Search Results for bare optical fiber
9 Micron Single-Mode Bare Optical Fiber – ITU-T G.652.D/G.654.E/G.655 Compliant for High-Speed Transmission
Winner single-mode bare optical fiber offers precise geometric control and ultra-low attenuation, supporting reliable high-speed data transmission in long-haul, metro, and data center networks.
Industrial-Grade 10Gbps Single-Mode Bare Optical Fiber – Wide Temperature Range (-40°C to +85°C), Low Dispersion for Harsh Environments
Winner industrial-grade single-mode bare optical fiber is engineered for mission-critical applications in extreme environments, delivering stable performance from -40°C to +85°C with ultra-low attenuation and controlled chromatic dispersion.
High-Speed Single-Mode Bare Optical Fiber for 5G Networks – 250μm Coated, Low Dispersion, Wide Temperature Range (-40°C to +85°C)
Winner high-speed single-mode bare optical fiber delivers ultra-low attenuation and tightly controlled chromatic dispersion for next-generation 5G infrastructure, metro networks, and data center interconnects requiring reliable multi-gigabit transmission.
Low-Dispersion 250 Micron Single-Mode Bare Optical Fiber – ITU-T G.652.D/G.655 Compliant for High-Speed Long-Haul Transmission
Winner low-dispersion single-mode bare optical fiber offers precisely engineered chromatic dispersion characteristics to support high-bit-rate transmission over long distances with minimal signal distortion in telecom, data center, and 5G networks.
250 Micron Single-Mode Bare Optical Fiber Reel – ITU-T G.652.D Compliant, Low Attenuation for 10G/100G/400G Networks
Winner 250-micron single-mode bare optical fiber delivers ultra-low attenuation and exceptional geometric precision for high-speed, long-distance communication across telecom, data center, and industrial networks.
High-Speed OM1 Multimode Bare Optical Fiber – 62.5μm Core, Low Non-Circularity, Bend-Insensitive Design
Winner high-speed OM1 bare multimode optical fiber features a 62.5μm core with precision geometry control, low non-circularity, and bend-insensitive design to ensure reliable signal transmission in legacy and modern structured cabling systems.