Hughes Network Systems 24SX-001 point to multipoint - SUB User Manual

Hughes Network Systems point to multipoint - SUB

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24SX 001 User Manual

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11717 Exploration Lane, Germantown, MD 20876Tel: (301) 428–5500 Fax: (301) 428–1868/2830 1027144–0001Revision DMarch 1, 2000Remote Terminal Installation and User Manual

1027144–0001 Revision Dii For important standards compliance information, see appendix B.Copyright 1999–2000 Hughes Network Systems, a Hughes Electronics Corporation companyAll rights reserved. This publication and its contents are proprietary to Hughes NetworkSystems, a Hughes Electronics Corporation company. No part of this publication may bereproduced in any form or by any means without the written permission of Hughes NetworkSystems, 11717 Exploration Lane, Germantown, Maryland 20876.Hughes Network Systems has made every effort to ensure the correctness and completenessof the material in this document. Hughes Network Systems shall not be liable for errorscontained herein. The information in this document is subject to change without notice.Hughes Network Systems makes no warranty of any kind with regard to this material,including, but not limited to, the implied warranties of merchantability and fitness for aparticular purpose.TrademarksAIReach is a trademark of Hughes Network Systems. Other trademarks, marks, names, orproduct names referenced in this publication are the property of their respective owners, andHughes Network Systems neither endorses nor otherwise sponsors any such products orservices referred to herein.

1027144–0001 Revision D iiiRT installationContentsAbout this manual vii. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Important safety information ix. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Installation summary 1–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.1 Remote terminal (RT) reference drawing 1–2. . . . . . . . . . . . . . . . . . . . . 1.2 Installation summary and checklist 1–3. . . . . . . . . . . . . . . . . . . . . . . . . . 2 Prerequisites 2–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.1 Review site data and plans 2–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.2 Plan ahead for building access 2–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.3 Tools needed for installation 2–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.4 Specialized materials 2–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.5 Prerequisites for commissioning 2–7. . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Installing indoor RT equipment 3–1. . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1 Rack grounding 3–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.2 Installing IDUs 3–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.3 Power supplies 3–8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.4 Installing the CCM 3–23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5 SSIs 3–27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.6 Installing expansion IDUs (EIDUs) 3–34. . . . . . . . . . . . . . . . . . . . . . . . . 4 Installing IFL cables 4–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.1 Handling materials 4–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.2 IFL cable specifications 4–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.3 Overview: IFL plan 4–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.4 Determining the IFL cable route 4–5. . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.5 Penetrating the roof 4–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.6 Installing the penetration sleeve 4–7. . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.7 Installing the IFL cable inside the building 4–8. . . . . . . . . . . . . . . . . . . . 4.8 Installing the RT lightning arrestor 4–9. . . . . . . . . . . . . . . . . . . . . . . . . . 4.9 Installing the IFL cable on the roof 4–13. . . . . . . . . . . . . . . . . . . . . . . . . . 5 Installing mast mounts 5–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.1 Overview 5–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.2 ODU location 5–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.3 Roof types 5–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.4 Mast mount types 5–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5 Standard nonpenetrating mount 5–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.6 Using existing structures as ODU mounts 5–11. . . . . . . . . . . . . . . . . . . .

1027144–0001 Revision Div RT installation6 Installing ODUs 6–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.1 Introduction 6–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.2 Transporting the ODU to the roof 6–4. . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3 Preparing to install the antenna mount 6–5. . . . . . . . . . . . . . . . . . . . . . . 6.4 Installing the antenna mount 6–8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.5 Attaching the antenna to the mount 6–10. . . . . . . . . . . . . . . . . . . . . . . . . . 6.6 Initial (coarse) antenna azimuth adjustment 6–14. . . . . . . . . . . . . . . . . . . 6.7 Initial (coarse) antenna elevation adjustment 6–17. . . . . . . . . . . . . . . . . . 6.8 Installing a mechanical attenuator 6–19. . . . . . . . . . . . . . . . . . . . . . . . . . . 6.9 Attaching the transceiver to the antenna 6–21. . . . . . . . . . . . . . . . . . . . . . 6.10 Grounding the ODU 6–23. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.11 Connecting the IFL to the ODU 6–25. . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Commissioning the RT 7–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.1 Prerequisites for commissioning 7–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.2 Connecting the IFL to the CCM (IDU) 7–3. . . . . . . . . . . . . . . . . . . . . . . 7.3 Front panel LCD operation 7–4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.4 Pointing the antenna 7–8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.5 Verifying HT acquisition 7–13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.6 Entering an attenuator value 7–13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.7 Checking component status 7–14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.8 Verifying the RT’s operational state 7–17. . . . . . . . . . . . . . . . . . . . . . . . . 7.9 RT to HT connection tests 7–18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Final steps 8–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.1 Weatherproofing 8–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.2 Inspection, cleanup, and sign–off 8–3. . . . . . . . . . . . . . . . . . . . . . . . . . . 8.3 Connecting customer equipment 8–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Troubleshooting 9–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.1 Troubleshooting flow charts 9–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.2 Additional troubleshooting information 9–6. . . . . . . . . . . . . . . . . . . . . . 9.3 Repair or replacement service 9–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Maintenance 10–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.1 Adding or moving SSIs 10–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.2 Replacing components 10–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.3 Replacing the ODU 10–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.4 Replacing the IDU chassis 10–10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.5 Replacing the CCM 10–12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.6 Replacing SSIs 10–13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.7 Replacing the IFL 10–14. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.8 Dismantling an RT 10–16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1027144–0001 Revision D vRT installationA Acronyms and abbreviations A- 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . B Standards compliance B–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B.1 Outdoor unit B–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B.2 Indoor unit (ac) B–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C Terminating the IFL cable C–1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C.1 Cable parts and terminology C–2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C.2 Preparing the cable end C–3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C.3 Attaching the connector C–6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C.4 Applying heat–shrink tubing C–11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . follows appendix C

1027144–0001 Revision Dvi RT installation

1027144–0001 Revision D About this manual viiRT installationAbout this manualThis manual provides instructions for installing and usingAIReachBroadband point–to–multipoint remote terminal (RT)equipment.This manual is intended for use by qualified equipment installers. Installers must understand:•Electronics fundamentals•Cabling and connection practices•Electrical circuits and grounding practices•The importance of safety precautionsInstallers must also be familiar with:•Radio frequency (RF) fundamentals•Applicable electrical, building, fire, and safety codes and regulationsNote: HNS recommends a team of two installers to install theAIReach Broadband indoor and outdoor equipment.The instructions in this manual are organized according to tasksand are intended to be followed in sequential order.For site preparation instructions, see:•Hub and Remote Terminal Site Preparation Guide,document number 1027032–0001For hub site installation instructions, see:•Hub Installation and User Manual,document number 1027145–0001This manual primarily describes equipment manufactured and/orprovided by Hughes Network Systems (HNS), but in some casesalso refers to equipment that may be supplied by another vendor.HNS equipment deliverables are defined in the customercontract. Some equipment referred to in this manual may beprovided by the customer, as stated in the customer’s contract.User qualifications OrganizationRelated publicationsHNS- andcustomer-providedequipment

1027144–0001 Revision D viii About this manual RT installationRevision recordRevision Date of issue ScopeAApril 21, 1999 Released for UL approval.BJune 8, 1999 Added new and updated information.CAugust 9, 1999 Added troubleshooting and maintenanceinformation.DMarch 1, 2000 Revised order of Installation steps. Addedoverall installation checklist. Added informationfor new antenna mount design, and updatedvarious other information.

1027144–0001 Revision D Important safety information ixRT installationImportant safety informationFor your own safety and protection, read this safety sectioncarefully. Keep this safety information where you can refer to it ifnecessary.This section introduces the types of warnings used in this manualto alert you to possible safety hazards that could be encounteredwhile installing AIReach Broadband equipment.DANGERFall hazard: Where you see this symboland DANGER heading, strictly follow thewarning instructions to avoid personalinjury or death from falling.DANGERElectric shock hazard: Where you see thissymbol and DANGER heading, strictlyfollow the warning instructions to avoidelectric shock injury or death.WARNINGPotential radio frequency (RF) hazard: Where you see this alert symbol andWARNING heading, strictly follow thewarning instructions to avoid injury to eyes or other personal injury.WARNINGWhere you see this symbol and WARNINGheading, strictly follow the warninginstructions to avoid personal injury.Types of warnings usedin this manual

1027144–0001 Revision D x Important safety information RT installationThis manual includes the following safety warnings:DANGERIf you have to walk on a roof or use a ladderto access an installation site or equipment,follow these precautions to prevent personalinjury or death:•Do not walk near the edge of the roof.•Watch out for overhead power lines.Stay at least 6 meters (20 feet) frompower lines.•Walk only on sound roof structures.•Do not work on a roof or ladder inhigh wind, rain, lightning, or otheradverse weather conditions.•Follow all safety precautions from theladder or antenna manufacturer.•Do not walk on a roof if a storm isvisible—even if the storm is distant.Lightning can travel and strike inadvance of a storm.WARNINGIf you need to hoist materials to theinstallation location, observe theseprecautions to avoid personal injury:•Use a rope strong enough to supportall of the materials that need to behoisted.•Never stand under the rope whilematerials are being hoisted.•Hoist one concrete block at a time.•Pass the rope through the center holeof each concrete block. If you use thehole on either end, the end can breakoff, allowing the concrete block to fall.•Be advised that the contents of themount kit can fall through the end ofthe box if the box is tilted—especiallyif the box has been damaged.•Use a back brace.Warnings appearing inthis manual

1027144–0001 Revision D Important safety information xiRT installationWARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.WARNINGTo avoid the risk of electric shock andexposure to potentially harmful radiofrequency (RF) waves, make sure the IDU isturned off, if already installed, beforeinstalling the mechanical attenuator.Failure to observe these warnings couldresult in personal injury.WARNINGTo help avoid death, injury, or damage from alightning strike, you must install a lightningarrestor where the IFL enters the building.The warning immediately below applies only to IDUs with a dual ac or dc power supply:WARNINGMultiple power connectors. Disconnectboth ac and dc power before servicing.

1027144–0001 Revision D xii Important safety information RT installationWARNINGTo avoid the risk of electric shock,remove power from the power circuitbefore connecting power cables to theIDU power supply.WARNINGThe IDU chassis must be solidly bonded to alow–impedance ground (earth) source. To avoid the risk of electric shock and/orequipment damage, do not apply power tothe IDU chassis without a ground reference.WARNINGTo avoid the risk of electric shock, makesure the dc power source breaker is offbefore installing a remote power–offcircuit. Use a continuity tester to verifythat power is off.

RT INSTALLATION1027144–0001 Revision D Installation summary 1–1RT installation Chapter 1Installation summaryThis chapter includes:•Remote terminal (RT) reference drawing – page 1–2•RT installation summary and checklist – page 1–3The installation summary previews the entire RT installationprocess and serves as a quick reference. For detailed information,see chapters 2 through 8.

1027144–0001 Revision D 1–2 Installation summary RT installationFigure 1-1 is provided as a reference. It illustrates the main RTcomponents:•Outdoor unit (ODU)•Intrafacility link (IFL)•Indoor equipmentFigure 1-1 RT equipmentrt011RT ODUIDURT indoorequipmentIFL1.1Remote terminal(RT) referencedrawing

1027144–0001 Revision D Installation summary 1–3RT installationComponents to be installedThe following AIReach Broadband components are installed at theRT site:•ODU(s) – Integrated antenna and transceiver•IFL•Indoor unit(s) (IDU), including:- IDU channel and control module (CCM)- IDU service–specific interfaces (SSIs)Summary of installation stepsRT installation consists of the following main tasks:Ground the rack (if a rack is used) – page 3–2Install IDU chassis – page 3–3Ground the IDU chassis – page 3–11 (ac) or 3–14 (dc)Connect power to power supply – page 3–12 (ac) or 3–14 (dc)Install CCM – page 3–23CCM power–on test – page 3–25Install SSIs – page 3–27Install expansion IDUs (EIDUs) (if used) – page 3–34Determine IFL cable route – page 4–5Install the IFL cable (inside the building) – page 4–8Install IFL lightning arrestor – page 4–9Ground the lightning arrestor– page 4–12Install the IFL cable (on the roof) – page 4–13Test the IFL cable – page 4–141.2Installationsummary andchecklist

1027144–0001 Revision D 1–4 Installation summary RT installationInstall the mast mount – page 5–4Install the antenna mount – page 6–8Attach the antenna to the mount – page 6–10Adjust the antenna azimuth – page 6–14Adjust the antenna elevation – page 6–17Install the mechanical attenuator (if required) – page 6–19Attach the transceiver to the antenna – page 6–21Ground the ODU – page 6–23Connect the IFL to the ODU – page 6–25Connect the IFL to the CCM (IDU) – page 7–3Point the antenna (with voltmeter) – page 7–9Verify HT acquisition – page 7–13Enter an attenuator value – page 7–13Check CCM, SSI, and ODU status – page 7–14Verify the RT’s operational state – page 7–17 Perform RT to HT connection tests – page 7–18Weatherproof connections – page 8–2Obtain customer signoff – page 8–3For detailed installation instructions, see chapters 2 through 8.

RT INSTALLATION1027144–0001 Revision D Prerequisites 2–1RT installation Chapter 2PrerequisitesThis chapter discusses steps that are required prior to installationof AIReach Broadband equipment. It includes:•Reviewing site data and plans – page 2–1•Planning ahead for building access – page 2–2•Tools needed for installation – page 2–3•Prerequisites for commissioning – page 2–7Before you begin installing the equipment, review all previouslycollected site data and site plans for information you will need toinstall the indoor and outdoor equipment, including the IFL(intrafacility link). For more information on the equipment to beinstalled, see section 1.1.Review:•The completed Site Data Record from the Hub and RemoteTerminal Site Preparation Guide – The Site Data Record iscompleted during and after the pre–installation site survey.It includes the site address, planned services, informationconcerning potential sources of interference, IFLinformation, and much other information.•Site drawings and photographs – These should includeinformation about the site environment, existing equipmentand building features, equipment to be installed, IFLrouting, customer equipment to be connected to AIReachBroadband equipment, and other information.•Planning the ODU location, a section in the Hub andRemote Terminal Site Preparation Guide – The ODUlocation should already be selected; however, this sectioncontains information that is useful for the installer to know.2.1Review site dataand plans

1027144–0001 Revision D 2–2 Prerequisites RT installationBefore you go to the installation site, make sure you have allnecessary information (such as contact names and phonenumbers) for accessing all parts of the building you will needto visit (roof, equipment rooms—which may be in the basement),and other locations. This information should be available in theSite Data Record, which is completed as part of the site survey.Recommendations:•Know who to contact for assistance (name, phone number,working hours).•Get good directions or a building map or floor plan, ifpossible.•You may need a key or pass code to gain access to the roof.•Make all necessary arrangements for facility support andbuilding access before you go to the installation site.2.2Plan ahead forbuilding access

1027144–0001 Revision D Prerequisites 2–3RT installationTo install and commission AIReach Broadband remote terminalequipment, you need the tools listed in table 2-1 . You may needgeneral–purpose tools in addition to the specific tools listed here.Table 2-1 Tools required for RT installation (includes tools for IFL installation, antenna pointing, and initial testing)√Item Purpose (or other comments)Ladder May or may not be required; depends on buildingRope To hoist tools and equipment up ladders. Ropemust be long enough for ladders at the site. Mustbe able to hold at least 35 pounds (16 kilograms).This is the ODU weight. IFL cable is likely toweigh more.Snow shovel or heavy–duty push broom To move roof gravel away from the ODUinstallation site1/2–inch drill Cordless drill preferred for work on roof. Drill withpower cord required for heavy–duty work (suchas mounting a rack to the floor).Drill with bits for wood andmasonry. May be needed for IFL installationCombination wrenches:7/16 inch, 9/16 inch10 millimeter, 13 millimeterFor installing the mast mount and antenna mountRatchet wrench with9/16–inch socket For installing the mast mount3/8–inch torque wrench with13–millimeter deep socket Required for installing the antenna mount5/32–inch (4–millimeter)torque hex key wrench Used to tighten the radome band clampNo. 6 Phillips screwdriver Needed to attach IDU chassis mounting ears ifIDU chassis is rack mounted1000° heat gun For applying shrink wrap tubing to protect cableterminationsCable cuttersDiagonal cutters (wire cutters)Flush mount cutters2.3Tools needed forinstallation

1027144–0001 Revision D 2–4 Prerequisites RT installationTable 2-1 Tools required for RT installation – Cont’d.(includes tools for IFL installation, antenna pointing, and initial testing)√Purpose (or other comments)ItemExcelta CX–1–78–1 cablestripping tool Manufacturer: Excelta Corp., Buellton, CACrimp tool for #2 and #6AWG ground lugs Manufacturer: Thomas & Betts, Memphis, TNHCT–231 crimp tool For terminating N–type connectorsChannel locksSoft jaw pliers Grip tool with soft surface, for gripping andturning N–type connectorsBand cutters To remove shipping bands from mast mountpiecesCarpenter’s knifeSplicer’s knife To terminate cablesBinoculars Suggested, for RT installation, if the HT is too farto seeFlashlight Primarily for IFL installation100–foot tape measure(metric equivalent: 30.5 meters) For measuring cable runsLarge backpack or padded bag To haul ODU transceiver and antenna to the roofDigital voltmeter For pointing and testingdc voltage measurement accuracy: 0.3%Test cable terminated withF–connector and alligatorclipsUsed to connect voltmeter to ODU for antennapointingTest set(s) (DS1, DS3, or both) For commissioning tests. Test set type(s) neededdepends on services the RT supports (DS1, DS3,or both).

1027144–0001 Revision D Prerequisites 2–5RT installationTable 2-1 Tools required for RT installation – Cont’d.(includes tools for IFL installation, antenna pointing, and initial testing)√Purpose (or other comments)ItemDetailed local map Used to locate the HT. Must show true north,streets, buildings, and landmarks. Helpful if themap shows magnetic declination (or magneticnorth versus true north). A U.S. GeologicalSurvey map is recommended. A travel map willsuffice if it shows sufficient detail.Ruler or straight edge Used to mark directions on mapPencil or broad–tip pen Used to add markings to local mapProtractor May be useful as an aid in pointing the antenna.Must show 0° increments from 0° to 180°.Compass May be useful as an aid in pointing the antenna.Must be accurate to within ±1°Personnel safety lines For safety on roofBack brace To protect against back injury while hoisting orlifting equipment and installation materialsNote: Vendor names, model numbers, and part numbers identify equipment known tobe suitable. Other comparable equipment may also be suitable.

1027144–0001 Revision D 2–6 Prerequisites RT installationTo install AIReach Broadband RT equipment, you will need thematerials listed in table 2-2 . This is a list of key, mostlyspecialized materials. It is not a comprehensive list. In addition tothe listed materials, installers should carry materials that arecommonly required to install outdoor telecommunicationsequipment.Table 2-2 Specialized materials required for RT installation√Item Purpose (or other comments)IFL cable For specifications, see page 4–3.Ground cable IDU, ac (if not grounded through the powercable): No. 16 AWG, greenIDU, dc: No. 14 AWG, greenODU and lightning arrestor: No. 6 AWG orgreater, greenFor rack installations (rack to ground bar): No. 2AWG, green, stranded, and shieldedConnectors: N type, F type, BNC N connectors, for IFL cable, see page 4–4.F and BNC connectors – used to attach voltmeterto ODU for antenna pointing; see page 7–10.Bannana plug Used to attach voltmeter to ODU for antennapointing; see page 7–10.Concrete blocks Used to anchor mast mount. For details, seesection 5.5 on page 5–4.Weatherproofing compound Used to seal outdoor IFL connections. Seesection 8.1 on page 8–2.Outdoor waterproof tape Used to seal outdoor IFL connections. Seesection 8.1 on page 8–2.2.4Specializedmaterials

1027144–0001 Revision D Prerequisites 2–7RT installationYou will not be able to commission the RT (as detailed in chapter7) unless the Element Management System (EMS) is operational.Specific requirements for commissioning are:The EMS hardware and software must be installed andoperational.The EMS database must be loaded and operational.The EMS operator has to enter the hub MAC address into the EMS database.The hub and HT are installed and operational. The HT mustbe properly aligned.Additional prerequisites for commissioning are listed in chapter 7.The additional prerequisites are satisfied when the RT is properlyinstalled. The prerequisites listed above must be accomplishedprior to RT installation—or commissioning will be delayeduntil they are accomplished.2.5Prerequisites forcommissioning

RT INSTALLATION1027144–0001 Revision D Installing indoor RT equipment 3–1RT installation Chapter 3Installing indoor RT equipmentThis chapter includes:•Rack grounding•Installing indoor units (IDUs)•Power supplies – page 3–8•Installing the CCM – page 3–23•CCM power–on test – page 3–25•SSIs – page 3–27•Installing expansion IDUs (EIDUs) – page 3–34For IDU standards compliance information, see appendix B(page B–3).

