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V1.0 Release1 July.16,2014 HwansunLee R&DDivisionTeam3 YoungshinYeo Confidential & Proprietary 1/44 REVISIONHISTORY Version IssueDate No.of Pages Initials DetailsofRevisionChanges V1.0 Aug.20,2014 Original TechnicalSupport SOLiD serial numbers must be available to authorize technical support and/or to establish a return authorizationfordefectiveunits.Theserialnumbersarelocatedonthebackoftheunit,aswellason theboxinwhichtheyweredelivered.Additionalsupportinformationmaybeobtainedbyaccessingthe SOLiDTehcnology,Inc.websiteatwww.solid.co.krorsendemailatsjkim@st.co.kr ThismanualisproducedbyGlobalBusinessDivisionBusinessTeam1.PrintedinKorea. Confidential & Proprietary 2/44 Contents Section1 Safety&CertificationNotice ......................................................................... 6 Section2 Section3 SystemOverview ....................................................................................... 10 2.1 Purpose ........................................................................................................... 11 2.2 Systemoverview .............................................................................................. 12 SystemconfigurationandFunctions ............................................................ 14 3.1 HROU(HighpowerRemoteOpticUnit) ............................................................. 14 SpecificationsofHROU ............................................................................... 15 3.1.1 BlockDiagramofHROU .............................................................................. 16 3.1.2 3.1.2.1 HMRUblockdiagram ................................................................................. 16 3.1.2.2 HROUinnerlook ........................................................................................ 17 3.1.2.3 HROUpartlist ............................................................................................ 18 Functionbyunit ......................................................................................... 19 3.1.3 3.1.3.1 HighRemoteDriveUnit(HRDU) .................................................................. 19 3.1.3.2 RemotePowerSupplyUnit(RPSU) ............................................................. 21 3.1.3.3 RemoteOptic(ROPTIC) .............................................................................. 22 3.1.3.4 RemoteCentralProcessorUnit(RCPU) ........................................................ 23 BottomofHROU ........................................................................................ 24 3.1.4 3.1.4.1 Functions .................................................................................................. 24 SystemInstallation ..................................................................................... 26 4.1 HROUInstallation ............................................................................................ 26 4.1.1 Tools ............................................................................................................... 27 4.1.2 HROUEnclosureinstallation ............................................................................. 27 4.1.3 HROUWallMountInstallation .......................................................................... 29 4.1.4 HROUcomponents ........................................................................................... 30 4.1.5 HROUPowerCabling ........................................................................................ 32 4.1.6 HROUGroundcabling....................................................................................... 