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9145E Network Interface Device

User’s Manual

Summary of content (54 pages)

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9145E Network Interface Device User’s Manual
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NOTICE Canoga Perkins has prepared this users 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 document are the property of Canoga Perkins and any unauthorized use or disclosure of such drawings, specifications and information is prohibited.
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9145E Ethernet Network Interface Device 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.
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9145E Ethernet Network Interface Device User’s Manual General Safety Considerations Installation The 9145E is suitable for installation in Network telecommunication facilities and locations where the National Electric Code (NEC) applies. Cabling The 9145E 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 electrical connection to outside plant equipment.
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9145E Ethernet Network Interface Device User’s Manual Grounding The 9145E AC & DC models are suitable for installation as part of the Common Bonding Network (CBN). The 9145E AC and DC are provided with a safety ground connection which is capable of conducting any fault current likely to be imposed 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.
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9145E Ethernet Network Interface Device User’s Manual Fans The 9145E models equipped with fans are constructed with a Mid-front to mid-rear (EC class F2R2) airflow scheme i.e. draws air from the front and exhausts to the rear.
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9145E Ethernet Network Interface Device 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 recyclable, and should be recycled according to your local standards. For more information, contact Canoga Perkins technical support.
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145 Ethernet Network Interface Device User’s Manual Contents 1 Introduction .......................................................................................... 1 1.1 Description ........................................................................................................ 1 1.2 9145E Specifications ......................................................................................... 2 1.2.1 Physical Characteristics .....................................................................
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9145 Ethernet Network Interface Device User’s Manual 2.3 Service Data Ports ............................................................................................ 8 2.4 Management Ports ............................................................................................ 9 2.4.1 EIA-232 Console Port .............................................................................................. 9 2.4.2 Ethernet Management Port .....................................................................
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9145 Ethernet Network Interface Device User’s Manual 3.5 Connecting the Electrical Power ..................................................................... 22 3.5.1 AC Power .............................................................................................................. 22 3.5.2 DC Power .............................................................................................................. 23 3.5.3 Grounding ...........................................................................
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9145 Ethernet Network Interface Device User’s Manual 6 Maintenance ........................................................................................ 37 6.1 General Maintenance ...................................................................................... 37 6.2 Check Optical Power Levels ........................................................................... 37 6.2.1 Measuring Transmitter Output Power ................................................................... 37 6.2.
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Introduction 9145E Ethernet Network Interface Device User’s Manual Description Chapter 1 Introduction 1.1 Description The 9145E (see Figure 1-1) is 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.
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9145E Ethernet Network Interface Device User’s Manual Introduction 9145E Specifications 1.2 9145E Specifications 1.2.1 Physical Characteristics • Dimensions: 1.75" H x 8.25" W x 11.5" D (44.5 x 209.5 x 292 mm) • Weight: 4.75 lb to 5.1 lb (2.15 Kg to 2.31 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 • 100 VAC to 240 VAC (auto-ranging), 50/60 Hz, 0.
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Introduction 9145E Ethernet Network Interface Device User’s Manual Hardened 9145E Specifications 1.3 Hardened 9145E Specifications 1.3.1 Physical Characteristics • Dimensions: 1.75" H x 8.25" W x 11.5" D (44.5 x 209.5 x 292 mm) • Weight: 4.75 lb to 5.1 lb (2.15 Kg to 2.31 Kg) (depending on model) 1.3.2 Environmental Characteristics • Operating Temperature: -40°C to +65°C • Operating Humidity: 0 to 90% Relative Humidity (non-condensing) 1.3.
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9145E Ethernet Network Interface Device User’s Manual Introduction Mounting Options 1.4.1 Rack Mounting The customer is required to order the brackets required (see Figure 1-2) for their particular rack installation. Figure 1-2. 9145E Mounting Brackets 1.4.2 Wall Mounting Canoga Perkins includes a mounting template in the shipping container (see Figure 1-3) to assist the customer in mounting the 9145E on a wall. 1" 16 1/8" 3" 5" 9145E 8 1/8" X 11" 11" 1.563" 5" 1.
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Functional Description 9145E Ethernet Network Interface Device User’s Manual Base Unit Chapter 2 Functional Description 2.1 Base Unit The 9145E is designed with front-panel data and management ports and rear-panel power and ground connectors. This design allows for a multitude of power and port options. The 9145E is available as a normal (see Table 2-1) or hardened (see Table 2-2) unit. In addition, both 9145Es come as Standard NID (V2 engine), or as an Enhanced NID (V1 engine) units.
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9145E Ethernet Network Interface Device User’s Manual Functional Description Base Unit Table 2-1.
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Functional Description 9145E Ethernet Network Interface Device User’s Manual Hardware Configuration 2.2 Hardware Configuration The 9145E can be ordered with different port and connector options (see Figure 2-1). 2.2.1 Front Panel The 9145E has a variety of models and configurations (see Tables 2-1 and 2-2). Customers can choose a model depending on the application. 1. One EIA-232 console port with DE-9 female connector 2. One Ethernet Management Port with UTP connector 3.