1027144–0001 Revision D 3–2 Installing indoor RT equipment RT installationIf the RT IDU will be mounted in a rack, the rack must begrounded, as shown in figure 3-1:1. Run a ground wire from the rack location to the masterground bar in the equipment room. This wire must be No. 2AWG, green, stranded, and shielded.2. Ground the rack by connecting a No. 6 AWG wire from therack to the No. 2 AWG ground wire.Use a 2–hole lug to connect the No. 6 AWG wire to therack. Remove paint and apply anti–oxidant as shown in theillustration.T0006050Top of rackfrom rearLug connectionclose up viewFramelugRemove paint tobare metal, onboth sides, andapply anti-oxidant.Metal rackHTAP connectorwith coverNo. 2 AWG wire(green) to masterNo. 6 AWG wireFramelugTo a subsequentrack (if present)Figure 3-1 Rack ground connections3.1Rack grounding

1027144–0001 Revision D Installing indoor RT equipment 3–3RT installationFigures 3-2 and 3-3 show the RT indoor unit (IDU), which housesthe channel and control module (CCM) and service–specificinterfaces (SSIs). The IDU chassis is shipped with the powersupply installed, but the CCM and SSIs are not installed.For IDU standards compliance information, see appendix B(page B–3).Figures 3-2 and 3-3 identify the main IDU components.12345TMBROADBANDRT CCMENTERPREVNEXTT0009045Channel andcontrol module(CCM)Service-specificinterface (SSI)Blank panelThumbscrew AC power supplyLiquid crystaldisplay (LCD)Control pushbuttons(for LCD)IFLinterfaceMaintenanceportSSIslotsPower supply may be ac (as shownhere), dc, or dual mode (ac or dc).AuxiliaryIF portFigure 3-2 RT IDU main components (shown: IDU with ac power supply)3.2Installing IDUsIDU components

1027144–0001 Revision D 3–4 Installing indoor RT equipment RT installation12345TMBROADBANDRT CCMENTERNEXT PREVT0009048Channel andcontrol module(CCM)Service-specificinterface (SSI)Blank panelThumbscrew DC power supplyLiquid crystaldisplay (LCD)Control pushbuttons(for LCD)IFLinterface MaintenanceportSSIslotsAuxiliaryIF portFigure 3-3 RT IDU with dc power supplyThree IDU chassis types are available, each with a different powersupply option:Table 3-1 IDU typesIDU type HNS part numberIDU chassis with ac power supply 1026356–0001IDU chassis with dc power supply(–48 Vdc) 1026356–0002IDU chassis with dual mode (ac ordc) power supply 1026356–0003The power supply is not user replaceable.Before you install the IDU chassis, make sure a power source isavailable. If it is not, you may have to select a different locationfor the IDU or install an electrical receptacle.Note: The IDU is an industrial product. For safety and securityreasons, it must be installed in an area that is accessible only toauthorized servicing personnel.IDU chassis typesPrerequisites

1027144–0001 Revision D Installing indoor RT equipment 3–5RT installationThe IDU can be used on a tabletop or installed in a 19–inch(48.3–centimeter) rack. With optional adapter brackets, the IDUcan also be installed in a 23–inch (58.4–centimeter) rack.Safety guidelinesObserve these guidelines from Underwriters Laboratories Inc.(UL) when you install IDU chassis in a rack (any rack):•Make sure the power requirements of the IDU chassis plusthe cumulative power draw of other equipment in the rackdo not overload the supply circuit and/or wiring of the rack.•The IDU weighs about 20 pounds (about 9 kilograms).Have someone help you when you lift the IDU chassis toinstall it in the rack.•Always load the rack from bottom to top to ensure a stableand safe rack.•Installation of the IDU chassis within the rack systemshould not reduce air–flow within the rack.•The maximum recommended ambient temperature for theIDU chassis is 50 °C (122°F).•While installing the IDU chassis into the rack, make sureyou maintain a proper earth grounding for the equipment.Mounting optionsRack mounting

1027144–0001 Revision D 3–6 Installing indoor RT equipment RT installationRack mounting instructionsTo mount the IDU chassis in a rack, you need the rack mountingbrackets included in HNS kit 1027191–0001. This kit includes twobrackets and six Phillips SEMS screws for attaching the bracket tothe IDU.To mount the IDU chassis in a rack, follow these steps:1. Attach the rack mounting brackets as shown in figure 3-4.Be sure to use the correct sets of holes (front or midpoint)for each bracket, as indicated in figure 3-4.Figure 3-4 Attaching rack mounting brackets to the IDU chassishb032MountingbracketAttach bracket herefor .enclosed rackAttach bracket herefor .open rackFront

1027144–0001 Revision D Installing indoor RT equipment 3–7RT installation2. Screw the two upper mounting screws into the rack (one oneach side), at the desired installation height. Refer to figure3-5.Do not tighten the screws all the way—this allows you tohang the chassis by the top “teardrop” holes on the brackets(in step 3).(The four mounting screws that screw into the rack shouldbe provided with the rack.)Figure 3-5 Installing the IDU chassis in a rackhb033RackFrontLeave partof the uppermountingscrewsexposedso you canhang thebracketson them.3. Place the chassis into the rack, and slip the top hole of eachbracket over the heads of the upper mounting screws in therack.4. Support the chassis with one hand while you install andtighten the two lower screws.5. Tighten the two upper screws.

1027144–0001 Revision D 3–8 Installing indoor RT equipment RT installationThe IDU power supply is installed in the chassis at the factory.However, you need to make sure the power supply is groundedand connect power to the power supply. Detailed instructions forthese steps follow.The IDU chassis may be equipped with an ac, dc, or dual (ac ordc) power supply, depending on the local power environment. Inthe following sections, make sure you follow all instructions forthe type of power supply your IDU chassis has.Do not attempt to replace or substitute power supplies. If thereis a problem with a power supply, return the chassis to HNS forrepair or replacement.The dual ac or dc power supply (figure 3-6) can be used with an acor dc power source. A recessed switch on the front of the powersupply is used to select ac or dc operation.T0006026AC DCDual ac/dcpower supplyAC/DC switchFigure 3-6 Dual ac or dc power supplySelecting ac or dc powerFollow these instructions to set the power supply for ac or dcoperation:To use the dual power supply with ac power:Make sure the switch is in the AC position; then follow theinstructions below for ac power supplies.Note: The AC–DC switch is recessed to prevent accidentalswitching. Use a flathead screwdriver to change the switchposition.3.3Power suppliesPower supply optionsDual (ac or dc) powersupply

1027144–0001 Revision D Installing indoor RT equipment 3–9RT installationTo use the dual power supply with dc power:Make sure the switch is in the DC position; then follow theinstructions below for dc power supplies.Labels on dual power supplyA label on the dual ac or dc power supply warns:WARNINGMULTIPLE POWERCONNECTORS.DISCONNECT BOTHAC & DC POWERBEFORE SERVICING.Servicing personnel must heed this warning. Note that the IDUand power supply should be serviced only by HNS.A second label on the dual ac or dc power supply advises:CAUTIONTHIS EQUIPMENT HAS ACONNECTION BETWEENTHE EARTHED CONDUCTOROF THE D.C. SUPPLY CIRCUITAND THE EARTHING CONDUCTOR.SEE EARTHING INSTRUCTIONSTo disconnect dc power, unplug the terminal block (shown onpage 3–16). Do not remove the wires from the terminal blockwhile it is plugged in. If you do, the IDU chassis will not begrounded.Additional instructionsIf the power supply is a dual ac or dc unit, follow the instructionsin the following sections for both ac and dc power supplies.

1027144–0001 Revision D 3–10 Installing indoor RT equipment RT installationAdditional instructionsIf the power supply is a dual ac or dc unit, follow the instructionsin the following sections for both ac and dc power supplies.IDU chassis with an ac power supply (figure 3-7) or dual ac or dcpower supply are equipped with a recessed IEC–320–C13connector and a 7.5–foot (2.3–meter) power cable (HNS9003024–0013). The power cable includes a NEMA 5–15–P plugto connect to the power source (receptacle). The cable is rated at125 Vac, 10 amperes, and is equipped with an internal ground(earth) conductor.The primary input requirements for the ac power supply are:Voltage: 100 – 240 VacCurrent: 6.4 amperes maximumFrequency: 50 – 60 HzFigure 3-7 AC power supplyAC power supplyhb048AC power supply

1027144–0001 Revision D Installing indoor RT equipment 3–11RT installationImportant: In the United States and some international markets,the required ground bond is provided by the grounding conductorin the cable and ac service conductors. If grounding is providedthrough the grounding conductor and service conductors, noadditional grounding is required.In environments where ac grounding conductors are notavailable, a separate bonding conductor is required.If a separate bonding conductor is required, ground the ac powersupply as follows:1. Use a 2–hole lug to connect a No. 16 AWG ground wire tothe ground terminals on the front of the power supply. Seefigure 3-8.Figure 3-8 Ground terminals on ac power supplyAC power supplyhb052Ground terminals2. Connect the other end of the ground wire to the rack groundbar. If the IDU chassis is not rack mounted, connect theground wire to a ground point such as a water pipe orbuilding steel.Grounding the ac IDUchassis

1027144–0001 Revision D 3–12 Installing indoor RT equipment RT installationWARNINGThe IDU chassis must be solidly bonded to alow–impedance ground (earth) source. To avoid the risk of electric shock and/orequipment damage, do not apply power tothe IDU chassis without a ground reference.CAUTIONIf the ODU and lightning arrestor are notconnected to the IFL, do not power on theIDU chassis without first making sure theIFL is not connected to the IDU chassis.Failure to observe this instruction couldresult in damage to the equipment.To connect ac power:1. Measure the voltage level of the power source to makesure it can accommodate the total IDU and ODU powerrequirements.(The IDU supplies power to the ODU through the IFL.)If the voltage level cannot accommodate the IDU and ODU,the power source must be upgraded before you can proceed.2. Connect the power cable to the IEC–320–C13 connector onthe power supply.3. Route and secure the cable to avoid physical damage.4. Connect the plug end of the cable to a dedicated ac powersource.Important: In the United States, ac–power IDU chassismust be connected to a dedicated power circuit with a15–ampere single–pole breaker. The circuit must notinclude unrelated equipment.Connecting ac power

1027144–0001 Revision D Installing indoor RT equipment 3–13RT installationFigure 3-9 shows an IDU chassis with a dc power supply.A power cable is not supplied with the dc IDU chassis becausecable requirements vary, depending on where the chassis will beused.The power input requirement for the dc power supply (and dcportion of the dual ac or dc power supply) is –42 to –56 Vdc.Figure 3-9 DC power supplyhb050DC power supplyLabel on dc power supplyA label on the dc power supply advises:CAUTIONTHIS EQUIPMENT HAS ACONNECTION BETWEENTHE EARTHED CONDUCTOROF THE D.C. SUPPLY CIRCUITAND THE EARTHING CONDUCTOR.SEE EARTHING INSTRUCTIONSTo disconnect dc power, unplug the terminal block (shown onpage 3–16). Do not remove the wires from the terminal blockwhile it is plugged in. If you do, the IDU chassis will not begrounded.DC power supply

1027144–0001 Revision D 3–14 Installing indoor RT equipment RT installationGround IDU chassis with a dc power supply as follows:1. Use a 2–hole lug to connect a No. 14 AWG ground wire tothe ground terminals on the front of the power supply(figure 3-10).T0006049DC power supplyGround terminalsFigure 3-10 Ground terminals on dc power supply2. Connect the other end of the ground wire to the rack groundbar. If the IDU chassis is not rack mounted, connect theground wire to a ground point such as a water pipe orbuilding steel.WARNINGTo avoid the risk of electric shock,remove power from the power circuitbefore connecting power cables to theIDU chassis power supply.WARNINGThe IDU chassis must be solidly bonded to alow–impedance ground (earth) source. To avoid the risk of electric shock and/orequipment damage, do not apply power tothe IDU chassis without a ground reference.Grounding the dc IDUchassisConnecting dc power

1027144–0001 Revision D Installing indoor RT equipment 3–15RT installationCAUTIONIf the ODU and lightning arrestor are notconnected to the IFL, do not power on theIDU chassis without first making sure theIFL is not connected to the IDU chassis.Failure to observe this instruction couldresult in damage to the equipment.To connect power cables from the dc power source (usually arectifier) to the dc power supply, follow the steps below.1. Measure the voltage level of the power source to verify itcan accommodate the total IDU and ODU powerrequirements.(The IDU supplies power to the ODU through the IFL.)If the voltage level cannot accommodate the IDU and ODU,the power source must be upgraded before you can proceed.2. Remove power from the power circuit.3. Loosen the two Phillips screws from the square terminalblock cover plate on the front of the power supply.Terminal blockcover plate(Remove)T0006051Conduit opening4. Rotate the protective plate to expose the terminal block.

1027144–0001 Revision D 3–16 Installing indoor RT equipment RT installation• Follow steps 5 through 14 to insert the power cable wires intothe power supply terminal block:5. Unplug the terminal block from the power supply socket.hb108Plug-in terminalblockPower supply(+)RETURN(-)48VDC6. Strip both wires from the power source to about ¼ inch (6centimeters) from the end.Note: Wires used with the terminal block must meetthese specifications:Composition Solid or strandedWire cross–sectionalarea 0.2 to 2.5 squaremillimetersRated gauge 12 to 24 AWG7. Twist the wires as shown in the photo below.8. Insert both wires through the plastic strain relief bushing(HNS 9005614–0001).Strain reliefbushingT0006062

1027144–0001 Revision D Installing indoor RT equipment 3–17RT installation9. Lay the terminal block on a flat surface, with the wire entryholes facing up.10. Use a small, flat–blade screwdriver (or similar tool) to pressin the tab above the wire entry hole on the terminal block.Hold the tab in.Press and holdtab to insert wire.Terminal block withone wire insertedWire entry holeshb00411. While holding the tab in, insert the stripped wire end.Important: Insert the return (+) wire from the dc power sourceinto the terminal block so it will connect to the power supplyterminal marked (+) Return when the terminal block is pluggedin. Likewise, insert the –48 Vdc (–) wire so it will connect to the–48 VDC (–) power supply terminal.12. When the wire is fully inserted, release the tab.13. Gently tug the wire to make sure it is securely inserted.14. Repeat steps 10 through 13 for the second wire.• At this point, both wires are inserted into the terminal block.

1027144–0001 Revision D 3–18 Installing indoor RT equipment RT installation15. Insert the terminal block through the conduit opening andguide it up to the socket.SocketTerminal blockConduit openinghb051(+)RETURN(-)48VDC16. Plug the terminal block into the power supply terminalsocket.hb046(+)RETURN(-)48VDCSocketTerminal block

1027144–0001 Revision D Installing indoor RT equipment 3–19RT installation17. Snap the strain relief bushing into the conduit opening.18. Tighten the screw on the strain relief bushing just enough tohold the wires in place. Do not overtighten.19. Replace the protective plate and tighten the screws.• This completes the power connections.The chassis does not have a power off/on switch. In normaloperation, power is always on. If you need to power off the IDU:•Break the power circuit at the rack fuse panel,•Break the power circuit at the external fuse or circuitbreaker panel, or•Use an optional remote power–off circuit.This section applies only to dc power circuits.The circuit from the dc power source (usually rectifiers) to theIDU chassis must include a circuit breaker or other disconnectdevice that meets the following Underwriters Laboratories (UL)requirements:To install dc power for the IDU chassis, a readilyaccessible disconnect device shall be installedor should be readily available at the site wherethe IDU chassis is installed. The disconnectdevice must be a UL–listed circuit breaker ratedat 60 Vdc, 6.3 amperes minimum, 15 amperesmaximum.Powering off the dc IDU Remote dcpower–off circuit

1027144–0001 Revision D 3–20 Installing indoor RT equipment RT installationIf the rectifier–to–chassis power circuit does not include a suitablecircuit breaker, you can satisfy the disconnect requirement byincluding a remote power–off switch as shown in figures 3-11 and3-12. If the power circuit already includes a suitable circuitbreaker, skip this section.12345T0006052DC power cableConduitRemotepower-offcircuitRectifierIDU chassisGroundFigure 3-11 The remote power–off circuit (if needed) isinstalled between the IDU chassis and dc power source.

1027144–0001 Revision D Installing indoor RT equipment 3–21RT installationWARNINGTo avoid the risk of electric shock, makesure the dc power source breaker is offbefore installing a remote power–offcircuit. Use a continuity tester to verifythat power is off.To install a power–off circuit (if needed), follow these steps:1. Make sure the rectifier breaker switch is off.2. Install a UL–approved terminal block inside a UL–approvedelectrical junction box as shown in figure 3-12.Figure 3-12 Remote power–off circuithb001++––Use only ULlisted parts.JunctionboxTerminalblockOutput fromdc power rectifierInput to IDUchassisConduit with conduit couplerJumper 1 Jumper 2Use insulated jumpersconnect remote power-offswitch in series.or3. Choose one of the following three options:If you plan to add a power–off switch later, install jumpers 1and 2, and replace the junction box cover. This completesthe circuit installation.If you are installing a double–pole remote power–off switch,use a double–pole, single–throw switch rated at 60 Vdc, 15amperes (minimum):In place of jumper 1, wire the switch between the (+)terminal from the rectifier and the (+) terminal fromthe IDU.In place of jumper 2, and wire the switch between the(–) terminal from the rectifier and the (–) terminalfrom the IDU.

1027144–0001 Revision D 3–22 Installing indoor RT equipment RT installationIf you are installing a single–pole remote power–off switch,use a single–pole, single–throw switch rated at 60 Vdc, 15amperes (minimum):Install jumper 1.In place of jumper 2, wire the switch between the (–)terminal from the rectifier and the (–) terminal fromthe IDU chassis.• If you installed a switch, follow steps 4 through 9 to test theswitch:4. Place the remote power–off switch in the open position.5. Replace the junction box cover.6. Turn on the dc breaker.7. Close the power–off switch. Confirm that the chassis isreceiving power.8. Open the switch again. Confirm that the chassis is no longerpowered. If the switch does not operate correctly, turn therectifier breaker off and make sure the circuit is connectedas shown in figure 3-12.9. If the switch operates correctly, leave it in the open positionwith the breaker off.Do not install the channel and control module (CCM) orservice–specific interfaces (SSIs) yet.To test the IDU chassis and power supply, perform these stepswithout a CCM or SSIs:1. If the IDU chassis is dc powered, inspect the power supplywiring to verify that the polarity is correct.2. Power on the IDU—with no modules installed; then checkto make sure no breakers have tripped or fuses have blown.If a breaker trips or fuse blows, be sure to troubleshootand correct the problem before proceeding.Power–on inspectionand test

1027144–0001 Revision D Installing indoor RT equipment 3–23RT installationA channel and control module (CCM) must be installed in the topslot (slot 1) of the IDU chassis. For an RT IDU, the CCM must bea CCM RT (HNS 1027181–0002), as shown in figure 3-13.Liquid crystaldisplay (LCD)Control pushbuttons(for LCD)IFLinterfaceMaintenanceportT0009046AuxiliaryIF portTMBROADBANDRT CCMENTERNEXT PREVFigure 3-13 CCM RTThe CCM supports the interface modules installed in the IDUchassis by performing control, bus, upconversion, anddownconversion functions. These modules—SSIs—are describedin section 3.5.To install the CCM RT, follow the steps below:CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-14) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.TMBROADBANDENTERPREVNEXTT0009051WriststrapConnect toIDU chassisground terminal.Figure 3-14 ESD wrist strap3.4Installing the CCM

1027144–0001 Revision D 3–24 Installing indoor RT equipment RT installation1. Wrap the ESD strap snugly around your wrist and connectthe alligator clip to one of the ground terminals on the IDUchassis power supply.T00060532. Remove the CCM from its ESD protective packaging.Retain the packaging in case it is necessary to return theCCM for repair.3. Slide the module into the guides on each side of the topchassis module slot (slot 1) and push it firmly into placeuntil the CCM front panel is flush with the front of thechassis.rt024CCM slotTMBROADBANDRT CCM4. Tighten the thumbscrews at each end of the CCM.To tighten the thumbscrews, push them toward the IDUchassis and turn them clockwise. To fully tighten thethumbscrews, use a Phillips screwdriver.

