,QYLVLEOH )LEHU 8QLW ,QVWDOODWLRQ DQG &RPPLVVLRQLQJ *XLGH Part No. 5800141-0002 Release No. 2.
© 2001 Triton Network Systems, Inc. All Rights Reserved. This document and the information contained therein is the proprietary and confidential information of Triton Network Systems, Inc. that is provided by Triton Network Systems™ exclusively for evaluating the purchase of Triton Network Systems, Inc. technology and is protected by copyright and trade secret laws.
7DEOH RI &RQWHQWV Table of Contents ................................................................................................... i List of Figures ....................................................................................................... iii List of Tables ......................................................................................................... v About This Book ..................................................................................................
Installation and Commissioning Guide - R2.0 2 IFU Configuration .............................................................................................. 2-1 2.1 2.2 2.3 3 Cable Installation ............................................................................................... 3-1 3.1 3.2 3.3 3.4 4 Materials Required ...............................................................................................3-2 Fiber and Power Demarcation Equipment Installation ......................
/LVW RI )LJXUHV Figure 1-1: Direct IFU-to-Site Equipment Cable Connection ............................................. 1-8 Figure 1-2: IFU-to-Site Equipment Connection Using a Demarcation Box........................ 1-9 Figure 1-3: Fiber Cable Option Selection Flowchart......................................................... 1-10 Figure 2-1: IFU Test Cable Connections ............................................................................. 2-5 Figure 2-2: TCP/IP Properties Menu ............
Installation and Commissioning Guide - R1.0 Figure 4-5: Correct IFU Hoisting Position When Using a Carabiner...................................4-6 Figure 4-6: Mounting the IFU...............................................................................................4-7 Figure 4-7: IFU Cable Connections (IFU Alignment)..........................................................4-8 Figure 4-8: IFU Test Cable Connections for Alignment Test .............................................
/LVW RI 7DEOHV Table 1-1: Maximum Indoor Power Cable Length with One Pair of Conductors........................................................................... 1-11 Table 1-2: Maximum Indoor Power Cable Length with Two Pairs of Conductors......................................................................... 1-11 Table 1-3: Resistance Per Foot ......................................................................................... 1-12 Table 1-4: Resistance of Outdoor Cables ..................
Installation and Commissioning Guide - R2.0 vi © 2001 Triton Network Systems, Inc. All Rights Reserved.
$ERXW 7KLV %RRN The Triton Network Systems, Inc. Invisible Fiber unit (IFU) delivers high-bandwidth traffic through a wireless transport. This book describes the processes required to install and commission all Triton Network Systems IFUs. Intended Audience This book is written for those who are involved in the “hands-on” installation of the IFU, such as installation technicians, site evaluators, project managers, and network engineers.
Installation and Commissioning Guide - R2.0 Contacting Triton Network Systems, Inc. Direct any questions to your project liaison or: Triton Network Systems, Inc. 8529 SouthPark Circle Orlando, FL 32819 Telephone (Domestic): 1-877-6TRITON -or- 1-877-687-4866 Telephone (International): +1-407-903-2070 E-mail: support@triton-network.com Fax: +1-407-903-0995 viii © 2001 Triton Network Systems, Inc. All Rights Reserved.
:DUQLQJV DQG 6DIHW\ *XLGHOLQHV WARNING: Failure to follow operating instructions could result in death or serious injury. Risk of Personal Injury from Radio Frequency Energy Exposure This symbol indicates a risk of personal injury due to radio frequency energy exposure. WARNING: RF Energy Exposure Limits and Applicable Rules for 28 GHz. The Triton Network Systems, Inc. 28 GHz radio is tested and evaluated for RF radiation level exposure rules and compliance with FCC 47 CFR 1.1307 and 1.
Installation and Commissioning Guide - R2.0 To minimize potential RF exposure and to assure continued compliance, ensure that the Invisible Fiber® unit is mounted and pointed away from pedestrian traffic, such as walkways, gathering and resting areas, and maintain the safe minimum separation distances described below. As described in the product manuals, precautions should be taken to avoid RF exposure.
Warnings and Safety Guidelines WARNING: Never touch exposed fiber with any part of your body. Fiber fragments can enter the skin and are difficult to detect and remove. Risk of Personal Injury from Electrical Shock This symbol indicates a risk of personal injury due to an electrical shock. DANGER – HIGH CURRENT HAZARD: Do not turn on power before reading Triton Network Systems, Inc.’s product documentation. This device has a – 48 Vdc (5 amps operating peak per feed) direct current input.