34 4.1.9 MountingofHRDU ........................................................................................... 41 Section4 Confidential & Proprietary 3/44 ContentsofFigure Figure1.Basicsystemtopology .......................................................................... 12 Figure2.Expansionsystemtopology .................................................................. 13 Figure3.HROUouterLook ................................................................................ 15 Figure4.HMRUBlockdiagram ........................................................................... 16 Figure5. InsideofRemoteUnit ....................................................................... 17 Figure6.HRDUOuterLook ................................................................................ 19 Figure7.ACDCRPSUOuterLook ....................................................................... 21 Figure8.DCDCRPSUOuterLook ....................................................................... 22 Figure9.ROPTICOuterLook ............................................................................. 23 Figure10.RCPUOuterLook ............................................................................... 23 Figure11.TheBottomLookofHROU .................................................................. 24 Figure12.HowtoinstallROU ............................................................................. 28 Figure13.DimensionusedtoinstallHROUontheWALL ...................................... 29 Figure14.Proceduresofinstallation ................................................................... 30 Figure15.LocationofGroundTerminal ............................................................... 34 Figure16.InformationofTerminal ..................................................................... 35 Figure17.HowtoinstallGroundTerminal ........................................................... 36 Figure18.LocationofOpticalConnector ............................................................. 37 Figure19.InformationofOpticalConnector ........................................................ 37 Figure20.HowtoinstallOpticalCabling ............................................................. 38 Figure21.LocationofALMIN/OUTConnector .................................................... 39 Figure22.InformationofALMIN/OUTConnector ............................................... 39 Figure23.HowtoinstallALMIN/OUTCabling ..................................................... 40 Confidential & Proprietary 4/44 Figure24.HowtomountHRDU ......................................................................... 41 Figure25.HowtomountHRDU ......................................................................... 42 Confidential & Proprietary 5/44 Section1 Safety&CertificationNotice Confidential & Proprietary 6/44 Only qualified personnel should handle the DAS equipment. Any person involved in installationorserviceoftheDASshouldunderstandandfollowthesesafetyguidelines. Obey all general and regional installation and safety regulations relating to work on high voltage installations,aswellasregulationscoveringcorrectuseoftoolsandpersonalprotectiveequipment. Thepowersupplyunitinrepeaterscontainsdangerousvoltagelevel,whichcancauseelectricshock. Switchthemainsoffpriortoanyworkinsucharepeater.Anylocalregulationsaretobefollowed whenservicingrepeaters. Whenworkingwithunitsoutdoors,makesuretosecurelyfastenthedoororcoverinanopenposition topreventthedoorfromslammingshutinwindyconditions.. Usethisunitonlyforthepurposespecifiedbythemanufacturer.Donotcarryoutanymodificationsor