Nokia Solutions and Networks T5CS1 Cellular CDMA Base Station User Manual IHET5CS1 GLI2 2 of 4

Nokia Solutions and Networks Cellular CDMA Base Station IHET5CS1 GLI2 2 of 4

IHET5CS1 GLI2 User Manual 2 of 4

Using CDMA LMF – continued08/01/2001 3-231X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYBTS Login from the GUI EnvironmentFollow the procedures in Table 3-7 to log into a BTS when using theGUI environment.Table 3-7: BTS GUI Login ProcedurenStep Action1Start the CDMA LMF GUI environment by double–clicking on the WinLMF desktop icon (if theLMF is not running).NOTEIf a warning similar to the following is displayed, select No, shut down other LMF sessions whichmay be running, and start the CDMA LMF GUI environment again:The CLI handler is already running.This may cause conflicts with the LMF.Are you sure you want to start the application?Yes No2Click on Login tab (if not displayed).3Double click on CDMA (in the Available Base Stations pick list).4Click on the desired BTS number.5Click on the Network Login tab (if not already in the forefront).6Enter correct IP address (normally 128.0.0.2) for a field BTS, if not correctly displayed in the IPAddress box.7Type in the correct IP Port number (normally 9216) if not correctly displayed in the IP Port box.8Change the Multi-channel Preselector from the Multi-channel Preselector pick list (normallyMPC) to a device corresponding to your BTS configuration, if required.9Use a Tower Top Amplifier is not applicable to the SC4812ET Lite.10 Click on Login. (A BTS tab with the BTS is displayed.)NOTESIf you attempt to log into a BTS that is already logged on, all devices will be gray.SThere may be instances where the BTS initiates a log out due to a system error (i.e., a devicefailure).SIf the MGLI is OOS–ROM (blue), it must be downloaded with RAM code before other devicescan be seen.SIf the MGLI is OOS–RAM (yellow), it must be enabled before other installed devices can beseen. 3
Using CDMA LMF – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-24BTS Login from the CLI EnvironmentFollow the procedures in Table 3-8 to log into a BTS when using theCLI environment.If the CLI and GUI environments are to be used at thesame time, the GUI must be started first and BTS loginmust be performed from the GUI. Refer to Table 3-7 tostart the GUI environment and log into a BTS.IMPORTANT*Table 3-8: BTS CLI Login ProcedurenStep Action1 Double–click the WinLMF CLI desktop icon (if the LMF CLI environment is not alreadyrunning).NOTEIf a BTS was logged into under a GUI session before the CLI environment was started, the CLIsession will be logged into the same BTS, and step 2 is not required.2At the /wlmf prompt, enter the following command:login bts–<bts#>  host=<host>  port=<port>where:host = MGLI card IP address (defaults to address last logged into for this BTS or 128.0.0.2 if thisis first login to this BTS)port = IP port of the BTS (defaults to port last logged into for this BTS or 9216 if this is first loginto this BTS)A response similar to the following will be displayed:LMF>13:08:18.882 Command Received and Accepted             COMMAND=login bts–3313:08:18.882 Command In Progress13:08:21.275 Command Successfully Completed             REASON_CODE=”No Reason” Logging Out Logging out of a BTS is accomplished differently for the GUI and CLIoperating environments.3
Using CDMA LMF – continued08/01/2001 3-251X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYThe GUI and CLI environments use the same connection toa BTS. If a BTS is logged into in both the GUI and CLIenvironments at the same time, logging out of the BTS ineither environment will log out of it for both. When eithera login or logout is performed in the CLI window, there isno GUI indication that the login or logout has occurred.IMPORTANT*Logging Out of a BTS from the GUI EnvironmentFollow the procedure in Table 3-9 to logout of a BTS when using theGUI environment.Table 3-9: BTS GUI Logout ProcedurenStep Action1Click on Select on the BTS tab menu bar.2Click the Logout item in the pulldown menu (a Confirm Logout pop-up message will appear).3Click on Yes (or press the Enter key) to confirm logout. The Login tab will appear.NOTEIf a logout was previously performed on the BTS from a CLI window running at the same time asthe GUI, a Logout Error popup message will appear stating the system could not log out of theBTS. When this occurs, the GUI must be exited and restarted before it can be used for furtheroperations.4If a Logout Error popup message appears stating that the system could not log out of the BaseStation because the given BTS is not logged in, click OK and proceed to step 5.5 Select File > Exit in the window menu bar, click Yes in the Confirm Logout popup, and clickYes in the Logout Error popup which appears again.6If further work is to be done in the GUI, restart it.NOTESThe Select menu on the BTS tab will only log you out of the displayed BTS.SYou can also log out of all BTS sessions and exit CDMA LMF by clicking on the File selectionin the menu bar and selecting Exit from the File menu list. A Confirm Logout pop–upmessage will appear. 3
Using CDMA LMF – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-26Logging Out of a BTS from the CLI EnvironmentFollow the procedure in Table 3-10 to logout of a BTS when using theCLI environment.Table 3-10: BTS CLI Logout ProcedurenStep Action* IMPORTANTIf the BTS is also logged into from a GUI running at the same time and further work must be donewith it in the GUI, proceed to step 2.1Logout of a BTS by entering the following command:logout bts–<bts#>A response similar to the following will be displayed:LMF>13:24:51.028 Command Received and Accepted             COMMAND=logout bts–3313:24:51.028 Command In Progress13:24:52.04  Command Successfully Completed             REASON_CODE=”No Reason”2If desired, close the CLI interface by entering the following command:exitA response similar to the following will be displayed before the window closes:Killing background processes.... Establishing an MMICommunication SessionFor those procedures which require MMI communication between theCDMA LMF and BTS FRUs, follow the procedures in Table 3-11 toinitiate the communication session.Figure 3-11 illustrates common equipment connections for the CDMALMF computer. For specific connection locations on FRUs, refer to theillustration accompanying the procedures which require the MMIcommunication session.Table 3-11: Establishing MMI CommunicationStep Action1Connect the CDMA LMF computer to the equipment as detailed in the applicable procedure whichrequires the MMI communication session.2Start the named HyperTerminal connection for MMI sessions by double clicking on its Windowsdesktop shortcut.. . . continued on next page3
Using CDMA LMF – continued08/01/2001 3-271X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-11: Establishing MMI CommunicationStep ActionNOTEIf a Windows desktop shortcut was not created for the MMI connection, access the connection fromthe Windows Start menu by selecting:Programs > Accessories > Hyperterminal > HyperTerminal > <Named HyperTerminalConnection (e.g., MMI Session)>3Once the connection window opens, establish MMI communication with the BTS FRU by pressingthe CDMA LMF computer Enter key until the prompt identified in the applicable procedure isobtained. NULL MODEMBOARD(TRN9666A)8–PIN TO 10–PINRS–232 CABLE (P/N30–09786R01)RS–232 CABLE8–PINCDMA LMFCOMPUTERTo FRU MMI portDB9–TO–DB25ADAPTERFigure 3-11: CDMA LMF Computer Common MMI ConnectionsCOM1ORCOM2Online HelpTask oriented online help is available in CDMA LMF by clicking onHelp in the menu bar.3
Pinging the ProcessorsPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-28Pinging the BTSFor proper operation, the integrity of the Ethernet LAN A and B linksmust be be verified. Figure 3-12 represents a typical BTS Ethernetconfiguration for the SC4812ET Lite with an expansion frame. Thedrawing depicts cabling and termination for both the A and B LANs.Ping is a program that sends request packets to the LAN networkmodules to get a response from the specified “target” module.Follow the steps in Table 3-12 to ping each processor (on both LAN Aand LAN B) and verify LAN redundancy is working properly.Always wear a conductive, high impedance wrist strapwhile handling any circuit card/module to prevent damageby Electro–Static Discharge (ESD).CAUTIONSIGNALGROUNDSIGNALGROUND50ΩINSC4812ET Lite(MASTER) SC4812ET Lite(EXPANSION)SIGNALGROUNDFigure 3-12:  BTS Ethernet LAN Interconnect Diagram50Ω50ΩSC4812ETL0013–4SIGNALGROUND50ΩSIGNALGROUNDFRAME GROUNDTRIAXTERMINATORTRIAXTERMINATORTRIAXTERMINATORTRIAXTERMINATORINOUTOUT3
Pinging the Processors – continued08/01/2001 3-291X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYThe Ethernet LAN A and B cables and/or terminationsmust be installed on each frame/enclosure external LANconnector before performing this test. All other processorboard LAN connections are made through the backplanes.IMPORTANT*Table 3-12: Pinging the ProcessorsStep Action1If this is a first–time communication with a newly–installed frame or a GLI2 which has been replaced,perform the procedure in Table 6-3 and then return to step 2.2Be sure uncabled LAN A and B IN and OUT connectors in the power entry compartment (rear offrame – Figure 3-9 and Figure 3-12) are terminated with 50 Ω loads.3If it has not already been done, interface the LMF computer to the BTS (refer to Table 3-6 andFigure 3-10.)4If it has not already been done, start a GUI LMF session and log into the BTS ( refer to Table 3-7).5In the power entry compartment, remove the 50Ω termination on the frame LAN B IN connector. TheCDMA LMF session should remain active. Replace the 50Ω terminator on the BTS frame LAN B INconnector.6From the Windows desktop, click the Start button and select Run.7In the Open box, type ping and the GLI2 IP address (for example, ping 128.0.0.2).NOTE128.0.0.2 is the default IP address for the GLI2 in field BTS units.8Click on OK.9If the targeted module responds,  a DOS window will appear with a display similar to the following:Reply from 128.0.0.2: bytes=32 time=3ms TTL=255SIf the device responds, proceed to step 18.If there is no response the following is displayed:Request timed outSIf the GLI2 fails to respond, it should be reset and re–pinged. If it still fails to respond, typicalproblems would be: failure of the CDMA LMF to login, shorted BNC to inter-frame cabling, opencables, crossed A and B link cables, or the GLI2 itself.10 Logout of the BTS as described in Table 3-9, exit from the CDMA LMF program, and restart theWindows operating system on the CDMA LMF computer.11 Restart the CDMA LMF GUI program as described in LMF Help function, and log into the BTS asdescribed in Table 3-7.12 Perform steps 6 through 9 again.SIf the device responds, proceed to step 18.If there is still no response,proceed to step 13.. . . continued on next page3
Pinging the Processors – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-30Table 3-12: Pinging the ProcessorsStep Action13 If ping was unsuccessful after restarting the CDMA LMF computer, press the MGLI front panel resetpushbutton and perform steps 6 through 9 again.14 NOTERefer to Table 6-1 if ping was unsuccessful after resetting the MGLI.15 After the BTS has been successfully pinged, be sure the 50Ω termination was replaced on the BTSframe LAN B IN connector in the power entry compartment (Figure 3-12). Disconnect the LMF cablefrom the LAN shelf LAN A connector, and connect it to LAN B (right–hand connector) using aBNC–female–to–BNC–female adapter (refer to Figure 3-10).16 In the power entry compartment, remove the 50Ω termination on the BTS frame LAN A IN connector.17 Repeat steps 5 through 8 using LAN B.18 After the BTS has been successfully pinged on the secondary LAN, replace the 50Ω termination onthe frame LAN A IN connector in the power entry compartment.19 Disconnect the LMF cable from the LAN shelf LAN B and connect it to LAN A using aBNC-female-to-BNC-female adapter.20 Remove and replace the 50Ω termination on the LAN B IN connector to force the MGLI to switch toprimary LAN A.21 Repeat steps 5 through 8 to ensure proper primary LAN operation. 3
Download the BTS08/01/2001 3-311X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYOverviewBefore a BTS can operate, each equipped device must contain deviceinitialization (ROM) code. ROM code is loaded in all devices duringmanufacture or factory repair. Device application (RAM) code and datamust be downloaded to each equipped device by the user before the BTScan be made fully functional for the site where it is installed.ROM CodeDownloading ROM code to BTS devices from the CDMA LMF is NOTroutine maintenance or a normal part of the optimization process. It isonly done in unusual situations where the resident ROM code in thedevice does not match the release level of the site operating softwareAND the CBSC can not communicate with the BTS to perform thedownload. An example would be a BTS loaded with Release 9.2software where a GLI loaded with Release 2.8.1 ROM code must beinstalled to replace a malfunctioning MGLI.Before ROM code can be downloaded from the CDMA LMF, the correctROM code file for each device to be loaded must exist on the LMFcomputer. ROM code must be manually selected for download.ROM code can be downloaded to a device that is in any state. After thedownload is started, the device being downloaded will change toOOS–ROM (blue). The device will remain OOS–ROM (blue) when thedownload is completed. The same Revision–level RAM code must thenbe downloaded to the device. For example, if Release 2.9.2.1.1 ROMcode is downloaded, Release 2.9.2.1.1 RAM code must be downloaded.Procedures to load ROM code are located in Appendix G.RAM CodeBefore RAM code can be downloaded from the CDMA LMF, the correctRAM code file for each device must exist on the LMF computer. RAMcode can be automatically or manually selected depending on the Devicemenu item chosen and where the RAM code file for the device is storedin the CDMA LMF file structure. The RAM code file will be selectedautomatically if the file is in the \lmf\cdma\loads\n.n.n.n\code folder(where n.n.n.n is the version number of the download code that matchesthe “NextLoad” parameter of the CDF file). The RAM code file in thecode folder must have the correct hardware bin number.RAM code can be downloaded to a device that is in any state. After thedownload is started, the device being loaded will change to OOS-ROM(blue). When the download is completed successfully, the device willchange to OOS-RAM (yellow). When code is downloaded to an MGLIor GLI, the CDMA LMF automatically also downloads data and thenenables the MGLI. When enabled, the MGLI will change to INS (green).For non–GLI devices, data must be downloaded after RAM code isdownloaded. To download data, the device state must be OOS–RAM(yellow).3
Download the BTS – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-32RAM code downloading requires a few minutes. After the downloadstarts, the non–GLI device being loaded changes to OOS–ROM (blue). Ifthe download is completed successfully, the non–GLI device changes toOOS–RAM (yellow).The devices to be loaded with RAM code and data are:SMaster Group Line Interface (MGLI2)SRedundant GLI (GLI2)SClock Syncronization Module (CSM) (Only if new revision code mustbe loaded)SMulti Channel CDMA (MCC24 or MCC8E) cardSBroadband Transceiver (BBX2)SRFDS Test Subscriber Interface Card (TSIC), if equippedThe MGLI must be successfully downloaded with RAMcode and data, and in INS (green) status beforedownloading any other device. The RAM code downloadprocess for an MGLI automatically downloads data andthen enables the MGLI.IMPORTANT*Verify GLI ROM Code LoadsDevices should not be loaded with RAM code which is for a differentsystem release than the ROM code with which they are loaded. Beforedownloading RAM code and data to the processor cards, follow theprocedure in Table 3-13 to verify the GLI devices are loaded with thecorrect ROM code for the system release used by the BSS.Table 3-13: Verify GLI ROM Code LoadsStep Action1If it has not already been done, start a GUI LMF session and log into the BTS ( refer to Table 3-7).2Select all GLI devices by clicking on them, and select Device > Status from the menu bar.3In the status report window which opens, note the number in the ROM Ver column for each GLI2.SThe  system release number will be the first two decimal divisions of the number; for example, thenumber 2.15.0.0.3 would be for System Release 2.15, and 2.9.2.2.34 would be for System Release2.9.4If the ROM code loaded in the GLIs is not for the correct system release, log out of the BTS,disconnect the CDMA LMF computer, reconnect the span lines as described in Table 5-7, and have theCBSC download the correct ROM code version to the BTS devices.5When the GLIs have the correct ROM load for the system release being used, be sure the span linesare disabled as outlined in Table 3-4 and proceed to downloading RAM code and data. 3
