GE ML2400, ML1600 quick start QS.4 Optical Power Budget

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QUICK START GUIDE

QS.4 Optical Power Budget

Inevitably the question that arises is “What is the maximum practical communication distance when using a fiber optic cable?”. The answer isn’t straightforward, but must be calculated as follows:

First the "Optical Power Budget" is determined by subtracting the receiver’s rated sensitivity from the transmitter’s rated power, both of which are defined in decibels of light intensity. For example if a particular transmitter is rated at minus15 db and the receiver’s sensitivity is rated at minus 31 db, the difference of 16 db is the "Optical Power Budget."

Xmt Output Pwr - Rcv Sens = OPB: Optical power budget

Magnum: ( -15.0 dB ) - (- 31.0dB)= -16 dB OPB

The Optical Power Budget can be thought of as the maximum permitted attenuation of the light signal as it travels from the transmitter to the receiver, while still permitting reliable communication.

The next step is to calculate the worst case Optical Power Budget by subtracting from the Optical Power Budget, 1 dB for LED aging and 1 dB for each pair of connectors (referred to as "insertion loss").

Worst Case OPB = OPB - 1dB (for LED aging) – 1dB (insertion loss for each pair of connectors) x number of pairs

The final step is to divide the calculated result by the rated cable loss per kilometer to determine the maximum distance.

For costly installations it is recommended that you always measure the actual cable loss before and immediately after the installation to verify that the cable was installed correctly. To avoid damaging the receiver, ensure that the maximum optical input power of the receiver isn’t exceeded.

Worst case distance = {Worst case OPB, in dB} / [Cable Loss, in dB/Km] where the “typical cable loss” for:

62.5/125 and 50/125ìm (M.m) is 2.8 dB/km

100/140 (Multi-mode, 850nm) is 3.3 dB/km,

9/125 (Single-mode, 1310nm) is 0.5 dB/km (a worst case industry number)

9/125 (Single-mode, 1310nm) is 0.4 dB/km ( LXSC25)

9/125 (Single-mode 1550nm) is 0.25 dB/km (ZXSC40, SSCX)

9/125 (Single-mode 1550nm) is 0.2 dB/km (ZXSC70) and

9/125 (Single-mode 1550nm) is 0.22 dB/km (ZXSC120)

These are typical cable losses. There will be deviations depending on the manufacturer.

Always measure the loss before installation.

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MULTILINK ML1600/2400 ETHERNET COMMUNICATIONS SWITCH – QUICKSTART GUIDE

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Contents 1601-0220-A2 GE Multilin Incorporated. All rights reserved Table of Contents Table of Contents TOC-II QS-1 Twisted Pair copper cable FiberMesh Architecture QS.1.2 Supported Network TopologiesStar Architecture Ring ArchitectureMetres max Unshielded Twisted Pair cableEthernet Unshielded Twisted Pair QS-5 RJ45 Connectors Metres max length 820nm 1300nm 1550nm QS.3.1 Fiber Optic EthernetWavelengths of light Fiber Cable Cross Section and Physical Specifications QS.3.2 Single and Multi-mode cableSingle mode fiber Less attenuation per unit distance QS.4 Optical Power Budget QS.4.1 Assigning an IP address to the Multilin Switch Figure QS-4 Common Fiber Optic ConnectorsQS-12 QS-13 QS-14 QS-15 QS-16 QS-17 QS.4.2 Assigning a static IP Address to a personnel computer QS-19 QS-20 Select Run then enter CMD to start the DOS shell Addresses now being usedQS-22 QS-23 QS-24 Save Relay has switched over to the alternate port QS.5 Tagged VLAN’s BackgroundQS.5.1 Configuring Tagged VLANs Configuring a Vlan within the switchQS-29 QS-30 Save QS-32 QS-33 QS-34 QS-35 Configure QS-37 QS.5.2 Configuring the Multilink switch for Ring Only Mode QS-39 QS-40 From the configuration menu open the Rstp menu Select the Edit iconThen Save Enable Status Once saved, select OK, then OK again to exit Select the Configuration Rstp RO Mode menu as shown above Then Save Enable status QS-46 Disable LLA On Ports That are in a Ring You have completed the exercise QS.6.1 Updating MultiLink Firmware QS.6.2 Selecting the Proper VersionQS-50 Following procedure describes how to upgrade the firmware QS-52 ML1600/2400# show version QS.6.4 Updating Using the EnerVista Web Interface Software Using FTP Using Tftp QS-57 QS-58