Transcription
Fiber Optic CablesAssemblies, Connectors and AccessoriesThe Quality Connection
LEONI Fiber OpticsLEONI Fiber Optics is your specialist for the fiber optics you use inyour industrial applications. Our product range includes POF (plastic)and PCF cables, ready-made cables, connectors and accessories.In addition to supplying these hardware items, we would also bepleased to advise you on any issues relating to active components thatmay arise during the development of your fiber optic system. You cancount on the more than ten years of experience that we have accumulated in the development of fiber optic systems (and which is not limited to POF and PCF fiber optics). We also work very closely with the POFApplications Center at the University of Applied Sciences in Nuremberg.We actively and regularly participate in conferences in this specialistarea, and we remain in close contact with other companies in the industry. This network gives us access to a wealth of knowledge and experience, which is an advantage that our customers value very highly.Edition: September 2007Subject to change and error.
Your specialist for fiber opticsContentsLEONI has been involved in the development and production of plasticfiber optic cables for quite some time. The LEONI iQ-LINE product linewas introduced primarily to provide an optimal solution for the industrialapplications market.PrefaceQuality & environmental managementJacket materialAttenuation testLabelling codePart number codes for odering456789POFCablesFiber specificationsConnectors101820PCFCablesFiber specificationsConnectors243032Quartz fiber from UV to IRCablesFiber specificationsConnectors364045Assembly toolsStripping toolsCrimp and cleave toolsPolishing toolsMeasuring equipmentTermination kit4647485052LEONILEONI serviceLEONI also produces 5455LEONI Fiber Optics GmbH evolved from the FO-Systems GmbH company,a wholly owned subsidiary of LEONI. Our team at LEONI Fiber Optics combines expertise acquired through many years of experience in developing,producing and distributing fiber optic cables as well as through in-depthexchange of ideas on-site with our customers about their applicationrequirements.The term “fiber optic” comprises fibers for telecommunications applications and fiber optic cables made of polymer or glass/polymer combinations, an area that is becoming increasingly interesting. By specialising inand pooling such extraordinary areas of expertise we are responding notonly to the current market trend, but are also able to provide professionalsupport in all areas of fiber optic technology.In addition to our line of standard products, which continue to deliverdependable performance in the field, we can also offer you tailored cablesolutions to meet your exact requirements.This catalogue is intended to give you an initial look at what wehave to offer in the field of fiber optics. We would be pleased toprovide any advice you might need.
LEONI Fiber OpticsPreface Quality and environmental managementwww.leoni-fiber-optics.com4Plastics are attracting increasing attention as a means to transmit information.Pure fiber optics (POF – polymer optical fiber) and plastic-coated glass fiberoptics with step index profile have been on the market for years.POF & PCFThe futuretransmissionmediaPlastics are attracting increasing attention as a means to transmitinformation. Pure polymer optical fibers (POF) and polymer claddedsilica fibers (PCF) with step index profile have been on the market foryears. They have been used primarily in high-range digital audio systems, the automotive industry, some segments of lighting technology,medical technology, and on bus systems in industrial applications.Bus system applications are found primarily where there are significant EMC issues and the transmission path is relatively short.Compared to conventional glass fiber optics, plastic fiber optics havethe advantage of greater flexibility (high alternate bending stress withsmall bend radii), and they are also a low-cost connection and transmission solution. These factors are particularly important in mechanical engineering and automation applications. Polymer fiber optics alsohave all the essential properties – including low EMC susceptibility,perfect galvanic isolation, low susceptibility to electronic surveillance,no cross talk, low weight, etc. – that are generally associated withfiber optics.Compared to common single-mode and multi-mode fiber optics,polymer fiber optics have a higher attenuation, which reduces theirrange, and they have a smaller bandwidth. The latest developments(e.g. gradient index POF), which are currently in the market introduction phase, show that there is still significant potential for improvedperformance. With the introduction of Ethernet technology and LANnetworking in industrial applications, designers and planners havebeen taking a closer look at POF and PCF.The distances that can now be bridged are 70 m for POF fibers and500 m for PCF fibers, regarded as sufficient for industrial applications.If you consider that the average length from the floor distributionboard to a workstation in a local network is 45 m, then it would appear that using POF/PCF is not so unrealistic. Solutions are alreadyavailable for small office and home networks.Once the necessary hardware is available in sufficient quantities and atan affordable price, POF/PCF will certainly become an attractive optionin many office networks. Despite the drive towards higher and higherbandwidths, 125 Mbit/sec Ethernet connections will be adequate formost applications in the near future, especially if the user focuses onthe cost-benefit aspect.The “LEONI iQ-LINE” offers you various cable designs using plastic orPCF fiber optics to enhance our existing broad range of fiber opticcables and to allow you to select the best transmission medium foryour application.
