User Manual - FiberPlex Technologies
Contents
1. e deso DS o Orne 100 240 VAC V 50 60 Hz 1 5 0 84 TL 1 Dear picx lt Ges O Heath gt Ps1 o O Ps2 C2 PT D C gt gt gt c IC gt C E O C gt gt gt gt e gt yet e ac 5 O C gt gt gt D c gt gt O C gt cu cuc gt c gt C gt C gt gt C D Il 100 240 VACV 50 80 He 130 60 FODEN LIES O G5 dem e 2A 250V Typical 16x DO EET 00 OO OO OO 00000000 00000000 00 000000 e Q O Siielieieueleluele eilelelleielleivellei 8 9 19 eu 9 O Sieg euelelleile ame 11213 4115 617 8 19110 1112 13 14 15 16 C Made in the USA O 2 fo Leite S Health gt Ps1 o Ps2 O O le IDO gt y x gt D lt g2. O O gt e e KJS e A eg GR 7 DO He oo ooo 00 00 00 00 00 00 00 00 00 00 00 00 e Os O el efe elle ele el e elle jeje Elle e 6 ie Tel el ol ele e e 6 6 6 16 o ee 12134 5 67 8 L9 10 11112 11314115116 e Made in the USA C Figure 2 WDM16 Rear Panel shown with optional redundant power supply O TO SER ie da 9 e Jo e is e ka e ee 20mm oo o 00 oo 000000 lito Os O elle e lel elle el ol elle ele elle el TAS Se EE i 213 14 5 16 7 8 ner C5 Made in the USA 301 6 JO O bb Power Supply Slots At least one PSMAC must be installed in a slot for the unit to operate The top slot is designated PS1 and the bottom slot is PS2 For full redundancy power supplies can be installed in both slots These slots support hot swapping of the supplies Figure 3 WDMB8A Rear Panel shown with optional redundant power supply 5 TX Fault 6 RX Detect There is one pair of these LED indicators associated with each SFP slot on the unit They correspond to the slot directly below Color indications can be interpreted using the following table TX Fault RX Detect SFP Installed Transmitter Functioning Receive
3. Figure 9 Pinout of SFP cage on WDM16 8 WDM16 Specifications 19 00 482 6 465 5 25 6 4 So ee 17 25 438 2 Figure 10 WDM16 8 Overall Dimensions PHYSICAL SPECIFICATIONS Case Dimensions 2U 13 in 330 mm 19 in 482 mm ELECTRICAL SPECIFICATIONS Min Typ Max Power Requirement with PSMAC Voltage Range VAC 90 230 Power Consumption W 65 Power Requirement with PSMDC Voltage Range VDC 36 72 Power Consumption W 65 External SFP Interfaces 1 16 Min Typ Max Data Rate MB 155 3000 Recommended Jitter psec 40 Operating Voltage VDC 3 3 Maximum Current mA 350 Internal CDWM Optical Interfaces Min Typ W I Aggregate Optical Launch Level dB 1 0 1 Aggregate Receiver Sensitivity 25 24 5 22 CWDM Wavelengths Ch1 1610nm Ch2 1590nm Ch3 1570nm Ch4 1550nm Ch5 1530nm Ch6 1510nm Ch7 1490nm Ch8 1470nm Ch9 1450nm Ch10 1430nm Ch11 1410nm Ch12 1390nm Ch13 1370nm Ch14 1350nm Ch15 1330nm Ch16 1310nm Environmental Storage Temperature C 40 85 Operating Temperature C 0 50 Aggregate Interface Connector Ne
4. C 68 F allowing for an additional maximum 10 C increase at the hottest components e In order to dissipate 1 kW with this permissible average temperature increase an air flow of 2 65 m min is required Example A rack dissipating P 800 W requires an air flow of 0 8 2 65 m min which corresponds to 2 12 m min e Ifthe cooling function of the installation must be monitored e g for fan failure or illumination with spot lamps the exhaust air temperature must be measured directly above the modules at several places within the enclosure Grounding and Power Supply Grounding of units with mains supply Class equipment is performed via the protective earth PE conductor integrated in three pin Phoenix connector Units with battery operation lt 60 V Class Ill equipment must be earthed separately Grounding the unit is one of the measures for protection against electrical shock hazard dangerous body currents Hazardous voltage may not only be caused by defective power supply insulation but may also be introduced by the connected audio or control cables This equipment may require the use of a different line cord attachment plug or both depending on the available power source at installation If the attachment plug needs to be changed refer servicing to qualified personnel Class Equipment Mains Operation Should the equipment be delivered without a matching mains cable the latter must be prepared by a trained person u
