3 multimode fiber optic cable specifications, Multimode fiber optic cable specifications -3 – Cabletron Systems SEHI100TX-22 User Manual

Cable Specifications

SEHI100TX User’s Guide

3-3

Propagation Delay

Propagation delay is the amount of time it takes data to travel from the
sending device to the receiving device. Total propagation delay allowed
for the network is 256 bit times (2.56

µ

s) in one direction (5.12

µ

s round

trip). If the total propagation delay between any two nodes on the network
exceeds 2.56

µ

s, then use bridges or other devices to further segment the

network.

Temperature

The attenuation of PVC insulated cable varies significantly with
temperature. At temperatures greater than 40

°

C (104

°

F), Cabletron

Systems recommends the use of plenum-rated cables to ensure that cable
attenuation remains within specification.

3.1.3

Multimode Fiber Optic Cable Specifications

The SEHI supports the Cabletron Systems EPIM-100FX and
EPIM-100FMB. These EPIMs meet IEEE 802.3u standards. When
connecting a fiber optic segment to the SEHI EPIM-100FX or
EPIM-100FMB module, the network must meet the following
requirements:

Cable Loss

Test the fiber optic cable with a fiber optic attenuation test set adjusted for
an 850 nm wavelength. This test verifies that the signal loss in a cable is
within an acceptable level. The maximum loss for a multimode fiber optic
cable is 11.0 dB.

Fiber Optic Budget and Propagation Delay

Determine the maximum fiber optic cable length by calculating the fiber
optic budget delay and total network propagation before fiber optic cable
runs are incorporated in any network design.

Fiber optic budget is the combination of the optical loss due to the fiber
optic cable, in-line splices, and fiber optic connectors.