Fiber Optic Mode Conditioning Patch Cable (SC/SC), 2M (6-ft.) MODEL NUMBER: N426-02M Highlights 2 Meter SC/SC Mode Conditioning Cable Run 1000Base-LX Gigabit Ethernet over MMF by offsetting signal loss IEEE 802.3z Gigabit Ethernet Compliant Applications Use when connecting a LX type fiber transceiver ( Singlemode light ) to a Multimode backbone Package Includes 2 Meter SC/SC Mode Conditioning Cable Description Tripp Lites Mode Conditioning Cables are designed for use in Gigabit Ethernet 1000BASE-LX applications. They are fully compliant with IEEE 802.3z application standards. Mode Conditioning Cables are needed in applications where new high-speed Gigabit 1000BASE-LX routers and switches are being deployed into existing multimode plants. The need for this patch cord is due to the single-mode launch nature of the -LX or long-wave (1300 nm) transceiver modules used for Gigabit Ethernet. Launching a single-mode laser into the center of a multimode fiber can cause multiple signals to be generated that confuses the receiver at the other end of the fiber. These multiple signals, caused by Differential Mode Delay (DMD) effects, severely limit the cable distance lengths for operating Gigabit Ethernet. A mode conditioning patch cord eliminates these multiple signals by allowing the single-mode launch to be offset away from the center of a multimode fiber. Features Use Singlemode Transceivers on Multimode Fiber Backbones Offsets the Singlemode Laser launch from the center of a Multimode fiber Available in a variety of connector combinations Specifications OVERVIEW Cable Type Mode Conditioning INPUT Cable Length (ft.) 7 Cable Length (m) 2 PHYSICAL 1/2 Color Orange; Yellow CONNECTIONS Connector A SC Connector B SC Number of Connectors 4 WARRANTY Product Warranty Period (Worldwide) Lifetime limited warranty © 2015 Tripp Lite. All rights reserved. All trademarks are the sole property of their respective owners. Tripp Lite has a policy of continuous improvement. Specifications are subject to change without notice. Photos may differ slightly from final products. 2/2