method for assessment of re integrity of large diameter
power cables for use as components for smoke andheat control systems and certain other active re safety
systems
BS 8519
Selection and installation of re-resistant power and
control cable systems for life safety and re-ghting
applications. Code of practice.
CEI Comitato Elettrotecnico Italiano
CEI 20-11 /
EN 50363
Insulating, sheathing and covering materials for low voltage
energy cables
CEI 20-36/2-1
Tests for electric cables under re conditions - Circuit
integrity - Part 21: Procedures and requirements - Cables
of rated voltage up to and including 0,6/1,0 kV
CEI 20-45Fire resistant elastomeric insulated cables, halogen free
(LSOH) with rated voltage Uo/U 0.6/1 kV
DIN Deutsches Institut fur Normung
DIN 4102Fire behaviour of building materials and buildingcomponents - Part 12: Circuit integrity maintenance of
electric cable systems; requirements and testing
EN European Norm
EN 50200Methods of test for resistance to re of unprotected small
cables for use in emergency circuit
EN 50266Test for vertical ame spread of vertically-mounted
bunched wires and cables
EN 50267/2-1
Method of determination of amount of halogen acid gas
evolved during combustion of polymeric materials taken
from cables
EN 50267/2-2Determination of degree of acidity (corrosivity) of gases by
measuring PH and conductivity
EN 50288-7Sectional specication for instrumentation and control
cables
EN 50362Method of test for resistance to re of larger unprotected
power and control cables for use in emergency circuits
EN 50363Insulating, sheathing and covering materials for low
voltage energy cables
EN 60228 Conductors of insulated cables
EN (continued)
EN 60332-1Test for vertical ame propagation for a single insulated
wire or cable
EN 60332-2Test for vertical ame propagation for a single small
insulated wire or cable
EN 60332-3Test for vertical ame spread of vertically-mountedbunched wires or cables
EN 61034Measurement of smoke density of cables burning under
dened conditions
IEC International Electrotechnical Commission
IEC 60228Conductors of insulated cables - Guide to the dimensional
limits of circular connectors
IEC 60331Test for electrical cables under re conditions. Circuit
integrity.
IEC 60332-1
Tests on electric and optical bre cables under re
conditions -Test for vertical ame propagation for a single
insulated wire or cable
IEC 60332-3
Test on electric cables under re conditions - Test for
vertical ame spread of vertically-mounted bunched wires
or cables
IEC 60502-1
Power cables with extruded insulation and theiraccessories for rated voltages from 1 kV (Um = 1,2 kV) up
to 30 kV (Um = 36 kV) - Part 1: Cables for rated voltages
of 1 kV (Um = 1,2 kV) and 3 kV (Um = 3,6 kV)
IEC 60754-1
Method for determination of amount of halogen acid gas
evolved during combustion of polymeric materials taken
from cables
IEC 60754-2Determination of degree of acidity (corrosivity) of gases by
measuring pH and conducivity
IEC 60793-1 Optical bres
IEC 60794-1 Optical bre cables
IEC 61034-2Measurement of smoke density of electric cables burning
under dened conditions (LT)
NBN Norme Belge
NBN C 30-004Fire resistance of electical cables - Classication and test
methodsNBN 713-020 Fire resistance of building materials
NF Norme Franaise
NF-C-32-070
Insulated cables and exible cords for installations -
Classication tests on cables and cords with respect to
their behaviour to re
SS Singapore Standard
SS 299 part 1
Fire resistant cables - Performance requirements for
cables required to maintain circuit integrity under re
conditions
VDEVerband der Elektrotechnik Elektronik
Informationstechnik
VDE 0815
Wiring cables for telecommunication and data processing
systems
part 814 - Testing of cables, wires and exible cords
Continuance of insulation effect under re conditions
VDE 0482
part 267 - Common test methods for cables under re
conditions - Test on gases evolved during combustion of
materials from cables
part 1034 - Measurement of smoke density of cables
burning under dened conditions
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Standards / Cable Selection
protectionsbasic design standards fre resistant standards
insulation
coppercable
fbre
optic
cable
voltagerating
silicone
mica/XLcompound
shield
armour
BS7211
BS7629-1
BS7846
CEI20-45
VDE0815
IEC60502-1
EN50288-7
BS5839
BS8519
BS6387C-W-Z
EN50200
IEC60331-21
IEC60331-23
IEC60331-25
CEI20-36
NBNC30-004
NBN713-020
VDE0472
DIN4102-12
SS299part1
page
SR 114H 300/500 V standard standard PH30/PH60 16
SR 114E 300/500 V enhanced enhanced PH120 17
SR 125 E30 225 V 18
SR 125 RF1 300 V PH90 19
SR 125H 300/500 V PH90 20
SR 225 300/500 V 21
SR 118 300/500 V PH90 22
SR 220 300/500 V 23
SR 109 450/750 V PH120 24
SR 116H 450/750 V PH90 25
SR 112 450/750 V
0,6/1 kV 26
SR 206 0,6/1 kV 27
SR 106H 0,6/1 kV PH90 28
SR 145 0,6/1 kV PH90 29
SR 140 0,6/1 kV PH60/PH90 30
SLO-FRMLO-FR 31
= on request.
Cable Selection MatrixAll cables comply with following standards:
EN/IEC 60332, EN 50266, EN 50267, IEC 60754, EN/IEC 61034.
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Fire Resistant Cables
FIRECEL SR 114HSilicone Insulation
Overall Screen
Standard Cable
BS 5839-1:2002 Clause 26.2d
EN 50200 PH 30 (PH 60)830C - 30 min. (60 min.)re and mechanical shocks
EN 50200 Annex E830C - 15 min. re andmechanical shocks + 15 min. re mechanicalshocks and water spray
SR 114H solid conductor 300/500 V SR 114H-R stranded conductor300/500 V
Cables up to 4 coresapproved by LPCB,
certificate N 217f
ApplicationsFIRECEL SR 114H are primarily intended for generalapplication.Typical applications are:
BS 5839-1for standardre resistant cables in redetection and re alarm systems for building
BS 5839-8for voice alarm systems BS 5839-9for emergency voice communicationsystems.