1027144–0001 Revision D Installing indoor RT equipment 3–25RT installationTest the CCM for proper operation, as follows:1. Apply power to the IDU chassis.2. Observe the LEDs on the CCM front panel:OKSTATUSALARM()RedOn: Hardware failure()GreenOn: Normal operationor CCM startupT00090523. Also observe the CCM startup diagnostics (SUDS) on theCCM’s front panel LCD:SUDS start on powerup. While they run, the CCM frontpanel shows the following messages, in the sequenceshown.Equipment function is normal when you see themessages shown below and no failure messages.Initial powerupSUDS CPU Reg OKSUDS DRAM OKCPU registers and dynamic RAM are tested.Timer testSUDS Timer Test Timers are tested.Watchdog timer testSUDS WDT Test The watch dog timer is tested.PCI testSUDS PCI Test The PCI controller is tested.CCM power–on test(SUDS)

1027144–0001 Revision D 3–26 Installing indoor RT equipment RT installationStatic dual port RAM testSUDS SDPRAM Test Static dual port RAM is tested.Serial port 1 testSUDS Ser 1 Test Serial port 1 is tested.Serial port 2 testSUDS Ser 2 Test Serial port 2 is tested.Successful test completionThis message indicates that startup diagnostics havesuccessfully completed:SUDS CompletedFailure indicationIf a failure occurs during any of the tests listed above,the LCD message sequence stops. The LCD shows the testthat failed on the first line and FAILED (flashing) on thesecond line, as in the example below.SUDS Ser 2 TestFAILEDThis screen indicates thatserial port 2 failed diagnostics.The LCD remains inactive unless you power the CCM off,then on. This restarts SUDS.If any CCM component fails, replace the CCM.After SUDS are complete, the LCD displays the CCM bootup sequence. At this point, you only need to verify thatSUDS have completed.Leave power on while you install the SSIs (next).

1027144–0001 Revision D Installing indoor RT equipment 3–27RT installationService–specific interface modules (SSIs) provide interfaces tosupport specific network services. SSI types used depend on theneeds of the customer network.The following SSIs can be installed in the RT IDU chassis:•Quad–DS1 (HNS 1027070–0001)•DS3–TDM (HNS 1027094–0001)•Universal–DS1 (HNS 3003132–0001)•DS3–ATM (HNS 3003136–0002)•DS3–Transparent (HNS 1027094–0002)The following RT SSIs are currently in development:•MPEG•Ethernet 10BaseT/100BaseTSSIs are installed in slots 2 through 5 in the RT IDU chassis.For explanation of SSI LEDs, see page 3–29.The Quad–DS1 SSI, shown in figure 3-15, provides up to a fourT1 or E1 line link between the HT and RT.QUAD DS1-SSIOKSTATUSALARMPORT 1 PORT 2 PORT 3 PORT 4T0090038 SSI statusLEDsRJ-48X connectorsFigure 3-15 Quad–DS1 SSIThe maximum cable length for a Quad–DS1 SSI is 655 feet(199.6 meters).Pinouts for the RJ–48X connectors on the Quad–DS1 SSI areshown in figure 3-16.Pin 1 - R1 signal (Ring - RX in)Pin 2 - T1 signal (Tip - RX in)Pin 4 - R signal (Ring - TX out)Pin 5 - T signal (Tip - TX out)Only pins 1, 2, 4, and 5 are used.T00090401245Figure 3-16 RJ–48X connector pinouts3.5SSIsQuad–DS1

1027144–0001 Revision D 3–28 Installing indoor RT equipment RT installationThe DS3–TDM SSI, shown in figure 3-17, provides a structuredor transparent D3 service link between the HT and RT.TxALARMOKRxTDM SSI3DST0006022BNC Rx connectorBNC Tx connectorOKSTATUSALARMSSI statusLEDsLink status LEDsFigure 3-17 DS3–TDM SSIThe maximum cable length for a DS3–TDM SSI is 450 feet(137.2 meters).The Universal–DS1 SSI, shown in figure 3-18, provides a link tothe HT that can carry up to eight T1 or eight E1 lines.Figure 3-18 Universal–DS1 SSIUNIVERSAL SSIOKSTATUSALARMPORT 1 PORT 2 PORT 3 PORT 4 PORT 5 PORT 6 PORT 7 PORT 8T0009039SSI status LEDsRJ-48X connectors RJ-48X connectorsThe maximum cable length for a Universal–DS1 SSI is 655feet (199.6 meters).The DS3–ATM SSI, shown in figure 3-19, provides an ATM linkbetween the RT and the HT.T0009005BNC Rx connectorBNC Tx connectorTxALARMOKRxATM SSI3DSOKSTATUSALARMLink status LEDsSSI statusLEDsFigure 3-19 DS3–ATM SSIThe maximum cable length for a DS3–ATM SSI is 450 feet(137.2 meters).DS3–TDMUniversal–DS1DS3–ATM

1027144–0001 Revision D Installing indoor RT equipment 3–29RT installationThe DS3–transparent SSI, shown in figure 3-20, supports anunencumbered DS3 point–to–point service. The DS3 framingstructure, clocking, and control bits are transported withoutvisibility to the AIReach Broadband system.TxALARMOKRxTRNSP SSI3DSOKSTATUSALARMT0006023BNC Rx connectorBNC Tx connectorLink status LEDsSSI statusLEDsFigure 3-20 DS3–transparent SSIThe maximum cable length for a DS3–transparent SSI is450 feet (137.2 meters).SSIs are installed in slots 2 through 5 in the RT IDU chassis andare numbered SSI 1 through SSI 4, according to their positions inthe chassis:Chassis slot SSI number2 13 24 35 4Slot 1 is occupied by the CCM.LEDs on SSIs and fiber extender modules (FEMs) show:•Module status (all SSIs and FEMs)•Link status (if applicable)•Line (or port) status (if applicable)The subsections below show which LEDs are included on eachSSI or FEM and explain the meaning of the various LED on–offconditions.DS3–transparentNumbering of chassisslots and SSIsSSI (and FEM) LEDs

1027144–0001 Revision D 3–30 Installing indoor RT equipment RT installationModule status LEDsIncluded on: All SSIs and FEMsOKSTATUSALARM()RedOnFlashing: Hardware failure:TDM buscommunication failure()GreenOn: Normal operationor module startupT0009035Link status LEDsIncluded on: DS3–TDM, DS3–ATM, and DS–3 transparent SSIsIDU FEM and EIDU FEMLED indications are the same for SSIs and FEMs.T0009036IDU FEMOKALARMTx RxEIDU FEMArrows point tolink status LEDs.()RedOn: Alarm()GreenOn: Normal operationSSI

1027144–0001 Revision D Installing indoor RT equipment 3–31RT installationLine status LEDsIncluded on: Quad–DS1 and Universal DS–1 SSIsT0009037PORT 1 PORT 2 PORT 3 PORT 4PORT 1 POBoth LEDs off:Port in service -no alarms present(): Port in service - yellow alarm ortest condition presentYellowOn(): Port in service - red alarm(Loss of signal or loss of frame)RedOn

1027144–0001 Revision D 3–32 Installing indoor RT equipment RT installationLook at the hub network schematic or other configurationdocument to determine:•How many SSIs to install•What type(s) of SSIs to install•Which SSI to install in each IDU chassis slotFollow these steps to install SSIs:CAUTIONTo maintain proper airflow and protectagainst RF interference, keep any emptychassis slots covered with blank panels.1. If a blank panel is installed in the slot where you will installthe SSI, loosen the thumbscrews on the blank panel andremove it.Keep the blank panel for future use.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-21) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.Figure 3-21 ESD wrist strapTMBROADBANDENTERPREVNEXTT0009051WriststrapConnect toIDU chassisground terminal.SSI physicalconfigurationInstalling SSIs

1027144–0001 Revision D Installing indoor RT equipment 3–33RT installation2. Wrap the ESD strap snugly around your wrist and connectthe alligator clip to one of the ground terminals on the frontof the IDU chassis power supply.T00060533. Remove the SSI from its ESD protective packaging.Retain the packaging in case it is necessary to return theSSI for repair.4. Slide the SSI into the guides on each side of the chassis SSIslot and push it firmly into place until the front of the SSI isflush with the front of the IDU chassis.5. When the SSI receives power through contact with the IDUbackplane, it automatically initiates startup diagnostics.Watch the LEDs to see the diagnostic results:OKSTATUSALARM()RedOnFlashing: Hardware failure:TDM buscommunication failure()GreenOn: Normal operationor module startupT00090356. Tighten the thumbscrews at each end of the SSI.To tighten the thumbscrews, push them toward the IDUchassis and turn them clockwise. To fully tighten thethumbscrews, use a Phillips screwdriver.7. Repeat steps 1 through 6 for each SSI.8. If any SSI slots are empty, cover the slot with a blank panel.(If you need additional blank panels, order HNS part1026730–0001.)9. Remove power from the IDU chassis.This completes the IDU installation.

1027144–0001 Revision D 3–34 Installing indoor RT equipment RT installationIf more than 4 SSIs are required at a single site, or SSIs need to bephysically distributed (on different floors, for example), one ormore expansion IDUs (EIDUs) may be installed, at remote sitesonly. A single IDU can accommodate up to 4 EIDUs (16 SSI slots)as shown in figure 3-22.Fiber extender modules (FEMs) and multimode fiber cable areused to link EIDUs to the IDU. The FEM links carry both ATMand TDM traffic.Refer to the site plan to determine how many EIDUs are to beinstalled and where they are to be installed.ODUEIDUFEM4 SSIsEIDUFEM4 SSIsEIDUFEM4 SSIsEIDUFEM4 SSIs(In CCM slot)IFLFiberlinksMaximumlinkdistance:2250 feet(685.8meters)CCM(In SSI slots)IDU4 FEMsrt065Figure 3-22 EIDUs used to distributeSSIs throughout a remote site buildingThe EIDU can be used on a tabletop or installed in a 19–inch(48.3–centimeter) rack. With optional adapter brackets, the EIDUcan also be installed in a 23–inch (58.4–centimeter) rack.Note: HNS does not provide a rack for EIDU installation.If you are installing the EIDU in a rack, refer to the prerequisites,safety guidelines, and instructions provided on pages 3–4through 3–7.3.6Installing expansionIDUs (EIDUs)Mounting optionsRack mounting

1027144–0001 Revision D Installing indoor RT equipment 3–35RT installationEIDU power supply specifications and requirements are the sameas those for the IDU chassis. To connect power to the EIDUchassis, refer to section 3.3.The IDU–EIDU subsystem includes two types of fiber extendermodules (FEMs), which facilitate the fiber links between the IDUand the EIDU:•IDU FEMs – IDU FEMs provide the interface on the IDUfor the link to/from the EIDU (as shown in figure 3-22).IDU FEMs are installed in SSI slots in the IDU chassis, asshown in figure 3-23. IDU FEMs and SSIs may be installedin the same chassis.T0009056IDUIDU FEMSSIslotsFigure 3-23 IDU FEM (installed in SSI slot)•EIDU FEM – The EIDU FEM provides the interface on theEIDU for the fiber link to/from the IDU (as shown in figure3-22).The EIDU FEM is installed in the CCM slot of the EIDUchassis, as shown in figure 3-24.T0009057CCM slotEIDUEIDU FEMFigure 3-24 EIDU FEM (installed in CCM slot)Power suppliesTwo type of FEMs

1027144–0001 Revision D 3–36 Installing indoor RT equipment RT installationFigure 3-25 shows an IDU FEM and an EIDU FEM, their SCconnectors, and other front panel features.IDU FEMOKSTATUSALARMOKALARMTx RxTMBROADBANDEIDU FEMENTERNEXT PREVOKSTATUSALARMOKALARMTx RxLiquid crystaldisplay (LCD)Control pushbuttons(for LCD)MaintenanceportT0009041IDU FEMEIDU FEMDual SC connectorDual SC connectorLink statusLEDsFEM statusLEDs(Fits into SSI slot)(Fits into CCM slot)Figure 3-25 IDU FEM and EIDU FEMFor explanation of the FEM LEDs, see page 3–29.Each EIDU requires an EIDU FEM, which connects to an IDUFEM. (This is illustrated in figure 3-22.) To install an IDU FEM orEIDU FEM:1. If a blank panel is installed in the slot where you will installthe FEM, loosen the thumbscrews on the blank panel andremove it.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-26) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.Installing FEMs

1027144–0001 Revision D Installing indoor RT equipment 3–37RT installationFigure 3-26 ESD wrist straprt063WriststrapConnect to IDU orEIDU chassisground terminal.2. Wrap the ESD strap snugly around your wrist and connectthe alligator clip to one of the ground terminals on the frontof the chassis power supply.3. Remove the FEM from its ESD protective packaging.Retain the packaging in case it is necessary to return theFEM for repair.4. Slide the FEM into the guides on each side of the chassisslot and push it firmly into place until the front of the FEMis flush with the front of the chassis.T0009058IDUEIDUEIDU FEMIDU FEMCCM slotSSIslots5. Tighten the thumbscrews at each end of the FEM.To tighten the thumbscrews, push them toward the IDUchassis and turn them clockwise. To fully tighten thethumbscrews, use a Phillips screwdriver.6. Repeat steps 1 through 5 for each FEM.

1027144–0001 Revision D 3–38 Installing indoor RT equipment RT installation7. If any chassis slots are empty, cover the slot with a blankpanel.(If you need additional blank panels, order HNS part1026730–0001.)8. Connect each EIDU FEM to an IDU FEM, as illustrated infigure 3-22.If you are installing multiple EIDUs, you can connect anyEIDU FEM to any IDU FEM.Use 62.5/125–micrometer multimode optical fiber cableterminated with SC connectors to connect the FEMs. An SCconnector is shown below.SC connectorT0009054Connect TX to RX:IDU TX port to EIDU RX port EIDU TX port to IDU RX port

RT INSTALLATION1027144–0001 Revision D Installing IFL cables 4–1RT installation Chapter 4Installing IFL cablesThis chapter includes:•Handling materials – page 4–2•IFL cable specifications– page 4–3•Overview: IFL plan – page 4–4•Determining the IFL cable route – page 4–5•Penetrating the roof – page 4–6•Installing the penetration sleeve – page 4–7•Installing the IFL cable inside the building – page 4–8•Installing the RT lightning arrestor – page 4–9•Installing the IFL cable on the roof – page 4–13•Testing the IFL cable – page 4–14Appendix C covers IFL cable termination in detail.DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.Note: The lightning arrestor and penetration sleeves referred toand illustrated in these instructions are not specific parts availablefrom HNS. They are presented to illustrate a typical solution forproviding grounded lightning arrestor protection for one or moreIFL cables. Other solutions are acceptable as long as they complywith the IFL grounding requirements specified in the Hub andRemote Terminal Site Preparation Guide.

1027144–0001 Revision D 4–2 Installing IFL cables RT installationDepending on the installation location, you may have to hoist themount kit, ballast (concrete blocks), IFL cable, and tools to therooftop as shown in figure 4-1. Using two or more people for thistask will save considerable time.Figure 4-1 Hoisting materials to the installation locationT0006060WARNINGIf you need to hoist materials to theinstallation location, observe theseprecautions to avoid personal injury:•Use a rope strong enough to supportall of the materials that need to behoisted.•Never stand under the rope whilematerials are being hoisted.•Hoist one concrete block at a time.•Pass the rope through the center holeof each concrete block. If you use thehole on either end, the end can breakoff, allowing the concrete block to fall.•Be advised that the contents of themount kit can fall through the end ofthe box if the box is tilted—especiallyif the box has been damaged.•Use a back brace.If possible, do not hoist the ODU transceiver and antenna on arope. If possible, carry these components in a backpack or paddedbag.4.1Handling materials

1027144–0001 Revision D Installing IFL cables 4–3RT installationThe intrafacility (IFL) cable specified for AIReach Broadbandinstallations is a Type 3 VSAT coaxial cable, HNS 1010812–0001(1,000–foot / 305–meter spool). This cable is non plenum, CMGUL/C (UL) approved. An acceptable alternative is LMR–400plenum cable (available from Times Microwave Systems,Wallingford, CT). For additional specifications, see the Hub andRemote Terminal Site Preparation Guide.The following Underwriters Laboratories (UL) requirementapplies to the IFL cable:The IFL cable must be installed in ametal conduit and grounded accordingto NEC article 800–40. If the IFL cable willnot be installed in a metal conduit, thecable must be a plenum cable, UL/C(UL)approved, with a CMR rating (or higher).For specific grounding instructions, see Grounding the lightningarrestor in section 4.8. Refer also to the grounding guidelinesincluded in the Hub and Remote Terminal Site Preparation Guide.4.2IFL cablespecifications

1027144–0001 Revision D 4–4 Installing IFL cables RT installationFigure 4-2 shows the IFL and lightning arrestor. A lightningarrestor is required on the roof at the IFL buildingpenetration point.Figure 4-2 shows how the IFL cable is installed in two segmentsto accommodate the lightning arrestor:•One segment from the IDU to the rooftop lightning arrestor•One segment from the lightning arrestor to the ODUODU(not installed yet)T0009059IFL(cablesegment 1)RoofIDU(Not to scale)IFL(cable segment 2)Lightning arrestorassemblyRFarrestorFigure 4-2 IFL planBecause the IFL cable is installed in two segments, it is cut andterminated (with an N–type connector) in four locations, as shownin figure 4-3.NODUIFLLightningarrestorT0009002IFLRoofIDUNNNN= N connector locationFigure 4-3 Four locations where N connectors are installed4.3Overview: IFL planIFL connections

1027144–0001 Revision D Installing IFL cables 4–5RT installationDetailed instructions for installing the IFL and lightning arrestorare included in the following sections.Determine the IFL cable route, from ODU to IDU. Consider theguidelines below. Every building and rooftop is unique; for thisreason, some of these guidelines may not apply to yourinstallation:•The most important considerations are the ODU and IDUlocations and the building entry point. The entry pointshould be as close as possible to the ODU. Refer to the RTrooftop drawings. (See also page 5–3.)•The maximum IFL cable length is 1000 feet (305 meters).•Where possible, use existing conduit.•You must use a pull box to facilitate pulling cables throughconduits if routing cable through bends totaling more than360°.•If existing conduits can not be used and the cable will beexposed, refer to building codes to determine proper cableinsulation type. For example, plenum rated cable must beused if cable will be run above suspended ceilings.•If you are installing the IFL cable(s) inside a conduitthat contains power cables, you must use plenum–ratedcable.•Look for cable routes that will be easily accessible, such asstacked telco closets etc.•Older buildings may not have stacked telco closets. Youmay have to route the cable back and forth, from one side ofthe building to the other.•Never run the IFL cable across corrugated roofing. Run thecable in the corrugation trough:hb009RoofYes NoCable4.4Determining the IFLcable route

1027144–0001 Revision D 4–6 Installing IFL cables RT installationFollow the steps below to drill a hole for the IFL cable only whenthere is not an existing entry you can use.1. Go to the roof.2. Determine where the IFL cable will penetrate the roof.Refer to the RT rooftop drawings.Before you drill, consider these guidelines:•Important: Do not penetrate any part of the buildingstructure without first making sure you have the explicitpermission of the customer and building owner.•Horizontal penetration is preferable to vertical penetration.(A horizontal hole is less likely to leak.)•Take care not to destroy cabling or wiring under the roof orinside the wall.•Round penetration holes are preferred over square holes.(They are easier to make and seal.)3. Drill a 2–inch (51–millimeter) diameter hole at the buildingpenetration point.BuildingpenetrationpointBuilding surface2 inches(51 mm)rt0384.5Penetrating the roof

1027144–0001 Revision D Installing IFL cables 4–7RT installationThe IFL cable must be routed through a penetration sleeve beforeit is connected to the lightning arrestor. The lightning arrestor isattached to the penetration sleeve after cable installation.1. Use twelve screws to attach the RT penetration sleeve(sleeve and coupling) to the building surface at the buildingpenetration point. See figure 4-4.The type of screw used depends on the roof thickness andsurface composition. The screws must hold the sleevesecurely.Note: If space is limited, use a 90° sweep, as illustrated infigure 4-4.Screws(12 total)BuildingpenetrationpointT0006059Penetration sleevewith sweepSweepFigure 4-4 Installing the RT penetration sleeve2. Weatherproof the penetration sleeve by applying siliconecaulk or other weatherproofing material to the bolt holeareas and the surface of the sleeve plate.Note: Silicone caulk may not be suitable for certain typesof roofs.4.6Installing thepenetration sleeve