Installation and Commissioning Guide - R2.0 CAUTION: Do not block the front of the Invisible Fiber® unit to avoid possible radio service interruption. CAUTION: To reduce the risk of fiber optic cable damage, use the following bend radius guidelines for indoor/outdoor fiber optic cable: • Long-term (installed): bend radius is equal to 20 times the diameter of the cable. • Short-term (during installation): bend radius is equal to 10 times the diameter of the cable.
$YHUWLVVHPHQWV HW FRQVLJQHV GH VpFXULWp AVERTISSEMENT : Ne pas suivre les instructions d’utilisation peut causer de sérieuses blessures et même la mort. Risque de lésions corporelles provoquées par ’exposition à l’énergie radiofréquence AVERTISSEMENT : Limites d'exposition à l'énergie RF et règlements applicables pour 28 GHz. La radio 28 GHz de Triton Network Systems, Inc. est testée et évaluée pour respecter les règlements sur l'exposition au niveau de radiation haute fréquence, les 47 CFR 1.1307 et 1.
Installation and Commissioning Guide - R2.0 Pour minimiser l'exposition RF potentielle et pour garantir une conformité continue, assurez-vous que l'UIF est montée à l'écart des aires de trafic pédestre, comme les trottoirs et les aires de rassemblement et de repos, pointée dans une autre direction et maintenue aux distances de sécurité minimales mentionnées ci-dessous. Suivant les explications des manuels du produit, des précautions devraient être prises pour éviter l'exposition RF.
Avertissements et consignes de sécurité Risque de lésions corporelles provoquées par les câbles à fibres optiques Ce symbole indique un risque de lésions corporelles provoquées par les câbles à fibres optiques. DANGER : Rayonnement laser invisible. Éviter l’exposition directe des yeux à l’extrémité d’une fibre, d’un cordon à fibres ou d’une fibre amorce. La lumière infrarouge utilisée dans les systèmes à fibres optiques est invisible, mais peut provoquer des lésions graves aux yeux.
Installation and Commissioning Guide - R2.0 MISE EN GARDE : L’unité Invisible Fiber® ne contient pas de de piéces réparables par le propriétaire ou l’usager. Ouvrir l’unité de la radio ou déranger l’un ou l’autre des fermetures de sécurité rend toute garantie nulle et non avenue.
6LWH (YDOXDWLRQ Chapter 1 describes the process for completing a proper site evaluation. 1.1 What Is a Site Evaluation?......................................... 1-2 1.2 Why Perform a Site Evaluation? ............................... 1-2 1.3 Preparing for a Site Evaluation ................................. 1-2 1.4 Site Evaluation Process ............................................. 1-3 1.5 Documenting a Site Evaluation ...............................
Installation and Commissioning Guide - R2.0 1.1 What Is a Site Evaluation? A site evaluation consists of a series of procedures for gathering specific information about potential IFU locations. These processes are outlined in Section 1.4, Site Evaluation Process. Use these procedures to gather the required information and record that information on the site evaluation form. This information is critical to the successful design and deployment of a network. 1.
Site Evaluation The following tasks must be completed prior to performing a site evaluation: • 1.4 Prepare the initial network design plan by performing the following: ß ß Identify potential buildings by identifying targeted customers Identify potential links by selecting buildings based on the high probability of line of sight • Arrange for access with the facility personnel into the buildings, equipment rooms, and architectural plans to become familiar with the location of all ducts, risers, etc.
Installation and Commissioning Guide - R2.0 1.4.2 Ensure Compliance With Laws, Regulations, Codes, and Agreements Ensure that any installation performed as a result of the site evaluation is in full compliance with applicable federal and local laws, regulations, electrical codes, building codes, fire codes, and licensing agreements. 1.4.
Site Evaluation • A minimum of 0.5 inch (12.7 millimeters) diameter or bolts with lock washers or positive locking nuts are used. • The minimum distance between IFUs is three feet (91 centimeters). Refer to the Triton Network Systems white paper RF Design Guidelines for Consecutive Point Networks for additional information about colocating IFUs. • The bottom of the IFU is a minimum of seven feet above the roof to ensure line of site is maintained.