BS 5266-1for emergency lighting of premises(PH60)
BS 8519for re-resistant control cable systems forlife safety and re-ghting application - Category 1
Operating temperature-40C to +90C
Minimum bending radius6 times the outer diameter.
N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
1 mm2solid SR 114H2x1.0 7.1 70
3x1.0 7.6 85
4x1.0 8.3 110
7x1.0 10.0 165
12x1.0 12.5 255
19x1.0 15.0 380
1.5 mm2solid SR 114H2x1.5 8.0 95
3x1.5 8.5 115
4x1.5 9.4 1407x1.5 11.3 225
12x1.5 14.5 340
19x1.5 17.0 520
1.5 mm2stranded SR 114H-R2x1.5 8.4 100
3x1.5 8.9 125
4x1.5 9.8 155
2.5 mm2 solid SR 114H2x2.5 9.4 130
3x2.5 10.0 170
4x2.5 11.0 210
2.5 mm2stranded SR 114H-R2x2.5 9.9 145
3x2.5 10.3 180
4x2.5 11.7 2304 mm2 stranded SR 114H-R2x4 11.5 200
3x4 12.2 260
4x4 13.5 330
approximate values
Cable construction
ConductorsPlain annealed copper wire, solid class 1 or stranded class 2 according toEN 60228.
InsulationHigh performance re resistant silicone rubber type EI2 to BS EN 50363-1.
CablingInsulated cores are cabled together.
Overall screenAluminium/polyester tape.
Circuit protective conductor or drain wireUninsulated tinned copper conductor of the same section and class as theinsulated conductors in the 2-, 3- and 4-core cables. Drain wire of 0.5 mm2tinnedcopper conductor is provided in cables with more than 4 conductors.
Outer sheathLSZH thermoplastic material type LTS3 to BS 7655-6.1.Colour red or white (other colours on request).
Colour code up to 4 cores to HD 3082 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey
7 cores centre: brown1st layer: brown - black - 4 cores white
12 cores centre: brown - black - white 1st layer: brown - black - 7 cores white19 cores centre: brown
1st layer: brown - black - 4 cores white 2nd layer: brown - black - 10 cores white(on request the cores can be one colour only, identified by printed numbers)
Applicable StandardsBasic design BS 7629-1Fire resistant BS 6387 (cat. C-W-Z) EN 50200 (class PH30 and PH60)
EN 50200 annex E (re, mechanical shock and water spray)Flame retardant EN 60332-1-2Acid gas emission EN 50267-2-1Smoke density EN 61034-2
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N of cond. x cross section
(mm2)
Outer diameter
(mm)
Weight
(kg/km)
1 mm2solid SR 114E2x1.0 7.9 85
3x1.0 8.4 105
4x1.0 9.3 125
7x1.0 10.9 175
12x1.0 14.5 300
19x1.0 17.0 470
1.5 mm2solid SR 114E2x1.5 8.8 105
3x1.5 9.3 130
4x1.5 10.3 1657x1.5 12.1 230
12x1.5 16.0 380
19x1.5 19.0 590
1.5 mm2stranded SR 114E-R2x1.5 9.2 110
3x1.5 9.7 135
4x1.5 10.5 170
2.5 mm2 solid SR 114E2x2.5 10.2 150
3x2.5 10.8 190
4x2.5 12.0 240
2.5 mm2stranded SR 114E-R2x2.5 10.6 155
3x2.5 11.3 190
4x2.5 12.5 2504 mm2 stranded SR 114E-R2x4 12.2 220
3x4 13.0 280
4x4 14.4 350
approximate values
Cavicel, Conducting Value 17
Fire Resistant Cables
FIRECEL SR 114EMica/Silicone Insulation
Overall Screen
Enhanced Cable
BS 5839-1:2002Clause 26.2e + A2:2008
EN 50200 PH 120830C - 120 min. re andmechanical shocks
BS 8434-2:2003 +A2:2010930C - 60 min. reand mechanical shocks + 60 min. re mechanicalshocks and water spray
SR 114E solid conductor 300/500 V SR 114E-R stranded conductor300/500 V
Cables up to 4 coresapproved by LPCB,
certicate N 217g
ApplicationsFIRECEL SR 114Eare primarily intended for use inre detection and re alarm systems, emergencylighting circuits or if cables need to properlyoperate when re resistance improvement isrequired.Typical applications are:
BS 5839-1for enhancedre resistant cables inre detection and re alarm systems for building
BS 5839-8 for voice alarm systems BS 5839-9for emergency voice communication
systems. BS 8519for re-resistant control cable systems forlife safety and re-ghting application - Category 2
Operating temperature-40C to +90C
Minimum bending radius6 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, solid class 1 or stranded class 2 according toEN 60228.
InsulationMica/Glass re resistant tape covered by high performance re resistant siliconerubber type EI2 to BS EN 50363-1.
CablingInsulated cores are cabled together.
Overall screenAluminium/polyester tape.
Circuit protective conductorUninsulated tinned copper conductor of the same section and class as theinsulated conductors in the 2-, 3- and 4-core cables. Drain wire of 0.5 mm2tinnedcopper conductor is provided in cables with more than 4 conductors.
