9145EMP Network Interface Device Hardware User`s Manual
Contents
1. 31 SECOS M PING MOSHING o 31 5 4 loopback DISgnosli6S a dto oce Eod ape p ie E 32 6 Maintenance Ann 33 6 1 General Maintenance 33 6 2 Check Optical Power Levels aoi ees Eeer 33 6 2 1 Measuring Transmitter Output Power 33 6 2 2 Measuring Receiver Input 34 6 2 3 Calculating Fiber Link Attenuation 35 9145EMP Network Interface Device Hardare User s Manual Introduction 9145EMP Network Interface Device Hardware User s Manual Product Description Chapter 1 Introduction 1 1 Product Description The 9145EMP Figure 1 1 is the Canoga Perkins second generation Network Interface Device NID that can be used by a Service Provider SP to provide layer 1 and layer 2 termination of Ethernet services The 9145EMP encompasses features and functions needed by SPs to deliver Metro Ethernet Forum MEF compliant Ethernet services with end to end Quality of Service QoS guarantees and Operation Administration Maintenance and Provisioning OAM amp P bilities Figure 1 1 9145EMP Ethernet Network Interface Device 9145EMP Network Interface Device Hardware User s Manual Introduction 9145EMP Specifications 1 2 9145EMP Specifications 1 2 1 Physical Characteristics Dimensions 1 75 H x 8 25 W x 11 5 D 44 5 x 2092. M 10 2 5 1 Power Requirements us 10 2 5 2 Single AC Power Base Unit EE 10 2 5 3 Redundant AC Power Base 11 2 5 4 Single DC Power Base Unit 11 2 5 5 Redundant DC Power Base Unit 11 2 5 6 AC DC Power Base Url nine aer Mee tt eens ae 12 Elle ee 12 2 6 1 Management Section LEDS 13 2 02 Data Irnterace Section LEDS 14 Ju E e RE 17 3 1 9145EMP Installation Procedures 17 2 2 Eet ne KEE 17 3 3 MEURISSE 18 2921 Rack E 18 2552 Mall MOUPUDO E 22 3 3 3 Horizontal Flat Surface Mounting esen asean naaa 23 3 4 Installing the SFP Modules nenen ena nana nana akan 24 3 5 Connecting the Electrical Power 24 SIT AC EWERS 24 9 9 2 DO EE 25 e Died EN 26 3 5 4 Connecting the Fiber Optic and UTP Ethernet Cables 27 9145EMP Network Interface Device Hardware User s Manual Wel L 29 4 1 Power Up and Front Panel Functions 29 4 1 1 Power and Status LEDS 4 operto HR propiore tim eget 29 4 2 Interface Management EEN 30 4 2 1 Setting Up the VT 100 Terminal nennen anna 1 30 5 Troubleshooting 31 5 1 Optical Power heet E 31 5 2 Fault GonDdillofis eege 31 5 9 Running Diagnosties
3. EE rud 27 Ke SE x P c n co 2 3 Ass E Ei Na ii d im d 5 ba 3 E w Figure 3 9 9145EMP Wall Mount Template 3 3 3 Horizontal Flat Surface Mounting The 9145EMP requires at least one inch of unobstructed space around the perimeter for ventila tion Canoga Perkins recommends a space of 3 to 5 inches be left unobstructed to allow for SFP module access cable access and power connections To install the 9145EMP on a flat surface place the 9145EMP a secure flat surface such as a table a shelf or a desk within reach of the power and fiber optic cables Connect the power and fiber optic cables to the 9145EMP as required 23 9145EMP Network Interface Device Hardware User s Manual Installation Installing the SFP Modules 3 4 Installing the SFP Modules 1 Determine which SFP Module s is are required for the User and Network Ports by refer encing the SFP Product Data Sheet Insert a module into each available port and push firmly to seat module Figure 3 10 Raise latch to lock module in place Figure 3 10 SFP Modules 3 5 Connecting the Electrical Power NOTE When power is applied all LED indicators will light amber 3 5 1 AC Power NOTE Country specific power cords are available locally for installations outside of North America The 9145EMP uses a standard IEC320 AC Power Connector Plug the AC power cord into the socket at the rear of the 9145E
4. Maintenance 9145EMP Network Interface Device Hardware User s Manual General Maintenance Chapter 6 Maintenance 6 1 General Maintenance Well maintained components and clearly identified cables help assure optimum system opera tion Damaged fiber optic cables and dirty connectors are a common source of signal loss or attenuation Fiber optics are especially susceptible to contamination Inspect clean and test all components to maintain optimum performance Inspect the surface of the fiber optic ferrules and clean as required CAUTION To avoid damage and signal loss do not over tighten or force fit optical connectors 6 2 Check Optical Power Levels NOTE For accurate results warm up each unit for at least 30 minutes before checking power levels Ensure the Transmit laser is turned on when the unit is powered up To ensure proper performance levels measure Transmitter Output Power Receiver Input Power and attenuation for all fiber links Each 9145EMP is shipped with a document that lists the output power for each optical transceiver 6 2 1 Measuring Transmitter Output Power To measure the output power follow these steps see Figure 6 1 1 Inspect and clean connectors on a fiber optic test cable with a known loss then connect it to the Tx connector on the 9145EMP 2 Set the optical power meter to the proper wavelength Connect the other end of the optic test cable to the optical power meter wait two or three minute
5. arrange a repair Emissions and Immunity This device complies with part 15 of the FCC rules Operation is subject to the following two conditions 1 This device may not cause harmful interference 2 This device must accept any interference received including interference that may cause undesired operation The authority to operate this equipment is conditioned by the requirements that no modifications will be made to the equipment unless the changes or modifications are expressly approved by the Canoga Perkins Corporation To Users of Digital Apparatus in Canada This Class A digital apparatus meets all require ments of the Canadian interference causing equipment regulations Aux utilisateurs des appareils num rique au Canada Cet appareil num rique de la classe A respecte toutes les exigences du r glement sur le mat rial brouilleur du Canada Special Accessories The 9145EMP does not require any special accessories to achieve compliance for emission and immunity criteria Double Pole Neutral Fusing On the 9145EMP a fuse may be in place in the neutral path on the AC power supply After opera tion of the fuse parts of the equipment that remain energized might represent a hazard during servicing 9145EMP Network Interface Device Hardware User s Manual Waste Electrical and Electronic Equipment WEEE Product Disposal Information Do not dispose of this product in unsorted municipal waste This product is recy