Download the BTS – continued08/01/2001 3-331X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYDownload RAM Code and Datato MGLI and GLI Follow the steps outlined in Table 3-14 to download the RAM code anddata to the MGLI and other installed GLI devices.PrerequisitesSPrior to performing these procedures, ensure a code file exists for eachof the devices to be loaded.SThe CDMA LMF computer is connected to the BTS (refer toTable 3-6), and is logged in using the GUI environment (refer toTable 3-7).Table 3-14: Download and Enable MGLI and GLI DevicesStep Action1From the Util pull down menu, select Tools, then Update NextLoad.2Select the correct code version for the system release being used and click Save.3Download code to the MGLI by clicking on the device.4From the Device pull down menu, select Download Code.A status report is displayed confirming change in the device(s) status. Click OK to close the statuswindow. (The MGLI will automatically be downloaded with data and enabled.)5Once the MGLI is enabled, load and enable additional installed GLIs by clicking on the devices andrepeating step 4.6 Click OK to close the status window for the additional GLI devices. Download RAM Code and Datato Non–GLI DevicesDownloads to non–GLI devices can be performed individually for eachdevice or all installed devices can be downloaded with one action. RAMcode and data are downloaded to non–GLI devices in separate steps.CSM devices are RAM code–loaded at the factory. RAMcode is downloaded to CSMs only if a newer softwareversion needs to be loaded.IMPORTANT*When downloading to multiple devices, the download mayfail for some of the devices (a time–out occurs). Thesedevices can be loaded individually after completing themultiple download.NOTEFollow the steps in Table 3-15 to download RAM code and data tonon–GLI devices.3
Download the BTS – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-34Table 3-15: Download RAM Code and Data to Non–GLI DevicesStep Action1Select the target CSM, MCC, and BBX device(s).2From the Device pull down menu, select Download Code.A status report is displayed that shows the results of the download for each selected device.3 Click OK to close the status report window when downloading is completed.NOTEAfter a BBX, CSM, or MCC device is successfully loaded with RAM code and has changed to theOOS–RAM state (yellow), the status LED should be rapidly flashing GREEN.4To download data, select the target CSM and MCC device(s).5From the Device pull down menu, select Download Data.A status report is displayed that shows the results of the download for each selected device.6 Click OK to close the status report window when downloading is completed. Select CSM Clock SourceA CSM can have three different clock sources. The Select CSM Sourcefunction can be used to select the clock source for each of the threeinputs. This function is only used if the clock source for a CSM needs tobe changed. The Clock Source function provides the following clocksource options.SLocal GPSSRemote GPSSHSO (only for source 2 & 3)SLFR (only for source 2 & 3)S10 MHz (only for source 2 & 3)SNONE (only for source 2 & 3)PrerequisitesMGLI=INS_ACT (green), CSM= OOS_RAM (yellow) or INS_ACT(green)Table 3-16: Select CSM Clock SourceStep Action1Select the applicable CSM(s).2Click on the Device menu.3Click on the Clock Source menu item.4Click on the Select menu item. A clock source selection window is displayed.5Select the applicable clock source in the Clock Reference Source pick lists. Uncheck the relatedcheck box if you do not want the displayed pick list item to be used.. . . continued on next page3
Download the BTS – continued08/01/2001 3-351X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-16: Select CSM Clock SourceStep Action6Click on the OK button. A status report window is displayed showing the results of the selectionaction.7Click on the OK button to close the status report window. Enable CSMsEach BTS CSM system features two CSM boards per site. In a typicaloperation, the primary CSM locks its Digital Phase Locked Loop(DPLL) circuits to GPS signals. These signals are generated by either anon–board GPS module (RF–GPS) or a remote GPS receiver (R–GPS).The GPS receiver interfaced to CSM 1 is used as the primary timingreference and synchronizes the entire cellular system. CSM 2 providesclock syncronization back–up, but does not have a GPS receiver.The BTS may be equipped with a LORAN–C Low Frequency Receiver(LFR), a High Stability Oscillator (HSO), or external 10 MHz Rubidiumsource which the CSM can use as a secondary timing reference. In allcases, the CSM monitors and determines what reference to use at a giventime.For RF–GPS, verify the CSM configured with the GPSreceiver “daughter board” is installed in the frame’s CSM 1slot before continuing.IMPORTANT*Follow the steps outlined in Table 3-17 to enable the CSMs installed inthe SCCP shelves.Table 3-17: Enable CSMsStep Action1NOTEIf equipped with two CSMs, enable CSM–2 first.Click on the target CSM.From the Device pull down, select Enable.2A status report is displayed confirming change in the device(s) status.Click OK to close the status report window.NOTESCSM 1 houses the GPS receiver. The enable sequence can take up to one hour (see below).SFAIL may be shown in the status report table for enable action. If Waiting For Phase Lock is shownin the Description field, the CSM changes to the Enabled state after phase lock is achieved.. . . continued on next page3
Download the BTS – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-36Table 3-17: Enable CSMsStep Action* IMPORTANTThe GPS satellite system satellites are not in a geosynchronous orbit and are maintained and operatedby the United States Department of Defense (DOD). The DOD periodically alters satellite orbits;therefore, satellite trajectories are subject to change. A GPS receiver that is INS contains an “almanac”that is updated periodically to take these changes into account.If a GPS receiver has not been updated for a number of weeks, it may take up to an hour for the GPSreceiver “almanac” to be updated.Once updated, the GPS receiver must track at least four satellites and obtain (hold) a 3–D position fixfor a minimum of 45 seconds before the CSM will come in service. (In some cases, the GPS receiverneeds to track only one satellite, depending on accuracy mode set during the data load).3NOTESIf equipped with two CSMs, CSM–1 should be bright green (INS–ACT) and CSM–2 should bedark green(INS–STB)SIf more than an hour has passed, refer to CSM Verification, see Figure 3-13 and Table 3-20 todetermine the cause.After the CSMs have been successfully enabled, be sure the PWR/ALM LEDs are steady green(alternating green/red indicates the card is in an alarm state). Enable MCCsThis procedure configures the MCC and sets the “tx fine adjust”parameter. The “tx fine adjust” parameter is not a transmit gain setting,but a timing adjustment that compensates for the processing delay in theBTS (approximately 3 mS).Follow the steps outlined in Table 3-18 to enable the MCCs installed inthe SCCP shelves.The MGLI and CSM must be downloaded and enabled,prior to downloading and enabling the MCC.IMPORTANT*Table 3-18: Enable MCCsStep Action1Click on the target MCC(s) or from the Select pull down menu choose All MCCs.2From the Device menu, select EnableA status report is displayed confirming change in the device(s) status.3 Click OK to close the status report window. 3
CSM System Time – GPS & LFR/HSO Verification08/01/2001 3-371X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYClock SynchronizationManager (CSM) System TimeThe primary function of the Clock Synchronization Manager (CSM)cards is to maintain CDMA system time. The CSM card in SCCP shelfslot CSM–1 is the primary timing source while the card in slot CSM–2provides redundancy. The second generation CSM card (CSM2) isrequired when using the remote GPS receiver (R–GPS). R–GPS uses aGPS receiver in the antenna head that has a digital output to the CSM2card. A CSM2 card can have a local GPS receiver daughter card tosupport an RF–GPS signal.Each CSM2 card features a temperature–stablized, crystal oscillator thatprovides 19.6608 MHz clock, even second pulse, and 3 MHz referencesignals to the synchronization source selected from the following (referto Table 3-20 for source selection/verification procedures):SGPS: local/RF–GPS or remote/R–GPSSLORAN–C Low Frequency Receiver (LFR) or High StabilityOscillator (HSO)SExternal reference oscillator sourcesCDMA Clock Distribution Cards (CCDs) buffer and distributeeven–second reference and 19.6608 MHz clock signals from the CSMcards. CCD 1 is married to the card in slot CSM–1, and CCD 2 ismarried to the card in slot CSM–2.The BTS switches between the primary and redundant units (card slotsCSM–1 and CSM–2, respectively) upon failure or command. A failurein CSM–1 or CCD 1 will cause the system to switch to theCSM–2–CCD 2 redundant card pair.Fault management has the capability of switching between the GPSsynchronization source and the LFR/HSO backup source in the event ofa GPS receiver failure in CSM–1. During normal operation, the card inCSM–1 selects GPS as the primary timing source (Table 3-20). Thesource selection can also be overridden via the CDMA LMF or by thesystem software.In addition to providing GPS synchronization to the LFR or HSOback–up sources, synchronization between the primary and redundantCSM–CCD pairs increases reliability.Low Frequency Receiver/High Stability OscillatorThe CSM performs the overall configuration and status monitoringfunctions of the LFR/HSO. In the event of GPS failure, the LFR/HSO iscapable of maintaining synchronization initially established by the GPSreference signal.The LFR requires an active external antenna to receive LORAN–C RFsignals. Timing pulses are derived from this signal, which is3
CSM System Time – GPS & LFR/HSO Verification – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-38synchronized to Universal Time Coordinates (UTC) and GPS time. TheLFR can maintain system time indefinately after initial GPS lock.The HSO is a high stability 10 MHz oscillator with the necessaryinterface to the CSMs. The HSO is typically installed in thosegeographical areas not covered by the LORAN–C system. Since theHSO is a free–standing oscillator, system time can only be maintainedfor 24 hours after 24 hours of GPS lock.Upgrades and Expansions: LFR2/HSO2/HSOXLFR2/HSO2 (second generation cards) both export a timing signal to theexpansion or logical BTS frames. The associated expansion or logicalframes require an HSO–expansion (HSOX) whether the starter frame hasan LFR2 or an HSO2. The HSOX accepts input from the starter frameand interfaces with the CSM cards in the expansion frame. LFR andLFR2 use the same source code in source selection (Table 3-20). HSO,HSO2, and HSOX use the same source code in source selection(Table 3-20).Allow the base site and test equipment to warm up for60 minutes after any interruption in oscillator power. CSMcard warm-up allows the oscillator oven temperature andoscillator frequency to stabilize prior to test. Testequipment warm-up allows the Rubidium standardtimebase to stabilize in frequency before any measurementsare made.NOTE3
CSM System Time – GPS & LFR/HSO Verification – continued08/01/2001 3-391X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYCSM Frequency VerificationThe objective of this procedure is the initial verification of the ClockSynchronization Module (CSM) cards before performing the RF pathverification tests.Test Equipment Setup (GPS & LFR/HSO Verification)Follow the steps outlined in Table 3-19 to set up test equipment.Table 3-19: Test Equipment Setup (GPS & LFR/HSO Verification)Step Action1a For local GPS (RF–GPS): Verify a CSM card with a GPS receiver is installed in the primary CSMslot, CSM–1, and that CSM–1 is INS.NOTEThis is verified by checking the card ejectors for kit number SGLN1145 on the card in slot 1.1b For Remote GPS (RGPS): Verify a CSM2 card is installed in primary slot CSM–1 and that CSM–1 isINS.NOTEThis is verified by checking the card ejectors for kit number SGLN4132CC or subsequent.2Remove CSM–2 (if installed) and connect a serial cable from the LMF COM 1 port (via null modemcard) to the MMI port on CSM–1 (see Figure 3-13).3Reinstall CSM–2.4Start an MMI communication session with CSM–1 by using the Windows desktop shortcut icon (seeTable 3-11) .5When the terminal screen appears press the Enter key until the CSM> prompt appears.In the power entry compartment, connect the GPS antennato the RF GPS connector ONLY. Damage to the GPSantenna and/or receiver can result if the GPS antenna isinadvertently connected to any other RF connector.CAUTION3
CSM System Time – GPS & LFR/HSO Verification – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-40NULL MODEMBOARD(TRN9666A)RS–232 SERIALMODEM CABLEDB9–TO–DB25ADAPTERCOM1LMFNOTEBOOKFigure 3-13: CSM MMI Terminal ConnectionFW00372CSM card shownremoved from frame19.6 MHZ TESTPOINT REFERENCE(NOTE 1)EVEN SECONDTICK TEST POINTREFERENCEGPS RECEIVERANTENNA INPUTGPS RECEIVERMMI SERIALPORTANTENNA COAXCABLEREFERENCEOSCILLATOR9–PIN TO 9–PINRS–232 CABLENOTES:1. One LED on each CSM:Green = IN–SERVICE ACTIVEFast Flashing Green = OOS–RAMRed = Fault ConditionFlashing Green & Red = FaultGPS Initialization/VerificationPrerequisitesEnsure the following prerequisites have been met before proceeding:SThe primary CSM and HSO (if equipped) has been warmed up for atleast 15 minutes.SThe CDMA LMF computer is connected to the MMI port of theprimary CSM as shown in Figure 3-13.SA HyperTerminal session has been started (Table 3-11), and the CSM>prompt is present in the HyperTerminal window (Table 3-19).Follow the steps outlined in Table 3-20 to initialize and verify properGPS receiver functioning.3
CSM System Time – GPS & LFR/HSO Verification – continued08/01/2001 3-411X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-20: GPS Initialization/VerificationStep Action1To verify that Clock alarms (0000), Dpll is locked and has a reference source, andGPS self test passed messages are displayed within the report, issue the following MMIcommandbstatus–The system will display a response similiar to the following:CSM Status INS:ACTIVE Slot A Clock MASTER.BDC_MAP:000, This CSM’s BDC Map:0000Clock Alarms (0000):DPLL is locked and has a reference source.GPS receiver self test result: passedTime since reset 0:33:11, time since power on: 0:33:112Enter the following command at the CSM> prompt to display the current status of the Loran and GPSreceivers:sources–When equipped with LFR, the system will generate a response similar to the following:N Source Name Type TO Good Status Last Phase Target Phase Valid–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––0LocalGPS Primary 4 YES Good 00Yes1 LFR CHA Secondary 4 YES Good –2013177 –2013177 Yes2 Not UsedCurrent reference source number: 0–When equipped with HSO, the system will generate a response similar to the following:Num Source Name Type TO Good Status Last Phase Target Phase Valid––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––0 Local GPS Primary 4 Yes Good 3 0 Yes1HSO Backup 4 No N/A timed–out* Timed–out* No*NOTE “Timed–out” should only be displayed while the HSO is warming up. “Not–Present” or“Faulty” should not be displayed. If the HSO does not appear as one of the sources, then configure theHSO as a back–up source by entering the following command at the CSM> prompt:ss 1 12After a maximum of 15 minutes, the Rubidium oscillator should reach operational temperature and theLED on the HSO should now have changed from red to green. After the HSO front panel LED haschanged to green, enter sources <cr> at the CSM> prompt. Verify that the HSO is now a valid sourceby confirming that the bold text below matches the response of the “sources” command.The HSO should be valid within one (1) minute, assuming the DPLL is locked and the HSO rubidiumoscillator is fully warmed.Num Source Name Type TO Good Status Last Phase Target Phase Valid––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––0 Local GPS Primary 4 Yes Good 3 0 Yes1HSO Backup 4 Yes N/A xxxxxxxxxx xxxxxxxxxx Yes. . . continued on next page3
CSM System Time – GPS & LFR/HSO Verification – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-42Table 3-20: GPS Initialization/VerificationStep Action3HSO information (underlined text above, verified from left to right) is usually the #1 reference source.If this is not the case, have the OMCR determine the correct BTS timing source has been identified inthe database by entering the display bts csmgen command and correct as required using the editcsm csmgen refsrc command.* IMPORTANTIf any of the above areas fail, verify:–If LED is RED, verify that HSO had been powered up for at least 5 minutes. After oscillatortemperature is stable, LED should go GREEN Wait for this to occur before continuing !–If “timed out” is displayed in the Last Phase column, suspect the HSO output buffer or oscillatoris defective–Verify the HSO is FULLY SEATED and LOCKED to prevent any possible card warpage4Verify the following GPS information (underlined text above):–GPS information is usually the 0 reference source.–At least one Primary source must indicate “Status = good” and “Valid = yes” to bring site up.. . . continued on next page3