Installation and Commissioning Guide - R2.0 • Polarity (horizontal or vertical) • Transmit power level • Antenna direction 1.4.7 Measure the Link Distance The two ways to measure link distance are as follows: • GPS - record the latitude and longitude for the near and far IFU sites and calculate the link distance. NOTE: Record the mapping datum used by the GPS unit and ensure the same mapping datum is used for all site evaluations in a given network.
Site Evaluation 1.4.10 Determine Site Equipment Location and Requirements Site equipment can be installed in a free-standing rack or wall-mounted cabinet. Triton Network Systems recommends a lockable cabinet for maximum physical security. A site equipment cabinet typically contains the power source for an IFU and is the primary cable termination point for the power, GPI, and fiber optic cables that are connected to an IFU. It is possible to mount the site equipment indoors or outdoors.
Installation and Commissioning Guide - R2.0 • Use a custom fiber outdoor cable assembly of sufficient length to directly connect the IFU to the site equipment interface. It is the customer’s responsibility to determine the required length for custom cables and to acquire custom cables from a third-party provider. Triton Network Systems Customer Service will assist in determining proper specifications for cables if so requested by the customer.
Site Evaluation IFU Fiber Optical Cables (Outdoor) IFU Beta IFU Alpha Demarcation Box Jumper Pairs (IFU-to-IFU Interconnect) Indoor Fiber Optical Cable CPE Site Equipment Room IFU Installation Site Option 3 – Demarcation Box Figure 1-2: IFU-to-Site Equipment Connection Using a Demarcation Box Guidelines for Connecting Outdoor Fiber Cable Assemblies Providers can either directly connect outdoor cables to the site equipment or interface to the site equipment through an intermediary connection point s
Installation and Commissioning Guide - R2.0 • UV-rated plenum cable (Option 2). This option uses a single UV-rated plenum fiber cable to connect directly to the site equipment interface without the use of conduit or a demarcation box. Use Option 2 when the site engineering plan specifies that the IFU fiber cable will be installed within building heating, ventilation and air conditioning (HVAC) ducts (see Figure 1-1 B). NOTE: Only plenum-rated cables should be installed within building HVAC ducts.
Site Evaluation 1.4.12 Determine the Length of Power Cables When Using Triton Network Systems Outdoor Power Cables Table 1-1 and Table 1-2 show the maximum lengths of indoor power cable lengths when used with representative Triton Network Systems outdoor power cables. Table 1-1: Maximum Indoor Power Cable Length with One Pair of Conductors Outdoor Cable Length (Feet and Meters) Indoor Cable Gauge 65 Feet (20 Meters) 133 feet (40 Meters) 333 Feet (100 Meters) 10 AWG 1125.6 (343.1) 1090.0 (332.2) 992.
Installation and Commissioning Guide - R2.0 Ro is the resistance of the outdoor cable (see Table 1-4) w is the number of pairs of wires in the indoor cable tCu is the temperature coefficient of copper and is equal to 1.003930 In most cases, a 10, 12, or 14 gauge wire will be used in the indoor cable. Table 1-3 gives R· values for these three wire sizes. Table 1-3: Resistance Per Foot R· 10 AWG 12 AWG 14 AWG .001 Ω/ft. .00202 Ω/ft. .00252 Ω/ft.
Site Evaluation 2.6 – R o w d = -------------------- × --------- t i 2 × R′ Cu From Table 1-3, R· = .001 Ω/ft From Table 1-4, Ro = .15 Ω w = 1 pair tCu = 1.003930 mv/°C Therefore: di = [(2.6-.15)/2(.001)] * (1/1.003930) di = (2.45)/.002) * (1.0039-30) di = 1090 feet (di = 332 m) 1.4.13 Confirm Presence of AC Power Ensure AC power will be available to provide power to the power supply and all other electrical supplies. AC power is required within 15 feet (4.5 meters) of the site equipment location.
Installation and Commissioning Guide - R2.0 • Any other transmitters and/or receivers and other structures that could possibly impede IFU transmission • Fiber demarcation box location (if required) • Surge suppression location Attach sketch to the site evaluation form (see Section 1.5, Documenting a Site Evaluation) 1.5 Documenting a Site Evaluation Use the site evaluation form provided at the end of this section to document the results of your site evaluation.
Site Evaluation Site Evaluation Form Address Site Engineer Contact Person Phone Site No Site Agent Site Type IFU Roof Location Latitude Longitude Example Information Mapping Datum (ex.