5. Mylar tab SFP module has a tab that you pull to remove the The slide tab SFP module has a tab underneath the front of the SFP module from a port module that you use to disengage the module from a port Inserting a Module 1 Attach an ESD preventative wrist or ankle strap following its instructions for use 2 Disconnect and remove all interface cables from SFP Module 3 Ifthe SFP Module has a Bail Clasp close the Bail Clasp before inserting the SFP Module 4 With the gold finger connector on the bottom and the label on the top line up the SFP Module with the empty cage and slide it in making sure that it is completely inserted and seated in the cage Removing a Module 1 Attach an ESD preventative wrist or ankle strap following its instructions for use 2 Disconnect and remove all interface cables from SFP Module 3 Release the latching mechanism e Bail Clasp Open the bail clasp on the SFP Module with your finger in a downward direction Actuator Button Gently press the actuator up or in while pulling the body of the SFP Module to release the SFP Module from the cage e Mylar Tab Pull the tab gently in a straight outward motion until it disengages from the N port Make sure the tab is not twisted when pulling as it may become disconnected from Y N the SFP Module t J e Slide Tab With your thumb push the slide tab on the bottom front of the SFP module in the direction of the equipme
6. be left unpopulated for unused channels or populated with user supplied MSA compliant SFP modules that are appropriate for the user s data rate protocol and jitter requirements Internally these connect to fiber optic transceivers which are tuned to the specific wavelengths for the channels which are then multiplexed onto the aggregate pair which connect to the other WDM s in the link Data that enters a specific channel on one WDM will appear on the corresponding channel on the other WDM s in the link with no interference with any other channels Possible link configurations are e WDM16 to WDM16 all 16 channels through e WDMBA to WDM8A all 8 channels through e WDMB8B to WDM8B all 8 channels through The aggregate fibers from the WDM units exit the chassis via a duplex LC coupler which connect to single mode fiber up to 20 km in length Since this is an aggregated wideband stream any user equipment in the optical path switches couplers etc must be able to accommodate the entire bandwidth without attenuation and will not be able to receive or decode the stream digitally The WDM units have provision for two 2 power supply modules for redundancy each having capacity to power the entire unit An AC power input module is available now and a DC version is in development both are hot swappable Key Features e 16 or 8 Channel Active Wave Division Multiplexer e Combines 16 or 8 optical channels into a single fiber pair e Eac
7. recycling is encouraged Disposal of Used Equipment Used equipment contains valuable raw materials as well as substances that must be disposed of professionally Please dispose of used equipment via an authorized specialist dealer or via the public waste disposal system ensuring any material that can be recycled has been Please take care that your used equipment cannot be abused After having disconnected your used equipment from the mains supply make sure that the mains connector and the mains cable are made useless Disclaimer The information in this document has been carefully checked and is believed to be accurate at the time of publication However no liability is assumed by FiberPlex for inaccuracies errors or omissions nor for loss or damage resulting either directly or indirectly from use of the information contained herein Introduction The FiberPlex WDM is an 8 or 16 Channel Wavelength Division Multiplexer with each optical channel brought out to an SFP slot so the user does not need to supply wavelength specific modules Each channel can be linked via fiber with selected FiberPlex FOM or FOI fiber modules FiberPlex LightViper or with virtually any third party fiber optic equipment with data rates from 155 megabits up to 3 gigabits per channel for a possible maximum aggregate data rate of 48 gigabits The user data enters and leaves the WDM via 16 SFP slots on the WDM16 or 8 slots on the WDM8A and WDMB8B which can