CSM System Time – GPS & LFR/HSO Verification – continued08/01/2001 3-431X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-20: GPS Initialization/VerificationStep Action5Enter the following command at the CSM> prompt to verify that the GPS receiver is in tracking mode.gstatus–Observe the following typical response:24:06:08 GPS Receiver Control Task State: tracking satellites.24:06:08 Time since last valid fix: 0 seconds.24:06:08 24:06:08 Recent Change Data:24:06:08 Antenna cable delay 0 ns.24:06:08 Initial position: lat 117650000 msec, lon –350258000 msec, height 0 cm (GPS)24:06:08 Initial position accuracy (0): estimated.24:06:08 24:06:08 GPS Receiver Status:24:06:08 Position hold:  lat 118245548 msec, lon –350249750 msec, height 20270 cm24:06:08 Current position: lat 118245548 msec, lon –350249750 msec, height 20270 cm(GPS)24:06:08 8 satellites tracked, receiving 8 satellites, 8 satellites visible.24:06:08 Current Dilution of Precision (PDOP or HDOP): 0.24:06:08 Date & Time: 1998:01:13:21:36:1124:06:08 GPS Receiver Status Byte: 0x0824:06:08 Chan:0, SVID: 16, Mode: 8, RSSI: 148, Status: 0xa824:06:08 Chan:1, SVID: 29, Mode: 8, RSSI: 132, Status: 0xa824:06:08 Chan:2, SVID: 18, Mode: 8, RSSI: 121, Status: 0xa824:06:08 Chan:3, SVID: 14, Mode: 8, RSSI: 110, Status: 0xa824:06:08 Chan:4, SVID: 25, Mode: 8, RSSI:  83, Status: 0xa824:06:08 Chan:5, SVID:  3, Mode: 8, RSSI:  49, Status: 0xa824:06:08 Chan:6, SVID: 19, Mode: 8, RSSI: 115, Status: 0xa824:06:08 Chan:7, SVID: 22, Mode: 8, RSSI: 122, Status: 0xa824:06:08 24:06:08 GPS Receiver Identification:24:06:08 COPYRIGHT 1991–1996 MOTOROLA INC. 24:06:08 SFTW P/N # 98–P36830P      24:06:08 SOFTWARE VER # 8           24:06:08 SOFTWARE REV # 8           24:06:08 SOFTWARE DATE  6 AUG 1996 24:06:08 MODEL #    B3121P1115      24:06:08 HDWR P/N # _               24:06:08 SERIAL #   SSG0217769      24:06:08 MANUFACTUR DATE 6B07       24:06:08 OPTIONS LIST    IB        24:06:08 The receiver has 8 channels and is equipped with TRAIM.6Verify the following GPS information (shown above in underlined text):–At least 4 satellites are tracked, and 4 satellites are visible.–GPS Receiver Control Task State is “tracking satellites”. Do not continue until this occurs!–Dilution of Precision indication is not more that 30.Record the current position base site latitude, longitude, height and height reference (height referenceto Mean Sea Level (MSL) or GPS height (GPS). (GPS = 0   MSL = 1).. . . continued on next page3
CSM System Time – GPS & LFR/HSO Verification – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-44Table 3-20: GPS Initialization/VerificationStep Action7If steps 1 through 6 pass, the GPS is good.* IMPORTANTIf any of the above mentioned areas fail, verify that:–If Initial position accuracy is “estimated” (typical), at least 4 satellites must be tracked andvisible (1 satellite must be tracked and visible if actual lat, log, and height data for this site hasbeen entered into CDF file).–If Initial position accuracy is “surveyed,” position data currently in the CDF file is assumed to beaccurate. GPS will not automatically survey and update its position.–The GPS antenna is not obstructed or misaligned.–GPS antenna connector center conductor measureS approximately +5 Vdc with respect to theshield.–There is no more than 4.5 dB of loss between the GPS antenna OSX connector and the BTS frameGPS input.–Any lightning protection installed between GPS antenna and BTS frame is installed correctly.8Enter the following commands at the CSM> prompt to verify that the CSM is warmed up and that GPSacquisition has taken place.debug dpllp Observe the following typical response if the CSM is not warmed up (15 minutes from application ofpower) (If warmed–up proceed to step 9)CSM>DPLL Task Wait. 884 seconds left.DPLL Task Wait. 882 seconds left.DPLL Task Wait. 880 seconds left.   ...........etc.NOTEThe warm command can be issued at the MMI port used to force the CSM into warm–up, but thereference oscillator will be unstable.9Observe the following typical response if the CSM is warmed up.c:17486 off: –11, 3, 6 TK SRC:0 S0: 3 S1:–2013175,–2013175c:17486 off: –11, 3, 6 TK SRC:0 S0: 3 S1:–2013175,–2013175c:17470 off: –11, 1, 6 TK SRC:0 S0: 1 S1:–2013175,–2013175c:17486 off: –11, 3, 6 TK SRC:0 S0: 3 S1:–2013175,–2013175c:17470 off: –11, 1, 6 TK SRC:0 S0: 1 S1:–2013175,–2013175c:17470 off: –11, 1, 6 TK SRC:0 S0: 1 S1:–2013175,–201317510 Verify the following GPS information (underlined text above, from left to right):–Lower limit offset from tracked source variable is not less than –60 (equates to 3µs limit).–Upper limit offset from tracked source variable is not more than +60 (equates to 3µs limit).–TK SRC: 0 is selected, where SRC 0 = GPS.11 Enter the following commands at the CSM> prompt to exit the debug mode display.debug  dpllp 3
CSM System Time – GPS & LFR/HSO Verification – continued08/01/2001 3-451X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYLORAN–CInitialization/VerificationTable 3-21: LORAN–C Initialization/VerificationStep Action Note1At the CSM> prompt, enter lstatus <cr> to verify that the LFR is in trackingmode. A typical response is:CSM> lstatus <cr>LFR St ti St tLFR Station Status:Clock coherence: 512 >5930M 51/60 dB 0 S/N Flag:5930X 52/64 dn –1 S/N Flag:5990 47/55 dB –6 S/N Flag:7980M 62/66 dB 10 S/N FlThis must be greaterthan 100 before LFRbecomes a valid source.7980M 62/66 dB 10 S/N Flag:7980W 65/69 dB 14 S/N Flag: . PLL Station . >7980X 48/54 dB –4 S/N Flag:7980Y 46/58 dB –8 S/N Flag:E7980Z 60/67 dB 8 S/N Flag:8290M 50/65 dB 0 S/N FlagThis shows the LFR islocked to the selectedPLL station.8290M 50/65 dB 0 S/N Flag:8290W 73/79 dB 20 S/N Flag:8290W 58/61 dB 6 S/N Flag:8290W 58/61 dB 6 S/N Flag:8970M 89/95 dB 29 S/N Flag:8970W 62/66 dB 10 S/N Flag:8970X 73/79 dB 22 S/N Flag:8970X 73/79 dB 22 S/N Flag:8970Y 73/79 dB 19 S/N Flag:8970Z 62/65 dB 10 S/N Flag:9610M 62/65 dB 10 S/N Flg9610M 62/65 dB 10 S/N Flag:9610V 58/61 dB 8 S/N Flag:9610W 47/49 dB –4S/N Flag:E9610W 47/49 dB –4 S/N Flag:E9610X 46/57 dB –5 S/N Flag:E9610Y 48/54 dB –5 S/N Flag:E9610Z 65/69 dB 12 S/N Flag9610Z 65/69 dB 12 S/N Flag:9940M 50/53 dB –1 S/N Flag:S9940W 49/56 dB –4 S/N Flag:E9940W 49/56 dB 4 S/N Flag:E9940Y 46/50 dB–10 S/N Flag:E9960M 73/79 dB 22 S/N Flag:9960W 51/60 dB 0 S/N Flag:9960W 51/60 dB 0 S/N Flag:9960X 51/63 dB –1 S/N Flag:9960Y 59/67 dB 8 S/N Flag:9960Z 89/96 dB 29 S/N Fl9960Z 89/96 dB 29 S/N Flag:LFR Task State: lfr locked to station 7980WLFR Recent Change Data:Search List: 5930 5990 7980 8290 8970 9940 9610 9960 >PLL GRI: 7980WLFR Master, reset not needed, not the reference source.CSM>This search list and PLLdata must match theconfiguration for thegeographical locationof the cell site.. . . continued on next page3
CSM System Time – GPS & LFR/HSO Verification – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-46Table 3-21: LORAN–C Initialization/VerificationStep NoteAction2Verify the following LFR information (highlighted above in boldface type):–Locate the “dot” that indicates the current phase locked station assignment (assigned by MM).–Verify that the station call letters are as specified in site documentation as well as M X Y Zassignment.–Verify the S/N ratio of the phase locked station is greater than 8.3At the CSM> prompt, enter sources <cr> to display the current status of the the LORAN receiver.–Observe the following typical response.Num Source Name Type TO Good Status Last Phase Target Phase Valid––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––0 Local GPS Primary 4 Yes Good –3 0 Yes1 LFR ch A Secondary 4 Yes Good –2013177 –2013177 Yes2 Not usedCurrent reference source number: 1*NOTE “Timed–out” should only be displayed while the LFR is warming up. “Not–Present” or“Faulty” should not be displayed. If the LFR does not appear as one of the sources, then configure theLFR as a back–up source by entering the following command at the CSM> prompt:ss 1 24LORAN LFR information (highlighted above in boldface type) is usually the #1 reference source(verified from left to right).* IMPORTANTIf any of the above mentioned areas fail, verify:–The LFR antenna is not obstructed or misaligned.–The antenna pre–amplifier power and calibration twisted pair connections are intact and < 91.4 m(300 ft) in length.–A dependable connection to suitable Earth Ground is in place.–The search list and PLL station for cellsite location are correctly configured .NOTELFR functionality should be verified using the “source” command (as shown in Step 3). Use theunderlined responses on the LFR row to validate correct LFR operation.5Close the hyperterminal window. 3
Test Equipment Setup08/01/2001 3-471X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYConnecting Test Equipment tothe BTSAll test equipment is controlled by the LMF through an IEEE–488/GPIBbus. The LMF requires each piece of test equipment to have a factory setGPIB address. If there is a communications problem between the LMFand any piece of test equipment, verify that the GPIB addresses havebeen set correctly as follows:SPower meter address should be 13SCommunications test set should be 18The following test equipment is required to perform optimization,calibration and ATP tests:SCDMA LMFSCommunications test set model supported by the CDMA LMFSPower meter model supported by the CDMA LMF (required whenusing the HP 8921A/600 and Advantest R3465 test sets)SNon–radiating transmit line termination loadSDirectional coupler and in–line attenuatorSRF cables and adaptersRefer to Table 3-22 for an overview of connections for test equipmentcurrently supported by the CDMA LMF. In addition, see the followingfigures:SFigure 3-15 and Figure 3-16 show the test set connections for TXcalibrationSFigure 3-17 and Figure 3-18 show the test set connections foroptimization/ATP testsSupported Test EquipmentOptimization and ATP testing may be performed using the following testequipment:SCyberTestSAdvantest R3465 and HP–437B or Gigatronics Power MeterSHewlett–Packard HP 8935SHewlett–Packard HP 8921 (W/CDMA and PCS Interface (1.9 GHz))and HP–437B or Gigatronics Power MeterSSpectrum Analyzer (HP8594E) – optionalSRubidium Standard Timebase – optionalTo prevent damage to the test equipment, all transmit (TX)test connections must be through a 30 dB directionalcoupler plus a 20 dB in-line attenuator for both the 800MHz and 1.9 GHz BTSs.CAUTION3
Test Equipment Set–up  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-48Test Equipment PreparationFor specific steps to prepare each type of test set and power meter toperform calibration and ATP, see Appendix F.Test Equipment ConnectionChartTable 3-22 depicts the current test equipment available meeting Motorolastandards.To identify the connection ports, locate the test equipment presentlybeing used in the TEST SETS columns, and read down the column.Where a ball appears in the column, connect one end of the test cable tothat port. Follow the horizontal line to locate the end connection(s),reading up the column to identify the appropriate equipment/BTS port.Table 3-22: Test Equipment SetupTEST SETS ADDITIONAL TEST EQUIPMENTSIGNAL Cyber–Test Ad-vantest HP8935 HP8921AHP8921W/PCS PowerMeterGPIBInter-face LMF DirectionalCoupler & Pad* BTSEVEN SECOND SYNCHRONIZATION EVENSEC REF EVEN SECSYNC INEVENSECONDSYNC INEVENSECONDSYNC INEVENSECONDSYNC IN19.6608 MHZCLOCK TIMEBASE INCDMATIME BASEIN EXTREF INCDMATIME BASEINCDMATIME BASEINCONTROLIEEE 488 BUS IEEE488 GPIB HP–IB HP–IB GPIB SERIALPORTHP–IB HP–IBTX TESTCABLES RFIN/OUT INPUT50–OHM RFIN/OUT TX1–6RFIN/OUT RFIN/OUT 20 DBPAD BTSPORTRX TESTCABLES RF IN/OUT RF OUT50–OHM DUPLEX RX1–12DUPLEXOUT RF OUTONLYSYNCMONITORFREQMONITOR3
Test Equipment Set–up – continued08/01/2001 3-491X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYEquipment Warm-upWarm-up BTS equipment for a minimum of 60 minutesprior to performing the BTS optimization procedure. Thisassures BTS site stability and contributes to optimizationaccuracy. (Time spent running initial power-up,hardware/firmware audit, and BTS download counts aswarm-up time.)IMPORTANT*Before installing any test equipment directly to any BTSTX OUT connector, verify there are no CDMA BBXchannels keyed. At active sites, have the OMC-R/CBSCplace the antenna (sector) assigned to the LPA under testOOS. Failure to do so can result in serious personal injuryand/or equipment damage.WARNINGAutomatic Cable CalibrationSet–upFigure 3-14 shows the cable calibration setup for various supported testsets. The left side of the diagram depicts the location of the input andoutput ports of each test set, and the right side details the set up for eachtest. Table 3-26 provides a procedure for calibrating cables.3
Test Equipment Set–up  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-50Motorola CyberTestHewlett–Packard Model HP 8935Advantest Model R3465DUPLEXOUTRF OUT50–OHMINPUT50–OHMRF GEN OUTANT INANTINSUPPORTED TEST SETS100–WATT  (MIN)NON–RADIATINGRF LOADTESTSETA. SHORT CABLE CALSHORTCABLEB. RX TEST SETUPTESTSETC. TX TEST SETUP20 DB IN–LINEATTENUATORFOR 1.9 GHZCALIBRATION SET UPN–N FEMALEADAPTERTXCABLETXCABLESHORTCABLENote: The Directional Coupler is not used with theCybertest Test Set. The TX cable is connecteddirectly to the Cybertest Test Set.A 10dB attenuator must be used with the short testcable for cable calibration with the CyberTest TestSet. The 10dB attenuator is used only for the cablecalibration procedure, not with the test cables forTX calibration and ATP tests.TESTSETRXCABLESHORTCABLEFigure 3-14: Cable Calibration Test SetupFW00089Note: For 800 MHZ only. The HP8921A cannotbe used to calibrate cables for PCS frequencies.Hewlett–Packard Model HP 8921ADIRECTIONALCOUPLER (30 DB)N–N FEMALEADAPTER50 ΩΤERM.3
Test Equipment Set–up – continued08/01/2001 3-511X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYManual Cable CalibrationIf manual cable calibration is required, refer to the procedures inAppendix F.Set–up for TX CalibrationFigure 3-15 and Figure 3-16 show the test set connections for TXcalibration.Motorola CyberTestHewlett–Packard Model HP 8935TEST SETS TRANSMIT (TX) SET UPFRONT PANEL RFIN/OUTRF IN/OUTHP–IBTO GPIBBOXRS232–GPIBINTERFACE BOXINTERNAL PCMCIAETHERNET CARDGPIBCABLECOMMUNICATIONSTEST SETCONTROLIEEE 488GPIB BUSUNIVERSAL TWISTEDPAIR (UTP) CABLE(RJ45 CONNECTORS)RS232NULLMODEMCABLEOUTS MODEDATA FORMATBAUD RATEGPIB ADRSG MODEONTEST SETINPUT/OUTPUTPORTSBTS100–WATT  (MIN)NON–RADIATINGRF LOADINTXTESTCABLECDMALMFDIP SWITCHSETTINGS**2O DBIN–LINEATTENUATOR10BASET/10BASE2CONVERTERLANBLANATX TESTCABLETX ANTENNAPORT OR TXRFDSDIRECTIONALCOUPLERSPOWERMETER(OPTIONAL)*NOTE: THE DIRECTIONAL COUPLER IS NOT USED WITH THECYBERTEST TEST SET. THE TX CABLE IS CONNECTED DIRECTLYTO THE CYBERTEST TEST SET.* A POWER METER CAN BE USED IN PLACEOF THE COMMUNICATIONS TEST SET FOR TXCALIBRATION/AUDITPOWERSENSORFigure 3-15: TX Calibration Test Setup (CyberTest and HP 8935)FW00094DIRECTIONALCOUPLER(30 DB)** BLACK PORTION OF THEDIAGRAM REPRESENTS THERAISED PART OF THESWITCH50 ΩΤERM.3
Test Equipment Set–up  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-52POWER METERTEST SETS TRANSMIT (TX) SET UPRS232–GPIBINTERFACE BOXINTERNAL PCMCIAETHERNET CARDGPIBCABLEUNIVERSAL TWISTEDPAIR (UTP) CABLE(RJ45 CONNECTORS)RS232NULLMODEMCABLES MODEDATA FORMATBAUD RATEGPIB ADRS G MODEONBTS100–WATT  (MIN)NON–RADIATINGRF LOADTXTESTCABLECDMALMFDIP SWITCHSETTINGS*2O DBIN–LINEATTENUATOR10BASET/10BASE2CONVERTERLANBLANATX ANTENNA GROUPOR TX RFDS DIRECTIONALCOUPLERSTXTESTCABLEPOWERSENSORFW00095NOTE: THE HP8921A AND ADVANTESTCANNOT BE USED FOR TX CALIBRATION. APOWER METER MUST BE USED.Figure 3-16: TX Calibration Test Setup HP 8921A and AdvantestDIRECTIONAL COUPLER(30 DB)* BLACK PORTION OF THEDIAGRAM REPRESENTS THERAISED PART OF THESWITCH50 ΩΤERM.3
Test Equipment Set–up – continued08/01/2001 3-531X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYSetup for Optimization/ATPFigure 3-17 and Figure 3-18 show the test set connections foroptimization/ATP tests.Motorola CyberTestHewlett–Packard Model HP 8935DUPLEX OUTTEST SETS Optimization/ATP SET UPRFIN/OUTSYNC MONITOREVEN SEC TICKPULSE REFERENCEFROM CSM BOARDFREQ MONITOR19.6608 MHZ CLOCKREFERENCE FROMCSM BOARDRF IN/OUTHP–IBTO GPIBBOXAdvantest Model R3465INPUT50–OHMGPIB CONNECTSTO BACK OF UNITNOTE: The Directional Coupler is not usedwith the Cybertest Test Set. The TX cable isconnected directly to the Cybertest Test set.RF OUTRX ANTENNAPORT OR RFDSRX ANTENNADIRECTIONALCOUPLERTX ANTENNAPORT OR RFDSRX ANTENNADIRECTIONALCOUPLERRS232–GPIBINTERFACE BOXINTERNAL PCMCIAETHERNET CARDGPIBCABLEUNIVERSAL TWISTEDPAIR (UTP) CABLE(RJ45 CONNECTORS)RS232 NULLMODEMCABLES MODEDATA FORMATBAUD RATEGPIB ADRS G MODEONBTSTXTESTCABLECDMALMFDIPSWITCH SETTINGS*10BASET/10BASE2CONVERTERLANBLANARXTESTCABLECOMMUNICATIONSTEST SETIEEE 488GPIB BUSINTEST SETINPUT/OUTPUTPORTSOUTNOTE:  IF BTS RX/TX SIGNALS AREDUPLEXED, BOTH THE TX AND RX TESTCABLES CONNECT TO THE DUPLEXEDANTENNA GROUP AND USE THE 30 DBDIRECTIONAL COUPLER AND 20 DB IN–LINEATTENUATOR.100–WATT  (MIN)NON–RADIATINGRF LOAD2O DBIN–LINEATTENUATORDIRECTIONALCOUPLER(30 DB)EVENSECOND/SYNCIN (BNC “T”WITH 50 OHMTERMINATOR)CDMATIMEBASE INFREQMONITORSYNCMONITORCSMFW00096Figure 3-17: Optimization/ATP Test Setup Calibration (CyberTest, HP 8935 and Advantest)SYNC MONITOREVEN SEC TICKPULSE REFERENCEFROM CSM BOARDFREQ MONITOR19.6608 MHZ CLOCKREFERENCE FROMCSM BOARDFREQ MONITOR19.6608 MHZ CLOCKREFERENCE FROMCSM BOARDRFOUT* BLACK PORTION OF THEDIAGRAM REPRESENTS THERAISED PART OF THESWITCH50 ΩΤERM.SYNC MONITOR EVENSEC TICK PULSEREFERENCE FROMCSM BOARDBNC“T”TO EXT TRIGGER CONNECTORON REAR OF TEST SET(FOR DETAILS, SEE FIGURE F-3)3