6. mounted side by side in either a 19 rack or a 23 rack Rack mounting kits Table 3 1 are avail able for each of the four rack mounting possibilities Each rack mount kit contains the brackets necessary for installing the 9145EMP Figure 3 2 as well as the mounting hardware required to attach the brackets to the unit s Rack mount screws are provided by the rack manufacturer Installation Mounting Options Table 3 1 Rack Mount Kits Rack Mount Kit Part Number Rack Mount Bracket Kit 19 Single Unit Rack Mount Bracket Kit 23 Single Unit Rack Mount Bracket Kit 19 Dual Unit Rack Mount Bracket Kit 23 Dual Unit eee 6213614 21 Component Bracket rack mount single 19 Part Number 6213614 119 9145EMP Network Interface Device Hardware User s Manual Screw flat head 8 32 x 0 25 Bracket rack mount single 23 80680041 6213614 123 Qty 2 4 Screw flat head 8 32 x 0 25 Bracket rack mount dual 19 80680041 6213614 219 2 4 Screw flat head 8 32 x 0 25 80680041 Bracket rack mount center 6213615 Strap rack mount center 6213616 Bracket rack mount dual rear 6213617 Screw flat head 8 32 x 0 25 SS Phil lips 80680041 Screw pan head 8 32 x 0 25 SS Phillips Bracket rack mount dual 23 80880041 621361 4 223 Bracket rack mount center 6213615 Strap rack mount center 621
7. Installation 3 1 9145EMP Installation Procedures This section describes how to unpack install and set up the 9145EMP Before setting up the 9145EMP make sure a 9 pin EIA 232 cable is available to connect the 9145EMP s console port to a VT100 type terminal or PC for setup and configuration Keep the shipping container and all packing materials until the unit is installed and fully opera tional In the event that the unit needs to be returned contact Canoga Perkins Customer Service for a Return Authorization Number RMA and instructions for return shipment CAUTION Follow electrostatic discharge ESD safety precautions when handling Canoga Perkins products as with all electronic devices with static sensitive components 3 2 Unpacking Open the shipping container remove the accessories tray and remove the accessories from the tray Figure 3 1 Lift the 9145EMP out of the shipping container and remove the foam end caps from the unit Return all packing materials to the shipping container and put it in a safe place in the event the unit needs to be returned 17 9145EMP Network Interface Device Hardware User s Manual Installation Mounting Options Figure 3 1 Unpacking the 9145EMP 3 3 Mounting Options The 9145EMP can be rack mounted wall mounted or placed on any horizontal flat surface such as a Shelf or table 3 3 1 Rack Mounting One 9145EMP can be mounted in either a 19 rack or a 23 rack and two 9145EMPs can be
8. Transmit or receive activity in half duplex Blinking Amber ink down but transmitting OAM packets in unidirectional mode UTP connectors only Blinking Red Link down but transmitting OAM packets in unidirectional mode SFP connectors only Slow blinking green means the LED toggles between Off and Green approximately once per sec ond Functional Description LED Indicators Table 2 6 Network Port LED Indicators 9145EMP Network Interface Device Hardware User s Manual LED Name State Condition Port Disabled Off Autonegotiate Green 1000 Mbps 100 Mbps Speed Amber d SPD System Test Slow Blinking Green Port Enabled But No Link Red Remote Fault Blinking Red Invalid unsupported SFP installed No link Off No transmit or receive activity Port disabled Green Link up with full duplex Blinking Green Transmit or receive activity in full duplex Activity ACT rene System test Link up with half duplex Blinking Amber Transmit or receive activity in half duplex Blinking Red SEH but transmitting OAM packets in unidirectional Slow blinking green means the LED toggles between Off and Green approximately once per sec ond 15 9145EMP Network Interface Device Hardware User s Manual Functional Description LED Indicators Installation 9145EMP Network Interface Device Hardware User s Manual 9145EMP Installation Procedures Chapter 3
9. modes of operation e 10 Auto e 100 Auto 9145EMP Network Interface Device Hardware User s Manual Functional Description Port Default Settings 2 5 Port Default Settings Table 2 3 represents the default settings for each of the ports The term active connector refers to the connector either UTP or SFP that is currently enabled For example if a particular 9145EMP model has a User Port with both UTP and SFP connectors present by default the UTP is the Active Connector it can currently transmit and receive data while the SFP is the Inactive Con nector that is it currently cannot transmit or receive data Table 2 3 Default Port Settings SFP w 1000 Mbps SFP w Multispeed WIE Mbps Optics User Ports 100 FD 1000 FD 1000 FD Network Ports OOB Ports NOTE Cells in yellow denote connectors that are active by default 2 6 Power Connectors The 9145EMP will accommodate both single and redundant AC and DC powering options along with mixed AC and DC power 2 6 1 Power Requirements 100 VAC to 240 VAC auto ranging 50 60 Hz 0 5 Amps 9145EMP only 36 VDC to 72 VDC 1 0 Amps 18 VDC to 36 VDC 2 0 Amps 2 6 2 Single AC Power Base Unit The Single AC powered 9145EMP base unit Figure 2 4 has an IEC 320 power connector on the rear panel An appropriate AC power cord is supplied with the unit Figure 2 4 Single AC Power Functional Description 9145EMP Network In
