Fiber optic cable, also known as optical fiber cable, is a transmission medium that utilizes optical fibers for transmitting optical signals. This technology has emerged as a critical element in contemporary communication networks owing to its numerous benefits.
One of the primary advantages of fiber optic cable is its high bandwidth capacity, enabling the efficient transfer of large volumes of data. Additionally, it boasts low signal loss, ensuring that data transmissions remain clear and reliable throughout their journey.
Furthermore, fiber optic cable is highly resistant to electromagnetic interference, making it a dependable choice for environments with significant electronic activity. Its substantial transmission capacity allows for the swift and seamless transfer of data across vast distances.
The innermost part in fiber cable is typically made of high-purity silica (SiO₂) and is used to guide light signals. Single-mode fiber (SMF) features a small core diameter (typically 8-10 μm) that is ideal for long-distance transmission, whereas multimode fiber (MMF) has a larger core diameter (50/62.5 μm) that is more suited for short-distance transmission.
High Bandwidth: Fiber cables are capable of transmitting massive data and supporting gigabit or even terabit transmission rates (e.g., 10G/40G/100G Ethernet).
Low Signal Loss: Single-mode fiber exhibits a loss of less than 0.2 dB/km at 1550 nm, enabling transmission over tens of kilometers without the need for amplification.
Anti-Electromagnetic Interference: Light signals transmitted through fiber cables are not affected by electromagnetic fields, making them suitable for deployment in harsh environments such as industrial sites and power grids.
Type : Single-mode Fiber (SMF)
Core Diameter : 8-10 μm
Transmission Distance : 10 km - 100 km+
Typical Applications : Long-distance telecom networks, submarine cables, backbone networks
Type : Multimode Fiber (MMF)
Core Diameter : 50/62.5 μm
Transmission Distance : 200 m - 2 km
Typical Applications : Data centers, campus networks, short-distance video/audio systems
Telecommunications
Applications include long-distance trunk networks, 5G base station backhaul, and broadband access such as FTTH (Fiber to the Home).
Data Centers
These cables are used for high-speed interconnection between servers, supporting cloud computing and the transmission of big data.
Industrial and Medical Fields
In industrial settings, fiber optic cables are essential for industrial control systems like factory automation. In the medical field, they are used in medical endoscopes due to their non-conductive and non-radiative properties.
Sensing and Monitoring
Fiber optic sensors play a crucial role in detecting metrics such as temperature, pressure, and vibration. They are used in applications like pipeline monitoring and structural health monitoring.
Aerospace and Military
These cables are valued for their lightweight properties and anti-interference characteristics, making them ideal for use in aircraft wiring and military communication systems.
Product Packaging:
The Glass Fiber Optic Cable is carefully packaged in a sturdy cardboard box to ensure its safety during transportation. Each cable is coiled neatly and secured with protective padding to prevent any damage. The box is labeled with product information and handling instructions for easy identification.
Shipping:
Our shipping process is designed to deliver your Glass Fiber Optic Cable quickly and securely. We partner with trusted carriers to ensure safe transportation. Your order will be carefully packed and dispatched within 1-2 business days. You will receive a tracking number to monitor the delivery status of your package.