Test Equipment Set–up  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-54RF OUTONLYHewlett–Packard Model HP 8921A W/PCS Interface(for  1700 and 1900 MHz)HP PCSINTERFACE*GPIBCONNECTSTO BACK OFUNITSSYNC MONITOREVEN SEC TICKPULSE REFERENCEFROM CSM BOARDFREQ MONITOR19.6608 MHZ CLOCKREFERENCE FROMCSM BOARDTEST SETS Optimization/ATP SET UPRX ANTENNAPORT OR RFDSRX ANTENNADIRECTIONALCOUPLERTX ANTENNAPORT OR RFDSRX ANTENNADIRECTIONALCOUPLERRS232–GPIBINTERFACE BOXINTERNAL PCMCIAETHERNET CARDGPIBCABLEUNIVERSAL TWISTEDPAIR (UTP) CABLE(RJ45 CONNECTORS)RS232 NULLMODEMCABLES MODEDATA FORMATBAUD RATEGPIB ADRS G MODEONBTSTXTESTCABLECDMALMFDIPSWITCH SETTINGS*10BASET/10BASE2CONVERTERLANBLANARXTESTCABLECOMMUNICATIONSTEST SETIEEE 488GPIB BUSINTEST SETINPUT/OUTPUTPORTSOUT100–WATT  (MIN)NON–RADIATINGRF LOAD2O DBIN–LINEATTENUATOREVENSECOND/SYNCIN (BNC “T”WITH 50 OHMTERMINATOR)CDMATIMEBASE INFREQMONITORSYNCMONITORCSMRFIN/OUTFigure 3-18: Optimization/ATP Test Setup HP 8921AREF FW00097GPIBCONNECTSTO BACK OFUNITSYNC MONITOREVEN SEC TICKPULSE REFERENCEFROM CSM BOARDFREQ MONITOR19.6608 MHZ CLOCKREFERENCE FROMCSM BOARDHewlett–Packard Model HP 8921A(for 800 MHz)* FOR 1700 AND1900 MHZ ONLYDIRECTIONALCOUPLER(30 DB)RFIN/OUTRF OUTONLY* BLACK PORTION OF THEDIAGRAM REPRESENTS THERAISED PART OF THESWITCH50 ΩΤERM.NOTE:  IF BTS RX/TX SIGNALS AREDUPLEXED, BOTH THE TX AND RX TESTCABLES CONNECT TO THE DUPLEXEDANTENNA GROUP AND USE THE 30 DBDIRECTIONAL COUPLER AND 20 DB IN–LINEATTENUATOR.3
Test Set CalibrationPRELIMINARY08/01/2001 3-551X SCt4812ET Lite BTS Optimization/ATPBackgroundProper test equipment set–up ensures that all measurements are correctand the test equipment and associated test cables do not introducemeasurement errors.If the test equipment set (see Chapter 1, Terms andAbbreviations) being used to interface with the BTS hasbeen calibrated and maintained as a set, this procedure doesnot need to be performed.NOTEThis procedure must be performed before the optimization. Verify all testequipment (including all associated test cables and adapters actually usedto interface all test equipment and the BTS) has been calibrated andmaintained as a set.If any piece of test equipment, test cable, or RF adapter,that makes up the calibrated test equipment set has beenreplaced, the set must be re-calibrated. Failure to do so canintroduce measurement errors, resulting in incorrectmeasurements and degradation to system performance.Motorola recommends repeating cable calibration beforetesting at each BTS site.CAUTIONCalibration of the communications test set (or equivalenttest equipment) must be performed at the site beforecalibrating the overall test set. Calibrate the test equipmentafter it has been allowed to warm–up and stabilize for aminimum of 60 minutes.IMPORTANT*PurposeThese procedures access the CDMA LMF automated calibration routineused to determine the path losses of the supported communicationsanalyzer, power meter, associated test cables, and (if used) antennaswitch that make up the overall calibrated test equipment set. Aftercalibration, the gain/loss offset values are stored in a test measurementoffset file on the CDMA LMF.3
Test Set Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-56Manual cable calibration procedures using the HP8921A and AdvantestR3465 communications test sets are provided in Appendix F, if needed.Manual power meter calibration procedures are also included inAppendix F.Selecting Test EquipmentPrerequisitesA Serial Connection and a Network Connection tab are provided fortest equipment selection. The Serial Connection tab is used when thetest equipment items are connected directly to the CDMA LMFcomputer via a GPIB box (normal setup). The Network Connection tabis used when the test equipment is to be connected remotely via anetwork connection.Ensure the following has been completed before selecting testequipment:STest equipment is correctly connected and turned on.STest equipment GPIB addresses have been verified as correct.SCDMA LMF computer serial port and test equipment are connected tothe GPIB box.Selecting Test EquipmentUse Options > LMF Options in the menu bar to select test equipmentautomatically (using the autodetect feature) or manually.Manually Selecting TestEquipment in a SerialConnection TabTest equipment can be manually specified before, or after, the testequipment is connected. CDMA LMF does not check to see if the testequipment is actually detected for manual specification.Table 3-23: Selecting Test Equipment Manually in a Serial Connection TabStep Action1In the menu bar, click Options and select LMF Options... from the pulldown. The LMF Optionswindow appears.2Click on the Serial Connection tab (if not in the forefront).3Select the correct serial port in the COMM Port pick list (normally COM1).4Click on the Manual Specification button (if not enabled).5Click on the check box corresponding to the test item(s) to be used.6Type the GPIB address in the corresponding GPIB address box. Addresses are:13=Power Meter18=CDMA Analyzer. . . continued on next page3
Test Set Calibration – continuedPRELIMINARY08/01/2001 3-571X SCt4812ET Lite BTS Optimization/ATPTable 3-23: Selecting Test Equipment Manually in a Serial Connection TabStep Action7Click on Apply. (The button will darken until the selection has been recorded.)NOTEWith manual selection, CDMA LMF does not detect the test equipment to see if it is connected andcommunicating with CDMA LMF.8Click on Dismiss to close the test equipment window. Automatically Selecting TestEquipment in a SerialConnection Tab When using the auto-detection feature to select test equipment, theCDMA LMF examines which test equipment items are actuallycommunicating with CDMA LMF. Follow the procedure in Table 3-24to use the auto-detect feature.Table 3-24: Selecting Test Equipment Using Auto-DetectStep Action1In the menu bar, click Options and select LMF Options... from the pulldown. The LMF Optionswindow appears.2Click on the Serial Connection tab (if not in the forefront).3Select the correct serial port in the COMM Port pick list (normally COM1).4Click on Auto–Detection (if not enabled).5Type in the GPIB addresses in the box labeled GPIB address to search (if not already displayed).* IMPORTANTWhen both a power meter and analyzer are selected, the first item listed in the GPIB addresses tosearch box will be used for RF power measurements (i.e., TX calibration). The address for a powermeter is normally 13 and the address for a CDMA analyzer is normally 18. If 13,18 is included in theGPIB addresses to search box, the power meter (13) will be used for RF power measurements. If thetest equipment items are manually selected the CDMA analyzer is used only if a power meter is notselected.6 Click Apply. The button will darken until the selection has been committed. A check mark will appearin the Manual Configuration section for detected test equipment items.7 Click Dismiss to close the LMF Options window. 3
Test Set Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-58Calibrating Test EquipmentThe calibrate test equipment function zeros the power measurement levelof the test equipment item that is to be used for TX calibration and audit.If both a power meter and an analyzer are connected (for example, an HP437 and an HP8921A/600), only the power meter is zeroed.Calibrate Test Equipment from the Util menu list is used to calibratetest equipment item before being used for testing. The test equipmentmust be selected before beginning calibration. Follow the procedure inTable 3-25 to calibrate the test equipment.Table 3-25: Test Equipment CalibrationStep Action1From the Util menu, select Calibrate Test Equipment. A Directions window is displayed. Followthe instructions provided.2Follow the direction provided.3Click on Continue to close the Directions window. A status window is displayed.4Click on OK to close the status report window. Calibrating Cables – OverviewThe cable calibration function is used to measure the loss (in dB) for theTX and RX cables that are to be used for testing. A CDMA analyzer isused to measure the loss of each cable configuration (TX cableconfiguration and RX cable configuration). The cable calibrationconsists of the following steps.SMeasure the loss of a short cable. This is done to compensate for anymeasurement error of the analyzer. The short cable, which is used onlyfor the calibration process, is used in series with both the TX and RXcable configuration when they are measured. The measured loss of theshort cable is deducted from the measured loss of the TX and RXcable configuration to determine the actual loss of the TX and RXcable configurations. This deduction is done so any error in theanalyzer measurement will be adjusted out of both the TX and RXmeasurements.SThe short cable plus the RX cable configuration loss is measured. TheRX cable configuration normally consists only of a coax cable withtype–N connectors that is long enough to reach from the BTS RX portthe test equipment. For BTSs with antenna ports carrying duplexed TXand RX, a directional coupler and, if required by BTS type, anadditional attenuator are also used on the RX cable configuration andmust be included in the measurement.SThe short cable plus the TX cable configuration loss is measured. TheTX cable configuration normally consists of two coax cables withtype–N connectors and a directional coupler, a load, and an additionalattenuator if required by the BTS type. The total loss of the path loss3
Test Set Calibration – continuedPRELIMINARY08/01/2001 3-591X SCt4812ET Lite BTS Optimization/ATPof the TX cable configuration must be as required for the BTS(normally 30 or 50 dB). The Motorola Cybertest analyzer is differentin that the required attenuation/load is built into the test set so the TXcable configuration consists only of the required length coax cable.Calibrating Cables with aCDMA AnalyzerThe Cable Calibration menu item from the Util menu list is used tocalibrate both TX and RX test cables for use with CDMA LMF.LMF cable calibration cannot be accomplished with anHP8921A analyzer for 1.9 MHz. A different analyzer typeor the signal generator and spectrum analyzer method mustbe used (refer to Table 3-27 and Table 3-28). Cablecalibration values must be manually entered if the signalgenerator and spectrum analyzer method is used. For theHP8921A, refer to Appendix F.NOTEThe test equipment must be selected before this procedure can be started.Follow the procedure in Table 3-26 to calibrate the cables. Figure 3-14illustrates the cable calibration test equipment setup.Table 3-26: Cable CalibrationStep Action1From the Util menu, select Cable Calibration. A Cable Calibration window is displayed.2Enter a channel number(s) in the Channels box. Multiple channels numbers must be separated with acomma, no space (i.e., 200,800). When two or more channels numbers are entered, the cables will becalibrated for each channel. Interpolation will be accomplished for other channels as required for TXcalibration.3 Select TX and RX CABLE CAL, TX CABLE CAL or RX CABLE CAL in the Cable Calibrationpicklist.4 Click OK. Follow the directions displayed for each step. A status report window will be displayedwith the results of the cable calibration. 3
Test Set Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-60Calibrating TX Cables Using aSignal Generator and SpectrumAnalyzerFollow the procedure in Table 3-27 to calibrate the TX cables using thesignal generator and spectrum analyzer. Refer to Figure 3-19 for adiagram of the signal generator and spectrum analyzer.Table 3-27: Calibrating TX Cables Using Signal Generator and Spectrum AnalyzerStep Action1Connect a short test cable between the spectrum analyzer and the signal generator.2Set signal generator to 0 dBm at the customer frequency of the 869.7–893.31 MHz band for NorthAmerican cellular and 1930–1990 MHz band for North American PCS.3Use spectrum analyzer to measure signal generator output (see Figure 3-19, “A”) and record the value.4Connect the spectrum analyzer’s short cable to point “B”, as shown in the lower portion of thediagram, to measure cable output at customer frequency (869.7–893.31 MHz band for North Americancellular and 1930–1990 MHz for North American PCS) and record the value at point “B”.5Calibration factor = A – B  Example:  Cal = –1 dBm – (–53.5 dBm) = 52.5 dBNOTEThe short cable is used for calibration only. It is not part of the final test setup. After calibration iscompleted, do not re-arrange any cables. Use the equipment setup, as is, to ensure test procedures usethe correct calibration factor. Figure 3-19:  Calibrating Test Equipment Setup for TX Cable Calibration(Using Signal Generator and Spectrum Analyzer)50 OHMTERMINATION30 DBDIRECTIONALCOUPLERSpectrumAnalyzerSignal GeneratorASpectrumAnalyzer40W NON–RADIATINGRF LOADBSHORT TEST CABLESignal GeneratorTHIS WILL BE THE CONNECTION TO THEPOWER METER DURING TX CALIBRATIONAND TO THE CDMA ANALYZER DURING TXATP TESTS.SHORTTESTCABLETHIS WILL BE THE CONNECTIONTO THE TX PORTS DURING TXCALIBRATION AND TO THE TX/RXPORTS DURING ATP TESTS.SECOND RFTEST CABLE.ONE 20DB 20 W INLINE ATTENUATOR(1.9 GHZ ONLY)FW002933
Test Set Calibration – continuedPRELIMINARY08/01/2001 3-611X SCt4812ET Lite BTS Optimization/ATPCalibrating RX Cables Using aSignal Generator and SpectrumAnalyzer Follow the procedure in Table 3-28 to calibrate the RX cables using thesignal generator and spectrum analyzer. Refer to Figure 3-20, if required.Table 3-28: Calibrating RX Cables Using a Signal Generator and Spectrum AnalyzerStep Action1Connect a short test cable to the spectrum analyzer and connect the other end to the Signal Generator.2Set signal generator to –10 dBm at the customer’s RX frequency of 824.7–848.31 MHz for NorthAmerican cellular or 1850–1910 MHz band for North American PCS.3Use spectrum analyzer to measure signal generator output (see Figure 3-20, “A”) and record the valuefor “A”.4Connect the test setup, as shown in the lower portion of the diagram, to measure the output at thecustomer’s RX frequency (824.7–848.31 MHz for North American cellular or 1850–1910 MHz bandfor North American PCS). Record the value at point ‘‘B”.* IMPORTANTWhen preparing to calibrate a BTS with duplexed TX and RX the cable calibration setup must includethe 30 dB directional coupler and 20 dB in–line attenuator as in the TX cable calibration shown inFigure 3-19.5Calibration factor = A – BExample: Cal = –12 dBm – (–14 dBm) = 2 dBNOTEThe short test cable is used for test equipment setup calibration only. It is not part of the final testsetup. After calibration is completed, do not re-arrange any cables. Use the equipment setup, as is, toensure test procedures use the correct calibration factor. Figure 3-20:  Calibrating Test Equipment Setup for RX ATP Test(Using Signal Generator and Spectrum Analyzer)SpectrumAnalyzerSignalGeneratorABSpectrumAnalyzerSHORTTESTCABLECONNECTION TO THE OUTPUTPORT DURING RX MEASUREMENTSSignalGeneratorBULLETCONNECTORLONGCABLE 2SHORT TESTCABLECONNECTION TO THE RX PORTSDURING RX MEASUREMENTS.IMPORTANT:  IF BTS RX/TX SIGNALS AREDUPLEXED, THE RX TEST CABLE CONNECTSTO THE DUPLEXED ANTENNA GROUP ANDMUST USE/BE CALIBRATED WITH THE 30 DBDIRECTIONAL COUPLER AND 20 DB IN–LINEATTENUATOR. SEE FIGURE 3-19.3
Test Set Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-62Setting Cable Loss Values Cable loss values for the TX and RX test cable configurations arenormally set by accomplishing automatic cable calibration with use ofthe applicable test equipment. The resulting values are stored in the cableloss files. The cable loss values can also be set/changed manually.Cable loss values must be manually entered in the LMFdatabase if manual cable calibration was performed.Failure to do this will result in inaccurate BTS calibrationand reduced site performance.CAUTIONPrerequisitesSLogged into the BTSTable 3-29: Setting Cable Loss ValuesStep Action1Click on the Util menu.2 Select Edit > Cable Loss > TX or RX. A data entry pop–up window will appear.3Click on the Add Row button to add a new channel number. Then click in the Channel # and Loss(dBm) columns and enter the desired values.4To edit existing values click in the data box to be changed and change the value.5To delete a row, click on the row and then click on the Delete Row button.6Click on the Save button to save displayed values.7Click on the Dismiss button to exit the window. Values that were entered/changed after the Savebutton was used will not be saved.NOTESIf cable loss values exist for two different channels the LMF will interpolate for all other channels.SEntered values will be used by the LMF as soon as they are saved. You do not have to logout andlogin.3