fitanysparepartswhicharenotsoldorrecommendedbythemanufacturer.Thiscouldcausefires, electricshockorotherinjuries. AnyDASsystemorFiberBDAwillgenerateradio(RF)signalsandcontinuouslyemitRFenergy.Avoid prolongedexposuretotheantennas.SOLiDrecommendsmaintaininga500cmminimumclearance fromtheantennawhilethesystemisoperating. AntennasmustbeinstalledinaccordancewithFCC90.635.With14.8dBigainantennastheheightof theantennaaboveaverageterrain(HAAT)mustnotexceed439m.Fordifferentgainantennasrefer totherelevantrules Donotoperatethisunitonorclosetoflammablematerials,astheunitmayreachhightemperatures duetopowerdissipation. Donotuseanysolvents,chemicals,orcleaningsolutionscontainingalcohol,ammonia,orabrasiveson theDASequipment.Alcoholmaybeusedtocleanfiberopticcablingendsandconnectors. Topreventelectricalshock,switchthemainpowersupplyoffpriortoworkingwiththeDASSystemor FiberBDA.Neverinstalloruseelectricalequipmentinawetlocationorduringalightningstorm. Donotlookintotheendsofanyopticalfiberordirectlyintotheopticaltransceiverofanydigitalunit. Use an optical spectrum analyzer to verify active fibers. Place a protective cap over any radiating transceiveroropticalfiberconnectortoavoidthepotentialofradiationexposure. Allowsufficientfiberlengthtopermitroutingwithoutseverebends. Forpluggableequipment,makesuretoinstallthesocketoutletneartheequipmentsothatitiseasily accessible. Areadilyaccessibledisconnectdeviceshallbeincorporatedexternaltotheequipment. Confidential & Proprietary 7/44 Thispowerofthissystemshallbesuppliedthroughwiringinstalledinanormalbuilding. Ifpowereddirectlyfromthemainsdistributionsystem,itshallbeusedadditionalprotection,suchas overvoltageprotectiondevice Only50ohmratedantennas,cablesandpassiveequipmentshallbeusedwiththisremote. Any equipmentattachedtothisdevicenotmeetingthisstandardmaycausedegradationandunwanted signalsinthebidirectionalsystem. Allcomponentsconnectedtothisdevicemustoperateinthe frequencyrangeofthisdevice. Only50ohmratedantennas,cablesandpassivecomponentsoperatingfrom1503GHzshallbeused withthisdevice. The head endunit must alwaysbeconnected to the Base Station using a directcabledconnection. Thissystemhasnotbeenapprovedforusewithawirelessconnectionviaserverantennatothebase station. AccesscanonlybegainedbySERVICEPERSONSorbyUSERSwhohavebeeninstructedaboutthe reasonsfortherestrictionsappliedtothelocationandaboutanyprecautionsthatshallbetaken;and AccessisthroughtheuseofaTOOLorlockandkey,orothermeansofsecurity,andisontrolledbythe authorityresponsibleforthelocation. Notice!BecarefulnottotouchtheHeatsinkpartduetohightemperature. Signalboosterwarninglabelmessageshouldinclude Confidential & Proprietary 8/44 Certification FCC:ThisequipmentcomplieswiththeapplicablesectionsofTitle47CFRParts15,22,24,27and 90(ClassB) UL/CUL:ThisequipmentcomplieswithULandCUL19501Standardforsafetyforinformation technologyequipment,includingelectricalbusinessequipment FDA/CDRH: This equipment uses a Class 1 LASER according to FDA/CDRH Rules.This product conformstoallapplicablestandardsof21CFRChapter1,SubchaperJ,Part1040 Confidential & Proprietary 9/44 Section2 SystemOverview 2.1 Purpose 2.2 Systemoverview Confidential & Proprietary 10/44 2.1 Purpose Alliance_N20isacoveragesystemforinbuildingservicesdeliveringvoiceanddatainhighqualityand forseamlessly. Asadistributedantennasystem,itprovidesanaloganddigitalphonesystemsthatareservedinmultiple bandsthroughoneantenna. Thesystemcoversgeneralpublicinstitutionsandprivatefacilities. Shoppingmalls Hotels Campusareas Airports Clinics Multiusestadiums,conventioncenters,etc. Subways ThesystemhelpsimproveinbuildingradioenvironmentsinpoorconditionandmakebetterpoorRSSI andEc/Io.Byprovidingcommunicationservicesateverycornerofbuildings,thesystemenablesusersto