Outer sheathLSZH thermoplastic material type LTS3 to BS 7655-6.1.Colour red or white (other colours on request)
Colour code up to 4 cores to HD 3082 cores blue - brown3 cores brown - black - grey
4 cores blue - brown - black - grey7 cores centre: brown
1st layer: brown - black - 4 cores white12 cores centre: brown - black - white 1st layer: brown - black - 7 cores white19 cores centre: brown
1st layer: brown - black - 4 cores white 2nd layer: brown - black - 10 cores white(on request the cores can be one colour only, identified by printed numbers)
Applicable StandardsBasic design BS 7629-1Fire resistant BS 6387 (cat. C-W-Z) EN 50200 (class PH120)
BS 8434-2 (120 min)Flame retardant EN 60332-1-2Acid gas emission EN 50267-2-1Smoke density EN 61034-2
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FIRECEL SR 125 E30Silicone Insulation
Overall Screen
JE-H(St)H FE180/E30
JE-H(St)H Bd Z FE180/E30 U-SR/OS/LSZH 225 V
Approved by VDEReg. No 7549
ApplicationsFIRECEL SR 125 E30 are wiring cables for
telecommunication and information processing
systems where absence of halogen and
improved properties in case of re and specied
continuance of insulation effect when exposedto ame.
For xed installation in dry and humid premises,
may be embedded in plaster, not for power
supply, external use or underground laying.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsSolid plain annealed copper wire.
InsulationHigh performance re resistant silicone rubber compound type HJ1.
Cable elementsInsulated cores are twisted to form pairs.
Two-pair cable had four cores laid in quad formation.CablingPairs are cabled together.In cables with 8 pairs or more 4 pairs are assembled to form a bunch, thebunches are cabled together.
Flame barrierSpecial re proof tape.
Overall screenAluminium/polyester tape with copper drain wire.
Outer sheathLSZH thermoplastic material type HM2.Colour orange or red with printed BRANDMELDEKABEL for re alarms.
Colour codeEach bunch blue - red / grey - yellow / green - brown / white - blackBunch identication plastic numbered tape
Applicable StandardsBasic design VDE 0815Fire resistant VDE 0472-814 (FE180) / IEC 60331-23Functionality of cabling system DIN 4102 Part 12 (E30)Fire retardant VDE 0472 Part 804 (test C) /
EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Flame retardant EN 60332-1-2 / IEC 60332-1-2Acid gas emission VDE 0482-267 / EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density VDE 0482-1034 / EN 61034-2 /
IEC 61034-2
N of pairs x conductor diameter
Outer diameter
(mm)
Weight
(kg/km)
section 0.5 mm2solid JE-H(St)H FE180/E30
1x2x0.8 mm 6.1 52
2x2x0.8 mm (quad cabled) 7.5 77
4x2x0.8 mm 10.5 133
section 0.5 mm2solid JE-H(St)H Bd Z FE180/E30
8x2x0.8 mm 17.4 296
12x2x0.8 mm 18.9 368
16x2x0.8 mm 20.7 442
20x2x0.8 mm 22.7 508
32x2x0.8 mm 24.5 772
40x2x0.8 mm 26.5 946
52x2x0.8 mm 28.0 1016
approximate values
18
Fire Resistant Cables
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N of pairs x conductor diameterOuter diameter
(mm)Weight(kg/km)
section 0.65 mm2solid U-SR/OS/LSZH
1x2x0.9 mm 6.5 60
2x2x0.9 mm (quad cabled) 7.4 85
3x2x0.9 mm 10.9 145
approximate values
FIRECEL SR 125 RF1Silicone InsulationOverall Screen
U-SR/OS/LSZH 300 V
Approved by ISIB(Institut de SecuriteIncendie - Belgium)
ApplicationsFIRECEL SR 125 RF1are designed, manufacturedand tested as data transmission cables foremergency services. These are used for data andvoice transmission when high frequency signal has tobe assured also in the event of a re.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsSolid plain annealed copper wire.
InsulationHigh performance re resistant silicone rubber.
Cable elementsInsulated cores are twisted to form pairs.
Two-pair cable had four cores laid in quad formation.CablingThree pairs are cabled together.
Flame barrierGlass tape.
Overall screenAluminium/polyester tape with tinned copper drain wire.
Outer sheathLSZH thermoplastic material.Colour orange (other colours on request).
Colour codeSingle pair white - blue
Multipair white - blue numbered
Applicable StandardsFire resistant NBN C 30-004 (cat. F3) / NBN 713-020 (RF1) /
EN 50200 (PH90) / IEC 60331-23Fire retardant NBN C 30-004 (cat. F2) / EN 50266-2-4 (cat. C) /
IEC 60332-3-24 (cat. C)Flame retardant NBN C 30-004 (cat. F1) / EN 60332-1-2 / IEC 60332-1-2Acid gas emission EN 50267-2-1 / IEC 60754-1
EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Cavicel, Conducting Value 19
Fire Resistant Cables
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N of pairs x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
0.5 mm2solid U-SR/OS/LSZH
1x2x0.5 6.5 56
2x2x0.5 9.5 94
3x2x0.5 10.5 118
5x2x0.5 12.0 167
6x2x0.5 13.0 197
10x2x0.5 16.5 273
15x2x0.5 20.5 410
20x2x0.5 22.6 520
1 mm2stranded R-SR/OS/LSZH
1x2x1 7.4 77
2x2x1 10.6 130
3x2x2 11.2 196
5x2x1 13.7 245
6x2x1 14.8 300
10x2x1 18.9 378
15x2x1 23.2 567
20x2x1 26.2 831
1.5 mm2stranded R-SR/OS/LSZH
1x2x1.5 8.7 100
2x2x1.5 10.2 188
3x2x1.5 12.9 223
5x2x1.5 16.7 346
6x2x1.5 17.5 426
10x2x1.5 23.4 541
15x2x1.5 28.9 892
20x2x1.5 32.5 1182
approximate values
FIRECEL SR 125HSilicone Insulation
Overall Screen
U-SR/OS/LSZH 300/500 V
R-SR/OS/LSZH 300/500 V
ApplicationsFIRECEL SR 125H are designed, manufactured andtested as data transmission cables for emergencyservices. These are used for data and voicetransmission when high frequency signal has to beassured also in the event of a re.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, solid class 1 or stranded class 2 according toEN 60228.