Test Set Calibration – continuedPRELIMINARY08/01/2001 3-631X SCt4812ET Lite BTS Optimization/ATPSetting TX Coupler Loss Value If an in–service TX coupler is installed the coupler loss (e.g., 30 dB)must be manually entered so it will be included in the LMF TXcalibration and audit calculations.PrerequisitesSLogged into the BTSTable 3-30: Setting TX Coupler Loss ValuesStep Action1Click on the Util menu.2 Select Edit > TX Coupler Loss. A data entry pop–up window will appear.3Click in the Loss (dBm) column for each carrier that has a coupler and enter the appropriate value.4To edit existing values click in the data box to be changed and change the value.5Click on the Save button to save displayed values.6Click on the Dismiss button to exit the window. Values that were entered/changed after the Savebutton was used will not be saved.NOTESThe In–Service Calibration check box in the Options > LMF Options > BTS Options tab mustchecked before entered TX coupler loss values will be used by the TX calibration and auditfunctions.SEntered values will be used by the LMF as soon as they are saved. You do not have to logout andlogin.3
Bay Level Offset CalibrationPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-64IntroductionCalibration compensates for normal equipment variations within theBTS and assures maximum measurement accuracy.RF Path Bay Level OffsetCalibrationBay Level Offset (BLO) calibration identifies the accumulated gain inevery transmit path (BBX2 slot) at the BTS site and stores that value inthe CDMA LMF CAL file. The BLOs are subsequently downloaded toeach BBX2.Each transmit path starts at an SCCP shelf backplane BBX2 slot, travelsthrough the CIO card, trunking module, LPA, trunking module (again),TX filter or TX filter combiner, DRDC or TRDC, and ends at a BTS TXantenna port.Each receive path starts at a BTS RX antenna port, travels through aDRDC or TRDC, the MPC card, the CIO card, and terminates at abackplane BBX2 slot.Calibration identifies the accumulated gain in every transmit path ( byBBX2 slot) at the BTS site and stores that value in the CAL file. Whenthe TX path calibration is performed, the RX path BLO willautomatically be set to the default value.When to Calibrate BLOs Calibration of BLOs is required after initial BTS installation.The BLO data of an operational BTS site must be re-calibrated onceeach year. Motorola recommends re-calibrating the BLO data for allassociated RF paths after replacing any of the following components orassociated interconnecting RF cabling:SBBX2 boardSSCCP shelfSCIO cardSCIO–to–LPA trunking module RF cableSLPA trunking moduleSLPASTrunking module–to–TX filter/filter combiner RF cableSTX filter or TX filter combinerSTX filter/filter combiner–to–DRDC/TRDC cableSDRDC or TRDC3
Bay Level Offset Calibration – continued08/01/2001 3-651X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTX Path CalibrationThe TX Path Calibration assures correct site installation, cabling, and thefirst order functionality of all installed equipment. The proper functionof each RF path is verified during calibration. The external testequipment is used to validate/calibrate the TX paths of the BTS.Before installing any test equipment directly to any TXOUT connector you must first verify that there are noCDMA channels keyed. Have the OMC–R place the sectorassigned to the LPA under test OOS. Failure to do so canresult in serious personal injury and/or equipment damage.WARNINGAlways wear a conductive, high impedance wrist strapwhile handling any circuit card/module. If this is not done,there is a high probability that the card/module could bedamaged by ESD.CAUTIONAt new site installations, to facilitate the complete test ofeach SCCP shelf (if the shelf is not already fully populatedwith BBX2 boards), move BBX2 boards from shelvescurrently not under test and install them into the emptyBBX2 slots of the shelf currently being tested to insure thatall BBX2 TX paths are tested.–This procedure can be bypassed on operational sitesthat are due for periodic optimization.–Prior to testing, view the CDF file to verify thecorrect BBX2 slots are equipped. Edit the file asrequired to include BBX2 slots not currentlyequipped (per Systems Engineering documentation).IMPORTANT*RX Path CalibrationRX path calibration is not required or supported on CDMA BTSsystems. Default RX calibration values are written to the RX calibrationdata files during the TX calibration routine. Functionality is verifiedduring Frame Erasure Rate (FER) testing.3
Bay Level Offset Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-66BLO Calibration Data FileDuring the calibration process, the CDMA LMF creates a calibration(CAL) data file where BLO values are stored. After calibration has beencompleted, this offset data must be downloaded to the BBX2s using theCDMA LMF Download BLO function. An explanation of the file isshown below.Due to the size of the file, Motorola recommends printingout a copy of a bts.cal file and referring to it for thefollowing descriptions.NOTEThe CAL file is subdivided into sections organized on a per–slot basis (aslot Block).The Slot 1 Block contains the calibration data for the six BBX2 slots.The Slot 20 Block contains the calibration data for the redundant BBX2(see Table 3-32). Each BBX2 slot Block header contains:SA creation Date and Time – broken down into separate parameters ofcreateMonth, createDay, createYear, createHour, and createMin.SThe number of calibration entries – fixed at 720 entries correspondingto 360 calibration points of the CAL file – plus the slot Block format.Within the slot Block body, the BBX2 calibration data (BayLevelCal) isorganized as a large flat array. The array is organized by branch, BBX2SCCP cage slot, and calibration point.SThe first breakdown of the array indicates which branch the containedcalibration points are for. The array covers transmit, main receive, anddiversity receive offsets as follows:Table 3-31: BLO BTS.cal file Array Branch AssignmentsRange Branch AssignmentC[1]–C[120] TransmitC[121]–C[240] No SC4812ET Lite BLO calpoint entries (default only)C[241]–C[360] ReceiveC[361]–C[480] No SC4812ET Lite BLO calpoint entries (default only)C[481]–C[600] Diversity ReceiveC[601]–C[720] No SC4812ET Lite BLO calpoint entries (default only)3
Bay Level Offset Calibration – continued08/01/2001 3-671X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYSThe second breakdown of the array is by BBX by sector. Three sectorsare allowed.Table 3-32: SC4812ET Lite BTS.cal File Array (Per Sector)BBX2 Sectorization TX Branch RX Branch RX DiversityBranchSlot[1] (Primary BBX2s 1 through 6)1 (Omni) C[1]–C[20] C[241]–C[260] C[481]–C[500]23–Sector, C[21]–C[40] C[261]–C[280] C[501]–C[520]31st Carrier C[41]–C[60] C[281]–C[300] C[521]–C[540]4 C[61]–C[80] C[301]–C[320] C[541]–C[560]53–Sector, C[81]–C[100] C[321]–C[340] C[561]–C[580]62nd Carrier C[101]–C[120] C[341]–C[360] C[581]–C[600]C[121]–C[140] C[361]–C[380] C[601]–C[620]C[141]–C[160] C[381]–C[400] C[621]–C[640]Not Used in SC4812ET Lite(CAL file entries are  C[161]–C[180] C[401]–C[420] C[641]–C[660](CAL file entries are Channel 0 with default  C[181]–C[200] C[421]–C[440] C[661]–C[680]power set level.) C[201]–C[220] C[441]–C[460] C[681]–C[700]C[221]–C[240] C[461]–C[480] C[701]–C[720]Slot[20] (Redundant BBX2–R1)1 (Omni) C[1]–C[20] C[241]–C[260] C[481]–C[500]23–Sector, C[21]–C[40] C[261]–C[280] C[501]–C[520]31st Carrier C[41]–C[60] C[281]–C[300] C[521]–C[540]4 C[61]–C[80] C[301]–C[320] C[541]–C[560]53–Sector, C[81]–C[100] C[321]–C[340] C[561]–C[580]62nd Carrier C[101]–C[120] C[341]–C[360] C[581]–C[600]C[121]–C[140] C[361]–C[380] C[601]–C[620]C[141]–C[160] C[381]–C[400] C[621]–C[640]Not Used in SC4812ET Lite(CAL file entries are  C[161]–C[180] C[401]–C[420] C[641]–C[660](CAL file entries are Channel 0 with default  C[181]–C[200] C[421]–C[440] C[661]–C[680]power set level.) C[201]–C[220] C[441]–C[460] C[681]–C[700]C[221]–C[240] C[461]–C[480] C[701]–C[720]SRefer to the CAL file print–out and Table 3-32. It can be seen thatthere is one BBX2 slot per sector, and 10 calibration points for eachBBX2 (sector) are supported for each branch. Each “calibration point”consists of two entries.SThe first entry for a calibration point (all odd entries) identifies theCDMA channel (frequency) where the BLO is measured. The secondcalibration point entry (all even entries) is the power set level(PwrLvlAdj). The valid range for PwrLvlAdj is from 2500 to 275003
Bay Level Offset Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-68(2500 corresponds to –125 dBm and 27500 corresponds to +125dBm).SThe 10 calibration points for each slot/branch combination must bestored in order of increasing frequency. If less than 10 points(frequencies) are calibrated, the BLO data for the highest frequencycalibrated is written into the remainder of the 10 points for thatslot/branch.Example:C[1]=384     (odd cal entry)C[2]=19102     (even cal entry)C[3]=777     (odd cal entry)C[4]=19086     (even cal entry)C[19]=777     (odd cal entry)C[20]=19086     (even cal entry)...=  1 “calibration point”In the example above, BLO was measured at only two frequencies(channels 384 and 777) for SCCP slot BBX–1 transmit (Table 3-32).The BLO data for the highest frequency measured (777) will bewritten to the remaining eight transmit calibration points (defined byentries C[5] through C[20]) for BBX2–1.SWhen BLO data is downloaded to the BBXs, the data is downloadedto the devices in the order it is stored in the CAL file. TxCal data(C[1] – C[60]) is sent first. BBX2 slot 1’s 10 calibration points (C[1]– C[20]) are sent initially, followed by BBX2 slot 2’s 10 calibrationpoints (C[21] – C[40]), and so on. The RxCal data is sent next,followed by the RxDCal data.STemperature compensation data (TempLevelCal) is also stored in theCAL file for each slot Block.Test Equipment Setup:RF Path CalibrationFollow the steps outlined in Table 3-33 and refer as needed toFigure 3-15 or Figure 3-16 to set up test equipment.Table 3-33: Set Up Test Equipment (RF Path Calibration)Step Action1If it has not already been done, refer to the procedure in Table 3-6 to interface the CDMA LMFcomputer terminal to the frame LAN A connector.2If it has not already been done, refer to Table 3-7 to start a GUI LMF session.3If required, calibrate the test equipment per the procedure in Table 3-25.3
Bay Level Offset Calibration – continued08/01/2001 3-691X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-33: Set Up Test Equipment (RF Path Calibration)Step Action! CAUTIONTo prevent damage to the test equipment, all transmit (TX) test connections must be via the 30 dBdirectional coupler for 800 MHz or via a 30 dB coupler with a 20 dB in–line attenuator for 1900MHz.4For TX path calibration, verify that the coaxial cable from the appropriate ANTENNA connector(Figure 1-6 or Figure 1-7) is connected to the test equipment RF input port via the directionalcoupler.Transmit (TX) Path CalibrationThe assigned channel frequency and desired power level at the frame TXports for transmit calibration are derived from the BTS CDF file. EachBBX2 at the site is assigned to a sector and carrier. These are specifiedrespectively in the sector and carrier fields of the ParentCARRIERparameter in each BBX2’s CDF file block. The channel frequency anddesired power for the assigned sector are specified respectively in theChannelList and SIFPilotPwr parameters of the CDF block for theCARRIER to which the BBX2 is assigned.The calibration procedure attempts to adjust the measured power towithin +0.5 dB of the desired power. The calibration will pass if theerror is less than +1.5 dB.The TX BLO for the SC4812ET Lite is approximately 42.0 dB ±5.0 dB.BLO is the gain in dB between the known power output of the BBX2and the measured power at the TX port. BLO is derived by deducting theknown BBX2 power output from the power measured at the TX port or(Measured Power) – (BBX2 TX Power Output).Example:Measured Power (at TX port) = 36.0 dBmKnown BBX TX Power Output = –6.0 dBmBLO = (36.0) – (–6.0) = 42.0 dB gainThe CDMA LMF Tests menu list items TX Calibration and AllCal/Audit perform TX BLO Calibration testing for installed BBX(s).The All Cal/Audit menu item initiates a series of actions to perform TXcalibration, download BLO, and perform TX audit if the TX calibrationpasses. The TX Calibration selection performs only the TX calibration.When the TX Calibration selection is used, BLO download and TXaudit must be performed as separate activities. All measurements aremade through the appropriate antenna connector using the calibrated TXcable setup.In both the TX Calibration and All Cal/Audit dialog boxes, a VerifyBLO checkbox is provided and checked by default. After the actual TXcalibration is completed during either the TX Calibration or AllCal/Audit process, the BLO derived from the calibration is compared toa standard, acceptable BLO tolerance for the BTS. In some installations,3
Bay Level Offset Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-70additional items may be installed in the transmit path. The additionalchange in gain from these items could cause BLO verification failureand, therefore, failure of the entire calibration. In these cases, either theVerify BLO checkbox should be unchecked or the additional path lossesshould be added into each applicable sector using the Util > Edit > TXCoupler Loss... function.PrerequisitesBefore running this test, ensure that the following have been done:SCSM–1, GLIs, MCCs, and BBX2s have correct code load and dataload.SPrimary CSM and MGLI are INS.SAll BBX2s are OOS_RAM.STest equipment and test cables are calibrated and connected for TXBLO calibration.SLMF is logged into the BTS in the GUI environment.Connect the test equipment as shown in  Figure 3-15 and Figure 3-16and follow the procedure in Table 3-34 to perform the TX calibrationtest.Before installing any test equipment directly to any TXOUT connector, first verify there are no CDMA BBX2channels keyed. Failure to do so can result in seriouspersonal injury and/or equipment damage.WARNINGVerify all BBX2 boards removed and repositioned havebeen returned to their assigned shelves/slots. Any BBX2boards moved since they were downloaded will have to bedownloaded again.IMPORTANT*3
Bay Level Offset Calibration – continued08/01/2001 3-711X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-34: All Cal/Audit Path CalibrationStep Action1Configure test equipment for TX path calibration per Table 3-33.2Select the BBX2(s) to be calibrated.3From the Tests menu, select All Cal/Audit.4Select the appropriate carrier(s) displayed in the Channels/Carrier pick list.Press and hold the <Shift> or <Ctrl> key to select multiple items.5Type the appropriate channel number in the Carrier n Channels box.6Click on OK.7Follow the cable connection directions as they are displayed.The test results will be displayed in the status report window.8Click on Save Results or Dismiss to close the status report window. TX Calibration TestPrerequisitesEnsure the following prerequisites have been met before proceeding:SMGLI and primary CSM and BDC are INS_ACT (CSM clock valid)SAll BBXs are OOS–RAM (yellow)STest equipment and test cables are calibrated and connected for TXBLO calibrationSLMF is logged in to the BTS in the GUI environmentVerify all BBX boards removed and repositioned have beenreturned to their assigned shelves/slots. Any BBX boardsmoved since being downloaded will have to bedownloaded with code and data again.IMPORTANT*If just a TX calibration must be run by itself, follow the procedures inTable 3-35.Table 3-35: TX Calibration TestStep Action1Configure test equipment for TX path calibration per Table 3-33.2Click on the BBX(s) to be calibrated.3From the Tests menu, select TX Calibration.4Select the appropriate carrier(s) displayed in the Channels/Carrier pick list (press and hold the Shiftor Ctrl keyboard key to select multiple items).. . . continued on next page3