Quality managementEnvironment managementCurrent certificates:ISO TS 16949,DIN EN ISO 9001:2000,DIN EN ISO 14001We must consistently maintain the high quality level of our products.To accomplish this, we permanently monitor the entire process, fromplanning right through to the final production step of a product. Ourquality management system has been certified to DIN/ISO 9001 andQS 9000/VDA 6.1.LEONI iQ-LINE – Innovative Quality SurveillanceAll cables that leave our factory are tested to ensure that they complywith attenuation specifications. We are one of the few manufacturersworldwide who use a method which enables us to measure attenuation over a length of 500 m. This reduces measurement errors, and itallows us to produce longer cables.Information printed on the cable includes a combination of productionorder and drum number that provides complete traceability for theproduction process, starting from incoming inspection of the fibersright through shipment of the cable. Years later we will still be able torecall, for example, the parametric measurement data for a particularcable.We see no conflict between business success and responsibility forthe environment. As a corporation with production facilities aroundthe globe, we recognize our responsibility to make our contributionto preserving the natural basis for life. We attempt to strike a balancebetween what is good for the environment and what is good for thecompany. This makes environmental protection a compulsory elementof our corporate activities.We encourage our business partners to act according to the sameenvironmental guidelines we use, and we provide advice to our customers about how to use and dispose of our products in a way that isgentle on the environment.Our environment management system, which has been certified toDIN EN ISO 14001, ensures that our environmental policy is effectivelyimplemented.5
LEONI Fiber OpticsJacketing material Attenuation testJacketing materialwww.leoni-fiber-optics.com6Core sheath (POF only)material propertiesnon-aginghalogen-freenon-flammabilityPE –––excellentgooddepends on recipeweakinadequate1) increase in UV resistance by addition ofblack color pigments or UV stabilizers2) permeation depends on type of gas,e.g. Ar, CH4, N2, O2 low gas permeation,CO2, H2, He higher gas permeation3) low swelling in saturated hydrocarbons;significant swelling in aromatic hydrocarbons and aliphatic esters causeswelling, highly polar organic solventsdissolve causing extreme swelling4) swelling in aliphatic and aromatic hydrocarbons and in chlorinated hydrocarbons5) not resistant to chlorinated hydrocarbons,resistant to hydrocarbons and aliphaticand aromatic solventslow fume generationlow emission of corrosive gasesPVCCable sheath materialTPE-O(FRNC)TPE-U(PUR)PVC PE –– –– – –/ – – –/ – – – /– – /–elasticityabrasion resistancePA – –/ – –– –/ / –– –– / low fume toxicity / –– –– / no toxicological risk / – – / TPE-O(FRNC)TPE-U(PUR)1)1)1)–– –2)general resistance toPEPAPVC1) water absorption –– gas diffusion UV lightfuelspetroleum/lubricantsPVCPE1) /– – /– – 4) 5)–– 3)– 4)alcohol –– oxidants–– –– –organic solventsacids – –– alkaline solutions –– saline solutions – – Balancing application and fire protection criteriaThe core and sheath materials are designed to protect the fiber(s) frommechanical, thermal or chemical effects and prevent the penetrationof moisture. On the other hand, in case of fire the materials should notspread the fire and there should be no build up of toxic and corrosivefumes. Halogen-free and flame-retardant materials should be used toprotect equipment, buildings and above all people. PUR and PVC arethe solution of choice for use in hard industrial environments becauseof their high resistance to oil and their abrasion resistance. PE is commonly used as a sheath material in outdoor applications.It is difficult to fulfill all the requirements with just one sheath material. To find the best solution given the conditions on-site, LEONI offersa choice of standard materials.If your application criteria cannot be meet with the cable designs andmaterials that appear in this catalogue, please contact us. It is oftenpossible to meet additional requirements by making specific changesto the sheath design (for example, aluminum tape or special materialmixtures).