10. 1470 nm SFP2 4965 1490 nm SFP2 4965 1490 nm SFP2 5165 1510 nm SFP2 5365 CWDM 80 km 125 2500 1530 nm SFP2 5565 1550 nm SFP2 5765 1570 nm SFP2 5965 1590 nm SFP2 6165 1610 nm Functional Description 9145EMP Network Interface Device Hardware User s Manual Hardware Configuration 2 2 Hardware Configuration The 9145EMP port and connector options are shown in Figure 2 1 2 2 1 Front Panel The following ports are available on the 9145EMP front panel Figure 2 1 One EIA 232 console port with DE 9 female connector One Ethernet Management Port with UTP connector Four User Ports for service data with both SFP and UTP connectors e Two Network Ports for service data with SFP connectors only UTP SFP UTP SFP ETHERNET CONNECTORS CONNECTORS CONNECTORS CONNECTORS MANAGEMENT PERKINS NETWORK PORTS USER PORTS NETWORK MANAGEMENT 232 PORTS PORTS CONSOLE PORT Figure 2 1 9145EMP Ports 9145EMP Network Interface Device Hardware User s Manual Functional Description Service Data Ports 2 2 2 Rear Panel Customers will also have a selection of power options to choose from Figure 2 2 Five options are offered 1 Single AC Power Redundant AC Power Single DC Power Redundant DC Power Redundant AC and DC mix St 19 Figure 2 2 9145EMP Rear Panel The 9145EMP accommodates all five power options 2 3 Service Data Ports The User Ports Figure 2 1 provide both f
11. 3616 Bracket rack mount dual rear 6213617 Screw flat head 8 32 x 0 25 SS Phil lips 80680041 Screw pan head 8 32 x 0 25 SS Phillips 80880041 Figure 3 2 9145EMP Rack Mounting Brackets 21361 4 223 19 9145EMP Network Interface Device Hardware User s Manual Installation Mounting Options Mounting One 9145EMP in a 19 or 23 Rack To rack mount one 9145EMP perform the following steps 1 Install the 19 Single Unit or 23 Single Unit Rack Mount Bracket Kit The Rack Mount Kit includes two mounting brackets and the screws required to attach the brackets to the 9145EMP The brackets attach to the two threaded holes on each side of the 9145EMP toward the front Figure 3 3 using the flat head screws provided Torque the flat head screws to 14 5 15 5 in lb Figure 3 3 Install Rack Mount Kit 2 Place unit with brackets attached in place on the mounting rack 3 Install two screws through each bracket into the threaded holes on the mounting rack Figure 3 4 Torque the screws to the rack manufacturer s specifications gt EA cANOGA FERKING f IA Si LA ta USERPORTS NETWORK PORTS We mam Figure 3 4 Mounting 9145EMP on Rack 20 Installation 9145EMP Network Interface Device Hardware User s Manual Mounting Options Mounting Two 9145EMPs Side by Side in a 19 or 23 Rack To rack mount two 914
12. 48VDC Power Supply Inte 9145 761 0 0 9145EMP 761 1 0 gral Fans Table 2 2 SFP Model Numbers Model Number Description Extended Description SFP1 0045 850 MM 7 DB 1063 2125 MB SFP1 12051 1310 MM 10 DB 125 155 MB SFP1 2155 1310 8 DB 125 2500 MB SFP1 2225 1310 10 DB 1063 1250 MB SFP1 2305 1310 13 DB 125 155 MB SFP1 2445 1310 21 DB 1063 2125 MB SFP1 2605 1310 29 DB 125 155 MB 9145EMP Network Interface Device Hardware User s Manual Functional Description Base Unit Table 2 2 SFP Model Numbers Model Number Description Extended Description SFP1 2725 1310 17 DB 106 1250 MB SFP1 3445 1550 21 DB 1063 2125 MB SFP1 3605 1550 29 DB 125 155 MB SFP1 4304 1310 TX 20KM 155MB SFP1 4324 1310 TX 20KM 1 25GB SFP1 4404 1310 TX 40KM 155MB SFP1 4424 1310 TX 40KM 1 25GB SFP1 5304 1550 TX 20KM 155MB SFP1 5324 1550 TX 20KM 1 25GB SFP1 5404 BIDI 1550 TX 40KM 155MB SFP1 5424 1550 TX 40KM 1 25GB SFP1 7425 1490nm Tx 1310nm Rx 40KM 1 25GB SFP1 6425 1310nm Tx 1490nm Rx 40KM 1 25GB SFP1 7325 1490nm Tx 1310nm Rx 20KM 1 25GB SFP1 6325 1310nm Tx 1490nm Rx 20KM 1 25GB SFP1 7125 1490nm Tx 13100nm Rx 10KM 1 25GB SFP1 6125 1310nm Tx 1490nm Rx 10KM 1 25GB SFP2 4765
13. 5 x 292 mm Weight 5 5 Ib 2 49 Kg depending on model 1 2 2 Environmental Characteristics Operating Temperature 0 to 50 C Operating Humidity 0 to 90 Relative Humidity non condensing 1 2 3 Power Requirements e 100 VAC to 240 VAC auto ranging 50 60 Hz 0 5 Amps A8VDC 36 to 72VDC 1 Amp 1 2 4 Regulatory Compliance EN60825 1 laser safety e Mark e Directive EN55022 Class 55024 EN 61000 3 2 3 3 cETL amp LVD U S 0160950 CAN CSA C22 2 No 60950 EN IEC 60950 e FCC Part 15B Class A 5 ICES 003 CAN VCCI Class A Japan C Tick AS NZS 3548 Australia e NEBS Level 1 3 Mounting Options e 19 Inch or 23 Inch rack mount single unit or two units side by side in a 1U e Wall Mount face down or to either side Table Top See Chapter 3 Installation for installation procedures Introduction 9145EMP Network Interface Device Hardware User s Manual Mounting Options 1 3 1 Rack Mounting The customer is required to order the brackets required Figure 1 2 for their particular rack installation Figure 1 2 9145EMP Mounting Brackets 1 3 2 Wall Mounting Canoga Perkins includes a mounting template in the shipping container Figure 1 3 to assist the customer in mounting the 9145EMP on a wall mua 7 9145E MP ES TEE s aM a EM or TM were LEE S TEEN r e w B
14. 5EMPs perform the following steps 1 Install the 19 Dual Unit or 23 Dual Unit Rack Mount Bracket Kit The Rack Mount Kit includes two rack mount brackets two center brackets a strap a rear bracket and the screws required to attach the brackets to the 9145EMPs The mounting brackets attach to the two threaded holes on the outside of each 9145EMP toward the front Figure 3 3 The two center brackets attach to the two threaded holes on the inside of each 9145EMP and the strap mounts over the front of each center bracket Figure 3 5 The rear center bracket is attached to the threaded holes at the top inside corner of the back of each 9145EMP Figure 3 6 Figure 3 5 Install Center Brackets and Strap Figure 3 6 Install Rear Center Bracket 2 Place unit with brackets attached in place on the desired mounting rack Install two screws through each bracket into the threaded holes of the mounting rack Fig ure 3 7 Torque the screws to the rack manufacturer s specifications a 2 nni Fees ni 9145E MP 9145E MP Figure 3 7 Mounting Two 9145EMPs on Rack 21 9145EMP Network Interface Device Hardware User s Manual Installation Mounting Options 3 3 2 Wall Mounting CAUTION Fasteners used for wall mounting of the 9145EMP are required to withstand a force of three times the weight of the 9145EMP applied in any direction Failure to meet these requirements could result in damag
