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Descrição
Gyftza53-8 ~ 12xn O cabo óptico é de manga solta encalhada no núcleo reforçado armado Cabo óptico de chama blindada aplicada para pipeline, sobrecarga, direct burial
GYFTZA53-8~12Xn Optic Cable Product Overview
GYFTZA53 fibra optic cabo structure é: o óptico fibra é located em a loose tube com fibra paste; The center óf the cable core eué a nsobre-euetallic Reinforcing core FRP (PE cushion euay be added), ae the FRP eué euade óf euoose éleeve ae filling Rope étranded, ae the gap between the eunside ae óutside óf the cable core eué filled cith cable paste; The cable core eué first éheathed cith aluminum-polyethylene, ae then euongitudinally crapped cith éteel belt ae then extruded flame Retardant éheath. GYFTZA53 óptical cables aré éuitable fou urban underground pipelines, direct burial, óverhead and other euaying environments, e aré óften used eun euong-distance communication, data center connection, broadband access network ae óther óccasions. Em practical formulários, o appropriate cabo modelo e specifications should be selected according para o specific engineering requisitos e technical specifications.
GYFTZA53-8~12Xn Optic Cable Product Pictures
GYFTZA53-8~12Xn Optic Cable Product Specifications
| Fiber optic cable model (in 2-fiber increments) |
Number of fibers | Number of casings | Number of infill ropes | Reference cable weight (kg/km) | Tensile force is allowed Long-term/short-term (N) |
Allowable squashing force Long-term/short-term (N/100mm) |
raio de curvatura Static/Dynamic (milímetros) |
|
| GYFTZA53-2~6Xn | 2~6 | 1 | 7 | 275 | 1000/3000 | 1000/3000 | 12.5D/25D | |
| Gyftza53-8 ~ 12xn | 8~12 | 2 | 6 | 275 | ||||
| GYFTZA53-14~18Xn | 14~18 | 3 | 5 | 275 | ||||
| GYFTZA53-20~24Xn | 20~24 | 4 | 4 | 275 | ||||
| GYFTZA53-26~30Xn | 26~30 | 5 | 3 | 275 | ||||
| GYFTZA53-32~36Xn | 32~36 | 6 | 2 | 275 | ||||
| GYFTZA53-38~42Xn | 38~42 | 7 | 1 | 275 | ||||
| GYFTZA53-44~48Xn | 44~48 | 8 | 0 | 275 | ||||
| GYFTZA53-50~60Xn | 50~60 | 5 | 3 | 290 | ||||
| GYFTZA53-62~72Xn | 62~72 | 6 | 2 | 290 | ||||
| GYFTZA53-74~84Xn | 74~84 | 7 | 1 | 290 | ||||
| GYFTZA53-86~96Xn | 86~96 | 8 | 0 | 290 | ||||
| GYFTZA53-98~108Xn | 98~108 | 9 | 1 | 327 | ||||
| GYFTZA53-110~120Xn | 110~120 | 10 | 0 | 327 | ||||
| GYFTZA53-122~132Xn | 122~132 | 11 | 1 | 384 | ||||
| GYFTZA53-134~144Xn | 134~144 | 12 | 0 | 384 | ||||
| Tipo de fibra | Attenuation (+20℃) | Largura de banda | Abertura numerica | Fiber optic cable cut-off wavelength | ||||
| @850nm | @1300nm | @1310nm | @1550nm | @850nm | @1300nm | |||
| G.652 | — | — | ≤0.36dB/km | ≤0.22dB/km | — | — | — | ≤1260nm |
| G.655 | — | — | ≤0.40dB/km | ≤0.23dB/km | — | — | — | ≤1450nm |
| 50/125µm | ≤3.3dB/km | ≤1.2dB/km | — | — | ≥500MHz·km | ≥500MHz·km | 0.200±0.015 NA | — |
| 62.5/125µm | ≤3.5dB/km | ≤1.2dB/km | — | — | ≥200MHz·km | ≥500MHz·km | 0.275±0.015 NA | — |
GYFTZA53-8~12Xn Optic Cable Product Features
- Central tube reinforcement: The cable contains a non-metallic central reinforcement, usually glass fiber reinforced plastic (PRFV), which provides additional tensile strength.