Bay Level Offset Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-72Table 3-35: TX Calibration TestStep Action5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK to display the status report window followed by a Directions pop-up window.7Follow the cable connection directions as they are displayed. The test results will be displayed in thestatus report window.8 Click OK to close the status report window. Exception HandlingIn the event of a failure, the calibration procedure displays a FAILmessage in the status report window and provides information in theDescription field.Recheck the test setup and connection and re–run the test. If the tests failagain, note specifics about the failure, and refer to Chapter 6,Troubleshooting.Download BLO ProcedureAfter a successful TX path calibration, download the bay level offset(BLO) calibration file data to the BBX2s. BLO data is extracted from theCAL file for the Base Transceiver Subsystem (BTS) and downloaded tothe selected BBX2 devices.If a successful All Cal/Audit was completed, thisprocedure does not need to be performed, as BLO isdownloaded as part of the All Cal/Audit.NOTEPrerequisitesEnsure the following prerequisites have been met before proceeding.SBBXs being downloaded are OOS–RAM (yellow).STX calibration successfully completedAfter a TX calibration has been performed using the procedure inTable 3-35, follow the steps in Table 3-36 to download the BLO data tothe BBX2s.3
Bay Level Offset Calibration – continued08/01/2001 3-731X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-36: Download BLOStep Action1Select the BBX2(s) to be downloaded.2From the Device menu, select Download BLO.A status report window displays the result of the download.NOTESelected device(s) do not change color when BLO is downloaded.3 Click OK to close the status report window. Calibration Audit IntroductionThe BLO calibration audit procedure confirms the successful generationand storage of the BLO calibrations. The calibration audit proceduremeasures the path gain or loss of every BBX2 transmit path at the site.In this test, actual system tolerances are used to determine the success orfailure of a test. The same external test equipment set up is used.*RF path verification, BLO calibration, and BLO datadownload to BBX2s must have been successfullycompleted prior to performing the calibration audit.IMPORTANTTransmit (TX) Path AuditPerform the calibration audit of the TX paths of all equipped BBX2slots, per the steps in Table 3-37.Before installing any test equipment directly to any TXOUT connector, first verify there are no CDMA BBX2channels keyed. Failure to do so can result in seriouspersonal injury and/or equipment damage.WARNINGIf a successful All Cal/Audit was completed, thisprocedure does not need to be performed, as BLO isdownloaded as part of the All Cal/Audit.NOTE3
Bay Level Offset Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-74TX Audit TestThe Tests menu item, TX Audit, performs the TX BLO Audit test for aBBX2(s). All measurements are made through the appropriate TX outputconnector using the calibrated TX cable setup.PrerequisitesBefore running this test, the following should be done:SCSM–1,GLI2s, BBX2s have correct code load.SPrimary CSM and MGLI2 are INS.SAll BBX2s are OOS_RAM.STest equipment and test cables are calibrated and connected for TXBLO calibration.SLMF is logged into the BTS.After a TX calibration has been performed using the procedure inTable 3-35, or if verification of BLO data in the CAL file is required,connect the test equipment as shown in Figure 3-15 or Figure 3-16 andfollow the procedure in Table 3-37 to perform the BTS TX Path Audittest.Table 3-37: TX Path AuditStep Action1Select the BBX2(s) to be audited. From the Tests menu, select TX Audit.2Select the appropriate carrier(s) displayed in the Channels/Carrier pick list.Press and hold the <Shift> or <Ctrl> key to select multiple items.3Type the appropriate channel number in the Carrier n Channels box.4Click on OK.5Follow the cable connection directions as they are displayed.A status report window displays the test results.6Click on Save Results or Dismiss to close the status report window. Exception HandlingIn the event of a failure, the calibration procedure displays a FAILmessage in the status report window and provides information in theDescription field.Recheck the test setup and connection and re–run the test. If the tests failagain, note specifics about the failure, and refer to Chapter 6,Troubleshooting.3
Bay Level Offset Calibration – continued08/01/2001 3-751X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYCreate CAL FileThe Create Cal File function gets the BLO data from BBXs andcreates/updates the CAL file for the BTS. If a CAL file does not exist anew one is created. If a CAL file already exists it is updated. After aBTS has been fully optimized a copy of the CAL file must exist so it canbe transferred to the CBSC. If TX calibration has been successfullyperformed for all BBXs and BLO data has been downloaded, a CAL filewill exist. Note the following:SThe Create Cal File function only applies to selected (highlighted)BBXs.Editing the CAL file is not encouraged as this action cancause interface problems between the BTS and the LMF.To manually edit the CAL file you must first logout of theBTS. If you manually edit the CAL file and then use theCreate Cal File function the edited information will be lost.CAUTIONPrerequisitesBefore running this test, the following should be done:SLMF is logged into the BTSSBBX2s are OOS_RAM with BLO downloadedTable 3-38: Create CAL FileStep Action1Select the applicable BBX2s. The CAL file will only be updated for the selected BBX2s.2Click on the Device menu.3Click on the Create Cal File menu item. The status report window displays the results of the action.4 Click OK. 3
RFDS Setup and CalibrationPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-76RFDS DescriptionThe optional RFDS is used to perform RF tests of the site from theCBSC or from the LMF. The RFDS contains the following FRUs:SAntenna Select Unit (ASU)SFWT Interface Card (FWTIC)SSubscriber Unit Assembly (SUA)For complete information regarding the RFDS, refer to the CDMACDMA RFDS Hardware Installation; 68P64113A93, CDMA RFDSUser’s Guide; 68P64114A51, and the LMF Help function.RFDS Parameter SettingsThe bts-#.cdf file includes RFDS parameter settings that mustmatch the installed RFDS equipment. The paragraphs below describe theeditable parameters and their defaults. Table 3-39 explains how to editthe parameter settings.SRfdsEquip – valid inputs are 0 through 2.0 = (default) RFDS is not equipped1 = Non-Cobra/Patzer box RFDS2 = Cobra RFDSSTsuEquip – valid inputs are 0 or 10 = (default) TSU not equipped1 = TSU is equipped in the systemSMC1....4 – valid inputs are 0 or 10 = (default) Not equipped1 = Multicouplers equipped in RFDS system (SC9600 internal RFDS only)SAsu1/2Equip – valid inputs are 0 or 10 = (default) Not equipped1 = EquippedSTestOrigDN – valid inputs are ’’’ (default) or a numerical string up to15 characters. (This is the phone number the RFDS dials whenoriginating a call. A dummy number needs to be set up by the switch,and is to be used in this field.)Any text editor may be used to open the bts–#.cdf fileto verify, view, or modify data.NOTE3
RFDS Setup and Calibration – continued08/01/2001 3-771X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-39: RFDS Parameter SettingsStep Action* IMPORTANTLog out of the BTS prior to performing this procedure.1Using a text editor, verify the following fields are set correctly in the bts–#.cdf file (1 = GLI basedRFDS; 2 = Cobra RFDS).EXAMPLE:RfdsEquip = 2TsuEquip = 1MC1Equip = 0MC2Equip = 0MC3Equip = 0MC4Equip = 0Asu1Equip = 1Asu2Equip = 0 (1 if system is non-duplexed)TestOrigDN = ’123456789’NOTEThe above is an example of the bts-#.cdf file that should have been generated by the OMC–R andcopied to the LMF. These fields will have been set by the OMC–R if the RFDSPARM database ismodified for the RFDS.2Save and/or quit the editor. If any changes were made to these fields data will need to be downloadedto the GLI2 (see Step 3, otherwise proceed to Step 4).3To download to the GLI2, click on the Device menu and select the Download Data menu item(selected devices do not change color when data is downloaded). A status report window is displayedshowing status of the download. Click OK to close the status report window.! CAUTIONAfter downloading data to the GLI2 the RFDS LED will slowly begin flashing red and green forapproximately 2–3 minutes. DO NOT attempt to perform any functions with the RFDS until the LEDremains green.4Status the RFDS TSU. A status report is displayed showing the software version number for the TSICand SUA.* IMPORTANTIf the LMF yields an error message, check the following:SEnsure AMR cable is correctly connected from the BTS to the RFDS.SVerify RFDS has power.SVerify RFDS status LED is green.SVerify fields in the bts-#.cdf file are correct (see Step 1).SStatus the GLI2 and ensure the device is communicating (via Ethernet) with the LMF, and thedevice is in the proper state (INS).3
RFDS Setup and Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-78RFDS TSU NAM ProgrammingThe NAM (number assignment module) information needs to beprogrammed into the TSU before it can receive and process test calls, orbe used for any type of RFDS test. The RFDS TSU NAM must beprogrammed with the appropriate system parameters and phone numberduring hardware installation. The TSU phone and TSU MSI must berecorded for each BTS used for OMC–R RFDS software configuration.The user will only need to program the NAM for the initialinstall of the RFDS.NOTEExplanation of Parametersused when Programming theTSU NAMTable 3-40 defines the parameters used when editing the tsu.nam file.Table 3-40: Definition of ParametersAccess Overload CodeSlot IndexSystem IDNetwork IDThese parameters are obtained from the switch.Primary Channel APrimary Channel BSecondary Channel ASecondary Channel BThese parameters are the channels which are to be used in operationof the system.Lock CodeSecurity CodeService LevelStation Class MarkDo NOT change.IMSI MCCIMSI 11 12 These fields are obtained at the OMC using the following command:OMC000>disp bts–# imsiIf the fields are blank, replace the IMSI fields in the NAM file to 0,otherwise use the values displayed by the OMC.MIN Phone Number These fields are the phone number assigned to the mobile. The ESNand MIN must be entered into the switch as well.NOTEThis field is different from the TODN field in the bts-#.cdf file.The MIN is the phone number of the RFDS subscriber, and theTODN is the number the subscriber calls.3
RFDS Setup and Calibration – continued08/01/2001 3-791X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYValid NAM Ranges Table 3-41 provides the valid NAM field ranges. If any of the fields aremissing or out-of–range, the RFDS will error out.Table 3-41: Valid NAM Field RangesValid RangeNAM Field Name Minimum MaximumAccess Overload Code 0 15Slot Index 0 7System ID 0 32767Network ID 0 32767Primary Channel A 25 1175Primary Channel B 25 1175Secondary Channel A 25 1175Secondary Channel B 25 1175Lock Code 0 999Security Code 0 999999Service Level 0 7Station Class Mark 0 255IMSI 11 12 0 99IMSI MCC 0 999MIN Phone Number N/A N/A3
RFDS Setup and Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-80Set Antenna Map DataThe antenna map data must be entered manually if an RFDS is installed.Antenna map data does not have to be entered if an RFDS is notinstalled. The antenna map data is only used for RFDS tests and isrequired if a RFDS is installed.PrerequisiteSLogged into the BTSTable 3-42: Set Antenna Map DataStep Action1Click on the Util menu.2 Select Edit > Antenna Map > TX or RX. A data entry pop–up window will appear.3Enter/edit values as required for each carrier.NOTERefer to the Util > Edit–antenna map LMF help screen for antenna map examples.4Click on the Save button to save displayed values.5Click on the Dismiss button to exit the window. Values that were entered/changed after the Savebutton was used will not be saved.NOTEEntered values will be used by the LMF as soon as they are saved. You do not have to logout andlogin.3
RFDS Setup and Calibration – continued08/01/2001 3-811X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYSet RFDS Configuration DataIf an RFDS is installed the RFDS configuration data must be manuallyentered.PrerequisiteSLogged into the BTSThe entered antenna# index numbers must correspond tothe antenna# index numbers used in the antenna maps.IMPORTANT*Table 3-43: Set RFDS Configuration DataStep Action1Click on the Util menu.2 Select Edit > RFDS Configuration > TX or RX. A data entry pop–up window will appear.3Click on the Add Row button to add a new antenna number. Then click in the other columns and enterthe desired data.4To edit existing values click in the data box to be changed and change the value.NOTERefer to the Util > Edit–RFDS Configuration LMF help screen for RFDS configuration dataexamples.5To delete a row, click on the row and then click on the Delete Row  button.6Click on the Save button to save displayed values.7Click on the Dismiss button to exit the window. Values that were entered/changed after the Savebutton was used will not be saved.NOTEEntered values will be used by the LMF as soon as they are saved. You do not have to logout andlogin.3
RFDS Setup and Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-82RFDS CalibrationThe RFDS Calibration option is used to calibrate the RFDS TX and RXpaths. For a TX antenna path calibration the BTS XCVR is keyed at apre–determined power level and the BTS power output level is measuredby the RFDS. The power level is then measured at the TX antennadirectional coupler by the power measuring test equipment item beingused (power meter or analyzer). The difference (offset) between thepower level at the RFDS and the power level at the TX antennadirectional coupler is used as the TX RFDS calibration offset value.For an RX antenna path calibration the RFDS is keyed at apre–determined power level and the power input level is measured by theBTS XCVR. A CDMA signal at the same power level measured by theBTS XCVR is then injected at the RX antenna directional coupler by theCDMA communications analyzer. The difference (offset) between theRFDS keyed power level and power level measured at the BTS XCVR isthe RFDS RX calibration offset value.The TX and RX RFDS calibration offset values are written to the CALfile.For each RFDS TSIC, the channel frequency is determined at the lowerthird and upper third of the appropriate band using the frequencies listedin Table 3-44.Table 3-44: RFDS TSIC Calibration Channel FrequenciesSystem Channel Calibration Points800 MHz (A and B) 341 and 6821.9 GHz 408 and 791Before installing any test equipment directly to any TXOUT connector, verify that there are no CDMA BBXchannels keyed. Failure to do so can result in seriouspersonal injury and/or equipment damage.WARNINGPrerequisitesSBBX2s are INS_TESTSCable calibration has been performedSTX calibration has been performed and BLO has been downloaded forthe BTSSTest equipment has been connected correctly for a TX calibrationSTest equipment has been selected and calibrated3
RFDS Setup and Calibration – continued08/01/2001 3-831X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-45: RFDS CalibrationStep Action1Select the RFDS tab.2Click on the RFDS menu.3Click on the RFDS Calibration menu item.4Select the appropriate direction (TX/RX) in the Direction pick list.5Enter the appropriate channel number(s) in the Channels box. Separate the channel numbers with acomma or a dash if more than one channel number is entered (e.g., 247,585,742 or 385–395 forthrough).6 Select the appropriate carrier(s) in the Carriers pick list (use the Shift or Ctrl key to select multiplecarriers).7Select the appropriate RX branch (Both, Main, or Diversity) in the RX Branch pick list.8Select the appropriate baud rate (1=9600, 2=14400) in the Rate Set pick list.9Click on the OK button. A status report window is displayed, followed by a Directions pop–upwindow.10 Follow the cable connection directions as they are displayed. Test results are displayed in the statusreport window.11 Click on the OK button to close the status report window.12 Click on the BTS tab.13 Click on the MGLI.14 Download the CAL file which has been updated with the RFDS offset data to the selected GLI deviceby clicking on Device > Download Data from the tab menu bar and pulldown.NOTEThe MGLI will automatically transfer the RFDS offset data from the CAL file to the RFDS.3
RFDS Setup and Calibration – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-84Program TSU NAMFollow the procedure in Table 3-46 to program the TSU NAM. TheNAM must be programmed before it can receive and process test calls,or be used for any type of RFDS test.PrerequisitesSMGLI is INS.STSU is powered up and has a code load.Table 3-46: Program NAM ProcedureStep Action1Select the RFDS tab.2Select the TSU tab.3Click on the TSU menu.4Click on the Program TSU NAM menu item.5Enter the appropriate information in the boxes  (see Table 3-40 and Table 3-41) .6Click on the OK button to display the status report.7Click on the OK button to close the status report window.3