8. 6 and WDM8 Active Coarse Wave Division Multiplexer has Video Enhanced optics pre installed internally on every port ensuring error free transmission for all of your video requirements SFP MSA Compliance The SFP Multi Source Agreement MSA is an agreement that was drafted among competing manufacturers of SFP optical modules The SFF Committee was formed to oversee the creation and maintenance of these agreements including the SFP MSA designated as INF 8074i This agreement describes a mutually agreed upon standard for the form and function of SFP modules However not all SFPs produced are MSA compliant The MSA provides for a transceiver TX RX pinout Other industries such as broadcast had the need for dual TX and dual RX SFP for uni directional applications such as video Naturally a non MSA standard was introduced allocating pinout assignments for dual output and dual input I O configurations In addition the some of the internal serial communication pins were reassigned The unique design of the WDM16 8 includes internal multi rate CWDM optical SFPs which handle the wavelength allocation of the CWDM These internal modules are MSA compliant thus the external user accessible SFP modules must also be MSA compatible For this reason you cannot use non MSA SFPs with the WDM16 8 Be sure that any SFPs that you wish to use with this unit conform to the pinout in Figure 9 ver BAM 20 po 2 re 3 EN Disable 4 Bo 5 Bu en 1 6 Booo
9. O l J EA Figure 8 FAC Control on the rear of the WDM16 The pinouts of the connectors are as follows Connector Pin Function 1 Rx to the WDM 2 RX to the WDM 3 TX from the WDM 4 TX from the WDM A standard crossover RJ11 cable can be used to daisychain units together For the WDM the following information can be accessed e Temperature of the logic board and power supplies e Channel status SFP inserted signal present transmit good e Identification of SFP models and manufacturer e Status of cooling fans including level and operational status H Power supply Voltages temperatures and switching frequency An example application available from FiberPlex appears as follows diy WOM Status Es 1 12 13 14 15 16 e ee ee 099 ee ee Tx Rx Tx Rx Tx Rx Tx Rx Tx Rx Tx Rx Tx Rx Chassis Power Supply 1 Name WDM16 FW Version 118099 Comms 48V P 5 30 222 Temperature 25 Self Test Pass Temperature Input 2222 Fani Power Supply 2 Status Goot f 1 Comms Good 48V 47 7 5 3 5 28 Ram Temperature 28 Input OK AC 109kHz Fan2 Status Goot m BE Ya 02 42 26PM Program startup 02 42 26PM WDM online Optic Info WOM Channel 3 Wavelength 1570 BitRate 2100 Vendor E20 COMMS INC Part Number EM2124 P3TA MT Serial Number 3615729 1 SS Contact FiberPlex for more information as to availability of this and other applications Video Optim
10. Signal Present Off Off No n a n a Red Red Yes No No Red Green Yes No Yes Green Red Yes Yes No Green Green Yes Yes Yes Note that some copper Ethernet and Video SFPs may have custom TX Fault and RX Detect implementations See SFP documentation of individual SFP for more information 7 SFP Slot Install SFPs in this slot These slots conform to the SFP MSA INF 8074i more information later in this manual They are fixed bi directional ports and cannot support dual TX or dual RX SFPs Any standard MSA complaint SFP can be used in these slots including but not limited to optical modules with data rates in the range of 155Mbps to 3 0Gbps Ethernet copper modules video copper modules copper quadrax SFP to SFP cables etc Each channel is independent and will accept any format and any MSA compliant user supplied SFP module that is appropriate for the user s equipment Above 500 Mbps ultra low jitter SFP s are recommended 40 psec as well as ITU T G 652 D IEC 60793 2 50 B1 3 compliant fiber optic cable Aggregate Fiber Connection A Neutrik opticalCON DUO connector provides a bi directional singlemode fiber interface to the aggregated 1 0 of the CWDM This optical signal carries the data using all 16 8 wavelengths internally allocated to the 16 8 external SFP cages This optical signal is not compatible with single wavelength passive or active optical devices The opticalCON DUO provides for both a tactical con
11. es are designed to be hot swappable it is optimal practice to insert a module into the chassis prior to the application of AC power The power supplies must be installed in the top most slot when viewing the insertion end of the respective model chassis A secondary redundant power supply may be installed in the bottom slot To access the fuses disconnect power cord and remove the power supply unit from the chassis Replacement fuses must have the required current rating and must be of the specified type Use of repaired fuses and or bypass of the fuse holders is not recommended and will void the warranty The system power requirement for a 17 unit maximum rack configuration is 115 VAC 9 15 Amps if supplied with 230 VAC 8 Amps is required