InsulationHigh performance re resistant silicone rubber.
Cable elements
Insulated cores are twisted to form pairs.CablingPairs are cabled together.
Overall screenAluminium/polyester tape with copper drain wire.
Outer sheathLSZH thermoplastic materialColour red (other colours on request).
Colour codeCables up to 6 pairs black-red / black-blue / red-blue / yellow-black /
yellow-red / yellow-blueCables above 6 pairs all pairs black-red numbered on black conductors
Applicable StandardsBasic design BS 7629Fire resistant EN 50200 (PH90) / EN 50362 (PH90) / IEC 60331-21 /
BS 6387(cat. C-W-Z) / SS 299 part 1Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Fire Resistant Cables
20
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FIRECEL SR 225HMica/XLPE Insulation
Overall Screen
R-mXLPE/OS/LSZH 300/500 V
ApplicationsFIRECEL SR 225Hare designed, manufactured andtested as data transmission cables for emergencyservices. These are used for data and voicetransmission when high frequency signal has to beassured also in the event of a re.
Operating temperature-40C to +90C
Minimum bending radius
10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationMica/Glass re resistant tape covered by extruded cross-linked XLPE compound.
Cable elementsInsulated cores are twisted to form pairs.
CablingPairs are cabled together.
Overall screenAluminium/polyester tape with copper drain wire.
Outer sheathLSZH thermoplastic material.Colour red (other colours on request).
Colour codeAccording to IEC 60189-2 (other colour code on request).
Applicable StandardsFire resistant IEC 60331-23
Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
N of pairs x cross section(mm2)
Outer diam.(mm)
Weight(kg/km)
0.75 mm2stranded R-mXLPE/OS/LSZH
1x2x0.75 7.8 64
2x2x0.75 10.7 118
5x2x0.75 14.8 218
10x2x0.75 20.1 380
15x2x0.75 24.9 535
20x2x0.75 28.2 680
1 mm2stranded R-mXLPE/OS/LSZH
1x2x1 8.4 73
2x2x1 11.5 136
5x2x1 15.7 266
10x2x1 21.3 455
15x2x1 26.5 646
20x2x1 30.2 839
1.5 mm2stranded R-mXLPE/OS/LSZH
1x2x1.5 9.3 87
2x2x1.5 13.0 165
5x2x1.5 18.1 342
10x2x1.5 24.8 606
15x2x1.5 30.8 862
20x2x1.5 34.9 1121
approximate values
Fire Resistant Cables
Cavicel, Conducting Value 21
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N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
1.5 mm2solid U-SR/LSZH
2x1.5 7.4 70
3x1.5 7.9 93
4x1.5 8.8 122
2.5 mm2solid U-SR/LSZH
2x2.5 8.8 105
3x2.5 9.4 141
4x2.5 10.4 183
approximate values
FIRECEL SR 118Silicone Insulation
U-SR/LSZH 300/500 V
Approved by ISIB(Institut de SecuriteIncendie - Belgium)
ApplicationsFIRECEL SR 118are designed, manufactured andtested as control cable for emergency services andre circuit control.
Operating temperature-40C to +90C(for insulated conductors only: max 200C).
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, solid according to EN 60228 class 1.
InsulationHigh performance re resistant silicone rubber type EI2.
CablingInsulated cores are cabled together.
Outer sheathLSZH thermoplastic material type HM2.Colour orange (other colours on request).
Colour codeWithout earth conductor2 cores black - blue3 cores black - blue - brown4 cores black - blue - brown - blackWith earth conductor3 cores black - blue - yellow/green4 cores black - blue - brown - yellow/green
Applicable StandardsFire resistant NBN C 30-004 (cat. F3) NBN 713-020 (RF1 for section 1,5 mm2,
RF1.5 for section 2,5 mm2) EN 50200 (PH90) / IEC 60331-21Flame retardant NBN C 30-004 (cat. F1) / EN 60332-1-2 / IEC 60332-1-2Fire retardant NBN C 30-004 (cat. F2) / EN 50266-2-4 (cat. C) /
IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1
EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Fire Resistant Cables
22
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N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
0.75 mm2stranded R-mXLPE/LSZH
2x0.75 7.3 68
3x0.75 8.0 83
4x0.75 8.7 100
1 mm2stranded R-mXLPE/LSZH
2x1 7.9 82
3x1 8.4 96
4x1 9.4 121
7x1 11.3 174
12x1 15.1 282
19x1 18.0 424
1.5 mm2stranded R-mXLPE/LSZH
2x1.5 8.5 1003x1.5 9.3 126
4x1.5 10.1 150
7x1.5 12.2 220
12x1.5 16.5 365
19x1.5 19.5 544
2.5 mm2stranded R-mXLPE/LSZH
2x2.5 9.7 139
3x2.5 10.4 168
4x2.5 11.5 206
7x2.5 14.0 310
12x2.5 18.8 514
19x2.5 22.4 782
approximate values
FIRECEL SR 220Mica/XLPE Insulation
R-mXLPE/LSZH 300/500 V
ApplicationsFIRECEL SR 220are designed, manufactured andtested for general application.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationMica/Glass re resistant tape covered by extruded cross-linked XLPE compound.
CablingInsulated cores cabled together.