1027144–0001 Revision D 4–8 Installing IFL cables RT installationYou install the IFL cable in two segments, as shown in figure 4-2(page 4–4). To install the first cable segment—from the IDUchassis location to the lightning arrestor—follow the instructionsand guidelines below. Because every building has unique features,it is not possible to give exact instructions.1. Measure the cable run length from the IDU chassis locationto the lightning arrestor location (IFL building entry point).Allow for routing around obstacles and a service loop(excess cable, in case there is any reason to later cut andre–terminate the cable).2. Run the cable from the IDU chassis location, through anexisting conduit if possible, through the RT penetrationsleeve (figure 4-4), to the lightning arrestor location.Use a stand so the cable spool spins freely as it is pulled.Leave a service loop.CAUTIONAvoid making sharp bends in the IFL cable.The minimum bend radius for IFL cable is 2inches (51 millimeters). Sharper bends maycause permanent damage to the cable.3. Cut the cable at the IDU chassis location and at thelightning arrestor.Important: Cut the cable 2 feet (0.6 meters) beyond thelightning arrestor location (building penetration point).4. Terminate the cable end at the IDU chassis location with anN–type connector. For detailed instructions for connectingan N connector, see appendix C.Important: Sound IFL cable connections are critical forproper operation of the AIReach Broadband system.Therefore, be very careful in terminating the cable. Refer tothe detailed instructions in appendix C if necessary.Attach N connectors after you route and install thecable, not before.Note: The IFL cable installation is completed in section 4.9.4.7Installing the IFLcable inside thebuilding

1027144–0001 Revision D Installing IFL cables 4–9RT installationAll AIReach Broadband IFL cables must connect to agrounded lightning arrestor (provided by HNS) at the buildingpenetration point, as shown in figure 4-2 (page 4–4) andexplained in this section.WARNINGTo help avoid death, injury, or damage froma lightning strike, you must install alightning arrestor where the IFL enters thebuilding.Figure 4-5 identifies the components of a typical RT lightningarrestor. The design illustrated here (see also figure 4-6) canaccommodate one or two IFL cables for up to two RTs.Figure 4-5 Typical RT lightning arrestorRestrainingfittingRF arrestorrt033Ground barGo to the roof to install the lightning arrestor.4.8Installing the RTlightning arrestor

1027144–0001 Revision D 4–10 Installing IFL cables RT installationFollow these steps to route the IFL cable through the lightningarrestor and then connect the cable to the RF arrestor:1. Attach an RF arrestor to the arrestor body with a 3/4–inch(19–millimeter) nut. See figure 4-6.The illustrated lightning arrestor design can accommodateone or two RF arrestors, to provide protection for one ortwo IFL cables.Figure 4-6 Attaching the arrestor to the arrestor bodyrt0343/4-inch(19-millimeter)nutLocation of second arrestor, if 2IFLs are installed.2. Route the cable from the IDU chassis location through thebase of the lightning arrestor and the restraining fitting, asshown in figure 4-7.Figure 4-7 Routing the IFL cableT0009003FromIDURestrainingfittingTerminate withN connectorhere.3. Terminate the end of the IFL cable with an N connector.For detailed instructions for connecting an N connector, seeappendix C.4. Connect the cable to the RF arrestor, as shown in figure 4-8.Connecting the IFLcable to the RF arrestor

1027144–0001 Revision D Installing IFL cables 4–11RT installationFigure 4-8 Connecting the IFL cable to the arrestorrt036Location of second arrestor,if 2 IFLs are installed.5. Working from inside the arrestor body, use a wrench totighten the restraining fitting.6. If you are installing a second IFL cable, repeat steps 1through 5.Attach the lightning arrestor to the penetration sleeve:1. Slide the lightning arrestor over the sleeve, as shown infigure 4-9.2. Fasten the lightning arrestor to the sleeve with a screw.Figure 4-9 Attaching the lightning arrestor to the sleevert037Slide the lightning arrestorover the sleeve.Attaching the arrestorto the penetrationsleeve

1027144–0001 Revision D 4–12 Installing IFL cables RT installationFollow these steps to ground the lightning arrestor:1. Connect one end of the ground cable (No. 6 AWG orgreater, green) to the lightning arrestor ground bar, asshown in figure 4-10.Figure 4-10 RT lightning arrestor grounding connectionsrt051To groundpointGround cableNo. 6 AWG or greaterSingle-hole compression lugGround bar2. Route the ground cable to the ground point.When routing the ground cable, you must:•Secure the ground cable at 5–foot (1.5–meter)intervals.•Keep the ground cable at least 3 feet (0.9 meters)away from non–grounded metal objects.•Make sure all bends in the cable have a sweepingradius of more than 8 inches (20.3 centimeters).3. Connect the RT lightning arrestor to the same ground(reference) point as the ODU ground. See section 6.10.4. Apply anti–oxidant (HNS 9008224–0002) to each groundlug.5. Apply 1/2–inch (13–millimeter) heat shrink tubing (HNS9007488–0005) to each ground lug after the connection iscomplete.Important: You must slip the heat shrink onto the cablebefore you make the connections.Grounding the RTlightning arrestor

1027144–0001 Revision D Installing IFL cables 4–13RT installationTo install the second IFL cable segment—from the lightningarrestor to the ODU—follow the instructions and guidelinesbelow. Because every rooftop has unique features, it is notpossible to give exact instructions.Connect the IFL to the lightning arrestor as follows:1. Measure the cable run length from the lightning arrestor tothe ODU. Allow for routing around obstacles and a serviceloop (excess cable, in case there is any reason to later cutand re–terminate the cable).2. Run the cable from the lightning arrestor to the ODUlocation, and leave enough cable for a service loop.For now, you must leave the cable unconnected because theODU is not installed yet. You will connect the IFL to theODU later, after the ODU is installed.CAUTIONAvoid making sharp bends in the IFL cable.The minimum bend radius for IFL cable is 2inches (51 millimeters). Sharper bends maycause permanent damage to the cable.3. Cut the cable at the lightning arrestor and at the ODU.4. Terminate both ends of the cable segment with Nconnectors. For detailed instructions for connecting Nconnectors, see appendix C.4.9Installing the IFLcable on the roofConnecting to thelightning arrestor

1027144–0001 Revision D 4–14 Installing IFL cables RT installation5. Connect the IFL cable to the RF arrestor, as shown in figure4-11.You connect the other end of the cable to the ODU later,after you install the ODU.Figure 4-11 Connecting the IFL to the RF arrestorGround wireIFLTo ODUN connectorRF arrestorN connectorT0009013Do not apply permanent weatherproofing until the RT hasbeen commissioned and tested. If the weather is wet or windy,a temporary tape seal is recommended. Weatherproofing iscovered in section 8.1.Test the IFL cable and connectors as follows:1. Check each connector: Use a multimeter or continuity testerto check for continuity (a short circuit) between the centerconductor and the connector body (outer shell).If the meter or tester does not indicate an open (noconnection), the connector or cable is defective and must bereplaced.2. Check the connectors and cable:a. Using a small jumper cable, attach a jumper clip tothe center conductor of the connector on one end ofthe cable.b. Attach the other end of the jumper to the connectorbody, so the center conductor and connector bodymake electrical contact.c. At the other end of the cable (at the IDU location),use a multimeter to measure the resistance betweenthe center conductor and connector.Resistance should be less than 10 ohms. If it isgreater than that find and correct the problem.Testing the IFL cable

1027144–0001 Revision D Installing IFL cables 4–15RT installationAfter running the cable, finish the cable installation as follows:1. Support the cable above the roof surface with a cable troughor wood blocks approximately 4 inches by 4 inches by 4inches (10 centimeters by 10 centimeters by 10centimeters):hb0102. Tie down cable runs on the roof and at the IDU locationwith tie–wraps.3. Seal the IFL rooftop entry point with weatherproofingcaulk.4. Label both ends of the IFL cable to identify the cable in anappropriate manner. This is especially important if you areinstalling multiple IFL cables. (To order IFL labels, requestHNS part number 9005328–0055.)Finishing the cableinstallation

RT INSTALLATION1027144–0001 Revision D Installing mast mounts 5–1RT installation Chapter 5Installing mast mountsThis chapter includes:•Overview – page 5–2•ODU location – page 5–3•Roof types – page 5–3•Mast mount types – page 5–3•Standard nonpenetrating mount – page 5–4•Existing structures – page 5–11DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.

1027144–0001 Revision D 5–2 Installing mast mounts RT installationTypically, the installers assemble a nonpenetrating roof mount foreach ODU to be installed. In some cases, a different type of mastmount may be used, or an existing structure may be used.The mount supports the mast in a vertical or horizontal position,and the ODU is mounted on the mast, as shown in figure 5-1.Figure 5-1 Mast mount supporting mast and ODUrt0095.1Overview

1027144–0001 Revision D Installing mast mounts 5–3RT installationSite preparation personnel specify the ODU location as part ofpreparing the RT rooftop drawing.1. Use the RT rooftop drawing to determine where to installthe mount (at the ODU location) and locate the IFL entrypoint.2. Make sure the roof penetration or entry point for the IFL issuitable.Important: The location(s) used for ODU installation must meetthe requirements listed in the Hub and Remote Terminal SitePreparation Guide. Key considerations include:•Line of sight•Distance from HT•IFL entry location•Sources of interference•Safety•Ground point location•Access•SecurityFor details, see the Site Preparation Guide.Many roof types are suitable for AIReach Broadband ODUinstallations. Mount installation procedures for the followingcommon roof types are described later in this chapter:•Rubber cap sheet/ glued rubber cap sheet•Loose gravel on rubber cap sheet•Corrugated metalThe roof type is a factor in the type of mast mount selected. Also,some mount installation steps may be different, depending on theroof type.The following options are available for mounting a mast tosupport the ODU:•Nonpenetrating roof mount – This mount, essentially aflat platform assembled from a kit, is suitable for mostapplications. It can be used on various flat roof types. Fordetails, see section 5.5.•Existing structure – An existing structure such as anantenna tower can be used as a mast, or a mast can bemounted to the structure, if the structure meets therequirements given in the Hub and Remote Terminal SitePreparation Guide.5.2ODU location5.3Roof types5.4Mast mount types

1027144–0001 Revision D 5–4 Installing mast mounts RT installationThe standard nonpenetrating roof mount, HNS 9200375–0001, is aflat, metal–frame mount assembled from a kit. It requires a6.5–by–6.5–foot space (1.98 by 1.98 meters) and includes a 7–foot(2.1–meter) mast. You install the mount on a rubber pad; concreteblocks are added for ballast.The standard mount can be used on a variety of flat roof types, asdetailed below.Instructions are given below for various types of roofs. See alsothe manufacturer’s instructions, which are included in the mountshipping carton.Most flat roofs are topped with:•Glued rubber cap sheet or•Rubber cap sheet with gravelFollow these instructions for either type of roof:1. If the cap sheet is covered with gravel, use a push broom orsnow shovel to clear the gravel from the area where themount will be installed, as shown in figure 5-2.Figure 5-2 Clearing gravel from the installation locationT00060612. Place the rubber pad on the roof surface where the mountwill be assembled.5.5StandardnonpenetratingmountFlat roof – rubber sheet(with or without gravel)

1027144–0001 Revision D Installing mast mounts 5–5RT installationFigure 5-3 identifies the main mount components.Figure 5-3 Mount componentsOuterbase angleDiagonalbase angleInnerbrace angleMastMastbrace anglert015Rubberpad•Follow steps 3 through 10 to assemble the mount.3. Place the mount’s four outer base angles on the rubber pad.4. Place the mount’s diagonal base angles on the rubber padand connect them to the outer base angles at the locationscircled in figure 5-4.Figure 5-4 Connecting diagonal base angles to outer base anglesCarriage bolt11112222Flat washerLock washerHex nutrt013

1027144–0001 Revision D 5–6 Installing mast mounts RT installation5. Place the mast between the diagonal base angles. Secure thediagonal base angles to the mast as shown in figure 5-5.11112222BoltFlat washerLock washerHex nutrt014Figure 5-5 Attaching the diagonal base angles to the mastDiagonal base angles opposite each other are secured to themast with one set of hardware as shown below.rt042

1027144–0001 Revision D Installing mast mounts 5–7RT installation6. Attach the mast brace angles to the mast. See figure 5-6.Figure 5-6 Attaching the mast brace angles to the mastCarriage bolt11112222Flat washerLock washerHex nutrt041Mast brace angles opposite each other are secured to themast with one set of hardware as shown below.rt042

1027144–0001 Revision D 5–8 Installing mast mounts RT installation7. Place the inner brace angles on the rubber pad and connectthem to the diagonal base angles and mast brace angles asshown in figure 5-7.Figure 5-7 Attaching inner brace angles to diagonal baseangles and mast brace anglesCarriage bolt11112222Flat washerLock washerHex nutrt0168. Refer to the Site Data Record (from the site survey) todetermine how many concrete blocks are required to anchorthe mount.

1027144–0001 Revision D Installing mast mounts 5–9RT installation9. Place the concrete blocks on the mount so they are evenlyspaced, with the ends of each block anchoring both theinner and outer base angles, as shown in figure 5-8.Figure 5-8 Proper placement of concrete blocks on the mountT000906010. When the mount installation is complete, if the roof iscovered with gravel, replace gravel up to the outside edgesof the mount. See figure 5-8.Do not replace gravel in the area inside the mount base.Leave the rubber pad exposed.This section explains how to install the standard nonpenetratingroof mount on a corrugated metal roof.Special requirements:•Pressure treated lumber, as specified in step 1 below,and•Twelve 1–inch–long (2.5–centimeter) lag bolts.1. Obtain five pieces of pressure treated lumber, each 4 inchesby 4 inches by 8 feet long (10 centimeters by 10 centimetersby 2.44 meters long).2. Important: Select an area of the roof that is supported by ametal I–beam to install the mount.3. Cut the rubber pad into strips 4 inches wide by 8 feet long(10 centimeters wide by 2.44 meters long).4. Use 5–penny shingle nails to nail one strip of rubber pad toone surface of each piece of lumber. See figure 5-9.Corrugated metal

1027144–0001 Revision D 5–10 Installing mast mounts RT installation5. Lay out the 4 x 4s, as shown in figure 5-9, so that eachpiece is:- In the recessed portion of the roof- Parallel to the raised seams- Equally spaced to support the mast, mount braces andsides, and concrete blocks, as shown in figure 5-9.Lay the lumber with the pad side down, so that the pad isbetween the roof and the lumber.Figure 5-9 Supporting the mount on a corrugated aluminum roofMastRoofCinder block(ballast)CinderblockRoofDetailRubber pad(strip)Wood(4x4)Wood(4x4)Mast mount(assembled from kit)MastmountLag bolthb008NailEnd view6. Follow steps 1 through 10 starting on page 5–4 toassemble the mount.Assemble the mount on the 4 x 4s so that when completed,the mount is elevated above the aluminum roof.7. Make sure the mount is evenly positioned on the 4 x 4s,then use lag bolts to bolt the mount to the 4 x 4s.Install the bolts through the holes in the mount’s outerframe and into the wood. Use one bolt at each end of eachpiece of lumber (as shown in figure 5-9). Use one bolt at thecenter of each remaining side of the mount.8. Add the required number of concrete blocks for ballast. Seesteps 8 and 9 on page 5–8.

1027144–0001 Revision D Installing mast mounts 5–11RT installationIn some cases, you may be able to mount an ODU to an existingstructure, such as a tower built to support communicationsantennas.The key factors for determining if an existing structure can beused as mast are that the structure must:•Be securely attached to the building (and capable ofsustaining specified wind loadings).•Have an outside diameter of 2.0 to 4.5 inches.•Meet line of sight (LOS) requirements.Important: In addition to these criteria, the structure must alsomeet other requirements listed in the Hub and Remote TerminalSite Preparation Guide.5.6Using existingstructures as ODUmounts

RT INSTALLATION1027144–0001 Revision D Installing ODUs 6–1RT installation Chapter 6Installing ODUsThis chapter explains how to install RT ODUs. It includes:•Introduction – page 6–2•Transporting the ODU to the roof – page 6–4•Preparing to install the antenna mount – page 6–5•Installing the antenna mount – page 6–8•Attaching the antenna to the mount – page 6–10•Adjusting the antenna azimuth (coarse adjustment) –page 6–14•Adjusting the antenna elevation (coarse adjustment) –page 6–17•Installing a mechanical attenuator – page 6–19•Attaching the transceiver to the antenna – page 6–21•Grounding the ODU – page 6–23•Connecting the IFL to the ODU – page 6–25For ODU standards compliance information, see appendix B(page B–2).For ODU location requirements, see page 5–3.

1027144–0001 Revision D 6–2 Installing ODUs RT installationFor conceptual reference, figure 6-1 illustrates how hub terminal(HT) ODUs communicate with remote terminal (RT) ODUs. Theremote terminal (RT) outdoor unit (ODU) and integrated antennaattach to a mount installed on a vertical or horizontal mast, asshown in figure 6-2.T0006019Hub terminalsRemoteterminalRemote terminalRemote terminalFigure 6-1 Hub ODUs communicating with RT ODUsNote: The ODU installation instructions in this chapter are for thetypical case of an ODU mounted on a vertical mast. If the ODU ismounted on a horizontal pipe, these instructions must be carefullyinterpreted to account for the different mount and ODU position.6.1Introduction

1027144–0001 Revision D Installing ODUs 6–3RT installationFigure 6-2 ODU (installed)T0009055ODUtransceiverMastAntennaWhen installing ODUs, observe the following safety warnings:DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of the outdoorunit (ODU) antenna while the ODU isoperating. Note that you cannot tell fromoutward appearance whether the ODU isoperating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings could resultin injury to eyes or other personal injury.Safety warnings

1027144–0001 Revision D 6–4 Installing ODUs RT installationBefore you can install and commission the outdoor RT equipment:•The hub must be installed and operational.•The RT ESN (electronic serial number) must be entered inthe EMS database.•The mast must be installed.The mast must have an outside diameter of 2.0 to 4.5 inches (5.5 to 11.4 centimeters) and must be securelymounted in a vertical or horizontal position. If the mast isnot installed, you will need to install it before youproceed. For additional details concerning the mast, see theAIReach Broadband Hub and Remote Terminal SitePreparation Guide.Before starting, make sure you have:•Antenna mount•Antenna•Transceiver•3/8–inch torque wrench with 13–millimeter deep socket•5/32–inch (4–millimeter) torque hex key wrenchUnpack the ODU transceiver and antenna before going up to theroof. Carry the transceiver and antenna to the roof—in separatetrips—in a backpack or padded bag. Make sure the transceiver orantenna is secured in the backpack or bag.Prerequisites6.2Transporting theODU to the roof

1027144–0001 Revision D Installing ODUs 6–5RT installationThe antenna mount (HNS 1029056–0005) is shipped fullyassembled. Figure 6-3 shows an exploded view to show all theparts. However, you do not need to take the mount apart to installit, unless you need to reverse the mast clamp. (The mast clamp isreversible, as explained later.)AntennabracketMast clamp(rear part of antenna mount)Mast interface(front ofantennamount)MastMast interface - detailAzimuth locking nuts(2, top and bottom)Elevationlocking nuts (2)Antenna bracketlocking nuts (4)Fine azimuthadjusterFineelevationadjusterHT directionMast clamp nuts (4)T0009019Figure 6-3 Antenna mountThe antenna mount design allows you to install and tighten themount and antenna and then adjust the antenna azimuth andelevation without loosening the mount or antenna. Parts of themast interface move to allow these adjustments.6.3Preparing to installthe antenna mount

1027144–0001 Revision D 6–6 Installing ODUs RT installationImportant: To correctly install the antenna mount, read andcarefully follow all instructions in this section (6.3) throughsection 6.7.Prepare the mount for installation:1. Turn the fine azimuth adjuster as necessary to position theclevis (barrel) approximately in the middle of the threadedpart of the adjuster. See figure 6-4.This step ensures that you will be able to adjust the adjusteras necessary in either direction.Do not turn the nut behind the block that holds the fineazimuth adjuster.T0009020Fine azimuthadjusterFine elevationadjusterTurn toadjust. Do notturn.ClevisBegin with clevis approximatelyin the middle of the adjuster.Figure 6-4 Fine azimuth and elevation adjusters2. Turn the fine elevation adjuster as necessary to position theclevis approximately in the middle of the threaded part ofthe adjuster. See figure 6-4.Do not turn the nut behind the block that holds the fineelevation adjuster.