Figure 5 Inserting Power Supply Using Redundant Power Supplies The WDM16 8 units come standard with a single PSMAC power supply installed This configuration may be perfectly acceptable for many applications In the case of mission critical applications which have zero tolerance for downtime it is advisable to add a second optional PSMAC power supply for complete redundancy The second supply can be inserted at any time in the unused power supply slot Insert the supply first then apply external AC power The PSMAC and the WDM16 8 support hot swapping of the power supplies This means that either supply can be removed or inserted without powering down the unit With two supplies installed in t
12. fied by the manufacturer or sold with the apparatus When a cart is used use caution when moving the cart apparatus combination to avoid injury from tip over 13 Unplug this apparatus during lightning storms or when unused for long periods of time 14 Refer all servicing to qualified service personnel Servicing is required when the apparatus has been damaged in any way such as power supply cord or plug is damaged liquid has been spilled or objects have fallen into the apparatus the apparatus has been exposed to rain or moisture does not operate normally or has been dropped The apparatus shall not be exposed to dripping or splashing No objects filled with liquids such as vases shall be placed on the apparatus WARNING To reduce the risk of fire or electric shock do not expose this apparatus to rain or moisture General Installation Instructions Please consider these general instructions in addition to any product specific instructions in the Installation chapter of this manual Unpacking Check the equipment for any transport damage If the unit is mechanically damaged if liquids have been spilled or if objects have fallen into the unit it must not be connected to the AC power outlet or it must be immediately disconnected by unplugging the power cable Repair must only be performed by trained personnel in accordance with the applicable regulations Installation Site Install the unit in a place where the following cond
13. h channel independently supports data rates from 155 MB up to 3 GB e SMPTE compatible internal fiber optics video optimized to support Pathological Signals e Each optic channel can independently accept multimode or single mode optics coax connection or CAT5 using flexible SFP modules e Fully redundant hot swappable power for ultimate reliability WDM Theory of Operation Infrared light has a frequency of approximately 400 Terahertz 400 000 Gigahertz That is about 125 000 times higher than the data rate of a typical 3 Gigabit SFP which means a large proportion of the bandwidth of a fiber optic cable is wasted The current state of the art does not allow utilizing all of that bandwidth but we can recover some of it by a technique called Coarse Wave Division Multiplexing or CWDM Essentially it is the simple technique of taking each 3 Gigabit channel and using it to modulate a different frequency in that 400 Terahertz bandwidth This is done through a series of optical filters and combiners along with lasers and photodiodes tuned to a particular infrared center frequency Historically however optics are referred to not by their frequency but by their wavelength which is the speed of light divided by the frequency In the traditional implementation of a CWDM it is the user s responsibility to provide the tailored SFPs and the CWDM itself which may require adapters to interface with the user equipment The Fiberplex WDM line on
14. he event of a failure of one PSMAC the unit will continue to operate on the remaining supply A new replacement can be installed and powered up without disturbing the unit Best practice for utilizing redundant power is to connect each supply to a different power source or phase of power This way if one phase of power suffers an outage the unit will continue to work on the remaining phase Power Supply Module Fuse Replacement The power supply modules are each protected by a single 2A time delay fuse Littlefuse model 218 002 Slo Blo Replacement of the fuse requires the power cord to be disconnected from the power supply AC inlet and the power supply to be removed from the chassis To access the fuse use an appropriate sized flat head screwdriver and remove the Fuse Compartment Cap The fuse will simply slide out of the Fuse Compartment with the cap removed Slide a new fuse which meets the stated specifications into the Fuse Compartment and replace the cap You may now re insert the power supply into the chassis and reconnect the power cord to the power supply AC inlet connector Replace only with identical or equivalent time delay fuse in the PSMAC ing the Fuse Figure 6 Replac Inserting and Removing SFP Modules Handling Warnings SFP Modules are static sensitive To prevent damage from electrostatic discharge ESD it is recommended to attach an ESD preventative wrist strap to your wrist and to a bare metal surface when you in