Outer sheathLSZH thermoplastic material.Colour orange or white (other colours on request)
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey5 cores blue - brown - black - grey - blackAbove 5 cores black numberedWith earth conductor3 cores yellow/green - blue - brown4 cores yellow/green - brown - black - grey
5 cores yellow/green - blue - brown - black - greyAbove 5 cores yellow/green - black numbered
Applicable StandardsBasic design EN 50288-7Fire resistant IEC 60331-21Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Fire Resistant Cables
Cavicel, Conducting Value 23
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FIRECEL SR 109FlexibleSilicone InsulationOverall Screen
F-SR/OS/LSZH 450/750 V
ApplicationsFIRECEL SR 109are designed, manufactured andtested for general application in power and signalwiring, for emergency circuit and re circuit controlwhere high rejection to electrostatic noise is needed.
Operating temperature-40C to +90C
Minimum bending radius8 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, exible according to EN 60228 class 5.
InsulationHigh performance re resistant silicone rubber.
CablingInsulated cores are cabled together.
Overall screenAluminium/polyester tape with tinned copper drain wire.
Outer sheathLSZH thermoplastic material.Colour red (other colours on request).
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey7 cores and above black numberedWith earth conductor3 cores yellow/green - blue - brown
4 cores yellow/green - brown - black - grey5 cores yellow/green - blue - brown - black - grey7 cores and above yellow/green - black numbered
Applicable StandardsFire resistant CEI 20-36/2-1 / EN 50200 (PH120) / IEC 60331-21Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
0.75 mm2flexible F-SR/OS/LSZH
2x0.75 7.6 69
3x0.75 8.0 84
4x0.75 8.7 103
1 mm2flexible F-SR/OS/LSZH
2x1 8.0 78
3x1 8.2 86
4x1 8.9 110
7x1 10.8 176
12x1 13.9 275
19x1 16.4 408
1.5 mm2flexible F-SR/OS/LSZH
2x1.5 8.3 883x1.5 8.8 112
4x1.5 9.8 141
7x1.5 11.7 218
12x1.5 15.3 352
19x1.5 18.2 535
2.5 mm2flexible F-SR/OS/LSZH
2x2.5 9.8 123
3x2.5 10.4 159
4x2.5 11.4 196
7x2.5 13.4 305
12x2.5 17.9 505
19x2.5 21.1 760
approximate values
Fire Resistant Cables
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FIRECEL SR 116HSilicone Insulation
R-SR/LSZH 450/750 V
ApplicationsFIRECEL SR 116Hare designed, manufactured
and tested for general application in power
supply and signal wiring, for emergency circuit
and re circuit control.
Operating temperature-40C to +90C(for insulated conductors only: max 200C).
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationHigh performance re resistant silicone rubber.
CablingInsulated cores are cabled together.
Outer sheathLSZH thermoplastic material.Colour red (other colours on request).
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey5 cores blue - brown - black - grey - blackWith earth conductor3 cores yellow/green - blue - brown4 cores yellow/green - brown - black - grey5 cores yellow/green - blue - brown - black - grey
Applicable StandardsFire resistant CEI 20-36/2-1 / EN 50200 (PH90) / IEC 60331-21Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
1.5 mm2stranded R-SR/LSZH
2x1.5 7.8 96
3x1.5 8.3 116
4x1.5 9.3 147
5x1.5 10.5 180
2.5 mm2stranded R-SR/LSZH
2x2.5 9.2 138
3x2.5 9.8 169
4x2.5 11.3 222
5x2.5 12.3 259
4 mm2stranded R-SR/LSZH
2x4 10.5 189
3x4 11.6 2464x4 12.5 299
5x4 14.0 359
approximate values
Fire Resistant Cables
Cavicel, Conducting Value 25
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FIRECEL SR 112Single CoreMica/XLPE Insulation
FIRECEL SR 112XTwin Core
Mica/XLPE Insulation
R-mXLSZH 450/750 V
(600/1000 V for protected
installation)
Single coreapproved by LPCB,certificate N 217d
ApplicationsFIRECEL SR 112are designed, manufactured andtested as cable xed or protected installation forpower supply, lighting and control gear.
Operating temperature-40C to +90C
Minimum bending radius6 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationMica/Glass re resistant tape covered by extruded cross-linked compoundtype EI5.
Twisting
Only for FIRECEL SR 112X two conductors are twisted.
ColoursSingle core Red - black - blue - brown (other colours on request)Twin core Red - black (other colours on request)
Applicable StandardsBasic design BS 7211Fire resistant BS 6387 (cat.C-W-Z tested in steel conduit)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
SR 112
single core R-mXLSZH
1.5 3.4 26
2.5 4.0 38
4 4.7 60
6 5.3 84
10 6.6 128
16 7.6 190
25 9.4 294
SR 112X
twin core R-mXLSZH
2x1.5 6.8 52
2x2.5 8.0 762x4 9.4 120
2x6 10.6 168
2x10 13.2 256
2x16 15.2 380
2x25 18.8 588
approximate values
Fire Resistant Cables
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FIRECEL SR 206Mica/XLPE Insulation
R-mXLPE/LSZH 0.6/1 kV
ApplicationsPower supply and signals trasmission, indoors oroutdoors even wet environment.For xed laying in free air, in pipe or conduit, onmasonry and metal structures or suspended.In places where in case of re people are exposedto serious risks for emission of smoke, toxic andcorrosive gases and where you want to avoiddamage to facilities, equipment, goods.Suitable for feeding of: emergency exits, alarmsignals, warning of smoke or gas, escalators.Suitable for laying underground direct or indirect.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationMica/Glass re resistant tape covered by extruded cross-linked XLPE compound.
CablingInsulated cores are cabled together.
Outer sheathLSZH thermoplastic material type ST8.Colour red (other colours on request).
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey5 cores blue - brown - black - grey - blackWith earth conductor3 cores yellow/green - blue - brown4 cores yellow/green - brown - black - grey5 cores yellow/green - blue - brown - black - grey
Applicable StandardsBasic design IEC 60502-1Fire resistant IEC 60331-21Flame retardant IEC 60332-1-2Fire retardant IEC 60332-3-24 (cat. C)Acid gas emission IEC 60754-1Smoke density IEC 61034-2
N of cond. x cross section
(mm2)
Outer diam.