Installation and Commissioning Guide - R2.0 Site Evaluation Form Colocated Antennas Parameters Example Information Source PCS Tx and/or Rx TX/RX Frequency 2.1 GHz Distance from IFU 5 ft Owner Sprint PCS Azimuth 210 degrees Elevation 2 degrees downtilt Antenna Type Scala XXXXX Power 14 W CPE Parameters Example Information CPE room identified Yes Space for cabinet Yes Phone line within 20 ft Need to install 110 VAC available? Need to install Cables Confirm cable lengths.
,)8 &RQILJXUDWLRQ Chapter 2 describes the IFU configuration procedure to be performed at the designated staging area. The staging area is a central location – warehouse, office area, etc. – where the IFU configuration attributes are loaded prior to building installation. If circumstances prevent this from being possible, IFU configuration can occur elsewhere. The instructions in this section assume that IFU configuration is performed at a central location. 2.1 Materials Required .......................
Installation and Commissioning Guide - R2.0 Warnings Risk of Personal Injury from Radio Frequency Energy Exposure WARNING: RF Energy Exposure Limits and Applicable Rules for 28 GHz. The Triton Network Systems, Inc. 28 GHz radio is tested and evaluated for RF radiation level exposure rules and compliance with FCC 47 CFR 1.1307 and 1.1310, FCC OET - Bulletin 65, and Health Canada Safety Code 6. The Triton Network Systems, Inc.
IFU Configuration 2.1 Materials Required The following items are needed to configure an IFU: o o o o o o o o 2.2 Power supply (– 48 Vdc @ 3.
Installation and Commissioning Guide - R2.0 3. Double click on the CD-ROM drive associated with the computer. 4. Double click on folder v x-x-x (where x-x-x is the most current software version number). A list of files opens. 5. Double click on the file named dInstall.bat. 6. As the software is being installed, an MS-DOS window appears. 7. Wait for the MS-DOS window to say Finished-dInstall on the top of the screen and then close the MS-DOS window. 8. On your desktop, click the Start button.
IFU Configuration Transmit Indicator IFU (Rear View) GPI / Test Connector Power IFU Test Cable IFU Power Cable -48 Vdc Power Supply BNC Connector (Not used for this test.) Laptop PC (Rear View) Serial Port Ethernet Port DB-9 Connector RJ-45 Connector Figure 2-1: IFU Test Cable Connections NOTE: The connector arrangement for the IFU you are installing can be different from that shown in Figure 2-1.
Installation and Commissioning Guide - R2.0 2.2.4 Obtaining the IFU’s IP Address If the IFU’s IP address and subnet mask are unknown, they can be identified via a terminal session using a communication software application such as HyperTerminal or ProComm. The following instructions describe how to launch a HyperTerminal session capable of displaying IFU data. 1. On your desktop, click on the Start button and select Programs Communications HyperTerminal.
IFU Configuration 2.2.5 Configuring Windows Networking Properties To successfully log into an IFU and run IFU link manager, the PC and the IFU must be in the same subnet. Use the following procedure to set up the IFU’s IP address on your Windows PC. NOTE: Before beginning these procedures, make sure the PC has a fully functional Ethernet interface, usually a PCMCIA card. For Windows 98 1. On your desktop, click the Start button and select Settings ½ Control Panel. 2.
Installation and Commissioning Guide - R2.0 Windows 98 Windows 2000 Figure 2-2: 2-8 TCP/IP Properties Menu © 2001 Triton Network Systems, Inc. All Rights Reserved.
IFU Configuration 2.2.6 Logging Into the IFU Using IFU Link Manager Use the following procedure to log into an IFU using IFU link manager: 1. On your desktop, click the Start button and select Programs. Then click on the MS-DOS Prompt icon. 2. In the MS-DOS window, type ping xxx.xxx.xxx.xxx and press enter (xxx.xxx.xxx.xxx represents the IP address of the IFU). If the ping is successful, the following message will appear: Reply from xxx.xxx.xxx.xxx: bytes=a, time=
Installation and Commissioning Guide - R2.0 Figure 2-4: 2-10 Link Manager Workspace Window (Typical) © 2001 Triton Network Systems, Inc. All Rights Reserved.
IFU Configuration 2.2.7 Configuring the IFU’s Site Attributes 1. In the Link Manager Workspace window, select Navigation ½ Administration ½ Network to display the Network Administration window (see Figure 2-5). Figure 2-5: Network Administration Window (General Tab) 2. Select the General tab and complete following: ß ß Enter site information in the Site Name, Site Contact, and Site Location fields as required.