15. is the number of Active Wave Division channels and the associated internal wavelengths that are supported The chassis dimensions and power supplies remain identical The WDM16 supports all of the 16 standard CWDM wavelengths of 1310 1610 nm whereas the WDM8 units support only 8 of those channels so the installation can be scaled to the appropriate size The WDM8A supports the upper 8 wavelengths 1470 1610 nm and the WDMSBB supports the lower 8 wavelengths 1310 1450 nm Because of the enormously flexible active nature of the WDM16 8 the wavelengths of the internal channels are basically invisible and even irrelevant to the end user The reasons there are two subsets of wavelengths supported through the WDM8A and WDMBB is for future expandability of the line in providing the possibility of add drop combining and splitting capability When only 8 channel point to point functionality is desired the WDMSA should be the model of choice Model Channels Internal Wavelengths WDM16 16 1310 1610 nm WDM8A 8 1470 1610 nm WDM8B 8 1310 1450 nm Getting Started Initial Inspection Immediately upon receipt inspect the shipping container for damage The container should be retained until the shipment has been checked for completeness and the equipment has been checked mechanically and electrically If the shipment is incomplete if there is mechanical damage or if the unit fails to operate notify FiberPlex and make the shipping mate
16. itions are met e The temperature and the relative humidity of the operating environment must be within the specified limits during operation of the unit Values specified are applicable to the air inlets of the unit e Condensation may not be present during operation If the unit is installed in a location subject to large variations of ambient temperature e g in an OB van appropriate precautions must be taken e Unobstructed airflow is essential for proper operation Ventilation openings of the unit are a functional part of the design and must not be obstructed in any way during operation e g by objects placed upon them placement of the unit on a soft surface or improper installation of the unit within a rack or piece of furniture e The unit must not be unduly exposed to external heat sources direct sunlight spot lights Ambient Temperature Units and systems by FiberPlex are generally designed for an ambient temperature range i e temperature of the incoming air of 5 C to 40 C 41 F to 104 F When rack mounting the units the following facts must be considered e The permissible ambient temperature range for operation of the semiconductor components is O C to 70 C 32 F to 158 F commercial temperature range for operation e The airflow through the installation must allow exhaust air to remain cooler than 70 C 158 F at all times e Average temperature increase of the cooling air shall be about 20
17. ization The Society of Motion Picture and Television Engineers or SMPTE is a leader in the development of standards for film television and other video The Serial Digital Interface or SDI was standardized by SMPTE for broadcast quality digital video transmission Other standards evolved from this original standard defining Enhanced High definition HD 3G SDI 1080p and Ultra High definition UHD or AK video 2160p To help ensure error free transmission the standards include a data scrambler descrambler to create a high density of transitions in the serial data making it easier for the receiver to maintain timing Where an encoding method such as 8B 10B ensures a minimal sequential run of all ones or zeros it does so at the cost of a 2596 increase in bandwidth requirements The scrambler descrambler method does not require this but as a result there are certain combinations of scrambler state and the next data bits to be scrambled that result in a sequence of up to twenty consecutive ones or zeros These sequences are referred to as pathological conditions and are present in specific shades of pink or grey These pathological conditions may create errors in transmission through typical AC coupled optics or any other AC coupled interface Video Enhanced or SMPTE Compliant optics are designed to accept these pathological conditions allowing the longer sequences of ones or zeros to pass without error The Fiberplex Technologies WDM1