1027144–0001 Revision D Installing ODUs 6–7RT installationDetermine (approximately) how high on the mast to install themount:1. Determine the approximate desired antenna installationheight:The ODU/antenna must be installed in line of sight withthe hub terminal (HT), with no obstructions. As ageneral rule, install the RT ODU as high as possible on themast to avoid obstructions, unless the work order or RFsurvey specifies the ODU height.2. Refer to figure 6-5 for the mount position relative to theposition of the (not yet installed) antenna. As shown in thisillustration, when the antenna is installed (later), the antennavertical center is at the same height as the vertical center ofthe mount.T0009022Antenna(front)MastAntennacenterThe antenna isnot installed yet.It is shown here toillustrate that thevertical centers ofthe antenna mountand the antennaare at the sameheight.Figure 6-5 Antenna mount height relative to desired antenna heightODU height

1027144–0001 Revision D 6–8 Installing ODUs RT installationFollow the steps below to install the antenna mount.1. Determine which side of the mast clamp to use:T0009024Mast clampUse this side against the mast if themast outside diameter is.less than3.5 inches (8.9 centimeters)Use this side against the mast if themast outside diameter is 3.5 inches(8.9 centimeters) or larger.2. One side of the mast clamp has two open–end bolt holesthat allow the long bolts that are attached to the mastinterface to swing in or out. See figure 6-6. At the side ofthe mount where the two open–end bolt holes are, swing thetwo bolts outward so you can open the mount enough toplace it around the mast.T0009032Open-endbolt holeFigure 6-6 Opening the mount6.4Installing theantenna mount

1027144–0001 Revision D Installing ODUs 6–9RT installation3. Place the mount on the mast, as shown in figure 6-7.The fine azimuth adjuster must be on the side of themount opposite the HT direction, as illustrated in figure6-7. This allows you to make azimuth and elevationadjustments from behind the antenna, so you can stay out ofthe beam area.To get the azimuth adjuster on the side opposite the HTdirection, you may have to turn the entire mount 180°,depending on whether the ODU will be mounted to the leftor right of the mast.(If you are facing the mast interface—as a reference—itdoesn’t matter whether the mount swings open to the rightor to the left, as long as the azimuth adjuster is opposite theHT direction.)4. Swing the clamp toward the interface until you can“capture” the clamp by swiveling the free–swinging boltsinto the two slots in the clamp, as shown in figure 6-7.Mastclamp1. Swing clamp toward interface.2. Swivel bolt into slot.T000902512HT directionFine azimuthadjusterFigure 6-7 Installing the antenna mount5. Finger tighten the four mast clamp nuts.Tighten the nuts enough to hold the mount to the mast, butleave them loose enough so you can smoothly pivot themast interface and mast clamp around the mast to permitcoarse azimuth adjustment.(You fully tighten the mast clamp nuts later.)

1027144–0001 Revision D 6–10 Installing ODUs RT installationFollow the instructions in this section to attach the antenna to themount.Before mounting the antenna, check to make sure the radomedrain groove and clamp are at the bottom of the antenna, withrespect to the position the antenna will be in when it is mounted.See figures 6-8 and 6-9.DraingrooveClamp:20 inch-pounds(2.3 Newton-meters)T0009026Figure 6-8 Radome drain groove6.5Attaching theantenna to themountChecking the radomedrain position

1027144–0001 Revision D Installing ODUs 6–11RT installationNote: The RT antenna can be rotated 180°, as shownbelow, to attach to a mount to the right or left. If you rotatethe antenna this way, make sure the radome drain will be atthe bottom of the antenna, when mounted.T0009004Figure 6-9 The RT antenna can be rotated to attach to the right or leftIf the radome drain groove is at the bottom of the antenna,proceed to section 6.6.If the drain groove is not at the bottom of the antenna, rotate theradome panel as follows:1. Using a 5/32–inch (4–millimeter) torque hex key wrench,loosen the radome band clamp locking nut.2. Rotate the radome panel until the band clamp and draingroove are located at the bottom of the antenna (as it will bemounted).3. Tighten the radome band clamp locking nut to 20inch–pounds torque (2.3 Newton–meters).Changing the drainposition

1027144–0001 Revision D 6–12 Installing ODUs RT installationAttach the antenna to the mount as follows:1. With the radome facing the HT direction, position theround, flat surface of the antenna bracket approximately1 inch (2.5 centimeters) from the mast interface.2. Rotate the antenna approximately 45° away from the HTuntil the antenna bracket reliefs (curved indentations) arealigned with the four nuts on the mast interface, as shown infigure 6-10.T0009027Line of sight to HT45Close-up view:Antenna bracket reliefs (4)ReliefAntenna bracketlocking nut (1 of 4)AntennabracketMastinterfaceFigure 6-10 Rotating the antenna so the antennabracket can be placed against the mast interface3. Press the antenna against the mast interface.Attaching the antenna

1027144–0001 Revision D Installing ODUs 6–13RT installation4. Rotate the antenna approximately 45° toward the HT, to theupright (or nearly upright) position, as shown in figure6-11—then finger tighten the antenna bracket locking nuts.The antenna is now “captured” by the antenna mount.However, because the antenna bracket nuts are not fullytightened, you can rotate the antenna to adjust its elevation.T000902845Figure 6-11 Rotating the antenna to theupright installation position

1027144–0001 Revision D 6–14 Installing ODUs RT installationTo adjust the antenna azimuth (horizontal pointing direction), youmove the antenna and mount to the left or right, as illustrated infigure 6-12. You adjust the azimuth until the antenna is pointed atthe HT.MastRT antennaHTPointing directionT0009029Top viewLeftRightadjustedby 10 .°+_Antennaazimuthcan beFigure 6-12 Antenna azimuth adjustment (to right or left)You adjust the antenna azimuth in two stages:1. Coarse adjustment, using the built–in antenna boresight, asdetailed in this section (steps 1 through 3 on page 6–15).2. Electronic pointing, using a voltmeter and integrated systemsoftware (section 7.4). This procedure, a part of the RTcommissioning process, refines the azimuth adjustment topoint the antenna as accurately as possible.6.6Initial (coarse)antenna azimuthadjustment

1027144–0001 Revision D Installing ODUs 6–15RT installationObtain a coarse azimuth adjustment as follows:1. Stand behind the antenna so you can see through theantenna boresight (shown in figure 6-13).rt026BoresightAntenna bracketFigure 6-13 Boresight location2. Using the boresight for reference, rotate the antenna andantenna mount horizontally around the mast (by hand, notby using the azimuth adjuster), until you can see the HT inthe horizontal center of the boresight, with no shadowinside the boresight to the left or right. See figure 6-14.(You should not need to use the fine azimuth adjuster untilyou point the antenna with the voltmeter.)T0009008Adjustazimuthto left.Adjustazimuthto right.AzimuthproperlyadjustedBoresightFigure 6-14 Using the boresight to adjust azimuthCoarse azimuthadjustment

1027144–0001 Revision D 6–16 Installing ODUs RT installation3. When the azimuth is properly adjusted, use a torquewrench with a deep socket to tighten the four mastclamp nuts to 16 foot–pounds torque (21.7 Newton–meters). See figure 6-15. Tighten each bolt a little at atime, moving from bolt to bolt in an X pattern.CAUTIONCorrect torque is essential for successfulinstallation and adjustment. Tighten nuts tothe exact torque stated. Incorrect torquemay result in damage to equipment.Figure 6-15 Mast clamp nutsT0006057Mast clamp nuts(Only 2 of the 4 nutsare visible in thisillustration.)

1027144–0001 Revision D Installing ODUs 6–17RT installationTo adjust the antenna elevation (upward or downward pointingdirection), you rotate the antenna upward or downward, asillustrated in figure 6-16, until the elevation is set as desired.T0009030Antenna(front)Side view0elevation°DownwardelevationUpwardelevationFigure 6-16 Antenna elevation adjustment(upward or downward adjustment)You adjust the antenna elevation in two stages:1. Coarse adjustment, using the built–in antenna boresight(steps 1 and 2, on page 6–18).2. Electronic pointing, using a voltmeter and integrated systemsoftware (section 7.4). This procedure, a part of the RTcommissioning process, refines the elevation adjustment topoint the antenna as accurately as possible.6.7Initial (coarse)antenna elevationadjustment

1027144–0001 Revision D 6–18 Installing ODUs RT installationObtain a coarse elevation adjustment as follows:1. Using the boresight for reference, rotate the antenna (byhand) as shown in figure 6-16 until you can see the HT inthe vertical center of the boresight, with no shadow insidethe top or bottom of the boresight. See figure 6-14.If the antenna does not rotate freely, loosen each of theantenna bracket nuts slightly.(You should not need to use the fine elevation adjuster untilyou point the antenna with the voltmeter.)Figure 6-17 Using the boresight to adjust elevationT0009009Adjustelevationupward.Adjustelevationdownward.ElevationproperlyadjustedBoresight2. When the elevation is properly adjusted, tighten the fourantenna bracket nuts to 16 foot–pounds torque (21.7Newton–meters). See figure 6-18.T0009031TightenTightenTightenTightenAntenna bracketlocking nutElevation locking nut(Leave loose for lateradjustment.)Elevation locking nut(Leave loose.)Azimuth locking nut(Leave loose.)Azimuth locking nut(Leave loose.)Antenna bracketFigure 6-18 Antenna bracket locking nuts (and other nuts)At this point, the four antenna bracket locking nuts and thefour mast clamp nuts should be tight (torqued as specified).Leave the two azimuth locking nuts and two elevationlocking nuts loose, to allow for later adjustments. See figure6-18.Coarse elevationadjustment

1027144–0001 Revision D Installing ODUs 6–19RT installationYou must use a mechanical attenuator (figure 6-19) if:•The RT is within 328 feet to 1,312 feet (100 to 400 meters)of the HT.•The RT pointing voltage, obtained from a voltmeter,exceeds 4.1 volts.•The installation work order instructs you to use it.If none of these applies, go on to section 6.9.Figure 6-19 Mechanical attenuatorrt006WARNINGTo avoid the risk of electric shock andexposure to potentially harmful radiofrequency (RF) waves, make sure the IDU isturned off, if already installed, beforeinstalling the mechanical attenuator.Failure to observe these warnings couldresult in personal injury.Use the attenuator size (in decibels) specified in the installationwork order and/or Site Data Record. The attenuator size isindicated by a dot on the attenuator barrel:Dot color Attenuatorsize, dB Use only for . . .White 10 24 GHz antennaGreen 20 24 GHz antennaNo dot 10 38 GHz antennaRed 20 38 GHz antenna6.8Installing amechanicalattenuatorAttenuator size

1027144–0001 Revision D 6–20 Installing ODUs RT installationFollow these steps to install the mechanical attenuator:1. Locate the circular waveguide on the rear of the antenna.See figure 6-20.2. Insert the mechanical attenuator in the circular waveguide,as shown in figure 6-20.Important: Do not fully insert the mechanical attenuator.Ensure that part of the attenuator is exposed so it can beremoved if necessary.T0009015Close-up of waveguideInsert attenuator here.AttenuatorFigure 6-20 Installing the mechanical attenuatorCAUTIONDo not allow dirt, dust, moisture, or othercontaminants to enter the waveguide.If you have installed an attenuator, make a note of its size (forexample, 20 dB). You will need this information when youcommission the RT.Inserting the attenuator

1027144–0001 Revision D Installing ODUs 6–21RT installationFollow these steps to attach the transceiver to the antenna:1. Remove the plastic plug from the antenna waveguide andthe plastic cap from the transceiver coupling.CAUTIONAlways keep the waveguide and couplingplugs in place when the transceiver isdetached from the antenna, to preventcontamination.2. Position the transceiver so its four mounting bolts arealigned with the four grooves on the antenna flange, asshown in figure 6-21.TransceiverMounting bolt(Attached to transceiver)Antenna flangeWaveguideFlange grooveAntennaT0009010Figure 6-21 Aligning the transceiver mounting bolts6.9Attaching thetransceiver to theantenna

1027144–0001 Revision D 6–22 Installing ODUs RT installation3. Rotate the transceiver, making sure the transceiver’smounting bolts slide into the grooves in the antenna flange.(The direction of rotation depends on the orientation of theantenna bracket—to the right or left.) If the mounting boltswill not slide into the grooves, loosen the bolts. See figure6-22.T0009011BoresightMounting bolts must befully inserted in flangegrooves.Rotate transceiver to slide bolts into grooves.(Rotation direction depends on orientationof antenna bracket to right or left.)Figure 6-22 Rotating the mounting bolts into the grooves4. Fully tighten the transceiver mounting bolts.5. After tightening the transceiver, look through the boresightto make sure the antenna is still pointed at the HT.The ODU is now installed, but still needs to be grounded,connected to the IFL, and electronically pointed.

1027144–0001 Revision D Installing ODUs 6–23RT installationGrounding the ODU requires several connections, as shown infigure 6-23. In making the ground connections, follow thesepractices:•For all ODU ground connections, use compressionconnectors (such as compression lugs or compressionclamps).•For all threaded ground connections, use a flat washer andlock washer (with the lock washer next to the nut).Ground the ODU as follows:1. Connect one end of the ground cable (No. 6 AWG orgreater, green) to the ODU ground connector, which isshown in figure 6-23.2. Connect the ground cable to a bolted joint on the mastmount.Important: For this connection, strip the cable but do notcut it. See figure 6-23. The cable continues from the boltedjoint to the ground point.3. Connect the ground cable to a suitable ground point on therooftop.The best ground point for the ODU is an earth–referencedroof ring conductor that follows the perimeter of thebuilding, constructed according to the requirements ofNFPA 780 or a similar regulatory code. However, such aconductor is not always present. Other alternatives areacceptable, as long as they comply with the groundingrequirements detailed in the Hub and Remote Terminal SitePreparation Guide.Building steel can also be used as a ground point. However,before using building steel, verify that the steel structureis electrically continuous throughout the entire buildingand that it is properly connected to earth ground. Fordetailed grounding requirements, see the Hub and RemoteTerminal Site Preparation Guide.4. Apply anti–oxidant (HNS 9008224–0002) to each groundlug (points 1, 2, and 3 in figure 6-23).5. Apply 1/2–inch (13–millimeter) heat shrink tubing (HNS9007488–0005) to each ground lug after the connection iscomplete.Important: You must slip the heat shrink onto the cablebefore you make the connections.Note: A resistance of less than 5 ohms is desirable from theODU to earth, including the earth field.6.10Grounding the ODU

1027144–0001 Revision D 6–24 Installing ODUs RT installationT0009012TransceiverAntennaGroundpointGroundcable2-hole compression lug(Shown: Bond to structural steel)Ground pointon roof3.ODUside viewApply anti-oxidantand heat shrink toall ground lugs.End viewClamp-type ground connector.Strip cable at clamp.Bolted joint onmast mount2.View from rearTransceiverSingle-holecompression lugGround cableNo. 6 AWGor greaterODU ground connector1.Figure 6-23 ODU grounding connections

1027144–0001 Revision D Installing ODUs 6–25RT installationLightning protection is provided by grounding the ODU as statedabove and installing a lightning arrestor where the IFL cableenters the roof (as explained in section 4.8). The ODU groundand IFL lightning arrestor must both be bonded to the sameground (reference) point. Connect the IFL to the ODU as shown in figure 6-24.T0009014IFLGroundwireRear viewN connectorFigure 6-24 Connecting the IFL to the ODUDo not apply permanent weatherproofing until the RT hasbeen commissioned and tested. If the weather is wet or windy,a temporary tape seal is recommended. Weatherproofing iscovered in section 8.1.At this point, antenna installation is complete, and the antenna isvisually pointed. Later, when you commission the RT, you will usea voltmeter to electronically point the antenna as accurately aspossible.Lightning protection6.11Connecting the IFLto the ODU

RT INSTALLATION1027144–0001 Revision D Commissioning the RT 7–1RT installation Chapter 7Commissioning the RTThis chapter includes:•Prerequisites for commissioning – page 7–2•Connecting the IFL to the CCM – page 7–3•Front panel LCD operation – page 7–4•Pointing the antenna – page 7–8•Verifying HT acquisition – page 7–13•Entering an attenuator value – page 7–13•Checking the CCM, SSI, and ODU status – page 7–14•Verifying the RT’s operational state – page 7–17•RT to HT connection tests – page 7–18Commissioning refers to final installation, adjustment, andverification procedures necessary to ensure that the newly installedRT is operational.Observe these safety warnings while commissioning RTs:DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.Safety warnings

1027144–0001 Revision D 7–2 Commissioning the RT RT installationTo ensure successful commissioning, you must verify that theprerequisites listed below have been accomplished. These tasksmust all be completed prior to commissioning. If any of them hasnot been done, make sure they are completed before you proceedwith commissioning.The RT ODU, IFL, and IDU must be installed and connected.If you have followed all previous instructions, thisprerequisite is satisfied when you connect the IFL to theCCM (IDU), as instructed on page 7–4.The ODU must be coarsely (approximately) pointed towardthe HT, as explained in chapter 6.The Element Management System (EMS) hardware andsoftware must be installed and operational.All physical LAN connections between the RT and EMSmust be completed.The EMS database must be loaded and operational.The EMS operator must enter the RT electronic serial number(ESN) into the EMS database.The RT ESN is printed on a tag attached to the CCM and canalso be read from the CCM LCD—from the Main Menu ESNdisplay.The installer must know the (RT) ODU frequency to be usedand the identification number of the HT the RT willcommunicate with. These are provided by network planningpersonnel. The hub and HT must be installed and operational. The HTmust be properly aligned.The CCM must be installed in the IDU. (SSIs are notrequired for commissioning.)Note: The RT cannot be located closer than 109 yards (100meters) from the HT.7.1Prerequisites forcommissioning

1027144–0001 Revision D Commissioning the RT 7–3RT installationConnect the IFL cable to the CCM (IDU):1. Go to the IDU location.2. Make sure power to the IDU is off (or disconnected).A label on the CCM front panel advises:CAUTION: POWER DOWNODU BEFORE CONNECTINGOR DISCONNECTING IFRemoving power from the IDU powers down the ODU.Make sure the IDU is powered off before you connect ordisconnect the IFL cable.3. Using a 90° adapter, connect the IFL (N connector) to theCCM IFL interface, as shown in figure 7-1.12345TMBROADBANDENTERPREVNEXTRT CCMT0009047CCMIDUIFLinterfaceIFLN connector90 adapter°Figure 7-1 Connecting the IFL cable4. Power on the IDU.7.2Connecting the IFLto the CCM (IDU)

1027144–0001 Revision D 7–4 Commissioning the RT RT installationThis section describes how to use the LCD and buttons on theCCM front panel (figure 7-2). You need to use the LCD tocommission the RT.The LCD:•Shows CCM startup diagnostics (SUDS) tests as they occur•Shows the system boot up sequence•Shows the software loading sequence•Indicates the status and operational state of systemcomponents•Provides functions necessary for commissioning the RTFigure 7-2 CCM front panel LCDTMBROADBANDMain MenuInstallENTERPREVNEXTT0009049LCD7.3Front panel LCDoperation

1027144–0001 Revision D Commissioning the RT 7–5RT installationWhen the CCM/ IDU is powered up or reset:•SUDS run automatically.•When SUDS are completed, the CCM LCD displays aSUDS Completed message.•The LCD then displays:InitializingPress Enter for MenuTo access the CCM LCD Main Menu, press the ENTER button onthe CCM front panel while the Initializing screen is displayed.This puts the IDU into diagnostic mode. The LCD shows the MainMenu:Main Menu StatusNote: After the CCM downloads its software and is operational(when it displays RT Disabled), you can access the Main Menuby pressing ENTER.Accessing the LCDMain Menu

1027144–0001 Revision D 7–6 Commissioning the RT RT installationThe menu map (figure 7-3) shows the available menu options forRTs.Note: Menu options are not the same for RTs and HTs.Figure 7-3 LCD menu map for RT CCMMain MenuInstall Main MenuStatus Main MenuESN Main MenuExitT0009006Status menuInstall menuInstallFreq InstallMech Attn InstallODU Cable InstallRestart Freq Acq InstallExitExits toMain MenuStatusCCM StatusODUStatusSSI nSSI 1 - SSI 4StatusExitExits toMain MenuLCD menu map