(mm)
Weight
(kg/km)
1.5 mm2stranded R-mXLPE/LSZH
2x1.5 10.4 1453x1.5 10.9 167
4x1.5 11.8 196
5x1.5 12.9 226
2.5 mm2stranded R-mXLPE/LSZH
2x2.5 11.2 180
3x2.5 11.8 209
4x2.5 12.8 250
5x2.5 14.0 289
4 mm2stranded R-mXLPE/LSZH
2x4 12.3 230
3x4 13.0 275
4x4 14.1 331
5x4 15.5 387
6 mm2stranded R-mXLPE/LSZH
2x6 14.6 329
3x6 15.5 397
4x6 16.9 482
5x6 18.6 565
10 mm2stranded R-mXLPE/LSZH
2x10 16.4 450
3x10 17.4 554
4x10 19.1 682
5x10 21.0 805
16 mm2stranded R-mXLPE/LSZH
2x16 18.5 619
3x16 19.7 777
4x16 20.3 1050
5x16 23.9 1208
25 mm2stranded R-mXLPE/LSZH2x25 22.0 914
3x25 23.5 1161
4x25 26.0 1500
5x25 28.7 1700
approximate values
Fire Resistant Cables
Cavicel, Conducting Value 27
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FIRECEL SR 106HSilicone Insulation
R-SR/LSZH 0.6/1 kV F-SR/LSZH 0.6/1 kV
ApplicationsPower supply and signals trasmission, indoor oroutdoor even wet environment.For xed laying in free air, in pipe or conduit, onmasonry and metal structures or suspended.In places where in case of re people are exposedto serious risks for emission of smoke, toxic andcorrosive gases and where you want to avoiddamage to facilities, equipment, goods.Suitable for feeding of: emergency exits, alarmsignals, warning of smoke or gas, escalators.Suitable for laying underground direct or indirect.
Operating temperature-40C to +90C(for insulated conductors only: max 200C).
Minimum bending radius10 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded class 2 for section up to 10 mm2or exibleclass 5 for section above 10 mm2according to EN 60228.
InsulationHigh performance re resistant silicone rubber.
Cabling
Insulated cores are cabled together.Outer sheathExtruded LSZH thermoplastic material.Colour red (other colours on request).
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey5 cores blue - brown - black - grey - blackWith earth conductor3 cores yellow/green - blue - brown4 cores yellow/green - brown - black - grey
5 cores yellow/green - blue - brown - black - grey
Applicable StandardsFire resistant EN 50200 (PH90) / EN 50362 (PH90) / IEC 60331-21 /
BS 6387 (cat. C-W-Z) / SS 299 part 1Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
N of cond. x cross section(mm2)
Outer diameter(mm)
Weight(kg/km)
1.5 mm2stranded R-SR/LSZH
2x1.5 9.2 124
3x1.5 9.8 148
4x1.5 10.6 176
5x1.5 11.5 214
2.5 mm2stranded R-SR/LSZH
2x2.5 10.0 155
3x2.5 10.6 188
4x2.5 11.5 228
5x2.5 12.6 266
4 mm2stranded R-SR/LSZH
2x4 11.2 207
3x4 12.1 2634x4 13.6 332
5x4 14.5 399
6 mm2stranded R-SR/LSZH
2x6 13.1 298
3x6 14.4 372
4x6 15.8 463
5x6 17.6 576
10 mm2stranded R-SR/LSZH
2x10 15.9 441
3x10 16.8 541
4x10 18.5 680
5x10 20.5 850
16 mm2flexible F-SR/LSZH
2x16 17.4 602
3x16 19.4 777
4x16 21.2 973
5x16 23.3 1202
approximate values
Fire Resistant Cables
28
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N of cond. x cross section
(mm2)
Outer diameter
(mm)
Weight
(kg/km)1.5 mm2flexible F-mG10/LSZH1x1.5 6.7 782x1.5 11.4 1683x1.5 12.0 1934x1.5 13.0 2275x1.5 13.7 260
7x1.5 16.3 34012x1.5 19.4 51019x1.5 23.9 76024x1.5 26.5 9102.5 mm2flexible F-mG10/LSZH1x2.5 7.3 902x2.5 12.3 2043x2.5 13.0 2384x2.5 14.1 2835x2.5 15.4 3587x2.5 17.7 41412x2.5 21.4 66519x2.5 26.2 96924x2.5 29.8 12004 mm2flexible F-mG10/LSZH1x4 7.7 982x4 13.4 2553x4 14.2 3024x4 15.5 363
5x4 17.1 4826 mm2flexible F-mG10/LSZH1x6 8.5 1232x6 15.0 3413x6 15.9 4124x6 17.4 5025x6 19.3 62010 mm2flexible F-mG10/LSZH1x10 10.5 1982x10 18.3 5103x10 19.5 6204x10 21.4 8595x10 24.3 109216 mm2flexible F-mG10/LSZH1x16 11.8 2732x16 21.5 7293x16 22.9 8974x16 25.2 1107
5x16 28.1 130125 mm2flexible F-mG10/LSZH1x25 13.7 3852x25 25.4 11203x25 27.2 13214x25 30.2 14755x25 33.5 2073
approximate values
FIRECEL SR 145FlexibleMica/G10 Insulation
FTG10OM1 0.6/1 kV
(F-mG10/LSZH 0.6/1 kV)
ApplicationsPower supply and signals trasmission, indoors oroutdoors even wet environment.For xed laying in free air, in pipe or conduit, onmasonry and metal structures or suspended.In places where in case of re people are exposedto serious risks for emission of smoke, toxic andcorrosive gases and where you want to avoiddamage to facilities, equipment, goods.Suitable for feeding of: emergency exits, alarmsignals, warning of smoke or gas, escalators.Suitable for laying underground direct or indirect.