makeacallatanysiteofbuildings. Thesystemusesbothanalog(AMPS)anddigital(TDMA,CDMAandWCDMA)methods. The SMDRNH124 system supports communication standards and public interface protocols in worldwideuse. Frequencies: VHF,UHF, 700MHz , 700MHz_MIMO , 850MHz , 1900MHz , 2100MHz , 2100MHz_MIMOetc. Voiceprotocols:AMPS,TDMA,CDMA,GSM,IDEN,etc. Dataprotocols:EDGE,GPRS,WCDMA,CDMA2000,Paging,LTEetc. Alliance_N20isinmodularstructureperfrequency.Toprovidedesiredfrequencyinabuilding,allyou needtodoistoinsertacorrespondingfrequencymoduleintoeachunit.Asitdeliversmultiplesignals with one optical cable, the system, in onebody type, does not require additional facilities whenever newfrequencyisadded. Thesystemisfeaturedwiththefollowing:
Supportfiberopticportsupto39 Flexibiltiy&Scalabiltiy Clusteringmultiplebuildings(campus)asonecoverage Modularstructures Modularfrequencyupgrade Plugintypemodule Confidential & Proprietary 11/44 MultiBand,MultiOperator Signalswithapluralityofserviceprovidertransmitsimultaneously Supportmultioperatorinaband LowOPEX/CAPEX Compactdesign Upgradabledesign Easyinstallationandmaintenance WebBasedSNMPorGSMModemorUDPsupport(Optional) 2.2 Systemoverview TheAlliance_N20iscomposedofdevicesgivenbelow. Basically, the system consists of BIU (BTS Interfcace Unit), ODU (Optic distribution Unit) and NHROU
(RemoteOpticUnit).ForadditionofmoreROUs,ithasOEU(OpticExpansionUnit). Figure1.Basicsystemtopology Confidential & Proprietary 12/44 Figure2.Expansionsystemtopology Systemelements SystemtopologyCharts(OM4;4Opticalport) OpticalLoss[dBo]
Max.RUs BIUODU(DOUx1)ROU BIUODU(DOUx2)ROU BIU4ODU(DOUx2)ROU BIU4ODU(DOUx2)4OEU(DOUx2)ROU 1~5dBo 1~5dBo 1~5dBo 1~5dBo 4 8 32 60 Systemelements SystemtopologyCharts(OM1;1Opticalport) OpticalLoss[dBo]
Max.RUs BIUODU(DOUx1)ROU BIUODU(DOUx2)ROU BIU4ODU(DOUx2)ROU BIU4ODU(DOUx2)4OEU(DOUx2)ROU 1~10dBo 1~10dBo 1~10dBo 1~10dBo 1 2 8 12 Confidential & Proprietary 13/44 Section3 SystemconfigurationandFunctions 3.1 HROU(HighpowerRemoteOpticUnit) 3.1 HROU (High power Remote Optic Unit) HROUconsistsoftwounit,oneisHMRU(HighpowerMainRemoteUnit)andtheotherisHARU(High powerAddonRemoteUnit). The biggest difference between HMRU and HARU is whether ROPTIC module exist or not in the enclosure. HMRUreceivesTXopticalsignalsfromODUandconvertsthemintoRFsignals.TheconvertedRFsignals areamplifiedthroughHighPowerAmpinacorrespondingHRDUbandcombinedwithUDCU,PAUand Cavityduplexer,andthenradiatedtotheantennaport. When receiving RX signals through the antenna port, this unit filters outofband signals in a correspondingHRDUandsendstheresultstoROPTICtomakeelectronicopticalconversionofthem. Afterconverted,thesignalsaresenttoaupperdeviceofODU.HMRUcanbeequippedwithuptofour HRDUs(HighRemoteDriveUnit)andthemodulesupportssinglebandonly. HARU receives TX RF signal from HMRU and amplifies through High Power Amp in a corresponding HRDUcombinedwithUDCU,PAUandCavityduplexer,andthenradiatedtotheCU(CombiningUnit) When receiving RX signals through the antenna port, HHRDU filters outof band signal in a correspondingHRDUandsendstheresultstoMHRUthroughRFcable. Confidential & Proprietary 14/44 Figure3.HROUouterLook 3.1.1 SpecificationsofHROU Item TheratedmeanoutputPowerperband The nominal downlinkbandwidth The nominal uplinkbandwidth Thenominalpassbandgain Input/OutputImpedance Weight Powerconsumption LTE700 850IC 1900P 2100A LTE700 850IC 1900P 2100A Downlink Uplink Spec. HMRU 44dBm 28MHz 32MHz 65MHz 45MHz Remark 25Wperband 728~756MHz 862894MHz 19301995MHz 21102155MHz 17MHzand 699~716MHz 10MHz 32MHz 65MHz 45MHz 59dB 45dB 50ohm 39Kg 50W 777~787MHz 817849MHz 18501915MHz 17101755MHz eachband eachband CommonPart Confidential & Proprietary 15/44 Temperaturerange HumidityRange Sealing(RemoteUnit) Size(mm) 25Cto+55C/13to131F AmbientTemperature 0%~90%