Alarms Testing08/01/2001 3-851X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYAlarm VerificationThe alarms testing should be performed at a convenient point in theoptimization/ATP process, since the LMF is necessary to ensure that theSC4812ET Lite is generating the appropriate alarms.The SC 4812ET Lite is capable of concurrently monitoring 10 customerdefined input signals and four customer defined outputs, which interfaceto the 50–pair punchblock. All alarms are defaulted to “Not Equipped”during ATP testing. Testing of these inputs is achieved by triggering thealarms and monitoring the LMF for state–transition messages from theactive MGLI2.Alarm Reporting DisplayThe Alarm Monitor window can be displayed to list alarms that occurafter the window is displayed. To access the Alarm Monitor window,select Util > Alarm Monitor.The following buttons are included.SThe Options button allows for a severity level (Warning, Minor,Major, Critical, and Unknown) selection. The default is all levels.To change the level of alarms reported click on the Options buttonand highlight the desired alarm level(s). To select multiple levels pressthe Ctrl key (for individual selections) or Shift key (for a range ofselections) while clicking on the desired levels.SThe Pause button can be used to pause/stop the display of alarms.When the Pause button is clicked the name of the button changes toContinue. When the Continue button is click the display of alarmswill continue. Alarms that occur between the time the Pause button isclicked and the Continue button is clicked will not be displayed.SThe Clear button can be used to clear the Alarm Monitor display.New alarms that occur after the Clear button is clicked will bedisplayed.SThe Dismiss button is used to dismiss/close the Alarm Monitordisplay.3
Alarms Testing – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-86Alarm Testing Set–upPrepare for any alarm testing by following the procedures in Table 3-47.Table 3-47: Alarm Testing PreparationStep Action1If it has not already been done, refer to the procedure in Table 3-6 to interface the CDMA LMFcomputer terminal to the frame LAN A connector.2If it has not already been done, refer to Table 3-7 to start a GUI LMF session.3Click on Util in the menu bar and select Alarm Monitor... from the pulldown.SAn Alarm Monitor window will open. Heat Exchanger Alarm TestTable 3-48 gives instructions on testing the Heat Exchanger alarm.Table 3-48: Heat Exchanger AlarmStep Action1Set one of the two DC PDA heat exchanger circuit breakers to  OFF. This will generate a heatexchanger alarm. Be sure that the CDMA LMF reports the correct alarm condition.2Alarm condition will be reported as BTS Relay #14, BTS Relay #15, BTS Relay #16, BTS Relay#17, BTS Relay #18, with Contact Alarm Open*Clear*, respectively.3Set the circuit breaker turned off in step 1 to  ON. Ensure that the alarm conditions have cleared onthe CDMA LMF with Contact Alarm Closed*Clear* for each reported BTS relay.NOTEThe heat exchanger will go through the start–up sequence.Door AlarmTable 3-49 gives instructions on testing the door alarms.Table 3-49: ACLC and Power Entry Door AlarmStep Action1Close the ACLC and power entry compartment doors on the frame. Ensure that no alarms are reportedon the CDMA LMF.2Individually open and then close the ACLC and power entry compartment door. Ensure that theCDMA LMF reports an alarm when each door is opened.3Alarm condition will be reported as BTS Relay #27 contact.3
Alarms Testing – continued08/01/2001 3-871X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYAC Fail AlarmTable 3-50 gives instructions on testing the AC Fail Alarm.Table 3-50: AC Fail AlarmStep Action1* IMPORTANTSBack–up batteries must be installed when performing this test.STo prevent inadvertently shutting down the RF compartment electronics, the batteries should becharged before performing this test.Set the ACLC MAIN circuit breaker to  OFF.SThe CDMA LMF should report an alarm for an AC Fail condition as BTS Relay #21, BTS Relay#23, BTS Relay #24, and BTS Relay #29 contacts, respectively.SOn the MAP, the MAJOR ALARM (red), MINOR ALARM (amber), and RECTIFIER FAIL (red)LEDs should light.SOn the rectifiers, the DC and PWR LEDs should light red.2Set the ACLC MAIN circuit breaker to  ON.SOn the CDMA LMF, the AC Fail alarm should clear.SOn the MAP, the  MAJOR ALARM, MINOR ALARM, and RECTIFIER FAIL LEDs shouldextinguish.SOn the rectifiers, the DC and PWR LEDs should change to green.Minor AlarmTable 3-51 gives instructions on performing a test to display a minoralarm.Table 3-51: Minor AlarmStep Action1Set the TCP switch on the MAP to  OFF. This will generate a minor alarm.SThe CDMA LMF should report the minor alarm as BTS Relay #24 contacts.SThe TC DISABLE (red) and MINOR ALARM (amber) LEDs on the MAP should light.2Set the TCP switch to  ON. The alarm condition indications should clear. Rectifier AlarmsThe following series of tests are for single rectifier modules in a multiplerectifier system. The systems include a three rectifier and a four rectifiersystem.Single Rectifier Failure (Three Rectifier System)Table 3-52 gives instructions on testing single rectifier failure or minoralarm in a three (3) rectifier system (single–carrier system). Procedures3
Alarms Testing – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-88in this test are for a frame configured for single carrier operation withrectifiers installed in rectifier shelf positions 2, 3, and 4, from left toright when facing the frame.Table 3-52: Single Rectifier Fail or Minor Alarm, Single–Carrier SystemStep Action1! CAUTIONOnly perform this test if the rectifier current load displayed on the AMP indicator on the MAP is 125 amps or less. Sufficient current capability to support a greater load may not be available whenone rectifier is removed from the bus.On the ACLC, set the RECT. 2/4 circuit breaker to  OFF.SThe DC and PWR LEDs should light red on the rectifier in shelf position 2.SThe MINOR ALARM (amber) and RECTIFIER FAIL (red) LEDs on the MAP should light.SThe CDMA LMF should report an alarm condition as BTS Relay #21 and BTS Relay #24contacts, respectively.2Set the RECT. 2/4 circuit breaker on the ACLC to  ON.SAll alarm indications should clear on the rectifier, MAP, and CDMA LMF. Multiple Rectifier Failure (Three Rectifier System)Table 3-53 gives instructions on testing multiple rectifier failure or majoralarm in a three (3) rectifier system (single–carrier system). Proceduresin this test are for a frame configured for single carrier operation withrectifiers installed in rectifier shelf positions 2, 3, and 4, from left toright when facing the frame.Table 3-53: Multiple Rectifier Failure or Major Alarm, Single–Carrier SystemStep Action1! CAUTIONOnly perform this test if the rectifier current load displayed on the AMP indicator on the MAP is 65amps or less. Sufficient current capability to support a greater load may not be available when tworectifiers are removed from the bus.On the ACLC, set the RECT. 1/3 circuit breaker to  OFF.SThe DC and PWR LEDs should light red on the rectifiers in shelf positions 1 and 3.SThe MAJOR ALARM (red), MINOR ALARM (amber), and RECTIFIER FAIL (red) LEDs on theMAP should light.SThe CDMA LMF should report an alarm condition as BTS Relay #21, BTS Relay #24, and BTSRelay #29 contacts, respectively.2Set the RECT. 1/3 circuit breaker on the ACLC to  ON.SAll alarm indications should clear on the rectifiers, MAP, and CDMA LMF. 3
Alarms Testing – continued08/01/2001 3-891X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYSingle Rectifier Failure (Four Rectifier System)Table 3-54 gives instructions on testing single rectifier failure or minoralarm in a four (4) rectifier system (two–carrier system).Table 3-54: Single Rectifier Fail or Minor Alarm, Two–Carrier SystemStep Action1! CAUTIONOnly perform this test if the rectifier current load displayed on the AMP indicator on the MAP is 125 amps or less. Sufficient current capability to support a greater load may not be available whentwo rectifiers are removed from the bus in the following steps.Unseat the rectifier in shelf position 4 from its connection at the rear of the shelf, but do notcompletely remove it from the shelf.SThe rectifier 4 DC and PWR LEDs may light red momentarily and extinguish. There should be noother indications on the frame or CDMA LMF.2On the ACLC, set the RECT. 2/4 circuit breaker to  OFF.SThe rectifier 2 DC and PWR LEDs should light red.SThe MINOR ALARM (amber) and RECTIFIER FAIL (red) LEDs on the MAP should light.SThe CDMA LMF should report an alarm condition as BTS Relay #21 and BTS Relay #24contacts, respectively.3 Re–seat the rectifier in shelf position 4 into its connection at the rear of the shelf.4 On the ACLC, set the RECT. 2/4 circuit breaker to  ON.SThe rectifier DC and PWR LEDs should light green.SAll alarm indications should clear on the rectifiers, MAP, and CDMA LMF. 3
Alarms Testing – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-90Multiple Rectifier Failure (Four Rectifier System)Table 3-55 gives instructions on testing multiple rectifier failure or majoralarm in a four (4) rectifier system (two–carrier system).Table 3-55: Multiple Rectifier Failure or Major Alarm, Two–Carrier SystemStep Action1! CAUTIONOnly perform this test if the rectifier current load displayed on the AMP indicator on the MAP is 125 amps or less. Sufficient current capability to support a greater load may not be available whentwo rectifiers are removed from the bus.On the ACLC, set the RECT. 2/4 circuit breaker to  OFF.SThe DC and PWR LEDs should light red on the rectifiers in shelf positions 2 and 4.SThe MAJOR ALARM (red), MINOR ALARM (amber), and RECTIFIER FAIL (red) LEDs on theMAP should light.SThe CDMA LMF should report an alarm condition as BTS Relay #21, BTS Relay #24, and BTSRelay #29 contacts, respectively.2Set the RECT. 2/4 circuit breaker on the ACLC to  ON.SAll alarm indications should clear on the rectifiers, MAP, and CDMA LMF. Battery Over TemperatureAlarm (Optional)Use special care to avoid damaging insulation on cables, ordamaging battery cases when using a heat gun.CAUTIONTable 3-56 gives instructions on testing the battery over–temperaturealarm system.Table 3-56: Battery Over–Temperature AlarmStep Action1Use a low–powered heat gun to gently heat the battery over–temperature sensor (see location inFigure 3-21).! CAUTIONTo avoid damaging the cable insulation, do not hold the hot air gun closer than three (3) inches fromthe sensor.3
Alarms Testing – continued08/01/2001 3-911X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYTable 3-56: Battery Over–Temperature AlarmStep Action2NOTEWhen the over–temperature alarm point is reached, an audible click will sound as DC PDA relay K1contacts engage and relay K2 contacts disengage (make–before–break operation).When the sensor is heated to approximately 51° C, a battery over–temperature alarm is generated withthe following indications.SOn the MAP, the CHARGE DISABLE LED (red) should light and the MAIN CONN. ENABLELED (green) should extinguish.SThe CDMA LMF should display an alarm condition as BTS Relay #22 contacts.3Switch the hot air gun to cool. Cool the sensor until the K1 and K2 contacts return to normal position(K1 open and K2 closed). The following indications that alarms have cleared should occur:SOn the MAP, the CHARGE DISABLE LED (red) should extinguish and the MAIN CONN.ENABLE (green) LED should light.SThe alarm reported on CDMA LMF will clear3
Alarms Testing – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-92Figure 3-21: Battery Over–Temperature SensorBus Bar6 AWG CablesBattery Overtemp SensorNegative Temperature Compensation SensorSC4812ETL0014–13
Alarms Testing – continued08/01/2001 3-931X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYRectifier Over TemperatureAlarmTable 3-57 gives instructions on testing the rectifier over–temperaturealarm system.Table 3-57: Rectifier Over–Temperature AlarmStep Action1Remove the 14 tamper–resistant Torx fasteners securing the rear access panel to the rear of the frame(Figure 2-1), and remove the rear access panel.NOTEPanel fastener type can be either T–27 button head or  T–30 pan head.2Looking up through the frame rear access opening, locate the rear of the MAP.3Remove the jumper plug from connector J8 on the rear panel of the MAP (Figure 3-22). Thefollowing conditions should occur:SContacts on K1 and K2 change states (K1 now closed and K2 open).SThe CDMA LMF reports an alarm condition as BTS Relay #26 contacts.4Reinstall the jumper plug in connector J8, and verify that all alarm conditions have cleared.5Reinstall the frame rear access panel, securing it with the 14 tamper–resistant Torx fasteners removedin step 1. Figure 3-22: MAP Connector J8 (Rear of MAP)SC4812ETL0021–1J4 J5 J1J12J3 J8 J9 J7J2CONNECTOR J8Before Leaving the siteIf no further operations are required after performing the alarm tests,complete the requirements in Table 5-8 before leaving the site.3
Alarms Testing – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20013-94Notes3
08/01/2001 1X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYChapter 4: Automated Acceptance Test Procedure (ATP)Table of ContentsAutomated Acceptance Test Procedure – Introduction 4-1. . . . . . . . . . . . . . . . . . . . Introduction 4-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Prerequisites 4-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TX/RX Antenna Connections 4-2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Acceptance Tests – Test Set Up 4-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Required Test Equipment 4-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Acceptance Test Equipment Set Up 4-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . Abbreviated (All–inclusive) Acceptance Tests 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . All–inclusive Tests 4-4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . All TX/RX ATP Test 4-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . All TX ATP Test 4-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . All RX ATP Test 4-6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Individual Acceptance Tests–Introduction 4-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . Individual Acceptance Tests 4-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Individual Tests 4-7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . TX Spectral Purity Transmit Mask Acceptance Test 4-9. . . . . . . . . . . . . . . . . . . . . Background 4-9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Spectral Purity TX Mask  Acceptance Test 4-10. . . . . . . . . . . . . . . . . . . . . . TX Waveform Quality (Rho) Acceptance Test 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . Background 4-12. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Waveform Quality (Rho) Acceptance Test 4-12. . . . . . . . . . . . . . . . . . . . . . TX Pilot Time Offset Acceptance Test 4-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Background 4-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Pilot Time Offset Acceptance Test 4-13. . . . . . . . . . . . . . . . . . . . . . . . . . . . TX Code Domain Power/Noise Floor Acceptance Test 4-15. . . . . . . . . . . . . . . . . . . Background 4-15. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Code Domain Power/Noise Floor Test 4-15. . . . . . . . . . . . . . . . . . . . . . . . . RX FER Acceptance Test 4-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Background 4-18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . FER Acceptance Test 4-19. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Generating an ATP Report 4-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Background 4-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ATP Report 4-20. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Table of Contents  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/2001Notes4
Automated Acceptance Test Procedure – Introduction08/01/2001 4-11X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYIntroductionThe automated Acceptance Test Procedure (ATP) allows Cellular FieldEngineers (CFEs) to run automated acceptance tests on all equipped BTSsubsystem devices using the CDMA LMF GUI environment andsupported test equipment.The operator can choose to save the results of these tests to a report file,from which ATP reports are generated for later printout.Perform the ATP test on out-of-service sectors or sites only. Because alltests are controlled via the CDMA LMF computer using the GPIBinterface from the CDMA LMF computer, only recommended testequipment supported by the CDMA LMF can be used.Before using the LMF, use an editor to view the”CAVEATS” section in the ”readme.txt” file in the c:\wlmffolder for any applicable information.IMPORTANT*The ATP test is to be performed on out-of-service sectorsonly.DO NOT substitute test equipment with other models notsupported by the LMF.IMPORTANT*Refer to Chapter 3 for detailed information on test setconnections for calibrating equipment, cables and other testset components, if  required.NOTEThe CFE selects the appropriate ATP tests to run to satisfy customer andregulatory requirements for verifying cell site performance. These testscan be run individually or as one of the following groups:SAll TX: TX tests verify the performance of the BTS transmitelements. These include the GLI2, MCC, BBX2, BDC, and trunkingmodules, the LPAs, and passive components including splitters,combiners, bandpass filter(s), and RF cables.SAll RX: RX tests verify the performance of the BTS receive elements.These include the MPC (for starter frames), , BBX2, MCC, and GLI2modules, and the passive components including RX filter (starterframe only), and RF cables.SAll TX/RX: Executes all TX and RX tests.SFull Optimization: Executes the TX calibration, downloads BLO,and executes the TX audit before running all TX and RX tests.4