1027144–0001 Revision D Commissioning the RT 7–7RT installationThe CCM button functions are explained in figure 7-4:TMBROADBANDMain MenuStatusENTERPREVNEXTT0009050Scroll tonext menuoptionScroll topreviousmenu optionSelect(Selects currentlydisplayed optionor menu)Figure 7-4 CCM front panel button functionsExit optionsIf you select Exit from the Main Menu . . .. . . while the system is operating, it remains inoperational mode.. . . when the system is not in operational mode, theCCM reboots.If you select Exit from the Status or Install menu, the displayreturns to the Main Menu.CCM button functions

1027144–0001 Revision D 7–8 Commissioning the RT RT installationFollowing the RT antenna installation instructions in chapter 6,you pointed the antenna approximately toward the HT, using theboresight. This section explains how to fine tune the pointingadjustments, using a digital voltmeter.To point the antenna, follow steps 1 through 12 below.Before you can point the antenna using the voltmeter, you mustfirst put the IDU into Install mode and select the (RT) ODUfrequency, as follows:1. From the IDU (CCM) LCD Main Menu, select Installmode, and press the ENTER button.Main MenuInstallThe LCD displays:InstallRT at HT2. Press ENTER, select No, and press ENTER again.3. Select Frequency (frequency function) and press ENTER.InstallFrequency4. The LCD displays Freq and a frequency value:Freq8B45. Scroll to the correct ODU frequency. Scroll up (NEXT) fora higher frequency; scroll down (PREV) for a lowerfrequency.The frequencies you can select on the bottom line arepreset, based on the installed ODU. The correct RTfrequency is the same as the HT frequency, except “B”(indicating remote), as in 8B4, replaces “A”.Important: If you do not see the correct frequency on theLCD, you may have installed the wrong ODU for the site(high band instead of low band, or vice versa). If the wrongODU is installed, the LCD will not display the correct7.4Pointing theantennaSelecting the ODUfrequency

1027144–0001 Revision D Commissioning the RT 7–9RT installationfrequency as one of the available choices. You will not beable to proceed until the correct ODU is installed.6. Press ENTER when the LCD shows the correct frequency,for example:Freq Set8B4Go to the roof and proceed with steps 7 through 12.While you are pointing the antenna, the LCD shows Freq Acq in Prog (frequency acquisition in progress).When the RT acquiress the HT frequency, the LCD showsAcq Ack: HT 2 (acquisition acknowledged—in thisexample, frequency acquired from HT 2).Follow these steps to fine–tune the azimuth and elevationadjustments made when the antenna was installed (sections 6.6and 6.7).7. Take the digital voltmeter and torque wrench (with deepsocket) to the ODU.8. Make sure the azimuth and elevation locking nuts on theantenna mount are loose—just loose enough to allow theantenna to rotate (for elevation adjustment) and move inazimuth. These nuts are shown in figure 7-5.Figure 7-5 Azimuth and elevation locking nutsT0009033Elevationlocking nutElevationlocking nutAzimuthlocking nutAzimuthlocking nutVoltmeter pointing andfinal adjustments

1027144–0001 Revision D 7–10 Commissioning the RT RT installation9. Connect a digital voltmeter to the F connector on the ODU,as shown in figure 7-6, and select the 0 to 10 volt or 0 to 5volt range.Figure 7-6 Connecting the digital voltmeter to the ODUT0009016DigitalvoltmeterIFL GroundwireUse F connector to connectcable to (center) pointing port.BNC connector withbanana plugRear viewProtective capfor pointing port

1027144–0001 Revision D Commissioning the RT 7–11RT installation10. Observe the reading on the voltmeter as you fine adjust theazimuth and elevation (steps 11 and 12):11. Fine adjust the azimuth:a. Using a wrench, slowly rotate the fine azimuthadjuster (shown in figure 7-7).b. Adjust until you see the highest obtainable voltagereading on the voltmeter.T0009034Fine azimuthadjusterFine elevationadjusterFigure 7-7 Fine azimuth adjuster and fine elevation adjuster12. Fine adjust the elevation:a. Using a wrench, slowly rotate the fine elevationadjuster (shown in figure 7-7).b. Adjust until you see the highest obtainable voltagereading on the voltmeter.The antenna is properly pointed when the peakvoltage is between 0.2 volts and 3.9 volts, with nooscillation.c. When the peak voltage reading remains steadybetween 0.2 volts and 3.9 volts, tighten the azimuthand elevation locking nuts (figure 7-5) to 16 foot–pounds (21.7 Newton–meters) torque.If you cannot obtain a steady voltmeter readingbetween 0.2 volts and 3.9 volts, refer to table 7-1 forthe appropriate corrective action.

1027144–0001 Revision D 7–12 Commissioning the RT RT installationTable 7-1 Voltage indications for RT antenna pointing Peak voltmeter reading Indication Corrective actionCurrent voltage level withoscillation up to 4.1 V. (Thereading intermittently peaksat the current voltage levelfor 2 seconds and thenrises to 4.1 V for 1 second.)HT not acquired HT acquisition has notoccurred. Continuepointing the antenna.0.2 V to 3.9 V with nooscillation Correct HTacquired (Corrective action is notrequired.) Continue withthe installation.3.9 V to 4.1 V with nooscillation Correct HTacquired HT acquisition hasoccurred but you mustinstall a mechanicalattenuator beforecontinuing with theinstallation, refer tosection 6.8.Current voltage level withoscillation to 0 V. (Thereading intermittently peaksat the current voltage levelfor 2 seconds and thendrops to 0 V for 1 second.)Wrong HTacquired RT has been deniedacquisition by the wrongHT. You must follow theprocedures listed inRepointing the RTantenna below beforeproceeding.When you finish pointing, make sure all of the azimuth andelevation locking nuts are tightened to 16 foot–pounds (21.7Newton–meters).Follow the steps below to repoint the RT antenna only if the ODUhas acquired the wrong HT.(If you have successfully pointed the antenna—with a steadyvoltmeter reading between 0.2 volts and 3.9 volts—you do notneed to follow steps 1 and 2 below; go on to section 7.5.)1. Repeat steps 7 through 12 (voltmeter pointing and finaladjustments).2. If you cannot obtain the correct voltmeter readings becausethe antenna is grossly mispointed, you may have to repeatthe azimuth and elevation adjustment procedures explainedin sections 6.6 and 6.7 (respectively).If you encounter problems in pointing the antenna that are notaddressed above, refer to chapter 9. See the chart titledTroubleshooting: RT antenna pointing.Repointing theRT antennaTroubleshooting

1027144–0001 Revision D Commissioning the RT 7–13RT installationReturn to the IDU location to verify that the RT has acquired theHT:1. Observe the CCM LCD to verify that the RT hassuccessfully acquired the HT frequency.The following display indicates that the RT has successfullyacquired the HT.Install Acq Ack: HT nnn nnn = HT IDNote: The LCD will display Acq Deny (acquisitiondenied) if:•The RT’s ESN has not been entered in the EMSdatabase, or•The RT is pointed toward the wrong HT.Specify the appropriate attenuator value, and then take the IDUout of Install mode:1. Scroll to the attenuator option:InstallMech Attn2. Scroll to the attenuator selection display:Mech Attn20 dB3. Scroll until the LCD shows the size of the installedmechanical attenuator. If no attenuator is installed, select 0 dB. Press ENTER.4. Take the IDU out of Install mode: Select Exit and pressENTER.InstallExit7.5Verifying HTacquisition7.6Entering anattenuator value

1027144–0001 Revision D 7–14 Commissioning the RT RT installationUse the LCD Status option to check the status of the CCM, SSIs,and ODU, as explained in the following sections.Note: You can only perform the CCM, SSI, and ODU statuschecks after the HT has been acquired.Check the CCM status as follows:1. Press ENTER on the CCM front panel.The LCD shows:Main Menu Install2. Use the NEXT button to scroll to:Main MenuStatus3. Press ENTER, to go to (select) the Status menu:Status CCM4. Press ENTER to show the CCM status:CCMOKThe possible status conditions for CCMs, SSIs, and theODU are:OK The component is operational.Degraded The component is not fully operational.*Failed The component has failed.Unknown The CCM cannot communicate with thecomponent.Action for “Failed” or “Degraded”statusIf the LCD shows Failed for any component, replace thecomponent.If you see Degraded during installation, replace thecomponent. However, if you see Degraded while thesystem is operational, under some circumstances you maynot need to replace the component (for example, if a failedport is not needed).7.7Checkingcomponent statusCheck CCM status

1027144–0001 Revision D Commissioning the RT 7–15RT installationCheck the status of the installed SSIs as follows:(Note that SSIs are not required for commissioning. They can beinstalled after RT commissioning.)1. From the Status / CCM display, shown below,Status CCMpress the NEXT button to scroll to the SSI status menu:Status SSI 12. Use the NEXT or PREV button to scroll to the SSI youwant to check:Status SSI 2Note: SSIs are numbered SSI 1 through SSI 4, according totheir positions in the IDU chassis:Chassis slot SSI number2 13 24 35 4Slot 1 is occupied by the CCM.3. Press ENTER to show the status of the selected SSI:SSI 2OKThe possible status conditions for SSIs are:OKDegradedFailedUnknown(as explained on page 7–14)Check the status of each installed SSI.Check SSI status

1027144–0001 Revision D 7–16 Commissioning the RT RT installationCheck the status of the ODU as follows:1. From the Status / SSI 1 display, shown below,Status SSI 1press NEXT to scroll to the ODU status menu:Status ODU2. Press ENTER to show the ODU status:ODU OKThe possible status conditions for the ODU are:OKDegradedFailedUnknown(as explained on page 7–14)Note: You will not see ODU status information if the ODUis not connected (via the IFL) to the IDU. The status will beUnknown.If a failure is indicated for any component, replace the failedcomponent. Run SUDS, and check the status of the newcomponent.3. Exit the Status menu: Scroll to:Status Exitand then press ENTER.4. Exit the Main Menu: Scroll to:Main MenuExitand then press ENTER.Check ODU status

1027144–0001 Revision D Commissioning the RT 7–17RT installationAfter acquiring the HT, the CCM automatically loads its softwareand configuration data and becomes operational. This is indicatedby RT Enabled on the LCD.Before performing the RT to HT connection tests described in section 7.9, make sure the LCD shows:RT Freq 8B4Enabled(Frequency is specific to RT)The RT Enabled message indicates that the equipment isoperational.If SSIs are installed but not yet configured through the EMS, theoperational status will be RT Disabled.The possible operational states are:Enabled RT is ready for service.Disabled Equipment is operational, but RTis not ready for service.Degraded One or more components is notfully operational.EnabledDegraded RT is ready for service, but oneor more components is not fullyoperational.Enabled In Test All of the RT’s SSIs are in testmode.At this point, RT commissioning is complete, except for the RT toHT tests described in section 7.9. You may or may not be able tocomplete these tests, depending on whether or not other networkcomponents are installed and operational. (See the testrequirements listed in section 7.9.)Leave the RT powered on for testing and operation.7.8Verifying the RT’soperational state

1027144–0001 Revision D 7–18 Commissioning the RT RT installationPerform the applicable tests described below if the newly installedRT meets the listed requirements. If the RT/network does not yetmeet these requirements, perform the tests at a later time.This test verifies the DS1 connection from the RT to the HT.RequirementsThe DS1 test described below requires the following:•The RT must be fully installed, commissioned (except fortests), and in contact with the EMS through the hub.•The HT must be operational and in contact with the EMS.•DS1 services must be configured and provisioned.•There must be no alarms present at the RT location.•A loopback connector must be connected to the input/outport of the patch panel, as illustrated in figure 7-8.Figure 7-8 RT to HT connection test setupDS3muxBit errorrate testsetPatchpanelHT RTPatchpanelHub siteCustomer premisesLoopbackconnectorQRSS (2E20-1pseudo-random)test patternDS1DS3 DS3DS1Over the airinterfaceT0009007Test procedure1. Connect a DS1 test set to the out/input points at DS1 RJ–48port on the SSI board.2. Select:- QRSS (quasi random signal source) test pattern- Recovered clock- DS1 interface3. Run the test for 1 hour.ResultsThe RT passes if there are no errors and no clock or frame slipsduring the test.Record the results on the form on the following page (or make aphotocopy).7.9RT to HT connectiontestsDS1 test

1027144–0001 Revision D Commissioning the RT 7–19RT installationRT to HT DS1 test resultsRT location: ____________________________________________Test successful? ___ Yes ___ No RSSI __________If not successful, complete:Bit error rate _______________ Frame slips _______________Frame errors _______________ Clock slips ________________Trouble report generated? ___ Yes ___ NoIf yes, report number: ____________________If applicable: Faulty module part number ______________________Serial number _____________________If applicable: Replacement board part number __________________Serial number______________________BER test printout attached? ___ Yes ___ NoComments:__________________________________________________________________________________________________________________________________________________________________Tested by (print name and sign): _______________________________________________________Customer (print name and sign): ________________________________________________________Date __________________________

1027144–0001 Revision D 7–20 Commissioning the RT RT installationThis test verifies the DS3 connection from the RT to the HT.RequirementsThe DS3 test described below requires the following:•The RT must be fully installed, commissioned (except fortests), and in contact with the EMS through the hub.•The HT must be operational and in contact with the EMS.•DS3 services must be configured and provisioned.•There must be no alarms present at the RT location.•A loopback connector must be connected to the input/outport at the patch panel nearest to the HT. (Figure 7-8indicates a loopback connector but also shows the patchpanel nearest to the HT.)Test procedure1. Connect a DS1 test set to the out/input connector on theUniversal SSI board.2. Select:- Correct coding- Correct framing- Recovered clock- DS1 interfaceThe configured DS0 may be dropped from the DS1 datastream and tested using QRSS test patten.3. Run the test for 1 hour.ResultsThe RT passes if there are no errors and no clock or frame slipsduring the test.Record the results on the form on the following page (or make aphotocopy).DS3 test

1027144–0001 Revision D Commissioning the RT 7–21RT installationRT to HT DS3 test resultsRT location: ____________________________________________Number of configured DS0: ________________________________Test successful? ___ Yes ___ No RSSI __________If not successful, complete:Bit error rate _______________ Frame slips _______________Frame errors _______________ Clock slips ________________Trouble report generated? ___ Yes ___ NoIf yes, report number: ____________________If applicable: Faulty module part number ______________________Serial number _____________________If applicable: Replacement board part number __________________Serial number______________________BER test printout attached? ___ Yes ___ NoComments:__________________________________________________________________________________________________________________________________________________________________Tested by (print name and sign): _______________________________________________________Customer (print name and sign): ________________________________________________________Date __________________________

$1027144–0001 Revision D 7–22 Commissioning the RT RT installationThis test verifies the fractional DS3 connection from the HT to theRT.RequirementsThe fractional DS3 test described below requires the following:•The RT must be fully installed, commissioned (except fortests), and in contact with the EMS through the hub.•The HT must be operational and in contact with the EMS.•Fractional DS3/DS1 services must be configured andprovisioned.•There must be no alarms present at the RT location.•A loopback connector must be connected at the HT, eitherat the input/out port connector of the HT DS3 SSI or at theDS3 patch panel. (Refer to figure 7-8.)Test procedure1. Connect a DS3 test set to the out/input connector on the RTDS3 SSI.2. Select:- C bit framing- Recovered clock- DS3 interfaceFractional DS1 services may be dropped from the DS3 datastream and tested using QRSS test pattern.3. Run the test for 1 hour.ResultsThe RT passes if there are no errors and no clock or frame slipsduring the test.Record the results on the form on the following page (or make aphotocopy).Fractional DS3 test$

$1027144–0001 Revision D Commissioning the RT 7–23RT installationRT to HT fractional DS3 test resultsRT location: ____________________________________________Number of DS1s tested ______Test successful? ___ Yes ___ No RSSI __________If not successful, complete:Bit error rate _______________ Frame slips _______________Frame errors _______________ Clock slips ________________Trouble report generated? ___ Yes ___ NoIf yes, report number: ____________________If applicable: Faulty module part number ______________________Serial number _____________________If applicable: Replacement board part number __________________Serial number______________________BER test printout attached? ___ Yes ___ NoComments:__________________________________________________________________________________________________________________________________________________________________Tested by (print name and sign): _______________________________________________________Customer (print name and sign): ________________________________________________________Date __________________________$

RT INSTALLATION1027144–0001 Revision D Final steps 8–1RT installation Chapter 8Final stepsThis chapter describes the final steps to take before you leave thecustomer site after completing the installation:•Weatherproofing – page 8–2•Inspection, cleanup, and customer sign–off – page 8–3•Connecting customer equipment – page 8–3Observe these safety warnings while performing final inspectionsand related tasks:DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.Safety warnings

1027144–0001 Revision D 8–2 Final steps RT installationAfter the RT has been successfully commissioned, go to the ODUand seal all outdoor IFL connections (including connections to thelightning arrestor assembly). Use weatherproofing compound andwaterproof tape to protect against moisture penetration:See figure 8-1.1. Starting at the connector end, wrap waterproof electricaltape around the connector and part of the cable.2. Cover the electrical tape with weatherproofing compound,and work the compound into all joints and cracks wherewater could enter.3. Smooth the weatherproofing compound, giving theconnection a tapered appearance, as shown in figure 8-1.4. Again starting at the connector end, wrap a second layer ofelectrical tape around (on top of) the weatherproofingcompound.5. Press the tape into the weatherproofing compound.The resulting seal should be tight and compact, with noloose tape ends.CAUTIONOutdoor connectors are subject tomoisture contamination. Even minuteamounts of water vapor can condenseand cause a short circuit. Thoroughlyseal all outdoor IFL connections withweatherproofing compound and tape.Figure 8-1 Applying weatherproofing compound and tapeBefore weatherproofing After weatherproofingHeatshrink Weatherproofingcompound and tapeT00060278.1Weatherproofing

1027144–0001 Revision D Final steps 8–3RT installationAfter all equipment is installed and commissioned, visit eachinstallation area to inspect the equipment and make sure the area isleft clean and orderly.Inspect all equipment to make sure:•All cables are dressed (as necessary) and not bentexcessively.•All connections are secure.•IFL connections are properly waterproofed.•IDUs, racks, and ODUs are properly grounded.•Antenna mount bolts are tightened.•ODU adjusters and the temporary installation collar havebeen removed for future use.Clean up all installation areas:•Make sure no tools or other objects are left on or near theequipment.•Remove or neatly store any excess materials.•Remove all debris.Before leaving the site, notify the appropriate customerrepresentative that the work has been completed. Ask therepresentative to sign the work order, indicating that theequipment has been installed and has passed the initial loopbackverification test(s).The customer is responsible for connecting customer equipment tothe AIReach Broadband equipment through connections toservice–specific interface modules (SSI) modules. Refer to section3.5 for information on the services and specific interfacesprovided by each SSI type.8.2Inspection, cleanup,and sign–offInspectionCleanupCustomer sign–off8.3Connectingcustomerequipment

RT INSTALLATION1027144–0001 Revision D Troubleshooting 9–1RT installation Chapter 9TroubleshootingThis chapter includes:•Troubleshooting flow charts – page 9–1•Service information – page 9–6The troubleshooting flow charts in this chapter will help isolatemost problems you might encounter during installation andoperation of the AIReach Broadband system.Each flow chart begins with a specific problem, then leads you tospecific corrective actions you should take. Where actions arenumbered in these charts, you many not need to perform all ofthe actions. Perform the actions in order, and check after eachaction to see if the problem has been resolved. Proceed to thenext action only if the previous action did not correct theproblem.The information in this chapter is intended for use by techniciansexperienced in electronics troubleshooting. Therefore, it suggestscorrective actions but does not include detailed instructions foreach action.9.1Troubleshootingflow charts

1027144–0001 Revision D 9–2 Troubleshooting RT installationTroubleshooting the CCMCCM will notpower up.Is the correctvoltage present atthe IDU chassisinput?Does chassiscooling fan operatewhen power isapplied?Check powersource.Replace CCM.ReplaceIDU chassis.YesYesNoNohb109Problem:

1027144–0001 Revision D Troubleshooting 9–3RT installationCCM failed startupdiagnostics (SUDS).Replace CCM.Problem:During CCM bootup / hardwareinitialization, LCD displays any ofthe following messages, indicatinga device failure:Host Cfg FailedPLX FailedPLX IO FailedLAN FailedRCC FPGA FailedBSB FPGA FailedQPIG FPGA FailedTim syn FailedReplace CCM.hb110Problem:Troubleshooting the CCM -Continued

1027144–0001 Revision D 9–4 Troubleshooting RT installation1. Select Install from the LCD Main Menu.2. Point the RT antenna in the direction of theHT.3. Enter the RT serial number in the EMSdatabase.4. Make sure the RT ODU frequency is selectedvia the LCD Freq function.5. Check IFL cable for continuity, and check IFLconnectors.6. Replace CCM.7. Replace ODU.Cannot find the HT.Problem:rt068Troubleshooting: RT antenna pointing1. Read voltage on voltmeter; refer to table2. Move the antenna in azimuth. If the voltagedoes not vary as you move the antenna, theCCM may be faulty. Continue with the stepsbelow.3. Checkthe ODU frequency via the LCD Freq function.Power the CCM off and then on (by removing itand then reinserting it); then make sure the ODUfrequency is still correct.4. Replace CCM.Select Install from the LCD Main Menu.YesNoCan you detectvoltage at theODU pointingconnector?7-1 .