IEC60529EN60529 320x1165x260 Noncondensing IP66Complaint IncludingBracket 3.1.2 BlockDiagramofHROU 3.1.2.1 HMRUblockdiagram Figure4.HMRUBlockdiagram Confidential & Proprietary 16/44 3.1.2.2 HROUinnerlook HRDU#4 HRDU#3 HRDU#2 HRDU#1 RCPU R-OPTIC RPSU CU Figure5. InsideofRemoteUnit Confidential & Proprietary 17/44 3.1.2.3 HROUpartlist No. Unit Description 1 HRDUX4 2 RPSU(AC) RPSU(DC) 3 ROPTIC 4 RCPU CU_1A70851921 5 CU_2A70851921 HighRemoteDriveUnit ConsistofUDCU,PAUandcavityfilter FilterandhighamplifyTXsignals;
FilterandamplifyRXsignalsinlownoiseamplifier;
Removeoutofsignalsthroughcavityduplexer RemotePowerSupplyUnit Inputpower:110VAC/220VAC(85~264V) Outputpower:+29VDC RemotePowerSupplyUnit Inputpower:48VDC(40.8~57.6V) Outputpower:+29VDC RemoteOptic MakeRFconversionofTXopticalsignals;
ConvertRXRFsignalsintoopticalsignals;
Compensatesopticalloss;
5dBoopticallinkbetweenODU(OM4)andROU;
10dBoopticallinkbetweenODU(OM1)andROU;
FiberConnector:SC/APCConnector;
OpticalWavelength:1310/1550WDM;
CommunicateswithBIU/OEUthoughtheFSKmodem RemoteCentralProcessorUnit Controlssignalofeachunit Monitors BIU/ODU/OEU status through FSK modem communication Multiplexer1 CombineTXsignalsfrom4HRDUs;DistributeRXsignalsto 4HRDUs Multiplexer2 CombineTXsignalsfrom2HRDU;DistributeRXsignalsto 2HRDUsoflowfrequencyunder1GHz CombineTXsignalsfrom2HRDUs;DistributeRXsignalsto 2HRDUsofhighfrequencyover1GHz Remark Optional Max4 Confidential & Proprietary 18/44 6 Enclosure EnclosuretosatisfyNEMA4(IP66);
Wallmounting(VerticalMount) 7 SIU SystemInterfaceUnit Distributepowerandsignalsofeachmodule 3.1.3 Functionbyunit 3.1.3.1 HighRemoteDriveUnit(HRDU) WhenreceivingTXsignalsfromeachbandthroughRemoteOptic,HRDUfiltersthesignalsandamplifies themwithHighPowerAmpifier.TheunitalsofiltersRXsignalsgiventhroughcavityfilterandamplifies themtosendthesignalstoRemoteOptic.Intheunit,thereisATTtoadjustgain.HRDUconsistofUDCU, DTU,PAUandcavityduplexerlikebelowfigureandallmodulesaremergedwithonepackage Figure6.HRDUOuterLook Confidential & Proprietary 19/44 HRDUdevicesarevariedforeachfrequencyband,includingthefollowing:
No Unitnaming Description TX Frequency(Bandwidth) N20HRDUL700 Singleband 728~756MHz N20HRDU850IC Singleband 862894MHz N20HRDU1900P Singleband 19301995MHz N20HRDU2100A Singleband 21102155MHz 1 2 3 4 RX 699~716MHz 777~787MHz 817849MHz 18501915MHz 17101755MHz No Unitnaming Dimension Weight Power consumption Outlook 1 N20HRDUL700 233X155X148 6.2kg 140W 2 N20HRDU850IC 233X155X143 5.6kg 150W 3 N20HRDU1900P 233X155X131 4.5kg 150W 4 N20HRDU2100A 233X155X98 3.4kg 130W Confidential & Proprietary 20/44 3.1.3.2 RemotePowerSupplyUnit(RPSU) Thereare2typesofRPSUintheHROUforsupplytoactivemoduleintheenclosureandreceivepower fromexternal. TheyaretheDC/DCPSUreceivinginput48VandtheAC/DCPSUreceivinginput110V/220Vfrom external. Asorder,eitherofthetwotypesshouldbedecided.MSConnector,whichusesportstoreceiveinputs, isdesignedtoacceptanyofACandDC.Onlyinthiscase,theinputcableisdifferent RPSUhasacircuitbraketoturnthepowerON/OFFandhasLEDindicatoratthetoptocheckifinput powerisnormallysupplied. FAN CON POWER SWITCH ADD-ON ROU POWER OUT POWER IN Figure7.ACDCRPSUOuterLook Confidential & Proprietary 21/44 FAN CON POWER SWITCH POWER IN Figure8.DCDCRPSUOuterLook Functions:
ProvidingacircuitbreakertoturnACpowerON/OFF ProvidingDCpowereachHRDU ProvidingDCpowerandsignaltoFANtray LEDindicatorsforshowingalarmstausofPSU Caution DOUBLEPOLE/NEUTRALFUSING 3.1.3.3 RemoteOptic(ROPTIC) RemoteOpticconvertsopticalsignalsintoRFsignalsandperformsviceversa.ItalsohasinternalATTfor optical compensation to compensate for optical cable loss. It provides two path in pairs(TX/RX) to transportRFsignaltoARUs Confidential & Proprietary 22/44 Figure9.ROPTICOuterLook 3.1.3.4 RemoteCentralProcessorUnit(RCPU) RCPU can monitor and control each module of HROU. This unit receives and analyzes upper communicationdatafromRemoteOpticandreportstheunit'sownvaluetoupperdevices.Atthefront ofthemodule,ithasLEDindicatortoshowsystemstatus,lettingyoucheckanyabnormalitiesatatime. Atthesamefront,italsohascommunicationLEDIndicatorstoshowcommunicationstatuswithupper devices. Through Local port,theunit enables you tocheckandcontrol device statusthrough PCand laptop. ItprovidesthreeinterfaceportwithARUstocommunicatewiththese.Italsoprovidedrycontactport, whichis(1)outputportand(1)inputport Figure10.RCPUOuterLook Confidential & Proprietary 23/44 3.1.4 BottomofHROU 3.1.4.1 Functions The Bottom look of HROU depends on the CU(combine unit) option . Basically, The CU has two antennaports. But,IfnotneedtoinstallCUintheenclosure,ThenumberofantennaportsonthebottomofHROUwill be change4portswithDINtype. Figure11.TheBottomLookofHROU No Port HMRU Remark 1 OpticalPort 1EA SC/APC,Waterproof 2 ARUInterface 1EA,
(1)CON,(2)SMAFemale 3 4 5 6 7 ANT1 ANT2 ANT3 ANT4 ACPowerIN OrDCPowerIN 1EA 1EA 1EA 1EA 1EA DINtypefemale DINtypefemale DINtypefemale DINtypefemale MSCon,Waterproof Confidential & Proprietary 24/44 8 9 ACPowerOUT EXTFAN 1EA 1EA MSCon,Waterproof WaterproofCon Confidential & Proprietary 25/44 Section4 SystemInstallation 4.1 HROU Installation Thischapterdescribeshowtoinstalleachunitandopticalcables,alongwithpowercablingmethod. Indetail,thechapterdescribeshowtoinstallshelvesorenclosuersofeachunit,PowerCablingmethod and Optic Cabling and RF Interface. Furthermore, by showing power consumption of modules to be installedineachunit,itpresentsPowerCablingbudgetinasimpleway.Then,itdescribesthequantity ofcomponentsofmodulestobeinstalledineachunitandexpansionmethod. Confidential & Proprietary 26/44 4.1.1 Tools Toolsneededforinstallationistablebelow No 1 2 3 Tools Qty Specification Remark
+,3 Lengthismorethan20mm Forfixing HRDU 33mm 19mm Totighten antennaport ToCUNtype port 1 1 1 4.1.2 HROU Enclosure installation HROU is designed to be water and dirtproof. The unit has the structure of oneBody enclosure. It satisfieswaterproofandquakeproofstandardsequivalentofNEMA4(IP65).Thewaytoinstallforboth HMRUandARUhassamemethod.BasicallyHROUisattachedwithwallmountablebracket.HROUcan bemountedintoeitherofwalloronapole. Confidential & Proprietary 27/44 Figure12.HowtoinstallROU Confidential & Proprietary 28/44 Figure13.DimensionusedtoinstallHROUontheWALL 4.1.3 HROU Wall Mount Installation HROUs installation bracket is attached on Enclosure when is delivered. It doesnt need to remove brackettoinstallenclosure.simplyafterinstalling4ofM12mountingbolts,secure4mountingbolts tightly First,install2ofM12mountingboltsroughlyhalfwayontheenclosureandinstallenclosureoverthe boltsandsecuretightly. Second,install2ofM12mountingboltsundertheenclosureandsecuretightly Confidential & Proprietary 29/44 Figure14.Proceduresofinstallation 4.1.4 HROU components HROUhasthefollowingcomponents:
No. Unit Enclosure RCPU R_OPTIC RPSU FANUNIT CommonPart CU_1 CU_2 PowerCable1 Description IncludingWallmountingbracket WithSC/ACPadaptor(onlyHMRU) AC110/220VorDC48V 2FANsisinside CombineTXsignalsfrom5HRDUs;DistributeRX signalsto5HRDUs;