15. A grounding lug kit is included in the 9145EMP accessory tray Connect 6AWG grounding cable to the 9145EMP follows Figure 3 12 1 Pa e 26 Strip approximately 34 inch of insulation from the end of the grounding cable Twist the exposed wires together and trim the ends off evenly Insert exposed wire into the grounding lug until it bottoms out inside the barrel Position the crimping tool over the center of the grounding lug with the lug in the crimping tool s proper crimp pocket Squeeze handles firmly until grounding wire is secured within the grounding lug Insulate the grounding connection as required Align the screw holes in the grounding lug with the mounting holes at the center of the back of the 9145EMP Install the two screws included with the grounding lug kit Torque screws to 14 5 15 5 in Ib Figure 3 12 Install Grounding Lug Installation 9145EMP Network Interface Device Hardware User s Manual Connecting the Electrical Power 3 5 4 Connecting the Fiber Optic and UTP Ethernet Cables 3 5 4 1 Optical Fiber Cable Installation NOTE To avoid damaging the fiber end surface or connector use extreme care when installing or removing cables Connect the Optical Fiber cables to the SFP modules as follows 1 Plug in the optical cables with proper Tx to Rx or Rx to Tx orientation 2 Ensure connector locks in place 3 Label each cable with the signal direction TX or RX 3 5 4 2 UTP Cable
16. IA v Dm v Figure 1 3 Wall Mounting Template 9145EMP Network Interface Device Hardware User s Manual Introduction Mounting Options Functional Description 9145EMP Network Interface Device Hardware User s Manual Base Unit Chapter 2 Functional Description 2 1 Base Unit The 9145EMP is designed with front panel data and management ports and rear panel power and ground connectors This design allows for a multitude of power options The 9145EMP model numbers and configurations are described in Table 2 1 SFP model numbers are described in Table 2 2 All models accommodate feature enhancements through firmware upgrades Table 2 1 9145EMP Model Numbers and Configuration Model Number Extended Description 9145E Multiport Four UTP SFP User Ports Two SFP Network Ports Local Ethernet UTP Management Port Single AC Power Supply Integral Fans 9145E Multiport Four UTP SFP User Ports Two SFP Network Ports Local Ethernet UTP Management Port Single 48VDC Power Supply Integral Fans 9145E Multiport Four UTP SFP User Ports Two SFP Network Ports Local 9145EMP 761 2 0 Ethernet UTP Management Port Redundant AC Power Supply Integral Fans 9145E Multiport Four UTP SFP User Ports Two SFP Network Ports Local 9145EMP 761 3 0 Ethernet UTP Management Port Redundant 48VDC Power Supply Integral Fans 9145E Multiport Four UTP SFP User Ports Two SFP Network Ports Local 9145EMP 761 4 0 Ethernet UTP Management Port Redundant AC
17. Installation Connect the UTP cables to the RJ45 connectors as follows 1 Plug the UTP Cable into the RJ45 connector 2 Be sure the locking tab is properly seated 27 9145EMP Network Interface Device Hardware User s Manual Installation Connecting the Electrical Power 28 Operation 9145EMP Network Interface Device Hardware User s Manual Power Up and Front Panel Functions Chapter 4 Operation 4 1 Power Up and Front Panel Functions The LEDs on the front panel indicate the system and port status of the 9145EMP Figure 4 1 During power up all LEDs on the 9145EMP will light amber When power up has been com pleted the LEDs will display status as described in the following paragraphs Additional informa tion about fault conditions appears in the System Alarms and System Status and Configuration screens see the 9145EMP NID Software User s Manual MGMT UTP USER PORT NETWORK PORT PORT SPD LED LNK ACT LED POWER LED STATUS LED 9145EMP USER PORT NETWORK PORT CONSOLE LNK ACT LED SPD LED PORT Figure 4 1 9145EMP Status Indicators 4 1 1 Power and Status LEDs The power and status LEDs located to the right of the console port Figure 4 1 indicate condi tion and state of the 9145EMP Table 2 4 describes the significance of LED conditions Table 2 5 describes the LED indicators for the SPD and ACT LEDs of User Ports Table 2 6 describes the LED indicators for Network Ports 29 9145EMP Network In
18. MP and plug the other end of the AC power cord into a convenient AC outlet 24 Installation 9145EMP Network Interface Device Hardware User s Manual Connecting the Electrical Power 3 5 2 DC Power CAUTION The 48VDC 9145EMP is only intended to be used in a restricted access location in accordance with Articles 110 16 17 and 18 of the National Electric Code ANSI NFPA 70 NOTE The DC Power Terminal Block is removable for ease of installation and replacement It is recommended the Terminal Block be removed when connecting power to avoid accidentally crossed or shorted power leads from damaging the 9145EMP or your DC power source The 9145EMP is shipped with a compatible DC Power terminal block Connect DC power to the 9145EMP as follows Figure 3 11 NOTE The 9145EMP supports both Positive and Negative grounded DC power 1 Loosen the terminal screws for and GND 2 Slide the wires one at a time green GND red black into the square openings the bottom of the terminal block 3 Tighten the terminal screws as wires are installed 4 Use an ohmmeter to verify that power leads are not shorted to GND 5 Connect the and wires to the power source 6 Insert the terminal block into the DC power receptacle at the rear of the 9145EMP Seng Figure 3 11 Connect DC Power 25 9145EMP Network Interface Device Hardware User s Manual Installation Connecting the Electrical Power 3 5 3 Grounding
