{"product_id":"4049759026899","title":"4049759026899","description":"This fiber optic patch cable is designed for creating short fiber optic connections between passive cabling ports and active network equipment within a structured cabling environment in accordance with ISO IEC 11801. The cable is designed as a duplex configuration with ST connectors on both sides and is suitable for multimode OM1 (62.5\/125 µm) applications. The connection is an ST-ST fiber optic connection for point-to-point connections or for connecting patch panels to active network ports. The LSZH sheath is halogen-free and low-smoke in accordance with IEC standards. The cable features aramid strain relief for mechanical stability. Specifications • Cable type fiber optic patch cable • Design duplex • Number of fibers 2 • Connection side A ST male • Connection side B ST male • Connector standard IEC 61754-2 • Connector finish UPC (no APC version) • Fiber type multimode 62.5\/125 µm • Category OM1 • Cable construction duplex • Cable type I-V(ZN)H • Cable diameter 3.0 mm • Sheath material LSZH • Halogen-free in accordance with IEC 60754-1 • Low smoke in accordance with IEC 61034-1 • Flame retardant in accordance with EN 50265-2-1 • Quality class multimode A\/1 in accordance with IEC 61753-222-2 • Maximum tensile strength 160 N • Dynamic bending radius 20× OD • Static bending radius 10× OD • Operating temperature -20 to 70 °C • Storage temperature -20 to 85 °C • Maximum insertion loss 850 nm \u0026lt; 0.3 dB • Test 100% tested with individual measurement protocol IEC standards • IEC 60793-2 specification of multimode optical fiber • IEC 61754-2 definition of ST connector interface • IEC 61753-222-2 performance requirements multimode connectors • IEC 60754-1 determination of halogen content • IEC 61034-1 determination of smoke emission Explanation of terms • ST round fiber optic connector with bayonet locking • Duplex two optical fibers for simultaneous bidirectional communication • Multimode 62.5\/125 µm fiber type for shorter distances within buildings • OM1 multimode category suitable for 1G transmission up to approx. 275 m. • LSZH Low Smoke Zero Halogen sheath without halogen and with low smoke emission • Aramid strain relief reinforcing yarn for mechanical protection of the fiber • Insertion loss optical attenuation at transition between fiber optic components Explanation of OM categories (multimode optical fiber) OM stands for Optical Multimode and describes the bandwidth class of multimode optical fiber. • OM1 62.5\/125 µm – 1G up to approx. 275 m. • OM2 50\/125 µm – 1G up to approx. 550 m, 10G up to approx. 82 m. • OM3 laser-optimized – 10G up to approx. 300 m at 850 nm. • OM4 improved laser-optimized fiber – 10G up to approx. 400–550 m at 850 nm. • OM5 wideband multimode suitable for SWDM technology. Explanation of OS categories (singlemode optical fiber) OS stands for Optical Singlemode and describes the attenuation class of singlemode optical fiber. • OS1 singlemode fiber for indoor installations with typical attenuation ≤ 1.0 dB\/km at 1310 nm. • OS2 low water peak singlemode fiber in accordance with ITU-T G.652.D with typical attenuation ≤ 0.4 dB\/km at 1310 nm and ≤ 0.3 dB\/km at 1550 nm. General explanation of fiber optic cables • Fiber optics transports data via light signals instead of electrical signals. • Singlemode fiber optics uses a single light path and is suitable for long distances. • Multimode fiber optics uses multiple light paths and is suitable for shorter distances within buildings. • Simplex single fiber for data transmission in one direction. • Duplex two optical fibers for simultaneous communication in both directions. Ask a product question","brand":"Abi","offers":[{"title":"Default Title","offer_id":56204278890874,"sku":"4049759026899","price":20.99,"currency_code":"EUR","in_stock":false}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0841\/3478\/9439\/files\/glasvezel-kabel-st-st-om1-lengte-3-meter.jpg?v=1782350762","url":"https:\/\/tormino.com\/products\/4049759026899","provider":"Tormino","version":"1.0","type":"link"}