Attenuation test71. Reference measurementMeasure the light power after the reference cable – PS in [dBm]opticaltransmittersee table for reference cable (fiber type should match the type of fiber to be tested)opticalpower meterbasic device with adapter or availabletransmitter with continuous light2. Measurement of the cable under testMeasure light power at the remote end of the cable under test – PL in [dBm]opticaltransmittercable under testopticalpower meterbasic device with adapter or availabletransmitter with continuous light3. Analysis3.1 Attenuation A PL – PS3.2 Attenuation coefficient α A— dB/km (L stands for length of the cable under test in km)L4. Comparison with allowable threshold4.1 AttenuationFind the maximum allowable attenuation in the description of the system you are using. This valuemust always be greater than attenuation A which you measured. You should leave a reserve of 3 dB.4.2 Attenuation coefficientαmax for POF typ. 230 dB/km at 660 nmαmax for PCF typ. 10 dB/km at 660 nmtyp. 8 dB/kmat 850 nmThe method described above gives you a simple and quickway how to determine the attenuation of a ready-made cable.Measuring attenuation– an uncomplicatedmethod for use inpractical applicationsTipIf you use PCF fiber optics in systems for POF,in other words 660 nm and your system is notexplicitly specified for PCF fibers, proceed asfollows: use a POF cable instead of a PCF cableas a reference cable attenuation:A PL (PCF cable) – PS (POF reference)In our analysis (4.1), the maximumallowable attenuation must be greaterthan the attenuation you have measured.Experience shows that this method is one ofthe most reliable, but you cannot determinethe attenuation coefficient (3.2) in this way.It is better to use the transmitter that is builtinto the system (and not the transmitterdescribed above).Reference cablefor attenuation measurementOrder No.Connector typeFiber typeKXST-XST 11001mST (BFOC)POFKSMA-SMA OFKXST-XST72001mST KHPS-HPS72001mHPPCF
LEONI Fiber OpticsLabelling code for LEONI iQ-LINE POF and PCF cableswww.leoni-fiber-optics.com8Labelling code Part number codes for oderingPOF cablesPCF cables1Product codeA- Outdoor-cable AT- Breakout-cable I- Indoor-cable1Product codeA- Outdoor-cable AT- Breakout-cable I- Indoor-cable2VTight-buffered construction2VTight-buffered construction3Material of the inner jacket4Y PA 2Y PE Y PVC3(ZN) Non-metallic pull elements(can also be at pos. 2, if a pull element is in center)4(ZN) Non-metallic pull elements(can also be at pos. 2, if a pull element is in center)4Material of the outer jacket11Y PUR 2Y PE Y PVCH Halogen-free and flame retardant5Material of the outer jacket11Y PUR 2Y PE Y PVCH Halogen-free and flame retardant56Number of fibersresp. (no. of tubes) x (no. of fibers per tube) (n x m)Number of fibers7PPMMA-Fiber with step index profile6KPolymer cladded fibers with step index profile8Core diameter(980 µm)7Core diameter(200 µm)9Cladding diameter(1000 µm)8Cladding diameter(230 ength(A 650 nm)12Bandwidth(MHz x 100 m)13Supplemental informatione.g. hybrid cables10Wavelength(A 650 nm B 850 nm)11Bandwidth(MHz x km)12Supplemental informatione.g. hybrid cablesShort type identifiers for POF and PCF cables, according to DIN VDE 0888 Parts 3 to 6 (3/96).