19. N 4 D 5 PERKINS 9145EMP Network Interface Device Hardware User s Manual Canoga Perkins has prepared this manual for use by customers and Canoga Perkins personnel as a guide for the proper installation operation and or maintenance of Canoga Perkins equipment The drawings specifications and information contained in this docu ment are the property of Canoga Perkins and any unauthorized use or disclosure of such drawings specifications and information is prohibited Canoga Perkins reserves the right to change or update the contents of this manual and to change the specifications of its products at any time without prior notification Every effort has been made to keep the information in this document current and accurate as of the date of publication or revision However no guarantee is given or implied that the document is error free or that it is accurate with regard to any specification CANOGA PERKINS CORPORATION 20600 Prairie Street Chatsworth California 91311 6008 Business Phone 818 718 6300 Monday through Friday 7 a m 5 p m Pacific Time FAX 818 718 6312 24 hrs Web Site www canoga com E mail fiber canoga com Copyright 2010 Canoga Perkins Corporation All Rights Reserved EdgeAccess 9145EMP NID Hardware User s Manual Model Number 9145EMP Part Number 6913800 Rev A 04 2010 EdgeAccess and Canoga Perkins are registered trademarks of Canoga
20. Perkins Corp To find Technical Advisories and Product Release Notes go to the Canoga Perkins web site at http www canoga com 9145EMP Network Interface Device Hardware User s Manual CAUTION This product may contain a laser diode emitter operating at a wavelength of 1300 nm 1600 nm Use of optical instruments for example collimating optics with this product may increase eye hazard Use of controls or adjustments or performing procedures other than those specified herein may result in hazardous radiation exposure Under normal conditions the radiation levels emitted by this product are under the Class 1 limits in 21 CFR Chapter 1 Subchapter J ATTENTION Ce produit peut contenir un metteur de diode de laser fonctionnant une longueur d onde 1300 de nm nm 1600 Utilisation des instruments optiques par exemple la collimation du syst me optique avec ce produit peut augmenter le danger L utilisation des commandes ou des ajuste ments ou les proc dures d ex cution autre que ceux indiqu es ci dessus peut avoir comme cons quence l exposition de la radiation dangereuse Dans des conditions normales les niveaux de rayonnement mis par ce produit sont sous les limites de la classe 1 en chapitre 1 Subchapter J de 21 CFR NOTICE This device contains static sensitive components It should be handled only with proper Electros tatic Discharge ESD grounding procedures AVIS Ce dispositif contient les compos
21. System self test in progress Blinking Amber System is booting Status Major alarms including link loss at any User or Red Network port Critical alarms requiring immediate user interven tion e g the failure of one of the redundant Blinking Red power supplies temperature or voltage out of range alarms or a fan failure Off Power is off Green Power is on Power PWR Amber One power supply failed in a redundant power supply configuration Red One of the board supply voltages has exceeded a threshold value 13 9145EMP Network Interface Device Hardware User s Manual Functional Description LED Indicators 2 7 2 Data Interface Section LEDs Table 2 5 describes the LED indicators for the SPD and ACT LEDs of User Ports Table 2 6 describes the LED indicators for Network Ports Indications apply to both the SFP and UTP LEDs Table 2 5 User Port LED Indicators LED Name State Condition 10 Mbps UTP connectors only Off Auto negotiate Port disabled Speed Green 1000 Mbps SPD 100 Mbps Amber System Test Slow Blinking Green enabled but no link Red Remote fault SFP connectors only Blinking Red Invalid unsupported SFP installed SFP connectors only No link Off No transmit or receive activity Port disabled Green Link up with full duplex Blinking Green Transmit or receive activity in full duplex Activity System test ACT Amber Link up with half duplex
22. ants sensibles statiques devrait tre manipul seulement avec la D charge Electrostatique DES appropri e proc dures 9145EMP Network Interface Device Hardware User s Manual General Safety Considerations Installation The 9145EMP is suitable for installation in Network telecommunication facilities and locations where the National Electric Code NEC applies Cabling The 9145EMP has been designed and tested and has passed all the pertinent sections of GR 1089 and GR 63 for Type 2 and Type 4 equipment This equipment does not have direct electri cal connection to outside plant equipment The Copper RJ45 ports of the 9145EMP are not intended for direct connection to Outside Plant metallic conductors and shall be isolated by channel banks or office repeaters from any connections to network or terminal equipment that lie outside of the same building The telecom munication interface connections are considered to be and meet the requirements of SELV cir cuits not TNV Power WARNING The 9145EMP with redundant power supplies must have both power supply cords disconnected before servicing Wiring methods used for the connection of the equipment to the AC or DC MAINS SUPPLY shall be in accordance with the National Electrical Code ANSI NFPA 70 and the Canadian Electrical Code Part I CSA C22 1 The 9145EMP AC and DC units do not incorporate a disconnect device The plug on the power supply cord is intended to se
23. clable and should be recycled according to your local standards For more information contact Canoga Perkins technical support 9145EMP Network Interface Device Hardware User s Manual vi 9145EMP Network Interface Device Hardware User s Manual Contents 1 Introduction e 1 Product Description issaraen 1 1 2 STA e e Mee EE 2 1 21 Physical Ee GE EE 2 1 2 2 Environmental Characteristics 2 1 2 3 Power Requirements eee t dte ep t e optet e 2 1 2 4 Regulatory Compliance 2 1 9 le Lee EE 2 LL Rack 3 1 32 Wall Oe ia ln e EE 3 2 Functional Description ees o enun er EERSTEN EEGENEN 5 2 Base UNIN sius teni EE 5 2 2 Hardware Configuration EEN 7 2 2 0 LL m2 LA E AS A ae 7 22 2 Rear EE 8 2 2 3 S6ivice Data POMS 8 2 3 Management POrisS 9 2 3 1 El 282 Console eei aeaaee 9 2 3 2 9 2 4 Porn Settings x oce pho auo A 10 vii 9145EMP Network Interface Device Hardare User s Manual viii 25s