1027144–0001 Revision D Troubleshooting 9–5RT installationrt070CCM will not downloadits software over the air(No "Loading Software"message on LCD.)Problem:Troubleshooting: CCM won't download1. Replace ODU.2. Replace CCM.

1027144–0001 Revision D 9–6 Troubleshooting RT installationrt069After CCM has downloadedits software, CCM LCD shows"RT Disabled" message.Problem:Troubleshooting: "RT Disabled"If Status screen shows"Degraded" or"Unknown" for anycomponent . . .Check CCM,SSIs, and ODUvia CCM LCDStatus menu.If Status screen shows"CCM Failed" or"SSI Failed" . . .(number)Refer tosectionIf Status screen shows"ODU Failed" . . .Replace theCCM orindicated SSI.1. Check IFL cablefor continuity.2. Check IFL cableconnectors.3. Replace ODU.Are SSIsinstalled andconfigured?"RT Disabled" message isnormal if SSIs have not beeninstalled and configured.YesNo7.7.IDU chassis fan doesn’t work. If the chassis is a dc powered unit,make sure the polarity of the wires to the power supply is notreversed.If you find a faulty component, contact your contract administer toarrange for repair or replacement.9.2Additionaltroubleshootinginformation9.3Repair orreplacement service

RT INSTALLATION1027144–0001 Revision D Maintenance 10–1RT installation Chapter 10MaintenanceThe AIReach Broadband physical system requires no routinemaintenance. However, to facilitate expansion, reconfiguration, orrepairs, you may need to add, move, or replace components. Thischapter includes instructions for:•Adding or moving SSIs – page 10–2•Replacing components – page 10–3•Replacing the ODU – page 10–3•Replacing the IDU chassis – page 10–10•Replacing the CCM – page 10–12•Replacing SSIs – page 10–13•Replacing the IFL – page 10–14•Dismantling an RT – page 10–16

1027144–0001 Revision D 10–2 Maintenance RT installationNotify the EMS operator before you add or move SSIs. Makesure the EMS operator has performed any prerequisite steps thatmay be necessary before you add or move an SSI.For instructions on replacing SSIs, see section 10.6.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-14) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.You can install additional SSIs while the system is powered on. Toadd an SSI, follow the instructions in section 3.5 (page 3–27).After installing an SSI, use the CCM LCD Status function tocheck its operational status. The LCD should display OK. (For anexplanation of the CCM LCD Status function, see section 7.7.)SSIs are hot–swappable, meaning you can move them from oneslot to another or to another chassis while the chassis are poweredon.To move an SSI:1. Loosen the thumbscrews at each end of the SSI.2. Using an ESD wrist strap connected to a chassis groundterminal, slide the SSI out of its slot.3. Move the SSI to its new location and insert it into the slot.4. Tighten the thumbscrews at each end of the SSI.5. Use the CCM LCD to check the SSI status. (For details, seesection 7.7).10.1Adding or movingSSIsAdding SSIsMoving SSIs

1027144–0001 Revision D Maintenance 10–3RT installationThe following RT components can be replaced at the installationsite if a problem is attributed to the component:•ODU•IDU chassis•CCM•SSIs•IFLSpecific instructions for replacing each component follow, insections 10.3 through 10.7.If the ODU is faulty, you normally replace the transceiver only(which contains the ODU electronics). Replace the antenna only ifit is physically damaged (for example, wind or water damage) orhas some other known problem.DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.10.2Replacingcomponents10.3Replacing the ODU

1027144–0001 Revision D 10–4 Maintenance RT installationTo replace the transceiver, follow these steps:Removing the existing transceiver1. Make sure the EMS operator has taken the RT out ofservice.2. At the IDU location: Remove power from the IDU chassispower supply.3. On the roof: Disconnect the ground cable and IFL from theODU transceiver, as shown in figure 10-1.IFLT0009017TransceiverGroundFigure 10-1 Disconnecting the ODUground and IFL cablesReplacing thetransceiver

1027144–0001 Revision D Maintenance 10–5RT installation4. Loosen the four transceiver mounting bolts (shown in figure10-2).T0009018Rotate transceiver to slide bolts out of grooves.(Rotation direction depends on orientationof antenna bracket to right or left.)TransceiverMounting bolt(Attached to transceiver)Antenna flangeWaveguideFlange grooveAntennaFigure 10-2 Removing the transceiver5. Rotate the transceiver until the bolts slide out of the fourgrooves in the antenna bracket. (The direction of rotationdepends on the orientation of the antenna bracket—to theright or left.) If the mounting bolts will not slide into thegrooves, loosen the bolts. See figure 10-2.Important: A mechanical attenuator may be installed(previously) in the antenna waveguide. If an attenuator isinstalled, make sure it does not get lost or misplaced. Leavethe attenuator in the waveguide.CAUTIONDo not allow dirt, dirt, moisture, or othercontaminants to enter the waveguide.6. Cover the transceiver coupling (center hole) with a plasticcoupling plug (if available) or tape to preventcontamination.

1027144–0001 Revision D 10–6 Maintenance RT installationInstalling the replacement transceiver7. To install the replacement transceiver, follow the steps insection 6.9 (page 6–21).Important: If a mechanical attenuator was previouslyinstalled in the antenna waveguide, make sure it is still inplace in the waveguide before you attach the transceiver tothe antenna.8. Connect the IFL cable to the IFL connector on thetransceiver.9. Ground the ODU, as explained in section 6.10 (page 6–23).10. After you replace the transceiver:- Go to the next subsection (Replacing the antenna) onlyif you need to replace the antenna.- Apply power to the IDU chassis power supply.- Use a voltmeter to check the ODU pointing voltage, asexplained in section 7.4.- Use the CCM LCD to check the ODU status. (Fordetails, see section 7.7).- Notify the EMS operator that the RT is ready to resumeservice.If you are replacing the transceiver only, you should not need torepoint the antenna.

1027144–0001 Revision D Maintenance 10–7RT installationIf you need to replace the antenna, follow these steps:Removing the existing antenna1. Remove the transceiver (steps 1 through 6 above, beginningon page 10–4). Be sure to remove power from the IDUchassis power supply.Important: A mechanical attenuator may be installed(previously) in the antenna waveguide. If an attenuator isinstalled, make sure it does not get lost or misplaced. Leavethe attenuator in the waveguide.CAUTIONDo not allow dirt, dust, moisture, or othercontaminants to enter the waveguide.2. Loosen the four antenna bracket locking nuts.Figure 10-3 Antenna bracket locking nutsT0009043Arrows point to antenna bracketlocking nuts. (One is not visible.)AntennamountAntennabracket Close-up viewReplacing the antenna

1027144–0001 Revision D 10–8 Maintenance RT installation3. Rotate the antenna (clockwise or counterclockwise) untilthe antenna bracket reliefs (curved indentations) are alignedwith the four nuts on the mast interface, as shown in figure10-4.Figure 10-4 Removing the antennaT0009044Rotate antenna and antenna bracketuntil reliefs are aligned with the4 antenna bracket locking nuts.AntennamountAntennabracketClose-up viewReliefNut4. Move the antenna away from the mast interface.5. Cover the antenna waveguide (center hole) with a plasticplug or tape to protect against contamination.

1027144–0001 Revision D Maintenance 10–9RT installationInstalling the replacement antenna6. Attach the replacement antenna to the mount, as explainedin section 6.5 (page 6–10).7. Point the replacement antenna by adjusting the azimuth andelevation as detailed in chapter 6.8. Attach the transceiver to the antenna, as explained insection 6.9 (page 6–21).Important: If a mechanical attenuator was previouslyinstalled in the antenna waveguide, make sure it is still inplace in the waveguide before you attach the transceiver tothe antenna.9. Connect the IFL cable to the IFL connector on thetransceiver.10. Ground the ODU, as explained in section 6.10 (page 6–23).11. Apply power to the IDU chassis power supply (section 3.3,page 3–8).12. Use the CCM LCD to check the ODU status. (For details,see section 7.7).13. Re–point the antenna with a voltmeter as explained inchapter 7.14. Notify the EMS operator that the RT is ready to resumeservice.

1027144–0001 Revision D 10–10 Maintenance RT installationDo not attempt to service or replace the IDU chassis power supply.If there is a problem with the power supply, replace the entireIDU chassis.To replace the IDU chassis, follow these steps:If you need additional details concerning the instructions below,see chapter 3.Removing the existing IDU chassis1. Make sure the EMS operator has taken the RT out ofservice.2. Remove power from the IDU chassis power supply.3. Mark each cable or otherwise note where each cable isconnected.4. Remove all cables from all modules.5. Remove the CCM:a. Loosen the thumbscrews at each end.b. Using an ESD wrist strap connected to a chassisground terminal, slide the CCM out of its slot, asshown in figure 10-5.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-14) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.rt073CCM slotTMBROADBANDRT CCMFigure 10-5 Removing the CCM10.4Replacing the IDUchassis

1027144–0001 Revision D Maintenance 10–11RT installation6. Place the CCM in its ESD protective packaging.7. Remove all SSIs:a. Using a piece of tape on the SSI front panel, mark theslot number where each SSI was installed.b. Loosen the thumbscrews at each end.c. Using an ESD wrist strap connected to a chassisground terminal, slide the SSI out of its slot.8. Place each SSI in ESD protective packaging.9. If the IDU chassis is rack mounted, remove the fourmounting screws and remove the chassis from the rack.10. Remove the rack mounting brackets from the chassis.Installing the replacement IDU chassisRefer to the instructions in chapter 3 to:11. Install the replacement chassis in a rack, if the originalchassis was installed in a rack (section 3.2).12. Re–connect power to the IDU chassis power supply (section 3.3).13. Conduct a power–on test (section 3.3).14. Re–install the CCM (section 3.4).15. Re–install the SSIs (section 3.5).Install each SSI in the slot it was in before. Refer to the slotnumbers you marked on the tape on each SSI.16. Re–connect the IFL cable and all other cables to the CCMand SSIs.

1027144–0001 Revision D 10–12 Maintenance RT installationIf you need to replace the CCM, follow these steps:If you need additional details concerning the instructions below,see section 3.4 (page 3–23).Removing the existing CCM1. Make sure the EMS operator has taken the RT out ofservice.2. Remove power from the IDU chassis power supply.3. Loosen the thumbscrews at each end of the (existing) CCM.4. Using an ESD wrist strap connected to a chassis groundterminal, slide the CCM out of its slot, as shown in figure 10-6.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-14) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.Figure 10-6 Removing the CCMrt073CCM slotTMBROADBANDRT CCM5. Place the CCM in ESD protective packaging.Installing the replacement CCM6. Slide the replacement CCM into the CCM slot (slot 1).7. Tighten the thumbscrews at each end of the CCM.8. Apply power to the IDU chassis power supply.9. Use the CCM LCD to check the CCM status. (For details,see section 7.7).10. Notify the EMS operator that the RT is ready to resumeservice.10.5Replacing the CCM

1027144–0001 Revision D Maintenance 10–13RT installationTo replace an SSI, follow the steps below.SSIs are hot swappable, so you do not need to power off the IDUto replace an SSI. If you need additional details concerning theinstructions below, see section 3.5 (page 3–27).Removing the SSI1. Note which slot the SSI to be replaced is in.2. Loosen the thumbscrews at each end of the SSI.3. Using an ESD wrist strap connected to a chassis groundterminal, slide the SSI out of its slot.CAUTIONAlways wear a new or recently testedelectrostatic discharge (ESD) wrist strap(figure 3-14) when handling circuitmodules. Failure to use a wrist strap mayresult in damage to components.4. Place the SSI in ESD protective packaging.Installing the replacement SSI5. Slide the replacement SSI into the slot from which youremoved the previously installed SSI.6. Tighten the thumbscrews at each end of the SSI.7. Use the CCM LCD to check the SSI status. (For details, seesection 7.7).8. Notify the EMS operator that the replacement SSI is readyfor service.10.6Replacing SSIs

1027144–0001 Revision D 10–14 Maintenance RT installationIf you suspect problems with the IFL, check all IFL connectionsand then test the IFL. Replace the IFL only if there is a knownproblem that cannot be corrected any other way.DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.10.7Replacing the IFL

1027144–0001 Revision D Maintenance 10–15RT installationEnvironments where IFL cables are installed vary widely.Therefore, use the general instructions below as guidelines.If you need to replace the IFL:1. Make sure the EMS operator has taken the RT out ofservice.2. Remove power from the IDU chassis power supply.3. Disconnect all four IFL N connectors, as shown in figure 10-7:- 1 connector at the IDU- 1 connector at the ODU- 2 connectors at the lightning arrestorNODUIFLLightningarrestorT0009002IFLRoofIDUNNNN= N connector locationFigure 10-7 Disconnect N connectors at thefour locations shown here4. Remove the two IFL cable segments:- From IDU to the lightning arrestor- From the lightning arrestor to the ODU5. Install the replacement IFL cable according to theinstructions in chapter 4.

1027144–0001 Revision D 10–16 Maintenance RT installationIf you need to dismantle an entire RT, follow the steps below.DANGERDo not work on a ladder or roof withoutfirst reading the safety warnings on page xof this manual. Failure to observe thesewarnings could result in personal injury ordeath.WARNINGPotential radio frequency (RF) hazard:•Keep away from the front of theoutdoor unit (ODU) antenna while theODU is operating. Note that you cannottell from outward appearance whetherthe ODU is operating or not.•Be careful with respect to the ODU youare installing and ODUs that mayalready be operating in the installationarea.Failure to observe these warnings couldresult in injury to eyes or other personalinjury.Follow these steps:1. Make sure the EMS operator has taken the RT out ofservice.2. Remove power from the IDU chassis power supply.3. On the roof: Disconnect the IFL and ground cable from theODU. See section 10.3.4. Remove the transceiver. See section 10.3.5. Remove the antenna. See section 10.3.6. Disassemble the mast and mast mount.7. At the IDU location: Remove all cables from all modules.If the cables will be reused, mark them to identify them.8. Optional: Remove the CCM and SSIs from the chassis.(Depending on what you will do with the equipment, youmight want to leave the CCM and SSIs installed.) Seesections 10.5 and 10.6.9. Remove the IDU chassis.10. Remove the IFL cable and lightning arrestor (unless thelightning arrestor is being used for another RT or will bereused).10.8Dismantling an RT

1027144–0001 Revision D A- 1 Appendix AAcronyms and abbreviationsac – alternating currentATM – asynchronous transfer modeAWG – American wire gaugeBER – bit error rateBSP – baseband signal processorC – CelsiusCCM – channel and control modulecm – centimeterCMR – communication riserCPU – central processing unitdB – decibeldc – direct currentDRAM – dynamic RAMEIDU – expansion indoor unitEMS – Element Management SystemESD – electrostatic dischargeESN – electronic serial numberF – FahrenheitFCC – Federal Communications CommissionFEM – fiber extender moduleFRAD – frame relay access deviceft – footHNS – Hughes Network SystemsHT – hub terminalHz – hertzID – identificationIDU – indoor unitIEC – International Electrotechnical CommissionIF – intermediate frequencyIFL – intrafacility linkin. – inchLAN – local area networklb – pound(s)LCD – liquid crystal displayLED – light emitting diodeLOS – line of sightm – meterMAC – media access controlmm – millimeterNEBS – Network Equipment Building StandardsNEC – National Electric CodeNEMA – National Electrical ManufacturingAssociationNFPA – National Fire Protection AssociationODU – outdoor unitPC – personal computerPCI – PC interfacePMP – point–to–multipointQRSS – quasi random signal sourceRAM – random–access memoryRF – radio frequencyROM – read–only memoryRSSI – received signal strength indicationRT – remote terminalSC – signaling controllerSDRAM – static dual port RAMSSI – service–specific interfaceSUDS – startup diagnosticsTAC – Technical Assistance CenterTDM – time division multiplexingUL – Underwriters LaboratoriesV – voltVac – volt, alternating currentVdc – volt, direct currentVSAT – very small aperture terminalWND – Wireless Networks DivisionWDT – watch dog timer

1027144–0001 Revision D Standards compliance B–1RT installation Appendix BStandards complianceThis appendix includes standards compliance information for theAIReach Broadband outdoor unit (ODU) and ac power indoor unit(IDU). Information is included for:•Interference standards compliance•Underwriters Laboratories, Inc., safety compliance•RF, electrical fast transient, and ESD immunity

B.11027144–0001 Revision D B–2 Standards compliance RT installationThis section provides information on the AIReach Broadbandoutdoor unit (ODU).This equipment complies with Part 15 of United States FederalCommunication Commission (FCC) Rules. Operation is subject tothe following two conditions: (1) This device may not causeharmful interference, and (2) this device must accept anyinterference received, including interference that may causeundesired operation.This equipment has been tested and found to comply with thelimits for a Class A digital device, pursuant to Part 15 of FCCRules. These limits are designed to provide reasonable protectionagainst harmful interference when the equipment is operated in acommercial environment.This equipment generates, uses, and can radiate radio frequencyenergy and, if not installed and used in accordance with thisinstruction manual, may cause harmful interference to radiocommunications. Operation of this equipment in a residential areais likely to cause interference, in which case the user will berequired to correct the interference at the user’s own expense.Type acceptance: FCC Part 101This class A digital apparatus meets all requirements of theCanadian Interference–Causing Equipment Regulations.Cet appareil numérique de la Classe A respecte toutes lesexigences du Règlement sur le matériel brouilleur du Canada.This equipment has been evaluated by Underwriters LaboratoriesInc. (UL) and determined to be in compliance with the Standardfor Safety of Information Technology Equipment IncludingElectrical Business Equipment, UL 1950, third edition; andCanadian Standards Association CAN/CSA C22.2 No. 950–95,third edition. This equipment is UL listed and UL certified forCanada as Information Technology Equipment.The ODU complies with requirements of the National ElectricCode (NEC), article 800.The ODU complies with EN 55022.Outdoor unitFCC complianceCanadian interferencecomplianceUnderwritersLaboratories (UL)National Electric Code(NEC)Emissions

B.21027144–0001 Revision D Standards compliance B–3RT installationThis section provides information on the AIReach Broadband ac power indoor unit (IDU).This equipment complies with Part 15 of United States FederalCommunication Commission (FCC) Rules. Operation is subject tothe following two conditions: (1) This device may not causeharmful interference, and (2) this device must accept anyinterference received, including interference that may causeundesired operation.This equipment has been tested and found to comply with thelimits for a Class A digital device, pursuant to Part 15 of FCCRules. These limits are designed to provide reasonable protectionagainst harmful interference when the equipment is operated in acommercial environment.This equipment generates, uses, and can radiate radio frequencyenergy and, if not installed and used in accordance with thisinstruction manual, may cause harmful interference to radiocommunications. Operation of this equipment in a residential areais likely to cause interference, in which case the user will berequired to correct the interference at the user’s own expense.This class A digital apparatus meets all requirements of theCanadian Interference–Causing Equipment Regulations.Cet appareil numérique de la Classe A respecte toutes lesexigences du Règlement sur le matériel brouilleur du Canada.This equipment has been evaluated by Underwriters LaboratoriesInc. (UL) and determined to be in compliance with the Standardfor Safety of Information Technology Equipment IncludingElectrical Business Equipment, UL 1950, third edition; andCanadian Standards Association CAN/CSA C22.2 No. 950–95,third edition. This equipment is UL listed and UL certified forCanada as Information Technology Equipment.The ODU complies with the following immunity standards of theInternational Electrotechnical Commission (IEC):•Radio frequency immunity – IEC 801–3 (3 V/m)•Electrical fast transient immunity – IEC 801–4•Electrostatic discharge immunity – 25 KV level tested usingmethod in IEC 801–2The ODU complies with EN 55022.Indoor unit (ac)FCC complianceCanadian interferencecomplianceUnderwritersLaboratories (UL)ImmunityEmissions

1027144–0001 Revision D Terminating the IFL cable C–1RT installation Appendix CTerminating the IFL cableThis appendix explains in detail how to terminate the IFL cableends by attaching an N–type connector. It includes:•Cable parts and terminology – page C–2•Preparing the cable end – page C–3•Attaching the connector – page C–6•Applying heat–shrink tubing – page C–11As part of the RT IFL installation, you attach N connectors in fourlocations, as shown in figure 4-3 (on page 4–4):•One N connector at the IDU location•Two N connectors to connect to the lightning arrestorassembly•One N connector at the ODU locationImportant: Sound IFL cable connections are critical forproper operation of the AIReach Broadband system.Therefore, be very careful in terminating the cable. If you areunsure about the success of any of the following steps, repeatthem.Attach N connectors after you route and install the cable, notbefore.Note: The instructions below are for the connectors in HNS kit9006284–0002. If you use a different N–type connector, follow themanufacturer’s instructions.