Installation and Commissioning Guide - R2.0 Figure 2-6: Network Administration Window (Network Tab) 4.
IFU Configuration Figure 2-7: Link Administration Window 8. Enter the following Link Administration site attributes from the site engineering folder: ß ß ß ß Rain Model - statistical model that predicts rainfall in a given region Frequency (Tx, Rx) - transmit and receive frequency for the IFU Grade of Service - desired availability for the link Rain Region - geographic location of the IFU 9. Select the Link Distance tab and enter link distance.
Installation and Commissioning Guide - R2.0 NOTE: If the staging site and the installation site are the same location, proceed to Chapter 4, Mounting and Aligning an IFU. 10. Click the Save icon to save the attributes. 11. Exit the Link Administration screen by clicking the Exit icon . 12. Exit the Link Manager Workspace window by clicking on the Exit icon Manager Workspace window. 13. Exit IFU link manager by selecting File in the Link ½ Exit in the Main window. 14.
© 2001 Triton Network Systems, Inc. All Rights Reserved.
Installation and Commissioning Guide - R2.0 2-16 © 2001 Triton Network Systems, Inc. All Rights Reserved.
&DEOH ,QVWDOODWLRQ Chapter 3 provides the schematics and instructions for installing IFU fiber and power cables, surge suppressors, and fiber demarcation boxes. 3.1 Materials Required .................................................... 3-2 3.2 Fiber and Power Demarcation Equipment Installation .. ................................................................................... 3-3 3.3 Routing and Connecting Cables ................................ 3-3 3.4 Installing Battery Cables .............
Installation and Commissioning Guide - R2.0 :DUQLQJV Risk of Service Interruption CAUTION: Ensure the outside optical fiber connectors are environmentally protected. Failure to do so may cause contamination of the fiber surfaces. CAUTION: To reduce the risk of fiber optic cable damage, use the following bend radius guidelines for indoor/outdoor fiber optic cable: w w Long-term (installed): bend radius is equal to 20 times the diameter of the cable.
Cable Installation 3.2 Fiber and Power Demarcation Equipment Installation Some installations require a surge suppressor or fiber demarcation box. The installation of this equipment must be in accordance with all local and federal laws. Install this equipment per the accompanying instructions and architectural and engineering drawings. NOTE: Triton Network Systems recommends the use of a surge suppressor for in-building equipment protection. 3.
Installation and Commissioning Guide - R2.0 • Ensure that the fiber cable bend radius during installation is no less than 10 times the diameter of the cable. Once installed, ensure that the fiber cable bend radius is no less than 20 times the diameter of the cable. NOTE: A three-foot service loop should be left at the IFU mounting location, both sides of the fiber demarcation box (if used), as well as the site equipment cabinet. • Have qualified professionals perform fiber connecting or splicing.
Cable Installation Demarcation Location (Optional) To IFU Site Equipment Power Supply Surge Suppressor WH - 1 PIN B WH/RD - 2 PIN C WH/BN - 3 PIN D WH/BK -4 + RTN + - - 48 Vdc - IFU Alpha Return Protected PIN A Surge IFU Alpha Power Cable IFU Alpha -48 Vdc GND Shield Shield Shield Surge Suppressor PIN B WH/RD - 2B PIN C WH/BN -2C PIN D WH/BK - 2D + RTN + - - 48 Vdc - IFU Beta Return Protected WH - 2A Surge IFU Beta Power Cable PIN A IFU Beta -48 Vdc GND Shield
Installation and Commissioning Guide - R2.0 3.3.3 Connecting Outdoor Fiber Cables The following figures provide outdoor fiber interconnection information for IFUs: • Figure 3-3 provides a cable configuration diagram for Fast Ethernet and SONET/SDH multimode fiber cables. • Figure 3-4 provides a typical wiring diagram that shows how the Fast Ethernet and SONET/ SDH multimode fiber cables connect a pair of IFUs to site equipment.
Cable Installation Cable Schematic PLUG 1 2 3 4 5 6 7 8 Color Fiber Type (Multimode) Wave Length SIG SC 62.5/125 62.5/125 62.5/125 62.5/125 62.5/125 62.5/125 62.5/125 62.