Part number codes for ordering ready-made fiber-optic cableswww.leoni-fiber-optics.comK9–connector type side Aconnector type side Be.g.BFOC (ST ) XSTFSMASMAHP, simplexHPSHP, duplexHPDF05, TOSLINK compatibleFO5F07, TOSLINK compatibleFO7POF/PCF cable typese.g.I-V(ZN)Y 1K200/230A-V(ZN)11Y 1K200/23072743-digit lengthe.g. 128, 010, unit of measurementmm, cm, m The connectors shown are available for POF and PCFShipping packagingup to 100 m as a ring 100 m on a disposable drumQuality AssuranceThis is used to determine opticalattenuation. The result is shown onthe label.IdentificationWe use cable markers to identify thefiber optic cables according to yourinstructions.Sample order:K SMA-F05 22 325 cm3.25 meters, simplex connecting cable(cable type: I-V2Y(ZN)11Y 1P980/1000,PMMA fiber with PE coating, aramidestrain relief and PUR outer jacket)pre-assembled with FSMA connectorand F05 connector
POFCableswww.leoni-fiber-optics.com10POF – Polymer Optical FibersPolymer optical fiber (POF) is a pure plastic fiber that consists of a transparent core and a cladding, which has a smaller refraction index than the corematerial. Compared to silica fiber, POF has much higher attenuation valuesand a larger diameter of 980/1,000 µm. The standard POF has a 2.2 mmdiameter fiber jacket. It is economical, lightweight, easy to install and, justlike optical fiber, does not have any problems with EMC as well as makingclean galvanic isolation possible.V-2Y 1P980/1000Order No.: 84A00100S000Code no.:11Application:POF CablesPOFs enable data to be transmitted at up to 125 Mbit/s over distances of upto 70 m, which is normally sufficient for industrial environments and smalleroffice as well as home networks. It is even possible to cover distances up to150 m by selecting suitable active components.Assembly:Length:for simple mechanical loaddirect connector pre-assembly2100 mV-2Y 1P980/1000POF cables are available for both indoor andoutdoor applications. We offer many different designs to meet the large variety ofapplications in the industrial environment.Special requirements in terms of flexibility,resistance to oil, resistance to UV-light,halogen-free or flame-retardant propertiesare met by selecting suitable materials.ConstructionFiber sheath materialNumber of POF elementsOuter diameterPE12.2 mmMechanical propertiesBending radius min.Tensile strength max.short term25 mmduring operation25 mmshort term15 Nduring operation5NWeightapprox. 3.8 kg/kmAmbient temp. during operation–55 C to 85 CTransfer characteristicsAttenuationat 650 nm (Laser) 160 dB/kmat 660 nm (LED) 230 dB/km
www.leoni-fiber-optics.com11V-Y 1P980/1000Order No.: 84A00200S777Code no.:14Application:Assembly:Length:for simple mechanical loaddirect connector pre-assembly500 mV-4Y 1P980/1000Order No.: 84A00300S000Code no.:12Application:Assembly:Length:for strong mechanical loadand highly flexible applicationswith small bending radiidirect connector pre-assembly5000 mV-4Y 1P980/1000Order No.: 84A00300S262Code no.:16Application:Assembly:Length:for strong mechanical loadand highly flexible applicationswith small bending radiidirect connector pre-assembly500 mV-2Y 2x1P980/1000Order No.: 84B00100S000Code no.:13Application:Assembly:Length:for simple mechanical loaddirect connector pre-assembly500 mV-Y 1P980/1000V-4Y 1P980/1000V-4Y 1P980/1000V-2Y 2x1P980/1000PVCPAPAPE11122.2 mm2.2 mm2.2 mm2.2 x 4.4 mmshort term25 mmshort term20 mmshort term20 mm(over flat side)short term25 mmduring operation25 mmduring operation20 mmduring operation20 mmduring operation25 mmshort term15 Nshort term60 Nshort term60 Nshort term20 Nduring operation5Nduring operation10 Nduring operation10 Nduring operation10 Napprox. 