Furthermore,thereisreservedHRDUslottosupport 2600LTE CombineTXsignalsfrom2HRDU;DistributeRX signalsto2HRDUsoflowfrequencyunder1GHz CombineTXsignalsfrom2HRDUs;DistributeRX signalsto2HRDUsofhighfrequencyover1GHz MSConnectorwith4hole(ACandDC) Remark 1EA 1EA 1EA,optional 1EA 1EA ANT1 ANT1and ANT2 1EA,HMRU Confidential & Proprietary 30/44 PowerCable2 MS connector for HMRU connection with MS con andCircularconnectorontheeachsideofend 1EA,HARU HMRU HRDU Basically,thecommonpartofHROUshouldhaveanenclosureanditisequippedwithRCPUtoinquire and control state of each module, R_OPTIC to make both of electronicoptical and opticalelectronic conversions,RPSU to supply power for HROU. It shouldhave Power Cable for external rectifier or to supplyrequiredpower. Inaddition,HRDUcanbemountedandremovedtoprovideservicefordesiredband. Confidential & Proprietary 31/44 4.1.5 HROU Power Cabling ACPower HROU supports AC110V/220V of input power. Provided outside power cable is only one type with AWG#143m.Powercableisprovidedwithoutpowerpluganditshouldbeattachedpowerplugbased onnationalspowerplugtype ThepindiscriptionofACportisbelow.YoushouldconnectexactpolarityofAC. Portoutlook MSConnectornumbering Name Description A : AC_H B : AC_N C : N.C D : F.G A B C D AC_H ACHot AC_N ACNeutral N.C F.G NotConnected FrameGround CheckiftheconnectionisthesameasoneseeninthetableaboveandmakesuretoturnthepowerON. ProvidedACpowercablesoutlookisbelow Confidential & Proprietary 32/44 DCPower HROU supports only DC48V of input power. Provided outside power cable is only one type. The pin discriptionofDCportisbelow.YoushouldconnectexactpolarityofDC. Portoutlook MSConnectornumbering Name Description A B C D N.C N.C
+V V NotConnected NotConnected
+48V 48V CheckiftheconnectionisthesameasoneseeninthetableaboveandmakesuretoturnthepowerON. ProvidedDCpowercablesoutlookisbelow Confidential & Proprietary 33/44 4.1.6 HROU Ground cabling TheGroundingterminalislocatedatthebottomofHROUenclosurefixedbyM6screw.Compression terminalisattachedalreadywhenisdelivered.TherecommendedthicknessofcableisAWG#6copper groundingwire Figure15.LocationofGroundTerminal Thespecificationofcompressionterminalislikebelow Confidential & Proprietary 34/44 Figure16.InformationofTerminal The required part number is JOCT 166 supporting AWG 6. The way to install the grounding cable complywithbelowprocedures Confidential & Proprietary 35/44 Figure17.HowtoinstallGroundTerminal Theproceduresare LoosenatwoM6screwsandthentakecompressionterminaloff InsertAWG#6GroundingWireintoterminalandthencompressaterminalusingtool 1. 2. 3. Assembletheterminalwhichmadeinstep2using2xM6screws 4. Cutthegroundwiretoproperlengthandconnectittotheearthgroundsource
(Roundterminalslocatedonthesideofa1mm2(16AWG)ormorewiresUsingpermanently connectedtoearth.) 4.1.7 HROU Optical cabling TheOpticalConnectorislocatedatthebottomofRemoteUnitenclosurefixed.OpticalCablecanbe connectedbyusingconnectors. Confidential & Proprietary 36/44 Figure18.LocationofOpticalConnector ThespecificationofcompressionOpticConnectorislikebelow Figure19.InformationofOpticalConnector ThewaytoinstalltheOpticalcablecomplywithbelowprocedures Theproceduresare Confidential & Proprietary 37/44 Figure20.HowtoinstallOpticalCabling Confidential & Proprietary 38/44 4.1.8 HROU ALM IN/OUT Port cabling TheALMIN/OUTConnectorislocatedatthebottomofRemoteUnitenclosurefixed.Cablecan beconnectedbyusingconnectors. Figure21.LocationofALMIN/OUTConnector ThespecificationofcompressionALMIN/OUTConnectorislikebelow Figure22.InformationofALMIN/OUTConnector Confidential & Proprietary 39/44 ThewaytoinstalltheALMIN/OUTConnectorcomplywithbelowprocedures Figure23.HowtoinstallALMIN/OUTCabling Theproceduresare Peeloffsheathofthecable. Assembleallcomponentsoncableasfollowing. Connectallwirestoinsertaccordingtowirelist,thentightenallsmallscrews. Thetorqueforsmallscrewsis0.2Nm. Assembleplasticnuttomainbody.Recommendedtorque:1.0Nm.
