UPC LC-LC 1M Single Mode Duplex Patchcord
by Fiber
- Connector Type: LC to LC
- Fiber Type: Single Mode
- Cable Length: 1 meter
- Duplex Configuration: Yes
- Polish Type: UPC (Ultra Physical Contact)
- Insertion Loss: ≤ 0.3 dB
- Return Loss: ≥ 50 dB
- Core Diameter: 9 µm
- Cladding Diameter: 125 µm
- Jacket Material: LSZH (Low Smoke Zero Halogen)
- Outer Jacket Diameter: 2.0 mm
- Operating Temperature: -20°C to +70°C
- Bend Radius: Minimum 30 mm
- Color: Yellow (standard for single mode)
- Applications: Data centers, telecommunication networks, fiber optic patch panels
- Compliance Standards: RoHS compliant, IEC, TIA/EIA standards
- Packaging: Individually packaged for protection during transport
Model Number | LC-LC |
---|---|
SKU | 15850 |
Reviews
Description
UPC LC-LC 1M Single Mode Duplex Patchcord
The UPC LC-LC 1M Single Mode Duplex Patchcord is a high-performance fiber optic cable designed for efficient data transmission in networking environments. Featuring ultra physical contact (UPC) polish, this patchcord minimizes insertion loss and maximizes return loss, ensuring clear and reliable signal quality. The duplex configuration allows for simultaneous data transmission in both directions, making it suitable for various applications, including data centers and telecommunication networks.
Constructed with single-mode fiber, the patchcord has a core diameter of 9 µm, ideal for long-distance communication. Its low smoke zero halogen (LSZH) jacket provides added safety by minimizing harmful emissions in case of fire. With a standard length of 1 meter, it is versatile enough to fit various setups while maintaining a bend radius of at least 30 mm to prevent damage during installation.
The patchcord is compliant with RoHS and relevant industry standards, ensuring it meets safety and environmental regulations. Packaged individually, it guarantees protection during transport and storage. Overall, this UPC LC-LC patchcord is an essential component for any fiber optic network, delivering speed, reliability, and performance.