3.8 kg/kmapprox. 4.3 kg/kmapprox. 4.3 kg/kmapprox. 7.6 kg/km–40 C to 85 C–55 C to 85 C–55 C to 85 C–55 C to 85 Cat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 160 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 230 dB/km
POFCableswww.leoni-fiber-optics.com12I-V4Y(ZN)11Y 1P980/1000 HEAVY84C00100S333Code no.:21Order No.:Application:Assembly:Length:in harsh industrial environment,suitable for drag chaindirect connector pre-assembly500 mI-VY(ZN)Y 1P980/1000Order No.: 84C00200S333Code no.:26Application:Assembly:Length:POF Cablesflexible applications withinranges with small dynamicstressdirect connector pre-assembly500 mI-V2Y(ZN)11Y 1P980/1000Order No.: 84C00800S333Code no.:23Application:Assembly:Length:flexible applications withinranges with small dynamicstressdirect connector pre-assembly500 mI-V4Y(ZN)11Y 1P980/1000 HEAVYI-VY(ZN)Y 1P980/1000I-V2Y(ZN)11Y 1P980/1000Fiber sheath materialPAPVCPEOuter jacket materialPURPVCPUR1116.0 mm3.6 mm3.6 mmConstructionNumber of POF elementsOuter diameterMechanical propertiesBending radius min.Tensile strength max.short term50 mmshort term70 mmshort term70 mmduring operation30 mmduring operation50 mmduring operation50 mmshort term500 Nshort term250 Nshort term250 Nduring operation200 Nduring operation100 Nduring operation100 NWeightapprox. 32 kg/kmapprox. 12 kg/kmapprox. 11 kg/kmAmbient temp. during operation–20 C to 70 C–20 C to 70 C–20 C to 70 CTransfer characteristicsAttenuationat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 190 dB/kmat 650 nm (Laser) 160 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 290 dB/kmat 660 nm (LED) 230 dB/km
www.leoni-fiber-optics.com13I-V2Y(ZN)11Y 1P980/1000Order No.: 84C01000S333Code no.:22Application:Assembly:Length:in harsh industrial environment,suitable for drag chaindirect connector pre-assembly500 mI-V2Y(ZN)HH 2x1P980/1000Order No.: 84D00900S222Code no.:32Application:Assembly:Length:flexible applications withinranges with small dynamicstress, for fix installationdirect connector pre-assembly500 mI-V2Y(ZN)H 2x1P980/1000Order No.: 84D03000S222Code no.:31Application:Assembly:Length:flexible applications withinranges with small dynamicstress, for fix installationdirect connectorpre-assembly500 mPMMA fiberFiber jacketStrain relief elementsPURouter jacketI-V2Y(ZN)11Y 1P980/1000I-V2Y(ZN)HH 2x1P980/1000I-V2Y(ZN)H 2x1P980/1000PEPEPEPURFRNCFRNC1226.0 mm4.7 x 8.2 mm3.6 x 7.5 mmshort term70 mm(over flat side)short term70 mm(over flat side)short term70 mmduring operation50 mmduring operation50 mmduring operation50 mmshort term400 Nshort term400 Nshort term400 Nduring operation100 Nduring operation100 Nduring operation100 Napprox. 32 kg/kmapprox. 43 kg/kmapprox. 28 kg/km–20 C to 70 C–20 C to 70 C–20 C to 70 Cat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 190 dB/kmat 650 nm (Laser) 190 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 290 dB/kmat 660 nm (LED) 290 dB/km