18. king a Standard LC Connection Standard singlmode LC connections can be made by simply plugging the LC cable connectors directly into the Neutrik opticalCON connector on the WDM16 8 When looking at the aggregate connector from the rear the Transmit TX will be the LC connector on the left labeled A and the Receive RX will be on the right labeled B For clarification purposes Transmit TX means light will be emitted from this connector and Receive RX means that light is expected to travel into the connector NEUTRIK O Figure 7 Neutrik opticalCON DUO connector Making Other Fiber Connections Other sorts of singlemode fiber connections can be supported through the use of LC jumpers not included For example ST fiber connections can be supported by using LC to ST fiber jumper cables and ST barrel connectors Other Considerations FiberPlex Auxiliary Control FAC Interface On the rear of the unit near the opticalCON DUO connector are two RJ 11 jacks one marked In and the other Thru These support a proprietary 115 2 kBaud RS 422 serial protocol that enables a controlling device to poll the status of connected devices Up to 255 units can be daisy chained on one link with the In as the upstream link eventually leading to the controller and the Thru as the downstream link e 16Ch Wave Division Mux Health FiberPlex Auxiliary Control TT
19. nections using a mating opticalCON DUO cable or a standard connection with LC terminations Health This indicator serves the same function as the Health indicator on the front panel except it does not report the yellow condition FAC FiberPlex Auxiliary Control Dual RJ11 connections provide an RS422 connection for accessing reporting and control information from the WDM16 8 This is a daisy chained buss allowing the connection of multiple units with one control computer The use of this port is described in more detail later in this manual 100 240 VAC v 50 60 Hz 4 3 0 6A DL Der mie Figure 4 PSMAC Power Supply Module 11 AC Inlet Power is provided through a Neutrik powerCON TRUE1 connector Connect to 100 240 VAC power source using the supplied AC power cord 2 Fuse Compartment Contains the fuse for the power supply The fuse compartment cap can be twisted off using a flat head screwdriver and the fuse removed Replace fuse with a 2A time delay fuse Littlefuse model 218 002 Slo Blo Additional information is later in this manual 13 Status Indicator Has the same function as PS1 2 and PS2 on the front panel as described earlier in this section Power Requirements amp PSM Mounting The power supply modules PSMAC accept voltages from 100 240 VAC 50 60 Hz Maximum power consumption is 100W per module Although the power supply modul
20. ng table LED State Condition Off No power supply installed Red One or more of the following have occurred e Power supply temperature is dangerously high shut down the unit or increase cooling immediately to prevent damage e Input power is present but output is out of range replace the power supply Yellow One or more of the following have occurred e Power supply temperature is at the high end of the functional limit limit check that the airflow temperature is within limits and that it is not restricted e No input power is present check the AC supply e Communication to chassis cannot be established replace the supply Green Temperature is within range and the power supply is functioning normally PS2 Shows status indication of the power supply in PS Slot 2 bottom slot Color indications can be interpreted using the table above Rear Indicators Connections VII