Installation and Commissioning Guide - R2.0 Cable Schematic Plug 1 2 3 4 5 6 7 8 Color Fiber Type (Single-Mode) Wavelength SIG SC 1310 nm 1310 nm TX 1 2 3 4 5 6 7 8 9/125 Slate 9/125 White Not Used Not Used Fiber Type (Multimode) 62.5/125 Green Brown 62.5/125 62.5/125 Blue 62.
Cable Installation 3.3.4 Connecting GPI Cables When GPI cables are utilized there will be one GPI cable routed from each IFU mounting location to the surge suppressor. Only one GPI cable is necessary to connect the site equipment to the surge suppressor. NOTE: The GPI cable allows dry contact alarm connections to be routed to the IFU and monitored by the network operations center (NOC). Figure 3-7 shows typical wiring for a GPI cable used in an alarm application.
Installation and Commissioning Guide - R2.0 3.4 Installing Battery Cables CAUTION: Ensure that the power supply is turned off before performing this procedure. 3.4.1 Battery Cable Connection The standard battery pack provided by Triton Network Systems provides a four-hour back up in case of facility power loss. Batteries should be connected as shown in Figure 3-8. Batteries Batt 4 - 48 BATT - + Power Supply Batt 3 - + Black -4.8 Red Ret.
0RXQWLQJ DQG $OLJQLQJ DQ ,)8 Chapter 4 provides the procedures for installing the IFU bracket and mounting and aligning an IFU. (This procedure uses the same process to install one or many IFUs). 4.1 Materials Required .................................................... 4-3 4.2 Mounting an IFU Bracket.......................................... 4-3 4.3 Mounting an IFU ....................................................... 4-5 4.4 IFU Alignment .....................................................
Installation and Commissioning Guide - R2.0 :DUQLQJV Risk of Personal Injury from Radio Frequency Energy Exposure WARNING: RF Energy Exposure Limits and Applicable Rules for 28 GHz. The Triton Network Systems, Inc. 28 GHz radio is tested and evaluated for RF radiation level exposure rules and compliance with FCC 47 CFR 1.1307 and 1.1310, FCC OET - Bulletin 65, and Health Canada Safety Code 6. The Triton Network Systems, Inc.
Mounting and Aligning an IFU 4.1 Materials Required The following items are needed to complete IFU installation: o o o o o o o o o o o o o o o 4.2 IFU handling strap IFU mounting bracket with snap ring kit Right-angled snap ring pliers (for external snap ring) 9/16 in.
Installation and Commissioning Guide - R2.0 6 5 4 Mounting Surface Clearance hole for item 2. 1 114.3 mm 4.5 in 276 mm 10.9 in Bracket Hole Pattern Allow 11 mm/0.5 in. for Clearance (Not to Scale) Legend Item 1 2 3 4 5 6 2 * 3 Recommended 1/2 inch (1.27 cm) Dia. Minimum 3/8 inch (.95 cm) 5 6 Figure 4-1: Description IFU Mounting Bracket Threaded Rod* Flat Washer Large Washer Lock Washer Nut Qty 1 4 4 4 8 8 *Thread rod length is determined by wall thickness plus 2.5 inches.
Mounting and Aligning an IFU 4.3 Mounting an IFU IFUs are installed in the location specified by each site drawing. 4.3.1 Installing and Adjusting an IFU Sling Follow each step of this procedure only if an IFU sling is not already secured to an IFU when the IFU shipping container is opened. Otherwise, use this procedure as a guideline to ensure that the IFU sling has been properly secured to the IFU. 1. If the sling is not already placed over an IFU, carefully remove the sling from its container. 2.
Installation and Commissioning Guide - R2.0 Figure 4-4: IFU Correctly Positioned in an IFU Sling (Rear View) 7. Before lifting the IFU, ensure the strap fits snugly around the IFU and the strap through the buckle is secured. 8. If using a carabiner fitting, place the fitting or snap-ring hook fitting through the handle on top of the sling (see Figure 4-5). Figure 4-5: Correct IFU Hoisting Position When Using a Carabiner 9.
Mounting and Aligning an IFU 10. Neatly fold the sling and store it in a cool, dry, dark place to prevent environmental damage. 4.3.2 Mounting the IFU Use the following procedure and refer to Figure 4-6 to mount an IFU on a mounting bracket: 1. Make sure that the model number of the IFU (located on the aft housing assembly) matches the model number referenced on the site drawing in the site engineering folder. 2.