POFCableswww.leoni-fiber-optics.com14I-V4Y(ZN)11Y 2P980/1000 HEAVY84D01100S333Code no.:24Order No.:Application:Assembly:Length:in harsh industrial environmentdirect connector pre-assembly500 mI-V2Y(ZN)Y 2P980/1000Order No.: 84D01600S333Code no.:33Application:Assembly:Length:POF Cablesflexible applications withinranges with small dynamicstress, for fix installationdirect connector pre-assembly500 mI-V2Y(ZN)11Y 2P980/1000Order No.: 84D02000S333Code no.:34Application:Assembly:Length:in harsh industrial environmentdirect connector pre-assembly500 mI-V4Y(ZN)11Y 2P980/1000 HEAVYI-V2Y(ZN)Y 2P980/1000I-V2Y(ZN)11Y 2P980/1000Fiber sheath materialPAPEPEOuter jacket materialConstructionPURPVCPURNumber of POF elements222Number of Cu elements0006.0 mm6.0 mm5.6 mmOuter diameterMechanical propertiesBending radius min.Tensile strength max.short term60 mmshort term90 mmshort term90 mmduring operation40 mmduring operation60 mmduring operation60 mmshort term500 Nshort term400 Nshort term400 Nduring operation200 Nduring operation100 Nduring operation100 NWeightapprox. 33 kg/kmapprox. 54 kg/kmapprox. 28 kg/kmAmbient temp. during operation–20 C to 70 C–20 C to 70 C–20 C to 70 CTransfer characteristicsAttenuationat 650 nm (Laser) 160 dB/kmat 650 nm (Laser) 200 dB/kmat 650 nm (Laser) 200 dB/kmat 660 nm (LED) 230 dB/kmat 660 nm (LED) 290 dB/kmat 660 nm (LED) 290 dB/km
www.leoni-fiber-optics.com15I-V2Y(ZN)11Y 2P980/1000 FLEX84D00500S333Code no.:25Order No.:Application:Assembly:Length:in harsh industrial environmentsuitable for drag chaindirect connector pre-assembly500 mThe dummy elements can be replacedwith Cu elements.I-V4Y(ZN)11Y 2P980/1000 FLEX84D00300S383Code no.:36Order No.:Application:Assembly:Length:in harsh industrial environmentsuitable for drag chaindirect connector pre-assembly500 mThe dummy elements can be replacedwith Cu elements.I-(ZN)V2Y11Y 2P980/1000 2x1,0qmmOrder No.: 84D00600S333Code no.:29Application:Assembly:Length:in harsh industrialenvironmentsuitable for drag chaindirect connectorpre-assembly500 mPMMA fiberFiber jacketFillersStrain relief elementsFleece tapeRipcordI-V2Y(ZN)11Y 2P980/1000 FLEXI-V4Y(ZN)11Y 2P980/1000 FLEXI-(ZN)V2Y11Y 2P980/1000 2x1,0qmmPEPAPEPURPURPUR2220026.4 mm8.0 mm7.5 mmshort term90 mmshort term60 mmshort term90 mmduring operation60 mmduring operation40 mmduring operation60 mmshort term200 Nshort term400 Nshort term200 Nduring operation100 Nduring operation100 Nduring operation100 Napprox. 30 kg/kmapprox. 55 kg/kmapprox. 62 kg/km–20 C to 70 C–20 C to 70 C–20 C to 70 Cat 650 nm (Laser) 220 dB/kmat 650 nm (Laser) 190 dB/kmat 650 nm (Laser) 220 dB/kmat 660 nm (LED) 350 dB/kmat 660 nm (LED) 290 dB/kmat 660 nm (LED) 350 dB/kmPURouter jacket
