Cisco 2948G Hardware Installation Guide - Page 107

APPENDIX C Differential Mode Delay When an unconditioned laser source designed for operation on a single-mode fiber (SMF) cable is directly coupled to a multimode fiber (MMF) cable, differential mode delay (DMD) might occur. DMD can degrade the modal bandwidth of the fiber-optic cable. This degradation causes a decrease in the link span (the distance between the transmitter and the receiver) that can be reliably supported. The Gigabit Ethernet specification (IEEE 802.3z) outlines parameters for Ethernet communications at a gigabit-per-second rate. The specification describes a higher-speed version of Ethernet for backbone and server connectivity using existing deployed MMF cable. It does this by defining the use of laser-based optical components to propagate data over MMF cable. Lasers function at the baud rates and longer distances required for Gigabit Ethernet. The IEEE 802.3z Gigabit Ethernet Task Force has identified the DMD condition that occurs in certain circumstances with particular combinations of lasers and MMF cable. The resulting characteristics create an additional element of jitter, which limits the reach of Gigabit Ethernet over MMF cable. When DMD occurs, a single laser light pulse excites a few modes equally within an MMF cable. These modes, or light pathways, then follow two or more different paths. The paths might have different lengths and transmission delays as the light travels through the cable. When DMD occurs, a distinct pulse propagating down the cable no longer remains distinct or, in extreme cases, might become two independent pulses. Strings of pulses tend to interfere with each other, making it difficult to recover data in a reliable fashion. 78-6286-05 Catalyst 2984G, 2948G-GE-TX, and 2980G Switch Hardware Installation Guide C-1