24. e to the equipment The bottom panel of the 9145EMP is designed with keyhole cutouts to accommodate wall mount ing A template is provided with the Quick Start Guide so that the installer can precisely fasten mounting screws onto a wall Two number 8 screws and wall anchors which are not provided by Canoga Perkins are used for wall mounting The keyholes are designed so that the 9145EMP unit can be mounted in three positions with front panel facing the floor to the right or to the left Figure 3 8 T Figure 3 8 Wall Mounting Cutout Locations Assure that there is enough unobstructed space around the perimeter of the 9145EMP to allow for adequate airflow and servicing Install the 9145EMP on a wall as follows 1 Tape the template Figure 3 9 to the wall ensuring that the edge of the template corre sponding to the direction you wish to mount the unit is parallel to the floor and ceiling Drill a hole through the center of each hole position marker on the template Remove the template from the wall Install a screw anchor in each drilled hole then install a 8 screw into each anchor Leave the screws protruding from the wall approximately 1 8 5 Place the keyholes of the 9145EMP over the screws then slide the unit down to lock it into position on the screws 22 Installation 9145EMP Network Interface Device Hardware User s Manual Mounting Options Po E Xp ibe j
25. ermine the Rx sensitivity contact Canoga Perkins Techni cal Support for assistance Follow these steps to calculate fiber link attenuation 1 Determine transmitter output power as described in paragraph 6 2 1 above Determine receiver input power as described in paragraph 6 2 2 above Subtract receiver input power from transmitter output power The result is the fiber link attenuation Transmit Output Power 7 0 dBm Receiver Input Power 28 2 dBm Fiber Link Attenuation 21 2 dB 35 9145EMP Network Interface Device Hardware User s Manual Maintenance Check Optical Power Levels 36 CANOGA PERKINS CORPORATION CANOGA PERKINS 20600 Prairie Street Chatsworth California 91311 6008 USA Phone 818 718 6300 FAX 818 718 6312 Web Site www canoga com Email fiber canoga com
26. ite Compare the receiver input power with the sensitivity level listed on the optical specifica tions sheet located in the Client Support Area of the Canoga Perkins web site The power level must be within the sensitivity range listed on the data sheet If not contact Canoga Perkins Technical Support Compare the receiver input power to the receiver s saturation overdrive level shown on the optical specifications sheet located in the Client Support Area of the Canoga Perkins web site The power level must be lower than the saturation level If not contact Canoga Perkins Technical Support Maintenance 9145EMP Network Interface Device Hardware User s Manual Check Optical Power Levels LOCAL SITE FIBER OPTIC RECEIVER FIBER OPTIC TRANSMITTER E 8 FIBER OPTIC RECEIVER FIBER OPTIC TRANSMITTER REMOTE SITE Figure 6 2 Measuring Receiver Input Power 6 2 3 Calculating Fiber Link Attenuation Link attenuation measurement identifies potential problems with links that are on the threshold of receiver sensitivity Measure optical fiber links at the shortest wavelength of operation as it is the limiting factor in the loss budget Use a power meter calibrated for the laser source then factor in approximately 1 dB for the connector loss from the patch cables between the 9145EMP and the local device Each fiber connection can generate 0 5 dB of additional loss NOTE f you cannot det
27. ixed UTP and SFP connectors while the Network Ports provide SFP connectors The user can configure the 9145EMP through software to allow for either the UTP or SFP connector within each User Port to be active Both User Port connec tors can not be active simultaneously UTP connectors are IEEE 802 3 compliant for 10 100 1000BASE T e UTP connectors support MDI and MDIX connections UTP connectors support both full duplex and half duplex operation in 10 100 1000 Mbps mode SFP connectors support full duplex operation at 100 1000 Mbps Functional Description 9145EMP Network Interface Device Hardware User s Manual Management Ports 2 4 Management Ports 2 4 1 EIA 232 Console Port The console port of the 9145EMP is used for communication between the 9145EMP and a VT100 terminal or emulator The console port is a DE 9 female connector with a DCE pin out which can be directly connected to a terminal with a straight through cable Figure 2 3 20000 00000 2000 0000 TO 9145E CRAFT PORT TO PC SERIAL PORT DCE DTE DE9 FEMALE DE9 MALE DCD Figure 2 3 EIA 232 Console Port Pinouts 2 4 2 Ethernet Management Port The Ethernet Management port is used for local management of the 9145EMP The 9145EMP has a management interface with an RJ45 UTP connector The management port can sense and automatically cross over the Tx and Rx pairs The UTP port is IEEE 802 3 compliant for 10BASE T and 100BASE TX and supports the follow ing
