GYTA layer-twisted optical cable is a type of communication optical cable commonly used for outdoor direct burial or aerial laying. "GY" represents that the outer sheath of the cable is made of polyethylene, "T" indicates that the cable is suitable for outdoor environments, "A" indicates that the cable contains aluminum tape for reinforcement and shielding, and "layer-twisted" describes the arrangement of the optical fibers inside the cable.
The characteristics of layer-stranded optical cables are as follows:
1. Structure: The optical fiber is placed in the center and protected by loose tubes around it. Then multiple loose tubes are twisted together to form a layer-stranded structure. This structure helps protect the optical fiber from external pressure and tension.
2. Strength: The addition of aluminum tape not only provides additional physical strength, but also helps to shield electromagnetic interference and improve the overall performance of the optical cable.
3. Applicability: GYTA optical cables are suitable for use in various environments, especially in outdoor direct burial or overhead occasions where certain mechanical protection and shielding are required.
4. Laying method: Due to its good compression and tensile properties, GYTA optical cables can be used for long-distance direct burial laying, and can also be used in conjunction with pipelines or overhead brackets.
5. Maintenance: Although the maintenance cost of direct burial optical cables is relatively low, once repair or replacement is required, it may require greater labor and cost investment.
6. Protection: The outer sheath of GYTA optical cables can resist chemical corrosion, moisture intrusion and biological invasion in the soil.
When selecting GYTA stranded optical cables, the specific specifications and models of the optical cables need to be determined based on the actual laying environment, transmission distance, optical fiber type (such as single-mode or multi-mode), and future network upgrade requirements. At the same time, the minimum bending radius of the optical cable should be considered to avoid damage to the optical fiber during laying. (Source: Dongguan HX Fiber Technology Co., Ltd)
GYTA layer-twisted optical cable is a type of communication optical cable commonly used for outdoor direct burial or aerial laying. "GY" represents that the outer sheath of the cable is made of polyethylene, "T" indicates that the cable is suitable for outdoor environments, "A" indicates that the cable contains aluminum tape for reinforcement and shielding, and "layer-twisted" describes the arrangement of the optical fibers inside the cable.
The characteristics of layer-stranded optical cables are as follows:
1. Structure: The optical fiber is placed in the center and protected by loose tubes around it. Then multiple loose tubes are twisted together to form a layer-stranded structure. This structure helps protect the optical fiber from external pressure and tension.
2. Strength: The addition of aluminum tape not only provides additional physical strength, but also helps to shield electromagnetic interference and improve the overall performance of the optical cable.
3. Applicability: GYTA optical cables are suitable for use in various environments, especially in outdoor direct burial or overhead occasions where certain mechanical protection and shielding are required.
4. Laying method: Due to its good compression and tensile properties, GYTA optical cables can be used for long-distance direct burial laying, and can also be used in conjunction with pipelines or overhead brackets.
5. Maintenance: Although the maintenance cost of direct burial optical cables is relatively low, once repair or replacement is required, it may require greater labor and cost investment.
6. Protection: The outer sheath of GYTA optical cables can resist chemical corrosion, moisture intrusion and biological invasion in the soil.
When selecting GYTA stranded optical cables, the specific specifications and models of the optical cables need to be determined based on the actual laying environment, transmission distance, optical fiber type (such as single-mode or multi-mode), and future network upgrade requirements. At the same time, the minimum bending radius of the optical cable should be considered to avoid damage to the optical fiber during laying. (Source: Dongguan HX Fiber Technology Co., Ltd)