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9145E Ethernet Network Interface Device 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 (see Figure 2-2). Five options are offered: 1. Single AC Power 2. Redundant AC Power 3. Single DC Power 4. Redundant DC Power 5. Redundant AC and DC mix Figure 2-2. 9145E Rear Panel The Standard and Enhanced versions of the normal 9145E accommodate all five power options.
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Functional Description 9145E Ethernet Network Interface Device User’s Manual Management Ports 2.4 Management Ports 2.4.1 EIA-232 Console Port The console port of the 9145E is used for communication between the 9145E 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 (see Figure 2-3).
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9145E Ethernet Network Interface Device User’s Manual Functional Description Port Default Settings 2.5 Port Default Settings Table 2-2 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.
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Functional Description 9145E Ethernet Network Interface Device User’s Manual Power Connectors 2.6.3 Redundant AC Power Base Unit The Redundant AC powered 9145E base unit (see Figure 2-5) has two power connectors on the rear panel. Appropriate AC power cords are supplied with the unit. Figure 2-5. Redundant AC Power 2.6.4 Single DC Power Base Unit The Single DC powered 9145E base unit (see Figure 2-6) has a three terminal receptacle on the rear panel. A DC terminal block is supplied with the unit.
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9145E Ethernet Network Interface Device User’s Manual Functional Description LED Indicators 2.6.6 AC/DC Power Base Unit The AC/DC powered 9145E base unit (see Figure 2-8) has two power interfaces on the rearpanel, one that supports DC power input and one that supports a AC power input. An appropriate AC power cord and a DC terminal block are supplied with the unit. Figure 2-8. AC/DC Power 2.
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Functional Description 9145E Ethernet Network Interface Device User’s Manual LED Indicators 2.7.1 Management Section LEDs Table 2-4 provides the indications supplied by the STATUS, POWER, SPD, and LNK/ACT LEDs, located to the right of the Ethernet Management and Console ports. Table 2-4.
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9145E Ethernet Network Interface Device User’s Manual Functional Description LED Indicators 2.7.2 Data Interface Section LEDs Table 2-5 represents the indications supplied by the SPD and LNK/ACT LEDs of the User, Network, and Multipurpose ports. Indications apply to both the SFP and UTP LEDs. Table 2-5.
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Installation 9145E Ethernet Network Interface Device User’s Manual 9145E Installation Procedures Chapter 3 Installation 3.1 9145E Installation Procedures This section describes how to unpack, install, and set up the 9145E. Before setting up the 9145E, make sure a 9 pin EIA-232 cable is available to connect the 9145E'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 operational.
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9145E Ethernet Network Interface Device User’s Manual Installation Mounting Options USE RM AN UAL S GR1 Figure 3-1. Unpacking the 9145E 3.3 Mounting Options The 9145E 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 9145E can be mounted in either a 19" rack or a 23" rack, and two 9145Es can be mounted side by side in either a 19" rack or a 23" rack.
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Installation 9145E Ethernet Network Interface Device User’s Manual Mounting Options Table 3-1. Rack Mount Kits Rack Mount Kit Part Number Component Part Number Qty Rack Mount Bracket 1802-2016 Kit, 19" Single Unit Bracket, rack mount,single, 19” 6213614-119 2 Screw, flat head,8-32 x 0.25” 80680041 4 Rack Mount Bracket 1802-2017 Kit, 23" Single Unit Bracket, rack mount,single, 23” 6213614-123 2 Screw, flat head,8-32 x 0.
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9145E Ethernet Network Interface Device User’s Manual Installation Mounting Options Mounting One 9145E in a 19" or 23" Rack - To rack mount one 9145E, 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 9145E. The brackets attach to the two threaded holes on each side of the 9145E, toward the front (see Figure 3-3) using the flat head screws provided.
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Installation 9145E Ethernet Network Interface Device User’s Manual Mounting Options Mounting Two 9145Es, Side by Side, in a 19" or 23" Rack - To rack mount two 9145Es, 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 9145Es.
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9145E Ethernet Network Interface Device User’s Manual Installation Mounting Options 3.3.2 Wall Mounting CAUTION:Fasteners used for wall mounting of the 9145E are required to withstand a force of three times the weight of the 9145E, applied in any direction. Failure to meet these requirements could result in damage to the equipment. The bottom panel of the 9145E is designed with keyhole cutouts to accommodate wall mounting.
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Installation 9145E Ethernet Network Interface Device User’s Manual 1.625" INSTALL MOUNTING SCREWS WALL FAN 1 8 “ FRONT OF UNIT 5" 8¼" 8 ¼" X 11" 9145E FAN 1.625" 11" Mounting Options Figure 3-9. 9145E Wall Mount Template 3.3.3 Horizontal Flat Surface Mounting The 9145E requires at least one inch of unobstructed space around the perimeter for ventilation.