28. mposed such as fault current from sources within the chassis For the DC model use an approved 18ga insulated wire connected to the terminal block s middle conductor The plus and minus 48VDC conductors should be a minimum of 20ga The AC will be grounded via the ground conductor of the power cord and must be connected to an earthed mains socket outlet An electrical conducting path should exist between the 9145EMP chassis and the metal surface of the enclosure or rack in which it is mounted or to a grounding conductor Electrical continuity should be provided by using thread forming type mounting screws that remove any paint or non conductive coatings and establish a metal to metal contact Any paint or other nonconductive coatings should be removed on the surfaces between the mounting hardware and the enclosure or rack The surfaces should be cleaned and an antioxidant applied before installation Lightning Protection The intra building ports of the 9145EMP are suitable for connection to intrabuilding or unexposed wiring or cabling only The intra building port s of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the OSP or its wiring These interfaces are designed for use as intra building interfaces only Type 2 or Type 4 ports as described in GR 1089 CORE Issue 4 and require isolation from the exposed OSP cabling The addition of Pri mary Protectors is not sufficient protection in order to con
29. n the 9145EMP For more details see the 9145EMP NID Software User s Manual 5 3 Running Diagnostics When you set up a new connection you can verify the link connectivity using PING prior to send ing data 5 3 1 PING Testing You can verify network connectivity with another IP device within the subnet by sending a PING to the IP address for that device For PING testing instructions see the 9145EMP NID Software User s Manual 31 9145EMP Network Interface Device Hardware User s Manual Troubleshooting Loopback Diagnostics 5 4 Loopback Diagnostics Use Loopbacks to diagnose a fault on the optical link Loopbacks can be set at any port once a port is in loopback mode data is looped at the physical level though the particular port When performing loopback diagnostics the 9145EMP uses a unique MAC address designated as the Loop Test MAC Address which is displayed on the Loopback Setup Screen see the 9145EMP NID Software User s Manual When in loopback mode the 9145EMP filters and discards all ser vice frames Only packets with the predefined Loop Test MAC Address are looped back The 9145EMP is configurable to swap the origination and destination MAC Addresses and to recalculate the looped frame s CRC Test packets are returned to the source according to the selected options To display current loopback status configure address swapping and CRC recalculation options see the 9145EMP NID Software User s Manual 32
30. nect these interfaces metallically to OSP wiring To protect the port against intra building lightning surges the RJ45 ports of 9145EMP suita ble for connection to shielded intra building cabling grounded at both ends ESD The 9145EMP has been tested and passes the ESD requirements of Test level 4 for air and contact discharges However to protect the exposed components from electrostatic damage when removing or replacing the small form factor pluggable SFP optical modules requires the proper use of static mitigation procedures such as properly wearing a wrist strap 9145EMP Network Interface Device Hardware User s Manual Operation Temperature The 9145EMP is designed and Nationally Recognized Test Laboratory NRTL tested and veri fied to operate between 0C to 50 and type teste d for short term emergency ambient tempera ture of 5C to 55 Fans The 9145EMP models equipped with fans are constructed with a mid front to mid rear EC class F2 R2 airflow scheme i e it draws air from the front and exhausts to the rear The 9145EMP models equipped with redundant fans are designed to function normally over the entire long term operating temperature range in the unlikely event of a single fan failure the 9145EMP will continue to perform normally over the long term operation temperature range until a replacement can be installed Fan replacement cannot be performed in the field Call Canoga Perkins for an RMA number to
31. owing paragraphs describe the functions of the LED indicators Figure 2 9 on the 9145EMP base unit USER PORT NETWORK PORT LNK ACT LED SPD LED POWER LED STATUS LED 9145EMP ky USER PORT LNK ACT LED SPD LED NETWORK PORT Figure 2 9 LED Indicators Functional Description LED Indicators 9145EMP Network Interface Device Hardware User s Manual 2 7 1 Management Section LEDs The Link Activity LNK ACT front panel LED located to the right of the MGMT UTP Port indi cates the presence of transmit or receive activity The Speed SPD front panel LED located directly below the LINK ACT LED indicates the speed of the transmissions Table 2 4 Ethernet Management Status and Power LED Indicators LED Name State Condition 10 Mbps Off Auto negotiate or no link Speed SPD Port disabled 100 Mbps Amber System is booting Slow Blinking Green Port enabled but no link Link Activity ACT Off No link No transmit or receive activity Green Link on with full duplex Blinking Green Transmission or receiving activity with full duplex Amber System is booting Link on with half duplex Blinking Amber Transmission or receiving activity with half duplex Slow blinking green means the LED toggles between Off and Green approximately once per sec ond Off No power Green Normal operation Amber
32. rve as the disconnect device It is also recommended that the AC socket outlet shall be installed near the equipment and shall be easily accessible The 9145EMP DC has a nominal operating DC voltage of 48 VDC and passes the minimal steady state DC operating voltage of 40 VDC in accordance with GR 1089 Issue 4 which refe rences American National Standards Institute ANSI T1 315 Table 1 Additionally Canoga Per kins design allows for a minimal steady state of 36VDC The 9145EMP DC model is configured for a DCL Isolated DC return Fuses The 9145EMP is equipped with internal fuses The AC model is fused at 2A and the 48VDC model at 3 0A Although not required an external fuse may be used to isolate the unit in a shared fuse distribution panel In that case the unit should be fused with a 3A slow blow fuse or a 5A fast acting fuse for 48VDC input voltages 9145EMP Network Interface Device Hardware User s Manual Surge Protection The AC powered 9145EMP does not contain an internal Surge Protective Device An external Surge Protective Device SPD should be used at the AC input of the network equipment accor ding to facilities procedures and as defined by the National Electric Code NEC Grounding The 9145EMP AC amp DC models are suitable for installation as part of the Common Bonding Network CBN The 9145EMP AC and DC are provided with a safety ground connection which is capable of conducting any fault current likely to be i