21. nt to disengage the module from the line card port If you pull on the SFP module without disengaging the tab you can damage the SFP module 4 Grasp the SFP Module between your thumb and index finger and carefully remove it from the port 5 Place the SFP Module on an antistatic mat or immediately place it in a static shielding bag or container Connecting Aggregate Fiber Connection A Neutrik opticalCON DUO connector provides a bi directional singlemode fiber interface to the aggregated 1 0 of the CWDM This optical signal carries the data using all 16 8 wavelengths internally allocated to the 16 8 external SFP cages Due to its broad wavelength content this optical signal is not compatible with single wavelength passive or active optical devices such as passive splitter optical transceiver modules etc The opticalCON DUO provides for both a tactical connection using a mating opticalCON DUO cable or a standard connection with LC terminations Making a Tactical Connection A tactical fiber connection can be achieved by simply utilizing a Neutrik opticalCON DUO fiber cable assembly for the aggregate fiber run The opticalCON cable connector will simply push into place Disconnecting the cable requires grasping the cable connector with your full hand and pulling back the release ring with your thumb and fore finger while pulling the connector straight out See Neutrik documentation for more information Ma
22. rials available for the carrier s inspection Chassis Mounting Mount the chassis using fasteners appropriate to your standard 19 rack enclosure All four 4 mounting points MUST be utilized Ensure that there exists adequate clearance for front and rear ventilation The chassis should be located in an environment where an ambient temperature between 0 and 50 C can be maintained Front Indicators A m Figure 1WDM16 Front Face Health Multi function indicator displaying overall health of the unit Color indications can be interpreted using the following table LED State Condition Off No power to unit Red Yellow One or more of the following have occurred e Chassis temperature is dangerously high shut down the unit or increase cooling immediately to prevent damage e Both cooling fans are not functioning properly e Hardware failure Self Check failure One or more of the following have occurred e Chassis temperature is at the high end of the functional limit check that the airflow temperature is within limits and that it is not restricted e One of the cooling fans is not functioning properly Green Temperature is within range fans are working properly and they system is functioning normally 2 PS1 Shows status indication of the power supply in PS Slot 1 top slot Color indications can be interpreted using the followi
23. sing the attached female plug Neutrik powerCON TRUE1 with respect to the applicable regulations in your country Before connecting the equipment to the AC power outlet check that the local line voltage matches the equipment rating voltage frequency within the admissible tolerance The equipment fuses must be rated in accordance with the specifications on the equipment Equipment supplied with a 3 pole appliance inlet protection conforming to class equipment must be connected to a 3 pole AC power outlet so that the equipment cabinet is connected to the protective earth WARNING If the ground is defeated certain fault conditions in the unit or in the system to which it is connected can result in full line voltage between chassis and earth ground Severe injury or death can then result if the chassis and earth ground are touched simultaneously Warranty Service and Terms and Conditions of Sale For information about Warranty or Service information please see our published Terms and Conditions of Sale This document is available on fiberplex com or can be obtained by requesting it from clients fiberplex com or calling 301 604 0100 Disposal Disposal of Packing Materials The packing materials have been selected with environmental and disposal issues in mind All packing material can be recycled Recycling packing saves raw materials and reduces the volume of waste If you need to dispose of the transport packing materials
