Fiber optic patch cords serve as connections between high-speed and legacy networks such as Gigabit,Ethernet, Fast Ethernet, and Ethernet. These cords terminate with standard connectors, ensuring optimal optical performance for seamless and efficient data transmission across various network types and speeds.
Application
1 CATV System: Utilizes fiber optics for transmitting cable television signals efficiently and reliably.
2 Optical Fiber Communication: Central to various forms of communication that rely on optical fibers for
data transmission, ensuring high-speed and reliable connectivity.
3 Testing Equipment: Fiber optics are used in testing setups for various industries to transmit and analyze data accurately.
4 FTTX (Fiber to the X): Encompasses various configurations (home, premises, curb, etc.) of deploying optical fiber for high-speed internet access.
5 Fiber Optic Network Convergence: Merging diverse networks into a unified fiber optic system for enhanced efficiency and performance.
6 Optical Fiber Access Network: Refers to networks utilizing optical fibers to connect subscribers to the central communication system, enabling high-speed internet and services.
7 Fiber Data Transmission: Transmission of data using fiber optics for its high bandwidth and reliability.
8 Optical Fiber Video Transmission: Using fiber optics to transmit video signals with high clarity and stability over long distances.
9 Fiber Multimedia System: Integrated systems using fiber optics for transmitting various forms of multimedia (voice, data, video).
10 Fiber Ethernet: Leveraging fiber optic cables for Ethernet connections, providing faster and more reliable data transmission than traditional copper cables.
11 Photoelectric Conversion System: Systems that convert light (photons) into electrical signals and vice versa, which often use fiber optics as a medium for transmission due to their optical properties.
Characteristics
1 Low insertion loss: Minimal reduction in signal strength when connecting fibers.
2 High return loss: Reflects a high percentage of light back toward the source, reducing signal loss.
3 High reliability and stability: Ensures consistent performance over time without degradation.
4 Excellent exchangeability and durability: Allows for repeated connections and disconnections without compromising performance.
5 Various connector types available: FC, LC, SC, ST, MU, MTRJ, DIN, D4, SMA, ESCON, FDDI, MPO, etc., providing compatibility with diverse equipment.
6 Polishing options: PC (Physical Contact), UPC (Ultra Physical Contact), or APC (Angled Physical Contact)
for optimal signal transmission.
7 Single mode and multi-mode options: Accommodates different types of optical fibers for varied applications.
8 Various configurations available: Simplex, duplex, or fan-out configurations.
9 Different cable diameters available: Ø0.9, Ø2.0, Ø3.0, catering to different installation requirements.
10 Customizable lengths: Options for standard lengths (1m, 1.5m, 2m) or customized lengths.
11 Different jacket materials available: PVC, LSZH (Low Smoke Zero Halogen), or hytrel, offering flexibility based on environmental needs.
12 Compliance with industry standards: Fully compliant with Telcordia GR-326-CORE and RoHS standards, ensuring quality and environmental safety.