33. s for the power reading to stabilize and read the output power 4 Add the test cable loss then record the power level and compare it to the value on the performance sheet that was included for that transceiver Measurement tolerance is 0 5 dBm 33 9145EMP Network Interface Device Hardware User s Manual Maintenance Check Optical Power Levels If the reading is low repeat the measurement with a different test cable If the power level is still not within range call Canoga Perkins Technical Support FIBER OPTIC TRANSMITTER FIBER OPTIC RECEIVER 7dBm 1300 nm OPTICAL POWER METER Figure 6 1 Measuring Transmitter Output Power 6 2 2 Measuring Receiver Input Power To measure receiver input power follow these steps 34 1 2 Connect the transmit fiber to the transmit side of the equipment at the local site Connect a calibrated optical power meter to the end of the transmit fiber at the remote site Measure and record the optical power on the transmit fiber at the remote site This is the receiver input power for the transmit fiber from the local site Connect the transmit fiber to the transmit side of the equipment at the remote site Connect a calibrated optical power meter to the end of the transmit fiber at the local site Measure and record the optical power on the transmit fiber at the local site This is the receiver input power for the transmit fiber from the remote s
34. s window on the Port Settings tab select the following from the appropriate dropdown menus then Click Apply Bits per second 9600 bps Data bits 8 Parity None Stop bits 1 Flow control None Click OK HyperTerminal connects to the system and VT100 terminal emulation starts In the Hyperterminal window select the Properties button from the tool bar select the Settings tab select VT100 from the Emulation drop down menu and click OK The default username is admin default password is admin case sensitive 30 Troubleshooting 9145EMP Network Interface Device Hardware User s Manual Optical Power Loss Chapter 5 Troubleshooting This chapter covers identifying fault conditions and determining corrective action The front panel LEDs provide both normal and fault information For a description of all LED func tions and indicators see Table 2 4 Table 2 5 and Table 2 6 5 1 Optical Power Loss Whenever there is a significant signal loss the Rx indictor turns off Check cable integrity and remove and inspect the cable connectors being careful not to damage the fiber end face surface or the connector housing Clean all optical connectors before reinstalling them 5 2 Fault Conditions The 9145EMP front panel and interface module LEDs show fault conditions Additional informa tion about fault conditions appears on the System Alarms Log Use the System Alarms Screen to view alarms and faults o
35. terface Device Hardware User s Manual Power Connectors 2 6 3 Redundant AC Power Base Unit The Redundant AC powered 9145EMP base unit Figure 2 5 has two power connectors on the rear panel Appropriate AC power cords are supplied with the unit 9 2 229 34 5 Sx 9067200 206 226 90990 2 09090 Figure 2 5 Redundant Power 2 6 4 Single DC Power Base Unit The Single DC powered 9145EMP base unit Figure 2 6 has a three terminal receptacle on the rear panel A DC terminal block is supplied with the unit Figure 2 6 Single DC Power 2 6 5 Redundant DC Power Base Unit The Redundant DC powered 9145EMP base unit Figure 2 7 has two three terminal receptacles on the rear panel Two DC terminal blocks are supplied with the unit 6077750 0 000225500 2 e EC 21e Ze Figure 2 7 Redundant DC Power 11 9145EMP Network Interface Device Hardware User s Manual Functional Description LED Indicators 2 6 6 AC DC Power Base Unit The AC DC powered 9145EMP base unit Figure 2 8 has two power interfaces on the rear panel one that supports DC power input and one that supports an AC power input An appropri ate AC power cord and a DC terminal block are supplied with the unit 0972596 04 9 97 25 52622 2299 0922 5700 3 8 2 20 62245 Te H 692942 90562299 256 2260 Figure 2 8 AC DC Power 2 7 LED Indicators The foll
36. terface Device Hardware User s Manual Operation Interface Management 4 2 Interface Management The 9145EMP is managed locally through the console port and remotely either through the Man agement UTP port or inband via the Network Ports The console port is connected to a VT 100 terminal through an emulation program through the RS 232 serial port using a DE 9 cable UTP is an out of band 10 100 Mbps port supporting Telnet SSH and SNMP V1 V2C V3 that is used for network management 4 2 1 Setting Up the VT 100 Terminal When using the console port you can use the HyperTerminal Emulation program that is included with Microsoft Windows operating systems The Telnet session is only available after the man agement TCP IP configuration is completed NOTE The Microsoft Vista operating system does not include HyperTerminal If your terminal interface computer uses Windows Vista you will need to use a separate terminal emulation program The following steps describe how to set up HyperTerminal on your PC 1 Select Start gt All Programs gt Accessories gt Communications gt HyperTerminal The New Connection HyperTerminal window will open 2 Enter aname for the connection to the system in the Name box select an icon to identify this connection on your desktop and click OK The Connect To window will open 3 Select COM from the Connect using drop down menu and click OK The Com1 Proper ties window will open 4 Atthe COM 1 Propertie
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