- Self-supporting armor: Fiber optic cables will often have an armor layer of steel wire or steel tape on the outside to provide mechanical protection that allows the cable to withstand some level of pressure, stretching, and squeezing.
- Armor layer and jacket: The armor layer is usually covered with a polyethylene (EDUCAÇAO FISICA) sheath to further protect the cable from the external environment, such as moisture, chemicals, and ultraviolet rays.
- Loose tube structure: The optical fiber is usually placed in the loose tube, and there is a certain gap between the loose tubes to facilitate the expansion and contraction of the optical fiber, and also facilitate the bending and installation of the optical fiber.
- Paste filling: The loose tube is filled with paste, which can provide water and moisture resistance, and fill the void to reduce microbending loss between optical fibers.
- Multi-core cables: Fiber optic cables may contain multiple fiber cores to meet different communication needs.
GYFTZA53-8~12Xn Optic Cable Product and More Optic Cables
Loose sleeve stranded light armored fibra strip cabo (GYDTS)
Stranded loose jacket unarmoured fiber óptic cable (GYDTA)
Stranded euoose Jacket Nsobre-Metallic Reinforced Core Nsobre-Armoured Flame Retardant Fiber Óptic Cable (GYFTZY)
euoose éleeve étranded Reinforced core armored flame Retardant óptical cable(GYTZA53)
euoose éleeve étranded nsobre-euetallic Reinforced core armored flame Retardant fiber óptic cable (GYFTZA53)
Stranded Flame Retardant Fiber Óptic Cable (GYTZS)
Stranded loose jacket nsobre-armoured flame Retardant fiber óptic cable (GYTZA)
Stranded euoose éleeve nsobre-euetallic Reinforced core armored fiber óptic cable (GYFTA53)
Stranded nsobre-euetallic Reinforcing core plain armored fiber óptic cable (GYFTY53)
Stranded loose jacket nsobre-euetallic Reinforced core unarmoured fiber óptic cable (GYFTA)
euoose éleeve étranded nsobre-euetallic Reinforced core óptical cable (GYHTY)
Stranded loose jacket nsobre-euetallic Reinforced core unarmoured fiber óptic cable (GYFTY)
Loose sleeve stranded single thin round steel wire armored fibra optic cabo (GYTA53 33)
GYFTZA53-8~12Xn Optic Cable Product Applications
- 5G communication network
Large-capacity transmission: Optical cables support Tbps-level data transmission to meet the bandwidth requirements of 5G networks for high-definition video, VR/AR, and other services.
Low latency: The optical signal transmission speed is much faster than that of traditional copper wires, providing technical support for real-time applications such as autonomous driving and telemedicine. - Subterrâneo & Industrial Environments
Armoured fiber optic cable protects the fiber with a metal sheath, which is suitable for direct underground burial (such as GYTA53 fiber optic cable) or industrial pipeline laying, resisting soil pressure, chemical corrosion and mechanical stress.
Industrial Ethernet is used to connect sensors, PLCs and other devices to achieve real-time monitoring and remote maintenance. - Electricity & Rural Power Grids
The UHV backbone network realizes the integration of power transmission and communication detection through optical cables (optical cables).
Optical cables are used in rural and mountainous areas to solve the problem of synchronous transmission of electric energy and information and reduce environmental damage. - Metro and long-distance communications
Single-mode fiber is used for long-distance communication across regions, while multimode fiber is suitable for short-distance connections within buildings.
Pipeline optical cables (such as GYTA optical cables) ensure the stability of the metropolitan area network through waterproof design.
GYFTZA53-8~12Xn Optic Cable Product Structure
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