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9145E Ethernet Network Interface Device 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, Network, and Multipurpose ports by referencing the SFP Product Data Sheet. 2. Insert a module into each available port and push firmly to seat module (see Figure 3-10). 3. Raise latch to lock module in place. Figure 3-10. SFP Modules 3.
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Installation 9145E Ethernet Network Interface Device User’s Manual Connecting the Electrical Power 3.5.2 DC Power CAUTION: The 24 VDC and 48VDC 9145Es are 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.
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9145E Ethernet Network Interface Device User’s Manual Installation Connecting the Electrical Power 3.5.3 Grounding A grounding lug kit is included in the 9145E accessory tray. Connect a 6AWG to 10AWG grounding cable to the 9145E as follows (see Figure 3-12): 1. Strip approximately ¾-inch of insulation from the end of the grounding cable. 2. Twist the exposed wires together and trim the ends off evenly. 3. Insert exposed wire into the grounding lug until it bottoms out inside the barrel. 4.
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Installation 9145E Ethernet Network Interface Device 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 cable locks in place. 3.
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Operation 9145E Ethernet Network Interface Device 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 9145E (see Figure 4-1). During power-up, all LEDs on the 9145E will light amber. When power-up has been completed, the LEDs will display status as described in the following paragraphs.
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9145E Ethernet Network Interface Device User’s Manual Operation Power-Up and Front Panel Functions Table 4-1.
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Operation 9145E Ethernet Network Interface Device User’s Manual Interface Management 4.1.2 SFP/UTP Port Status LEDS The Link/Activity (LNK/ACT) LEDs are located above the SFP and UTP Ports of the each port section (see Figure 4-1). See Table 4-2 to determine the current condition of the User Ports. Table 4-2.
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9145E Ethernet Network Interface Device User’s Manual Operation Interface 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 management TCP/IP configuration is completed. NOTE: The Microsoft Vista operating system does not include HyperTerminal.
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Troubleshooting 9145E Ethernet Network Interface Device 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. To aid troubleshooting, Tables 5-1and 5-2 list all LED functions and indications. 5.1 Optical Power Loss Whenever there is a significant signal loss, the Rx indictor turns off.
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9145E Ethernet Network Interface Device User’s Manual Troubleshooting Fault Conditions Table 5-1.
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Troubleshooting 9145E Ethernet Network Interface Device User’s Manual Fault Conditions Table 5-2.
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9145E Ethernet Network Interface Device User’s Manual Troubleshooting Running Diagnostics x FAULT NO DATA USER PORT NETWORK PORT NETWORK PORT Tx Rx Rx Tx USER PORT Tx Rx Rx Tx RMTF x Link loss detected on User Port Fault propogated to Network Port Network Port Tx stops transmitting data Network Port Tx ACT/LNK LED turns red REMOTE DEVICE LOCAL DEVICE USER PORT TO NETWORK PORT USER PORT NETWORK PORT NETWORK PORT Tx Rx Rx Tx x USER PORT Tx Rx Rx Tx RMTF Link loss detected o
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Troubleshooting 9145E Ethernet Network Interface Device User’s Manual Loopback Diagnostics 5.4 Loopback Diagnostics Use Loopbacks to diagnose a fault on the optical link. The 9145E supports two loopback modes that you can set at the local site for both the local and remote 9145Es. These modes loop the data through either the physical layer on the User side or the Network side.
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9145E Ethernet Network Interface Device User’s Manual Troubleshooting Loopback Diagnostics 5.4.2 Network Mode Network Mode loops data received on the Network Port Rx through the Local User side to the Network Port Tx. Data is not sent out the local User Port Tx and incoming data on the local User Port Rx is ignored (see Figure 5-4). To set this mode, set the Loopback State for the Remote module to Remote (reference 6913303, 9145E NID Software Users Manual).
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Maintenance 9145E Ethernet Network Interface Device User’s Manual General Maintenance Chapter 6 Maintenance 6.1 General Maintenance Well maintained components and clearly identified cables help assure optimum system operation. 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.
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9145E Ethernet Network Interface Device User’s Manual Maintenance Check Optical Power Levels 5. 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 λ = 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 (seeFigure 6-2): 1.
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Maintenance 9145E Ethernet Network Interface Device User’s Manual -24dBm λ = 1300 nm LOCAL SITE OPTICAL POWER METER Check Optical Power Levels FIBER OPTIC TRANSMITTER FIBER OPTIC RECEIVER FIBER OPTIC RECEIVER FIBER OPTIC TRANSMITTER -24dBm λ = 1300 nm OPTICAL POWER METER 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.
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CANOGA PERKINS CORPORATION 20600 Prairie Street Chatsworth, California 91311-6008 USA Phone: (818) 718-6300 FAX: (818) 718-6312 Web Site: www.canoga.com Email: fiber@canoga.