POFCableswww.leoni-fiber-optics.com16AT-(ZN)V2Y2Y 2P980/1000Order No.: 84D02500S000Code no.:37Application:Assembly:Length:POF Cablesoutbreak cable for fixoutdoor installationdirect connector pre-assembly500 mI-(ZN)V4Y11Y 2P980/1000Order No.: 84D02800S333Code no.:38Application:Assembly:Length:in harsh industrial environment,suitable for drag chaindirect connector pre-assembly500 mInstead of the dummy elements, additionalPOF or Cu elements can be stranded.AT-(ZN)V2Y2Y 2P980/1000I-(ZN)V4Y11Y 2P980/1000Fiber sheath materialPEPAOuter jacket materialPEPUR22ConstructionNumber of POF elementsNumber of Cu elementsOuter diameter027.0 mm7.5 mmMechanical propertiesBending radius min.Tensile strength max.short term90 mmshort term70 mmduring operation60 mmduring operation50 mmshort term200 Nshort term400 Nduring operation100 Nduring operation100 NWeightapprox. 33 kg/kmapprox. 42 kg/kmAmbient temp. during operation–25 C to 70 C–20 C to 70 CTransfer characteristicsAttenuationat 650 nm (Laser) 220 dB/kmat 650 nm (Laser) 190 dB/kmat 660 nm (LED) 350 dB/kmat 660 nm (LED) 290 dB/km
www.leoni-fiber-optics.com17I-V4Y11Y 4P980/1000 Order No.:84E00200S333Code no.:39Application:Assembly:Length:in harsh industrialenvironment,suitable for drag chaindirect connector pre-assembly500 mI-(ZN)V4Y11Y 2P980/1000 4x1,5qmmOrder No.: 84D01400S444Code no.:41I-(ZN)V4YY 2P980/1000 3x1,5qmmOrder No.: 84D01800S707Code no.:42in harsh industrial environment,suitable for drag chainAssembly: direct connector pre-assemblyLength:500 mThe number of PMMA, Cu or possibledummy elements can vary.Application:Application:for flexible applicationswithin ranges with small dynamic stressAssembly: direct connector pre-assemblyLength:500 mThe number of PMMA, Cu or possibledummy elements can vary.PMMA fiberStrain reliefFiber jacketCu elementsFillerI-V4Y11Y 4P980/1000I-(ZN)V4Y11Y 2P980/1000 4x1,5qmmI-(ZN)V4YY 2P980/1000 3x1,5qmmPAPAPAPURPURPVC4220437.5 mm10.6 mm10.7 mmshort term70 mmshort term110 mmshort term110 mmduring operation50 mmduring operation70 mmduring operation70 mmshort term500 Nshort term400 Nshort term200 Nduring operation200 Nduring operation100 Nduring operation100 Napprox. 42 kg/kmapprox. 146 kg/kmapprox. 132 kg/km–20 C to 70 C–20 C to 70 C–20 C to 70 Cat 650 nm (Laser) 190 dB/kmat 650 nm (Laser) 230 dB/kmat 650 nm (Laser) 230 dB/kmat 660 nm (LED) 290 dB/kmat 660 nm (LED) 330 dB/kmat 660 nm (LED) 330 dB/kmPURouter jacket
POFFiber SpecificationsFiber TypeStandardStandard POF is made of a super pure polymethylmethacrylate (PMMA) fibercore, which is cladded with a sheath of flouropolymer. The large fiber corefacilitates coupling to transmitter and receiver elements and allows the useof low-cost connector systems some of which have been specially developedfor plastic fiber optics.polymer claddingPMMA coreLEDs in the wavelength range of 650 670 nm are used as transmitterelements. POF has a relative attenuation minimum of 160 dB/km in this range.The attenuation can be increased slightly (up to 200 dB/km for example)depending on the cable design. PIN diodes are used as receivers at the otherend of the transmission path.POF FiberSpecificationsBecause of the attenuation, the link length is typically limited to less than100 m. Nowadays, green LEDs are used to get a smaller attenuation of about100 dB/km.50090400Typical valuesTransmission/m [%]Attenuation 00550600650Wavelength [nm]Standard POFDescriptionDescription IEC 1470/1500P1960/2000Geometric/thermal propertiesCore diameter980 60 µm240 23 µm486 30 µm735 45 µm1470 90 µm1960 120 µmCladding diameter1000 60 µm250 23 µm500 30 µm750 45 µm1500 90 µm2000 120 µm–55 C to 85 C–55 C to 70 C–55 C to 70 C–55 C to 70 C–55 C to 70 C–55 C to 70 C650 nm650 nm650 nm650 nm650 nm650 nm160 dB/km300 dB/km200 dB/km180 dB/km180 dB/km180 dB/km0.50.50.50.50.5Working temperatureTransmission propertiesWavelengthAttenuation max.Min. bandwidth (MHz x 100 m)10Numerical aperture0.5