Operating temperature-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable constructionConductorsPlain annealed copper wire, exible according to EN 60228 class 5.
InsulationMica/Glass re resistant tape covered by extruded cross-linked compound type G10.
CablingInsulated cores are cabled together.
Outer sheath
LSZH thermoplastic compound type M1.Colour blue (other colours on request).
Colour code to HD 308Without earth conductor2 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey5 cores blue - brown - black - grey - blackAbove 5 cores black numberedWith earth conductor3 cores yellow/green - blue - brown4 cores yellow/green - brown - black - grey5 cores yellow/green - blue - brown - black - greyAbove 5 cores yellow/green - black numbered
Applicable StandardsBasic design CEI 20-45Fire resistant EN 50200 (PH90) / EN 50362 (PH90) / IEC 60331-21Flame retardant EN 60332-1-2Fire retardant EN 50266-2-4 (cat. C)Acid gas emission EN 50267-2-1Smoke density EN 61034-2Toxicity CEI 20-37/4-0
Fire Resistant Cables
Cavicel, Conducting Value 29
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FIRECEL SR 140Mica/XLPE Insulation
Armoured
R-mXLPE/LSZH/SWA/LSZH
0.6/1 kV
ApplicationsPower supply and signals trasmission, indoors
or outdoors even wet environment.
For xed laying in free air, in pipe or conduit, on
masonry and metal structures or suspended.
In places where in case of re people are
exposed to serious risks for emission of smoke,
toxic and corrosive gases and where you want
to avoid damage to facilities, equipment, goods.
Suitable for feeding of: emergency exits, alarm
signals, warning of smoke or gas, escalators.Suitable for laying underground direct or
indirect.
Operating temperature-40C to +90C
Minimum bending radius12 times the outer diameter.
Cable construction
ConductorsPlain annealed copper wire, stranded according to EN 60228 class 2.
InsulationMica/Glass re resistant tape covered by extruded cross-linked XLPE compound.
CablingInsulated cores are cabled together.
BeddingLSZH thermoplastic material.
ArmourSingle layer of galvanized steel wires (SWA).
Outer sheathLSZH thermoplastic material.Colour black (other colours on request).
Colour code to HD 3082 cores blue - brown3 cores brown - black - grey4 cores blue - brown - black - grey7 cores and above white numbered
Applicable StandardsBasic design BS 7846Fire resistant BS 7846 (cat. F2) / BS 6387 (cat. C-W-Z) /
EN 50200 (PH60)Flame retardant EN 60332-1-2Fire retardant EN 50266-2-4 (cat. C)Acid gas emission EN 50267-2-1Smoke density EN 61034-2
N of cond. x cross section
(mm2)
Diameter under
armour (mm)
Outer diameter
(mm)
Weight
(kg/km)
1.5 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x1.5 8.8 13.8 364
3x1.5 9.8 14.8 418
4x1.5 10.6 15.6 460
7x1.5 12.8 18.2 607
12x1.5 16.8 23.1 98819x1.5 19.4 26.4 1390
27x1.5 23.3 30.5 1760
37x1.5 26.4 34.0 2175
2.5 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x2.5 9.6 14.6 416
3x2.5 10.7 15.7 480
4x2.5 11.2 16.2 514
7x2.5 13.8 19.9 818
12x2.5 18.2 25.4 1312
19x2.5 21.4 28.8 1705
27x2.5 25.8 33.4 2180
37x2.5 29.2 37.8 2950
4 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x4 11.1 16.1 510
3x4 11.8 16.8 570
4x4 12.9 17.9 649
7x4 15.6 21.7 1004
12x4 20.9 28.1 1642
6 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x6 12.3 17.3 600
3x6 13.1 18.1 680
4x6 14.4 20.5 927
10 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x10 14.9 19.9 800
3x10 16.1 22.2 1078
4x10 17.7 23.8 1256
16 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x16 17.1 22.5 1034
3x16 18.3 24.4 1354
4x16 20.2 26.5 1625
25 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x25 20.3 26.6 1530
3x25 21.8 28.8 19724x25 24.1 31.3 2355
35 mm2stranded R-mXLPE/LSZH/SWA/LSZH2x35 22.7 29.9 2055
3x35 24.3 31.7 2450
4x35 27.0 34.4 2943
approximate values
Fire Resistant Cables
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SLO-FR
-A5
SLO - MLOLoose Buffered Cables
Single Tube SLO-000-**-M1-A5-FR
SLO-000-**-M1-A1-FR
Multi Tube
MLO-000-**-M1-A5-FR MLO-000-**-M1-A3-FR MLO-000-**-M1-A1-FR (DNV-QFCI)
ApplicationsThese cables are mainly used inside buildings,tunnels or closed areas in general, are designed andmanufactured to guarantee the signal transmissioneven in case of re, thus safeguarding the operationof the safety systems or of particularly critical and
high speed connections.
Temperature range-40C to +90C
Minimum bending radius10 times the outer diameter.
Cable construction
FibresSinglemode and multimode bres, with loose technology coating.
Structure For type SLO-FR the jelly lled tube containing the bres is reinforced with glassyarns and is wound with a ame resistant tape.
For type MLO-FR the jelly lled tubes containing the bres are individuallywound with a mica tape and are cabled around a central steel or FRP(breglass reinforced plastic) element. When necessary glass yarn is the tractionelement. A ame resistant tape improves re resistance.
Inner sheath (only for A1 and A3 armoured cables)LSZH thermoplastic compound.
ArmouringA1 Galvanized steel wire braidA3 Corrugated steel tapeA5 Anti-rodent glass yarns
Outer sheathLSZH thermoplastic compound.Colour orange (other colours on request).
