Global-Fiber-Optic-Cable-Industry(-光纤光缆产业)2016-Market-Research目录.docx

Global Fiber Optic Cable Industry 2016 Market Research Report Enterprise wide LicenseChapters1 Industry Overview1.1 Definition and Specifications of Fiber Optic CableFiber Optic Cable is a cable containing one or more optical fibers that are used to carry light. The optical fiber elements are typically individually coated with plastic layers and contained in a protective tube suitable for the environment where the cable will be deployed.Figure Picture of Fiber Optic CableSource: Public Information, QYR Fiber Optic Cable Research Center, Oct 2016Figure Product Structure of Fiber Optic CableSource: Public Information, QYR Fiber Optic Cable Research Center, Oct 2016Table Color Code of Fiber Optic CableFiber Type Color Code Non-military Applications(3) Military Applications Suggested Print NomenclatureMultimode (50/125) (TIA-492AAAB) (OM2) Orange Orange 50/125Multimode (50/125) (850 nm Laser-optimized) (TIA-492AAAC) (OM3, OM4)AquaUndefined 850 LO 50 /125Multimode (62.5/125) (TIA-492AAAA) (OM1)OrangeSlate62.5/125Multimode (100/140)OrangeGreen100/140Single-mode(TIA-492C000 / TIA-492E000) (OS1, OS2)YellowYellowSM/NZDS, SM Polarization Maintaining Single-mode Blue Undefined Undefined (2)Source: FOA, QYR Fiber Optic Cable Research Center, Oct 20161.2 Classification of Fiber Optic CableTable Properties of Fiber Optic CablePropertiesDetailsTensile PropertiesMaximum tension that Fiber Optic Cable could withstand depends on the material and cross-section of strengthen member. Pressure CharacteristicsMaximum lateral pressure that Fiber Optic Cable could stand depends on the material and structure of outer jacket. Mostly, the maximum lateral pressure is 100 400kg / 10cm.Bending PropertiesIt depends on core and claddings relative refractive index difference and material or structural of fiber optic cable.Temperature CharacteristicsFiber optic has a good temperature characteristic. In China, required temperature is about -40 + 40 in low-temperature region and -5 + 60 in high temperature region.Source: Public Information, QYR Fiber Optic Cable Research Center, Oct 2016Table Classification of Fiber Optic CableSorted byClassificationCategory of Fiber CoreSingle-Mode Fiber Optic CableMulti- Mode Fiber Optic CablePaving PatternPipeline Fiber Optic CableBuried Fiber Optic CableOverhead Fiber Optic CableUnderwater Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 2016Figure Classification Share of Fiber Optic Cable in 2015Source: QYR Fiber Optic Cable Research Center, Oct 20161.2.1 Single-Mode Fiber Optic CableFigure Picture of Single-mode Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 2016Single mode fiber has a very small core causing light to travel in a straight line and typically has a core size of 8 or 10 microns. It has unlimited bandwidth that can go unrepeated for over 80 km, depending on the type of transmitting equipment. Single mode fiber has enormous information capacity, more than multimode fiber.1.2.2 Multi- Mode Fiber Optic CableFigure Picture of Multi-mode Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 2016Multimode fiber supports multiple paths of light and has a much larger core and has a core size of 50 or 62.5 microns. The light travels down a much larger path in multimode fiber, allowing the light to go down several paths or modes. Multimode fiber can be manufactured in two ways: step-index or graded index. Step-index fiber has an abrupt change or step between the index of refraction of the core and the index of refraction of the cladding. Multimode step-index fibers have lower bandwidth than other fiber designs. Graded index fiber was designed to reduce modal dispersion inherent in step index fiber. Modal dispersion occurs as light pulses travel through the core along higher and lower order modes. Graded index fiber is made up of multiple layers with the highest index of refraction at the core. Each succeeding layer has a gradually decreasing index of refraction as the layers move away from the center. High order modes enter the outer layers of the cladding and are reflected back towards the core. Multimode graded index fibers have less attenuation (loss) of the output pulse and have higher bandwidth than multimode step-index fibers.1.3 Applications of Fiber Optic CableTable Main Applications of Fiber Optic CableNo.Main Applications1Long-Distance Communication2Submarine Cable3FTTx4Local Mobile Metro Network1.4 Industry Chain Structure of Fiber Optic CableFigure Industry Chain Structure of Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 20161.5 Industry Regional Overview of Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 20162 Manufacturing Cost Structure Analysis of Fiber Optic Cable2.1 Raw Material Suppliers and Price Analysis of Fiber Optic CableThe raw material of Fiber Optic Cable is mainly optical fiber.The optical fiber preform is the core material for manufacturing Fiber Optic Cable. In simply, it is a glass special prefabricated preform for pulling optical fiber. Restricted by production technology, most manufacturers are concentrated in Japan, the United States and Europe.Figure Optical Fiber PictureSource: Public Information, QYR Fiber Optic Cable Research Center, Oct 20162.2 Equipment Suppliers and Price Analysis Fiber Optic Cable technology is more complex, much equipment is needed such as laser welding machine, stranding machines, fiber coloring machine, cable rewinder etc.Due to their different quality and capacity we cannot give a price. Customers can choose according to own needs, in recent years, price fluctuation is small.Table Equipment Major Suppliers and Contact InformationEquipmentMajor SuppliersContact InformationFiber Coloring MachineCable RewindersSource: Above Companies, QYR Fiber Optic Cable Research Center, Oct 20162.3 Labor Cost Analysis of Fiber Optic Cable2.4 Other Costs Analysis of Fiber Optic Cable2.5 Manufacturing Cost Structure Analysis of Fiber Optic CableSource: QYR Fiber Optic Cable Research Center, Oct 20162.6 Manufacturing Process Analysis of Fiber Optic CableFigure Manufacturing Process Analysis of Fiber Optic CableSource: KSARIA Company, QYR Fiber Optic Cable Research Center, Oct 2016Conclusion1. In the last Five years, along with the quick development with mobile upgrade programs, global Fiber Optic Cable market is growing quite fast, with a CAGR at 9.12% from 2011 to 2015 in terms of volume from 257 mililon Fiber-Km to 365 million Fiber-Km. In 2016, the global Sales of Fiber Optic Cable is expected to reach 412 million Fiber-Km and the revenue is expected to be 7719 million USD. 2. China is one of the largest manufacturing bases and the largest consumption area of Fiber Optic Cable industry, over 55.22% Fiber Optic Cable are manufactured in t