C.11027144–0001 Revision D C–2 Terminating the IFL cable RT installationFigure C-1 shows the main cable components.Figure C-1 IFL cable componentshb013Outer jacketBraidCenter conductor(solid or stranded copper)7/32 inch(6 millimeters)Dielectric(foam or flexible plastic)N connector N connectorIFL cable, terminated - shown without heat-shrink tubingHNS kit 9006284–0002 contains two N connectors.Cable parts andterminology

C.21027144–0001 Revision D Terminating the IFL cable C–3RT installationPrepare the cable end as follows:1. Inspect the cable end for damage from handling and trim offany damaged portions.2. Cut the cable as cleanly and squarely as possible.3. Slip the crimp ring and a piece of heat–shrink tubing(HNS9007488–0005) onto the cable, as shown in figureC-2.Figure C-2 Slipping the crimp ring and heat–shrink tubing onto the cableHeat-shrink tubing Crimpringhb014Butt-cutcable end4. Use the spin–stripping tool (Excelta CX 1–78–1, goldcolor–coded) to remove the cable jacket and dielectric,leaving about 7/32 inch (6 millimeters) of the centerconductor exposed, as shown in figure C-3.a. Open the stripping jaws of the spin–stripping toolenough to allow the cable end to enter the cablebarrel fully. (See figure C-3.)b. While holding the cable firmly in the tool and tightlyagainst the cable stop, squeeze the stripper jaws.c. Rotate the tool around the cable two or three timesuntil the outer cable jacket and dielectric arecompletely cut through, but do not score the centerconductor. Rotate the tool in the direction indicated infigure C-3.d. Remove the cut–off end of the cable jacket anddielectric.Preparing the cableend

1027144–0001 Revision D C–4 Terminating the IFL cable RT installationFigure C-3 Using the spin–stripping tool toexpose the center conductorhb012StripperjawsGold-coloredcable stopBarrelButt-cutcable endSqueeze and rotatetool to strip cable.2.1. Insert cableinto barrel.3. Remove jacket and dielectricto expose center conductor.JacketDielectricCenter conductor7/32 inch(6 millimeters)

1027144–0001 Revision D Terminating the IFL cable C–5RT installation5. Using a razor knife, carefully slit the outer jacket as shownin figure C-4.Cut around the cable; then cut from the cable end to the firstcut. Cut completely through the jacket, but do not cut intothe braid.6. Using the razor knife or a pair of diagonal cutters, lift thejacket and peel it away as shown in figure C-4.Remove jacket.hb016125/8 inch(16 millimeters)Figure C-4 Cutting and removing the jacket7. Check:- Braid for nicked or broken strands- Dielectric end for a straight cut- Center conductor for nicks and a straight cutIf you see significant damage to the braid, dielectric, orconductor, you must cut the cable and start over. (Startwith step 1.)

C.31027144–0001 Revision D C–6 Terminating the IFL cable RT installation8. Flare the braid slightly and trim to 7/16 inch (11millimeters), as shown in figure C-5.JacketBraidhb0937/16 inch(11 millimeters)Figure C-5 Braid, flared and trimmed9. Cut approximately 1/4 inch (6 millimeters) of the excessbraid so that all braids will be under the crimp ring whenthe connector is completed.The following steps explain how to attach the IFL (N) connector.The same type of connector is used at both ends. The connectorincludes a plastic guide pin to protect the dielectric duringinstallation, as shown in figure C-6.CrimpringInsulatingwasherCenterpinPlasticguidepinT0006020Supportshoulder JamnutConnector bodyCollarFigure C-6 IFL (N) connector (HNS 9006284–0002)Do not remove the plastic guide pin until instructed to do so(step 4 on page C–8).CAUTIONDo not install the center pin without theplastic guide pin—doing so will damagethe dielectric material inside the connectorbody.Attaching theconnector

1027144–0001 Revision D Terminating the IFL cable C–7RT installationTo install the cable connector, follow these steps.1. Place the insulating washer against the dielectric.2. Push the center pin (with guide pin attached) over the cablecenter conductor, as shown in figure C-7.T0006021CrimpareaCenterpinGuide pinCrimp flushwith washer.InsulatingwasherFigure C-7 Installing the insulator and center pin3. Use the HCT–231 crimp tool (figure C-8) to crimp thecenter pin flush with the washer, as shown in figure C-7.If the center pin is bent after crimping, cut the cable,re–strip it, and attach a new center pin.HCT - 231Usesetting to crimpcenter pin.0.108Use setting to crimpthe crimp ring0.475—but not yet.This is a later step.hb021Figure C-8 Crimping tool

1027144–0001 Revision D C–8 Terminating the IFL cable RT installation4. Follow the instructions in figure C-9 to install the connectorbody and crimp ring, and remove the guide pin.hb022ConnectorbodyGuide pin andcenter pin1. Insert guide pin through back ofconnector body until the cable stops.Crimpring Center pinGuide pinGround socketCenter pin inside connector bodySlide crimp ring overbraid and into recess.2. Remove anddiscard guide pin.3.RecessFigure C-9 Installing the connector body and crimp ring5. Important: Verify that the center pin aligns flush orwithin 1/64–inch from the ground socket edge.If the pin is not flush or within this range, the connectionwill probably be faulty.

1027144–0001 Revision D Terminating the IFL cable C–9RT installation6. Comb the braid only if the crimp ring will not fit over theshoulder and braid. If the crimp ring fits over theshoulder and braid, skip to step 7).a. Insert a pick or scribe into the braid and carefullycomb the strands as shown in figure C-10.Start combing at the cut end. Comb the strandsaround the entire perimeter. Work backward, from thecut end toward the jacket—but always combing awayfrom the jacket, as shown in figure C-10.Figure C-10 Combing the braidJacketBraidComb actionDirection of travelhb017Note: Comb the braid all the way back to the jacket.If part of the braid is uncombed at the jacket end,stretching will cause the jacket and center pin tobecome loose, resulting in poor conductivity.b. Re–trim the braid to 7/16 inches (6 millimeters), asshown in figure C-5.

1027144–0001 Revision D C–10 Terminating the IFL cable RT installation7. While holding the connector assembly together snugly,position the HCT–231 crimping tool, at setting 0.475, ontothe area shown in figure C-11 and securely crimp the crimpring into place.CAUTIONTo avoid damaging the connector body,make sure the crimping tool does nottouch the connector jam nut.Crimphb024Maximum gap(exposed braid):0.03 inch (0.8 millimeter)Best if no gap.Figure C-11 Crimp locationNote: If the crimp ring slips and results in a gap greaterthan 0.03 inch (0.8 millimeter) between the crimp ring andthe connector collar, reject the connection. Cut off theconnector and start over.

C.41027144–0001 Revision D Terminating the IFL cable C–11RT installationApply the heat–shrink tubing as follows:1. Position the heat–shrink tubing near (but not touching) thejam nut, so it covers the crimp ring and a portion of theconnector collar, as shown in figure C-12.Figure C-12 Heat–shrink tubing,properly placed for shrinkingHeat-shrinktubinghb026Collar JamnutCrimpring2. Using a heat gun, heat-shrink the tubing until it snugly fitsaround the cable, crimp ring, and part of the connectorcollar.Point the connector upward. Begin heating at the connectorend, and work toward the cable. The adhesive should flowaway from the jam nut.CAUTIONDo not allow the cable jacket and dielectricto overheat. This can damage the cable andcause cable failure.During heating, the tubing may shift andthe adhesive lining may bleed. Make surethe adhesive does not bleed onto the jamnut and damage the connector.To install another N connector, repeat all steps above, beginningwith the section Preparing the cable ends (page C–3).Applyingheat–shrink tubing

1027144–0001 Revision D Index-1IndexAAbbreviations (identified), A- 1Access, buildings and equipment locations, 2–2Acronyms (identified), A- 1Adding SSIs, 10–2Adjusters for antenna azimuth and elevation,6–6, 7–11Antennaadjusting azimuth, 6–14coarse adjustment, 6–14fine adjustment, 7–11adjusting elevation, coarse adjustment, 6–17attaching to the antenna mount, 6–12pointing, 7–8fine azimuth adjustment, 7–9fine elevation adjustment, 7–9initial (coarse) azimuth adjustment, 6–14initial (coarse) elevation adjustment, 6–17troubleshooting, 9–4voltage indications, 7–11replacing, 10–7repointing, 7–12Antenna boresight, 6–15Antenna mountinstalling, 6–5, 6–8parts (illustrated), 6–5torque, 6–16, 6–18torque wrench, 6–4ATM. See OC3c–ATM SSIAttenuator, 7–12entering the attenuator value, 7–13installing, 6–19replacing the antenna, 10–7replacing transceiver, 10–5size, 6–19Azimuthadjustingcoarse adjustment, 6–14fine adjustment, 7–11explained and illustrated, 6–14Azimuth/elevation adjusters. See Adjusters forazimuth and elevationBBallast. See Concrete blocksBend radius (IFL cable), 4–8, 4–13Blocks. See Concrete blocks (ballast)Boresight, 6–15Buttons on CCM, 7–5functions, 7–7CCable lengthDS3–ATM, 3–28DS3–TDM SSI, 3–28DS3–Transparent SSI, 3–29IFL, 4–5Quad–DS1 SSI, 3–27Universal–DS1 SSI, 3–28Canadian Interference–Causing EquipmentRegulations, B–2, B–3Canadian Standards Association, B–2, B–3CCMbutton functions, 7–7buttons on front panel, 7–5configuration downloading, 7–17functions, 3–23installing, 3–23LEDs, 3–25operational state, 7–17power–on test, 3–25replacing, 10–12status, 7–14SUDS, 3–25troubleshooting, 9–2Channel and control module. See CCMChassis. See IDU chassisChecklistinstallation tasks, 1–3materials, 2–6tools, 2–3

$1027144–0001 Revision DIndex-2Commissioningdefined, 7–1pointing the antenna, 7–8prerequisites, 2–7, 7–2procedures, 7–1RT ESN, 7–2Components to be installed, 1–3Concrete blocks (ballast), 5–8arrangement on mount, 5–9Configuration downloading (CCM), 7–17Connections, weatherproofing, 8–2Corrugated metal roof, 5–9Crimp tool, C–7Customer equipment, connecting, 8–3Customer sign–off, 8–3DDiagnostic mode, 7–5Diameter of ODU mast, 6–4Dismantling an RT, 10–16Distance, RT to HT, 6–19Distance – RT to HT, 7–2Documents, related, viiDrain groove (antenna), 6–10Drawingshub network schematic, 2–1hub rooftop drawing, 2–1RT reference drawing, 1–2DS1 test, 7–18DS3 test, 7–20DS3 test (fractional DS3), 7–22DS3–ATM SSI, 3–28DS3–TDM SSI, 3–28DS3–Transparent SSI, 3–29EEIDUinstalling, 3–34mounting, 3–34power supplies, 3–35uses, 3–34EIDU FEM, 3–35Electronic serial number. See ESNElement Management System. See EMSElevationadjustingcoarse adjustment, 6–17fine adjustment, 7–11explained and illustrated, 6–17Emissions, B–2, B–3EMS, 2–7database, 7–2ENTER button (CCM), 7–7Equipment from other vendors, viiEquipment to be installed, 2–1ESN, 7–2location, 7–2Existing structures as ODU mounts, 5–11Exit (LCD), 7–7Expansion IDU. See EIDUFF connector for connecting voltmeter, 7–10Failure indication on CCM LCD, 3–26FCC, B–2, B–3FEMs, 3–34EIDU FEMs, 3–35IDU FEMs, 3–35installing, 3–36SSIs, 3–29types, 3–35where installed, 3–35Fiber extender modules. See FEMsFractional DS3 test, 7–22Frequency, ODU, selecting, 7–8Frequency acquisition (Freq Acq), 7–9Front panel display. See LCD$

1027144–0001 Revision D Index-3GGroundinglightning arrestor, 4–12ODU, 6–23power supplyac, 3–11dc, 3–13, 3–14dual ac or dc, 3–9HHandling materials, 4–2Heat–shrink tubing (for IFL cable) , C–3, C–11Horizontal mast, 6–2HTacquisition, 7–13ID, 7–13Hub installation, viiIIDU, 3–3See also IDU chassiscomponents, 3–3illustrated, 3–3standards compliance, B–3IDU chassisSee also IDUconnecting the IFL, 7–3dccircuit breaker, 3–19disconnect device, 3–19power–off circuit, 3–19power–on test, 3–22powering off, 3–19Install mode, 7–8LCD. See LCDpower supply, 3–4, 3–8ac, 3–10dc, 3–13dual ac or dc, 3–8rack mounting, 3–5options, 3–5replacing, 10–10slots, numbering of, 3–3specifications. See Hub and Remote TerminalSite Preparation Guidetemperature, 3–5types, 3–4IDU FEM, 3–35IEC, B–3IFL cablebend radius, 4–8, 4–13connecting to CCM (IDU), 7–3connecting to ODU, 6–25connections, 4–4finishing the installation, 4–15installing inside the building, 4–8installing on the roof, 4–13length, 4–8, 4–13maximum, 4–5moisture contamination, 8–2penetration sleeve, 4–7plan, 4–4plenum (in conduit with power cables), 4–5replacing, 10–14routing guidelines, 4–5specifications, 4–3terminating, 4–8, C–1testing, 4–14UL requirements, 4–3weatherproofing connections, 8–2Immunity, B–3Indoor unit. See IDU and IDU chassisInspecting the installed equipment, 8–3Install mode, 7–8Installation checklist (summary), 1–3Installersnumber needed, vii, 4–2qualifications, viiIntrafacility link. See IFL cableLLCD, 7–4button functions, 7–7buttons (for scrolling, selecting), 7–5configuration downloading (CCM), 7–17diagnostic mode, 7–5exit, 7–7menu map, 7–6operational state, 7–17RT Enabled message, 7–17status conditions (explained), 7–14status of CCM, SSIs, or ODU, 7–14SUDS (diagnostics) sequence, 3–25, 7–4

1027144–0001 Revision DIndex-4LEDsCCM, 3–25FEMs, 3–29SSIs, 3–29, 3–33Lightning arrestor (for IFL), 4–4, 4–9grounding, 4–12Lightning protection, 6–25Liquid crystal display. See LCDLocationIDU, 3–4ODU, 5–3MMain Menu (CCM LCD), 7–5Maintenance, 10–1Maps, local, requirements, 2–5Mastdiameter, 6–4horizontal, 6–2Mast mount, 5–2location, 5–3standard type, 5–4assembly instructions, 5–4types, 5–3using existing structures, 5–11Materialshandling, 4–2required for installation, 2–6Mechanical attenuator, 7–12entering the attenuator value, 7–13installing, 6–19replacing the antenna, 10–7replacing tranceiver, 10–5Menu map for CCM LCD, 7–6Moisture contamination, 8–2Mounts. See Mast mount and Antenna mountMoving SSIs, 10–2Multiple IFL cables, 4–11NN connectorsattaching to IFL cable, C–6location (IFL cable), 4–4, C–1National Electric Code (NEC), B–2NEXT button (CCM), 7–7NumberingIDU chassis slots, 3–29, 7–15SSIs, 3–29, 7–15OODU, 6–1connecting the IFL cable, 6–25connecting voltmeter for antenna pointing,7–10frequency, selecting, 7–8grounding, 6–23illustration, 6–3location, 2–1replacing, 10–3standards compliance, B–2status, 7–16transporting to the roof, 6–4ODU location, 5–3Operational state, 7–17possible states, 7–17Outdoor unit. See ODUPPenetrating the roof, 4–6Penetration sleeve, 4–7Personnelnumber of installers, viiqualifications, installers, viiPinouts, RJ–48X connectors on Quad–DS1 SSI,3–27Pointing the antenna, 7–8fine adjustments, 7–9initial (coarse) azimuth adjustment, 6–14initial (coarse) elevation adjustment, 6–17troubleshooting, 9–4voltage indications, 7–11voltmeter, 7–8

1027144–0001 Revision D Index-5Power input requirementac power supply, 3–10dc power supply, 3–13Power supply (IDU), 3–4, 3–8ac, 3–10connecting power, 3–12grounding, 3–11power input requirement, 3–10dc, 3–13connecting power, 3–15grounding, 3–13, 3–14power input requirement, 3–13powering off, 3–19dual ac or dc, 3–8See also Power supply (IDU), dcgrounding, 3–9Power–on test, CCM, 3–25Prerequisitescommissioning, 2–7, 7–2installation, 2–1PREV button (CCM), 7–7Publications, related, viiQQuad–DS1 SSI, 3–27pinouts for RJ–48X connectors, 3–27Qualifications for installers, viiRRackgrounding, 3–2mounting, 3–5options, 3–5safety guidelines, 3–5Related publications, viiRemote terminal. See RTRepairs, 9–6Replacingantenna, 10–7CCM, 10–12faulty components, 9–6IDU chassis, 10–10IFL, 10–14ODU, 10–3SSIs, 10–13transceiver, 10–4Repointing the antenna, 7–12RF arrestor, 4–10, 4–14Roof types, 5–3corrugated metal, 5–9RTdefined, 1–2dismantling, 10–16RT Enabled message, 7–17RT to HT connections tests, 7–18SSafety information, ixrack mounting, 3–5Service loops, 4–8Service–specific interface. See SSISite Data Record, 2–1Site preparation, viiSlots, IDU chassisnumbering of, 3–3where CCM and SSIs are installed, 3–23,3–27, 3–29, 7–15Spin–stripping tool (for IFL cable), C–3SSIsadding, 10–2DS3–ATM, 3–28DS3–TDM, 3–28DS3–Transparent, 3–29function, 3–27hot swapping, 10–2installing, 3–32chassis slots, 3–27, 3–29, 7–15LEDs, 3–29, 3–33moving, 10–2numbering, 3–29, 7–15Quad–DS1, 3–27replacing, 10–13status, 7–15types, 3–27Universal–DS1, 3–28Standards compliance, B–1Startup diagnostics. See SUDSState, 7–17Status of CCM, SSIs, or ODU, 7–14

$1027144–0001 Revision DIndex-6SUDS, 3–25, 7–4failure indication, 3–26test and display sequence, 3–25, 7–4Summary of installation, 1–3TTask checklist, 1–3Temperature, IDU chassis, 3–5Terminating the IFL cable, 4–8, C–1Test set, 2–4TestingDS1 test, 7–18DS3 test, 7–20fractional DS3 test, 7–22IFL cable and connectors, 4–14RT to HT connections, 7–18Tools required for installation, 2–3Torqueantenna mount, 6–16, 6–18radome band clamp (on antenna), 6–11Torque wrench for antenna mount, 6–4Transceiverattaching to the antenna, 6–21replacing, 10–4Troubleshooting, 9–1antenna pointing, 9–4CCM, 9–2CCM won’t download, 9–5RT Disabled message, 9–6UUnderwriters Laboratories (UL), B–2, B–3Universal–DS1 SSI, 3–28VVoltage indications for antenna pointing, 7–11Voltmeter (used for antenna pointing), 2–4,6–14, 7–8connecting to ODU, 7–10WWarnings (safety), explained, ixWaveguide, 6–20, 10–7Weatherproofing, 4–14, 6–25, 8–2Wrist strap (ESD), 3–23, 3–32, 3–36, 10–2,10–10, 10–12$

Hughes Network Systems 24SX-001 point to multipoint - SUB User Manual

Hughes Network Systems point to multipoint - SUB

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