24. stall or remove an SFP Module Disconnect all optical or copper cables from SFP Modules prior to installing or removing the SFP Module Failure to do so could result in damage to the cable cable connector or the SFP Module itself Removing and inserting an SFP Module can shorten its useful life so you should not remove and insert SFP Modules any more often than is absolutely necessary Protect optical SFP modules by inserting clean dust covers into them after the cables are removed Be sure to clean the optic surfaces of the fiber cables before you plug them back into the optical ports of another SFP module Avoid getting dust and other contaminants into the optical ports of your SFP modules because the optics will not work correctly when obstructed with dust Identify the Latch Type of the SFP Module SFP Modules have various latching mechanisms to secure them into the SFP Cage of a device The FiberPlex WDM can support a host of manufacturers and brands of SFP Modules so the user may encounter any number of different latches Some of these are described below Bail Clasp Actuator Button The bail clasp SFP module has a clasp that you use to remove or The actuator button SFP module includes a button that you push in install the SFP module order to remove the SFP module from a port This button can either lift Up or press In to release the SFP Module depending on the manufacturer gt T Mylar Tab Slide Tab The
25. t gt DO ERES C J gt gt C E joe gt C gt C gt gt uc D c ee SUE e Go Q C Cu gt C gt C gt C Y E gt C gt one o eg Ffiberpl USER MANUAL ER TECHNOLOGIES LLC Active Wave Division Multiplexer WDM16 WDMS8A WDM8B Warning for Your Protection Read these instructions Keep these instructions Heed all warnings Follow all instructions Do not use this apparatus near water Clean only with a dry cloth Do not block any of the ventilation openings Install in accordance with the manufacturer s instructions CON DU P 0 MN k Do not install near any heat sources such as radiators heat registers stoves or other apparatus including amplifiers that produce heat 9 Do not defeat the safety purpose of the polarized or grounding type plug A polarized plug has two blades with one wider than the other A grounding type plug has two blades and a third grounding prong The wide blade or the third prong is provided for your safety If the provided plug does not fit into your outlet consult an electrician for replacement of the obsolete outlet 10 Protect the power cord from being walked on or pinched particularly at plugs convenience receptacles and the point where they exit from the apparatus 11 Only use attachments accessories specified by the manufacturer 12 Use only with the cart stand tripod bracket or table speci
26. the other hand is an active WDM with the wavelength specific components already tested and configured Instead of a wavelength specific optical fiber a generic SFP electrical interface is provided for each channel Any SFP that conforms to the MSA can be inserted even copper based SFPs like gigabit Ethernet SDI HDMI or MADI The internal SFPs have a full 3 Gigabit bandwidth video optimized Generic fiber SFPs have limitations in passing video signals since they do not maintain a constant DC level The video optimized SFPs are constructed to better handle the shifting DC levels in video signals Power Redundancy In order to remain functional even in the event of component failures the WDM employs the following redundancies e Two power supply slots with load equalizing and protection circuitry on the backplane Each supply has thermal and overcurrent protection e Each channel has its own independent power supply that runs off of the main power rails so that a failure in one channel will leave the others operational e There is a microprocessor in the unit but its function is purely monitoring If it fails the data will continue to flow unimpeded on all optical channels e There are two independent fan control channels and two cooling fans on each side of the unit Differences between WDM16 WDM8A and WDM8B The functional and physical characteristics of the WDM16 WDM8A and WDMB8B are largely identical The single differentiator
27. utrik opticalCON DUO LC PSMAC Specifications 1 31 E 3 30 4 33 2 83 9 CH ace 1 W i e C ID D cD r 2 63 4 d go 1 26 LUUN 66 3 ok 322 0 Ingo Un e e WOU e e See e i Ee cil NS L 30 7 5 Figure 11 PSMAC Overall Dimensions PHYSICAL SPECIFICATIONS Dimensions 11 25 in 286 mm 2 625 in 67 mm 1 25 in 32 mm 1 1 lb 0 5 kg SPECIFICATIONS AC POWER SUPPLY Min Typ EDS Power Supply Input Voltage VAC 100 110 240 Input Frequency Hz 40 400 Power Factor 92 Output 1Voltage VDC 5 04 5 3 5 57 Output 1 Current A 7 Output 2 Voltage VDC 45 6 48 50 4 Output 1 Current A 1 3 Supply Current A 1 3 Ouput Power W 100 Environmental Storage Temperature C 40 85 Operating Temperature C 0 50 f berplex TECHNOLOGIES LLC 18040 412 Guilford Rd Annapolis Junction MD 20701 WDMUM 1401 fiberplex com clients fiberplex com 301 604 0100
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