(Note:Thekeyinsidethemainbodymustgostraighttoslotofinsert.) Pushthecableseal,pinchringintothemainbody,thentightenthepressurescrewintothebodywith recommendedtorque:1.0Nm. Confidential & Proprietary 40/44 4.1.9 Mounting of HRDU HROUhasslotstoenableuptofourHRDUmodulestobemountedinit. YoucanmountaHRDUintodesignatedslotsurely.Itisnotpossibletoprovideserviceswitha HRDU module alone; you need to connect HRDU cavity duplexer antenna port with CUs designatedport. Figure24.HowtomountHRDU TheRemoteUnitholdsamaximumof4HRDUs.GuidebracketsonthebottomofeachHRDUslot simplifyinstallationasdescribedbelow.MRDUinstallationrequiresa+No.1tipsizescrewdriver. Confidential & Proprietary 41/44 Figure25.HowtomountHRDU Confidential & Proprietary 42/44 Theproceduresare LifttheHRDUontotheguidebracketandensuretheMRDUislevellefttoright 1. 2. PushtheHRDUintothecorrespondingslotinthedirectionoftheheatsinkwhilelevellingthe MRDUtoguidebracket 3. MakesuretheHRDUisfirmlyinsertedintothecorrespondingslot.Tightenthe4cornerscrews 4. tosecuretheunit InstallHRDUblankcardsinallunusedslotsintheremote.Firstinserttheblankcardintothe correspondingslot,thentightenthecaptivescrewtosecureit
"TheManufacturer'sratedoutputpowerofthisequipmentisforsinglecarrieroperation.For situationswhenmultiplecarriersignalsarepresent,theratingwouldhavetobereducedby3.5 dB, especially where the output signal is reradiated and can cause interference to adjacent bandusers.Thispowerreductionistobebymeansofinputpowerorgainreductionandnot byanattenuatorattheoutputofthedevice."
RSSGEN,Sec.7.1.2(transmitters) UnderIndustryCanadaregulations,thisradiotransmittermayonlyoperateusinganantenna ofatypeandmaximum(orlesser)gainapprovedforthetransmitterbyIndustryCanada.To reducepotentialradiointerferencetootherusers,theantennatypeanditsgainshouldbeso chosenthattheequivalentisotropicallyradiatedpower(e.i.r.p.)isnotmorethanthat necessaryforsuccessfulcommunication. ConformmentlarglementationdIndustrieCanada,leprsentmetteurradiopeut fonctionneravecuneantenneduntypeetdungainmaximal(ouinfrieur)approuvpour lmetteurparIndustrieCanada.Danslebutderduirelesrisquesdebrouillageradiolectrique lintentiondesautresutilisateurs,ilfautchoisirletypedantenneetsongaindesortequela puissanceisotroperayonnequivalente(p.i.r.e.)nedpassepaslintensitncessaire ltablissementdunecommunicationsatisfaisante. Confidential & Proprietary 43/44 RSSGEN,Sec.7.1.2(detachableantennas) Thisradiotransmitter(identifythedevicebycertificationnumber,ormodelnumberif CategoryII)hasbeenapprovedbyIndustryCanadatooperatewiththeantennatypeslisted belowwiththemaximumpermissiblegainandrequiredantennaimpedanceforeachantenna typeindicated.Antennatypesnotincludedinthislist,havingagaingreaterthanthemaximum gainindicatedforthattype,arestrictlyprohibitedforusewiththisdevice. Leprsentmetteurradio(identifierledispositifparsonnumrodecertificationouson numrodemodlesilfaitpartiedumatrieldecatgorieI)atapprouvparIndustrie Canadapourfonctionneraveclestypesdantennenumrscidessousetayantungain admissiblemaximaletlimpdancerequisepourchaquetypedantenne.Lestypesdantenne noninclusdanscetteliste,oudontlegainestsuprieuraugainmaximalindiqu,sont strictementinterditspourlexploitationdelmetteur. RFRadiationExposure ThisequipmentcomplieswithRFradiationexposurelimitssetforthforanuncontrolled environment.Thisequipmentshouldbeinstalledandoperatedwithaminimumdistanceof 500cmbetweentheradiatorandyourbody.Thistransmittermustnotbecolocatedor operatinginconjunctionwithanyotherantennaortransmitter.RFexposurewillbeaddressed attimeofinstallationandtheuseofhighergainantennasmayrequirelargerseparation distances. RSS102RFExposure Lantenne(oulesantennes)doittreinstalledefaonmaintenirtoutinstantunedistance minimumdeaumoins500cmentrelasourcederadiation(lantenne)ettoutepersonne physique.Cetappareilnedoitpastreinstallouutilisenconjonctionavecuneautreantenne oumetteur. Confidential & Proprietary 44/44