Installation and Commissioning Guide - R2.0 4.3.3 Attaching IFU Cables 1. Remove the dust caps from the power, GPI (optional), and fiber optic cables. 2. Connect the power, GPI (optional), and fiber optic cables to the IFU locations as shown in Figure 4-7. NOTE: To prevent shearing of the fiber, hold the base of the fiber cable with one hand and secure it on the connector by rotating the twist lock with your other hand. 3.
Mounting and Aligning an IFU 4.4 IFU Alignment The alignment procedure should be performed for one IFU at a time. Do not attempt to align both the near and far IFUs in a link simultaneously. This procedure requires personnel to be present at both the near and far IFU. 4.4.1 Alignment Setup Use the following procedure and refer to Figure 4-8 to set up an IFU for alignment: 1. Loosen the four vertical alignment screws, the horizontal alignment nut, and visually align the near IFU to the far IFU.
Installation and Commissioning Guide - R2.0 Transmit Indicator IFU (Rear View) GPI / Test Connector Power Voltmeter IFU Test Cable - 48 + - BNC Connector BNC - Banana Interface Adapter Laptop PC (Rear View) DB9 Connector ( Not used for this test.) Ether net Ethernet Port Por t Connector Figure 4-8: 4.4.2 IFU Test Cable Connections for Alignment Test IFU Alignment Procedure 1. Loosen the horizontal alignment nut on the mounting bracket. 2.
Mounting and Aligning an IFU Main Lobe Side Lobe Figure 4-9: Example of An Antenna Pattern 3. Move the IFU to the highest peak position as indicated by the voltmeter display. 4. Hand-tighten the horizontal alignment nut on the IFU mounting bracket. 5. Loosen the four vertical alignment screws on the mounting bracket. 6. Sweep the IFU a minimum of 10 degrees vertically and note the highest of the peaks. 7. Move the IFU to the highest peak position as indicated by the voltmeter display.
Installation and Commissioning Guide - R2.0 Horizonal - Fine Adjustment Points Vertical - Fine Adjustment Points Figure 4-10: Fine Alignment Technique 13. Tighten the four vertical alignment screws. Repeat Step 10 through Step 13 for the far IFU. 14. Using IFU link manager, verify modem lock on both IFUs. 15. Using IFU link manager, turn on AdTPC for both the near and the far IFUs. 16. Verify that AdTPC reads Power Control, indicating that power control is on and active.
Mounting and Aligning an IFU 4.5 Link Verification RF link verification is based on meeting the following objectives: • Minimizing RF Tx power for dense deployment • Avoiding “side lobe” link alignment • Achieving rapid deployment by verifying link at the time of installation The RF link verification procedure focuses on the RSSI and modem power display for IFU wireless links.
Installation and Commissioning Guide - R2.0 Verify Main Beam Alignment Use Tx power to determine if you are aligned on a side lobe. First, make sure AdTPC is turned on. Second, record the Tx power on both sides of the link. If (Tx1 - nominal Tx) < 3.5 dB or (Tx2 - nominal Tx) < 3.5 dB, proceed to Verify Link Integrity. Otherwise, realign the link. NOTE: If main beam alignment and modem power are verified, minimum Tx power is being transmitted.
Mounting and Aligning an IFU 4. Move the IFU up and down (using fine motions) until you obtain a peak reading on the voltmeter. 5. Tighten the four vertical alignment screws on the bracket. 6. Tighten the horizontal alignment nut. If two equal peaks appear while sweeping the vertical plane: 1. Move the IFU to the null spot in the middle of the two equal peaks. 2. Tighten the four vertical alignment screws on the bracket. 3. Loosen the horizontal alignment nut. 4.
Installation and Commissioning Guide - R2.0 4-16 © 2001 Triton Network Systems, Inc. All Rights Reserved.
Mounting and Aligning an IFU Post Installation Audit Form Date Site Address Site Enginee Building No Site Type 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Roof Requiremen IFU correctly located and secured. Clear line of sight between link. IFU brackets installation correct. IFU grounding correct. IFU location FCC compliant. IFU to demarc power cable correct. IFU to demarc alarm cable correct. IFU to demarc fiber cable and connectors correct. IFU aesthetics acceptable. Fiber demarc box secured.
Installation and Commissioning Guide - R2.0 4-18 © 2001 Triton Network Systems, Inc. All Rights Reserved.