Applicable Standards
Optical fibre characteristics IEC 60793-1 / IEC 60794-1Fire resistant IEC 60331-25Flame retardant EN 60332-1-2 / IEC 60332-1-2Fire retardant EN 50266-2-4 (cat. C) / IEC 60332-3-24 (cat. C)Acid gas emission EN 50267-2-1 / IEC 60754-1 EN 50267-2-2 / IEC 60754-2Smoke density EN 61034-2 / IEC 61034-2
Available upon request Armouring:A7 - Steel wire armour
Fire ResistantFibre Optic Cables
Cavicel, Conducting Value 31
Tube diameter (mm)Outer diameter
(mm)Weight(kg/km)
-**- number of fibres SLO-000-**-M1-A5-FR
2 12 2.7 8.0 70
16 24 3.5 9.0 80
-**- number of fibres SLO-000-**-M1-A1-FR
2 12 2.7 11.5 160
16 24 3.5 12.0 180
-**- max number of fibres MLO-000-**(n)-M1-A5-FR
72 2.0 15.0 230
96 2.0 16.5 250
144 2.0 20.5 280
-**- max number of fibres MLO-000-**(n)-M1-A3-FR
72 2.0 15.0 280
96 2.0 17.5 310144 2.0 21.5 350
-**- number of fibres MLO-000-**(n)-M1-A1-FR (DNV-QFCI)
4 24 2.5 13.5 230
36 48 3.0 14.5 250
approximate values
SLO-FR
-A1
MLO-FR
-A5
MLO-F
R-A
1(DNV-Q
FCI)
MLO-FR
-A3
Test Report
WARRES N. L18679
Approved by:
NEK 606DNV Certicate
N. E-9136
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BS 6387
Following tests are carried out to verify if a cable is capable of maintainingcircuit integrity under re condition, re with water, and re with mechanicalshocks.During the tests the cables are maintained at their rated voltage.
Fire Resistance (Cat. A B C S)The cable is exposed to re at thespecied temperature and time.
Fire and Water Resistance(Cat. W)
The cable is exposed for 15 minutesto ame at 650C and for additional15 minutes to re and water spray.
Fire Resistance with MechanicalShocks (Cat. X Y Z)
The cable is mounted on a verticalpanel and shocked with a steel barfor 15 minutes while submitted tothe action of a ame.
Performance Table
Test Category
Fire Resistance
650 C for 3 hours A
750 C for 3 hours B
950 C for 3 hours C
950 C for 20 minutes S
Resistance to Fire and Water
650 C W
Resistance to Fire with Mechanical Shock
650 C X
750 C Y
950 C Z
BS EN 50200
Fire ResistanceThis test is carried out to verify thecircuit integrity of cables exposed
to re at 830C and mechanicalshocks.
Classification
PH 15 ame exposure for 15 min
PH 30 ame exposure for 30 min
PH 60 ame exposure for 60 min
PH 90 ame exposure for 90 min
PH 120 ame exposure for 120 min
BS EN 50200 Annex E(Standard Cable - BS 5839-1 - Clause 26.2d)
Fire ResistanceThis test is carried out to verify circuitintegrity during a re. The cable isexposed to a ame at 830C andmechanical shocks for 15 minutesand additional 15 minutes to ame,mechanical shocks and water spray.
BS 8434-2
(Enhanced Cable - BS 5839-1 - Clause 26.2e)Fire Resistance
This test is carried out to verify circuitintegrity during a re. The cable isexposed to a ame at 930C andmechanical shocks for 60 minutesand additional 60 minutes to ame,mechanical shocks and water spray.
Fire TestsCables have to be properlydesigned, manufactured and also tested.
Many tests are carried out during manufacturing or as nal inspections.
Many of them are attended by customers or third part inspectors.
The tests are part of R&D, an extremely strategic activity for a Company
and this is the reason why CAVICEL has invested in this eld.
You can nd here the maintests concerning the behaviour of cables
under re conditions, and our main test equipments.
It is important to verify all required performances and give the customers
the full compliance to the requirements.
CAVICEL is proud of its own laboratories and customersare always
welcome to visit them.
Fire Resistant Cables
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IEC 60331, CEI 20-36
Fire ResistanceThis test is carried out to verify circuitintegrity even during a re. A sampleof cable is held on a ame at about750C for a period of minimum 90min, under rated voltage. No breakor short circuit should occur. The
test can also be performed in moresevere conditions, up to 1100 C.Fibre optic cables can be tested insame conditions, monitoring theattenuation of the signal of one ormore bres.
ClassificationCEI 20-36/2-1 IEC 60331-21 Electrical cables up to 0,6/1 kVCEI 20-36/2-3 IEC 60331-23 Data cablesCEI 20-36/2-5 IEC 60331-25 Fibre optic cables
NF C 32-070
Fire ResistanceThis test is carried out to verify circuitintegrity during a re. The cable isinto a tubular oven with graduallyincreasing of temperature up to920C. The cable is stressed bymechanical shocks and subjected totensile strength.
BS EN 60332-3, IEC 60332-3, CEI 20-22/3
Fire Propagation Test on BunchedCablesSamples of cables 3,5 m long inquantities required by standard areinstalled on a ladder inside a metalliccabinet. They are subjected to theaction of a ame at 750C for a
specic time (20 or 40 minutes).Cables must not burn for more than2,5 m.
BS EN 60332-1, IEC 60332-1, CEI 20-35/1BS EN 60332-2, IEC 60332-2, CEI 20-35/2, for smalldiameter cables
Flame Propagation Test on aSingle Cable
A 60 cm long sample of cable isvertically xed with two clampsinside a small cabin, open on thefront. The cable is subjected to theaction of a ame produced by acalibrated Bunsen burner.
The application time of the ame isaccording to the cable diameter(60-480 seconds). At the end of thetest the burnt portion of cable mustnot be 50 mm close to the higherclamp.
BS EN 50267-2-1, IEC 6