Fiber TypeSpecialAttenuation [dB/km]With increasing NA the acceptance angle of the signal coupled in increases,too. Therefore, the power budget of the system can be increased for transmitters with broad angle emission. The same fiber and jacket dimension likethe standard POFs allows an easy assembly of low-cost connectors.These fibers are developed for temperatures up to 105 C.Short term temperatures application of up to 115 C producesonly a small rising of the attenuation.The applications of this fiber are both in the automotive andindustrial environment.50090400Transmission/m [%]The low numerical aperture POF (low NA POF) is used to get higher datarates compared to the standard POF.Typical values30095200100450500550Low NA/high NA POF600650Wavelength [nm]High temperature-POFP980/1000 low NAP980/1000 high NAP980/1000high temperature POFP980/1000 high temperature POFP485/500 high temperature POF980 60 µm980 60 µm980 60 µm980 60 µm485 30 µm1000 60 µm1000 60 µm1000 60 µm1000 60 µm500 30 µm–40 C to 70 C–40 C to 85 C–55 C to 105 C–55 C to 105 C–55 C to 105 C650 nm650 nm650 nm650 nm650 nm160 dB/km160 dB/km200 dB/km200 dB/km200 com19
torsF05 connector POFOrder No.: SF05-SS0-20-0010F05 connector POFOrder No.: SF05-SG0-02-0010F05 connector POFOrder No.: SF05-SV0-02-0010Color:black1000 µmCable Ø:2.2 mmAssembly:crimp/polishFerrule:metalcrimp sleeve, black boot and dust capinclusiveColor:black1000 µmCable Ø:2.2 mmAssembly:clamp/HotplateFerrule:plasticdust cap inclusiveColor:Fiber Ø:Fiber Ø:Fiber Ø:Ref. cable for attenuation measurement (0.5 m)Ref. cable for attenuation measurement (0.5 m)Ref. cable for attenuation measurement (0.5 ipping tool (Page 46)Stripping tool (Page 46)Stripping tool (Page 46)Crimp tool (Page 47)Polishing tool (Page 48)Polishing tool (Page 0SF07-DG0-08-0010HP connector POFOrder No.: SXHP-SS0-19-0020F07 connector POFOrder No.: SF07-DG0-08-0010compatible to HFBR4501Color:greyFiber Ø:1000 µmCable Ø:2.2 mmAssembly:crimp/polishFerrule:plasticcrimp sleeve and dust cap inclusiveColor:Polishing tool (Page 48)SF05-SS0-20-0010Connectors for POF are different notonly in terms of their construction, butalso in the technology used to attachthem to the cable (crimping or clamping)and in the technology used to processthe endface. The focus here is on grinding and polishing as well as on hotplatetechnology.black1000 µmCable Ø:2.2 mmAssembly:clamp/polishFerrule:plasticdust cap inclusiveblack1000 µ
PCF fiber optics to enhance our existing broad range of fiber optic cables and to allow you to select the best transmission medium for your application. 4 www. leoni-fiber-optics.com Plastics are attracting increasing attention as a means to transmit information. Pure fiber optics (POF – polymer optical fiber) and plastic-coated glass fiberFile Size: 2MB