Automated Acceptance Test Procedure – Introduction – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-2PrerequisitesBefore attempting to run any ATP tests, all applicable proceduresoutlined in Chapter 3, Optimization/Calibration, must have beencompleted successfully (i.e., code load and BLO calibration).You cannot substitute test equipment with other models notsupported by the CDMA LMF.NOTEBefore attempting to run any ATP tests, ensure the following:SBTS has been optimized and calibrated (see Chapter 3).SLMF is logged into the BTSSCSMs, GLI2s, BBX2s, MCCs and TSU (if the RFDS is installed)have correct code load and data loadSPrimary CSM and GLI2 are INS_ACTSMCCs are INS_ACTSBBX2s are OOS-RAMSBBX2s are calibrated and BLOs are downloadedSTest cables are calibratedSTest equipment is selectedSTest equipment is connected for ATP testsSTest equipment has been warmed up 60 minutes and calibratedSGPIB is onBefore the FER is run, be sure that all LPAs are turnedOFF (circuit breakers pulled) or that all transmitterconnectors are properly terminated.All transmit connectors must be properly terminated for allATP tests.Failure to observe these warnings may result in bodilyinjury or equipment damage.WARNINGTX/RX Antenna ConnectionsRefer to Figure 1-6 or Figure 1-7 for identification of the transmit andreceive antenna connections where measurement are to be taken.Directional couplers for signal sampling by the RFDS, if installed, areintegral to the SC4812ET Lite transmit and receive paths in the DRDCsand TRDCs. As a result, all ATP measurement connections are made atthe antenna connectors on the RF interface panel.4
Acceptance Tests – Test Set Up08/01/2001 4-368P09253A601X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYRequired Test EquipmentThe following test equipment is required:SLMFSPower meter (used with HP8921A/600 and Advantest R3465)SCommunications test setBefore installing any test equipment directly to any TXOUT connector, verify that there are no CDMA channelskeyed.At active sites, have the OMCR/CBSC place the carrierassigned to the LPAs under test OOS. Failure to do so canresult in serious personal injury and/or equipment damage.WARNINGYou must recalibrate the test equipment before using it toperform the TX Acceptance Tests.NOTEAcceptance Test EquipmentSet UpFollow the steps in Table 4-1  to set up test equipment for all tests.Table 4-1: Set Up Test Equipment – TX Output Verify/Control TestsStep Action1If it has not already been done, interface the LMF computer to the BTS (refer to Table 3-6 andFigure 3-10).2If it has not already been done, refer to Table 3-7 to start a GUI LMF session and log into the BTS.3If it has not already been done, refer to Figure 3-17 or Figure 3-18, as applicable for the testequipment being used, to connect test equipment for acceptance testing.* IMPORTANTCDMA LMF–based measurement commands factor in TX test cable loss between the RFM frame andtest equipment. No additional attenuation can be inserted as the additional losses would not befactored in. 4
Abbreviated (All–inclusive) Acceptance TestsPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-4All–inclusive TestsThe all–inclusive acceptance tests are performed from the LMF GUIenvironment. These tests execute various combinations of individualacceptance tests with a single command. This allows verification ofmultiple aspects of BTS performance while minimizing time needed forindividual test set up and initiation.There are three abbreviated acceptance tests which evaluate differentperformance aspects of the BTS. This allows the CFE to select testing tomeet the specific requirements for individual maintenance andperformance verification situations. The following summarizes thecoverage of each abbreviated test:SAll TX/RX. Performs all transmit and receive ATPs on the selectedMCCs and BBX2s.SAll TX. Performs complete set of transmit ATPs on the selectedMCCs and BBX2s. Testing is the equivalent of performing all of thefollowing individual tests:–TX Mask Test–Rho Test–Pilot Time Offset Test–Code Domain Power TestSAll RX. Performs complete receive ATP on the selected MCCs andBBX2s. Testing is the equivalent of performing the following:–FER Test4
Abbreviated (All–inclusive) Acceptance Tests – continued08/01/2001 4-51X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYAll TX/RX ATP Test Follow the procedures in Table 4-2 to perform the abbreviated,all–inclusive transmit and receive test.Table 4-2: All TX/RX ATP Test ProcedureStep Action1Set up the test equipment initially for abbreviated tests per Table 4-1.2Select the BBX2s and MCCs to be tested.3From the Tests menu, select All TX/RX.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. All TX ATP Test Follow the procedures in Table 4-3 to perform the abbreviated,all–inclusive transmit test.Table 4-3: All TX ATP Test ProcedureStep Action1Set up the test equipment for abbreviated tests per Table 4-1.2Select the BBX2s and MCCs to be tested.3From the Tests menu, select All TX.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.. . . continued on next page4
Abbreviated (All–inclusive) Acceptance Tests – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-6Table 4-3: All TX ATP Test ProcedureStep Action8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. All RX ATP Test Follow the procedures in Table 4-4 to perform the abbreviated,all–inclusive receive test.Table 4-4: All RX ATP Test ProcedureStep Action1Set up the test equipment for abbreviated tests per Table 4-1.2Select the BBX2s and MCCs to be tested.3From the Tests menu, select All RX.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
Individual Acceptance Tests–Introduction08/01/2001 4-71X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYIndividual Acceptance TestsThe following individual ATP tests can be used to evaluate specificaspects of BTS operation against individual performance requirements.All testing is performed using the CDMA LMF GUI environment.TX TestingTX tests verify any given transmit antenna path and output powercontrol. All tests are performed using the external calibrated test set. Allmeasurements are via the appropriate TX OUT connector.TX tests verify TX operation of the entire CDMA Forward Link usingall BBX2s assigned to all respective sector/antennas. Each BBX2 iskeyed up to generate a CDMA carrier (using both bbx level and baylevel offsets) at the CDF file carrier output power level (as specified inthe site documentation).RX TestingRX testing verifies any given receive antenna path. All tests areperformed using the external calibrated test set to inject a CDMA RFcarrier with all zero longcode at the specified RX frequency  via theappropriate RX IN connector.RX tests verify RX operation of the entire CDMA Reverse Link usingall equipped MCCs assigned to all respective sector/antennas.Individual TestsSpectral Purity TX MaskThis test verifies that the transmitted CDMA carrier waveform generatedon each sector meets the transmit spectral mask specification (as definedin IS–97) with respect to the assigned cdf file values.Waveform Quality (Rho)This test verifies that the transmitted Pilot channel element digitalwaveform quality (rho) exceeds the minimum specified value in IS–97.Rho represents the correlation between the actual and perfect CDMAmodulation spectrums. 1.0000 represents 100% (or perfect correlation).Pilot Time OffsetThe Pilot Time Offset is the difference between the CDMA analyzermeasurement interval (based on the BTS system time reference) and theincoming block of transmitted data from the BTS (Pilot only, Walshcode 0).Code Domain Power/Noise FloorThis test verifies the code domain power levels, which have been set forall ODD numbered Walsh channels, using the OCNS command. This is4
Individual Acceptance Tests–Introduction – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-8done by verifying that the ratio of PILOT divided by OCNS is equal to10.2 + 2 dB, and, that the noise floor of all EVEN numbered “OFF”Walsh channels measures < –27 dB (with respect to total CDMA channelpower).BTS Frame Error RateThis test verifies the BTS receive Frame Error Rate (FER) on all TrafficChannel elements currently configured on all equipped MCCs (fullrate atone percent FER) at an RF input level of –119 dBm on the main RXantenna paths using all equipped MCCs and BBX2s at the site. Thediversity RX antenna paths are also tested using the lowest equippedMCC/CE ONLY.There are no pass/fail criteria associated with FER readingstaken at level below –119 dBm, other than to verify thatthe FER measurement reflects changes in the RX inputsignal level.NOTE4
TX Spectral Purity Transmit Mask Acceptance Test08/01/2001 4-91X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYBackgroundThis test verifies the spectral purity of each BBX carrier keyed up at aspecific frequency per the current CDF file assignment.  All tests areperformed using the external calibrated test set controlled by the samecommand. All measurements are via the appropriate TX OUT connector.Pilot gain will be set to 541 for each antenna, and the forward link willbe disabled for all Traffic CHannel (TCH) elements from the MCCs. TheBBX2 will be keyed up using both bbxlvl and bay level offsets, togenerate a CDMA carrier (with pilot channel element only).  RF outputwill be set at 40 dBm as measured at the appropriate TX output.The calibrated communications test set will measure and return theattenuation level of all spurious and IM products with respect to themean power of the CDMA channel measured in a 1.23 MHz bandwidth,in dB, verifying that results meet system tolerances at the following testpoints (see also Figure 4-1):SFor 800 MHz:–At least –45 dB @ + 750 kHz from center frequency–At least –45 dB @ – 750 kHz from center frequency–At least –60 dB @ –1980 kHz from center frequency–At least –60 dB @  + 1980 kHz from center frequencySFor 1.9 GHz:–At least –45 dB @ + 900 kHz from center frequency–At least –45 dB @ – 900 kHz from center frequencyThe BBX2 will then dekey, and if selected, the redundant BBX2 will beassigned to the current TX antenna path under test. The test will then berepeated.4
TX Spectral Purity Transmit Mask Acceptance Test – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-10Spectral Purity TX MaskAcceptance TestFollow the steps in Table 4-5 to verify the transmit spectral maskspecification on all TX antenna paths using all BBXs equipped at theBTS.Table 4-5: Test Spectral Purity Transmit MaskStep Action1Set up the test equipment for TX acceptance tests per Table 4-1.2Select the BBX2s to be tested.3From the Tests menu, select TX Mask.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
TX Spectral Purity Transmit Mask Acceptance Test – continued08/01/2001 4-111X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYFigure 4-1: TX Mask Verification Spectrum Analyzer Display– 900 kHz + 900 kHzCenter Frequency ReferenceAttenuation level of allspurious and IM productswith respect to the meanpower of the CDMA channel.5 MHz Span/DivAmpl 10 dB/DivMean CDMA Bandwidth Power Reference– 1980 kHz+750 kHz+ 1980 kHz– 750 kHz4
TX Waveform Quality (Rho) Acceptance TestPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-12BackgroundThis test verifies the transmitted pilot channel element digital waveformquality of each BBX carrier keyed up at a specific frequency per thecurrent CDF file assignment. All tests are performed using the externalcalibrated test set controlled by the same command. All measurementsare via the appropriate TX OUT connector.Pilot gain will be set to 262 for each antenna, and all TCH elementsfrom the MCCs will be forward link disabled. The BBX2 will be keyedup using both bbxlvl and bay level offsets to generate a CDMA carrier(with pilot channel element only, Walsh code 0). RF output power is setat 40 dBm as measured at the appropriate TX output.The calibrated communications test set will measure and return the pilotchannel element digital waveform quality (rho) percentage, verifyingthat the result meets system tolerances:Waveform quality (Rho) should be > 0.912.The BBX2 will then dekey, and if selected, the redundant BBX2 will beassigned to the current TX antenna path under test. The test will then berepeated.Waveform Quality (Rho)Acceptance TestFollow the steps in Table 4-6 to verify the pilot channel elementwaveform quality (rho) on the specified TX antenna paths using BBXsequipped at the BTS.Table 4-6: Test Waveform Quality (Rho)Step Action1Set up the test equipment for TX acceptance tests per Table 4-1.2Select the BBX2s to be tested.3From the Tests menu, select Rho.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
TX Pilot Time Offset Acceptance Test08/01/2001 4-131X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYBackgroundThis test verifies the transmitted pilot channel element Pilot Time Offsetof each BBX carrier keyed up at a specific frequency  per the currentCDF file assignment. All tests will be performed using the externalcalibrated test set controlled by the same command. All measurementswill be via the TX OUT connector.The pilot gain will be set to 262 for each antenna and all TCH elementsfrom the MCCs will be forward link disabled. The BBX2 will be keyedup using both bbxlvl and bay level offsets to generate a CDMA carrier(with pilot channel element only, Walsh code 0). TX power output is setat 40 dBm as measured at the TX output.The calibrated communications test set will measure and return the PilotTime Offset in ms, verifying that results meet system tolerances:Pilot Time Offset should be within 3 ms of the target PT Offset (zero ms).The BBX2 will then dekey, and if selected, the redundant BBX2 will beassigned to the current TX antenna path under test. The test will then berepeated.This test also executes and returns the TX Frequency andTX Waveform Quality (rho) ATP tests, however, only PilotTime Offset results are written to the ATP test report.NOTEPilot Time Offset AcceptanceTestFollow the steps in Table 4-7 to verify the Pilot Time Offset on thespecified TX antenna paths using BBXs and BDCs equipped at the BTS.Table 4-7: Test Pilot Time OffsetStep Action1Set up the test equipment for TX acceptance tests per Table 4-1.2Select the BBX2s to be tested.3From the Tests menu, select Pilot Time Offset.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.. . . continued on next page4
TX Pilot Time Offset Acceptance Tests – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-14Table 4-7: Test Pilot Time OffsetStep Action7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
TX Code Domain Power/Noise Floor Acceptance Test08/01/2001 4-151X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYBackgroundThis test verifies the Code Domain Power and Noise Floor of each BBXcarrier keyed up at a specific frequency  per the current CDF fileassignment. All tests are performed using the external calibrated test setcontrolled by the same command. All measurements are via theappropriate TX OUT connector.Pilot gain will be set to 262 for each antenna and all equipped MCCswill be configured to supply all odd–numbered Walsh code Trafficchannel elements by enabling Orthagonal Channel Noise Source(OCNS) on all odd MCC/CEs, (maximum 32 full rate channels with anOCNS gain of 81).  All even–numbered Walsh code Traffic channelelements will not  have OCNS enabled, and are considered “OFF”.  Allequipped MCCs will be forward–link enabled for the antenna/sectorunder test.The BBX2 will be keyed up using both bbxlvl and bay level offsets, togenerate a CDMA carrier consisting of pilot and OCNS channels.  RFoutput power is set at 40 dBm as measured at the appropriate TX output.The calibrated communications test set will measure and return thechannel element power (dB) of all specified Walsh channels within theCDMA spectrum. Additional calculations will be performed to verify thefollowing parameters are met (Figure 4-2):STraffic channel element power level will be verified by calculating theratio of PILOT power to OCNS gain of all traffic channels (root sumof the square (RSS) of each OCNS gain divided by the Pilot power).This value should be 10.2 dB + 2.0 dB.SNoise floor (unassigned  “OFF” even numbered Walsh channels)  areverified to be < –27 dB (with respect to total CDMA channel power).The BBX2 will then dekey, and if selected, the redundant BBX2 will beassigned to the current TX antenna path under test. The test will then berepeated. Upon completion of the test, OCNS channels will be disabledon the specified MCC/CEs.Code Domain Power/NoiseFloor TestFollow the steps in Table 4-8 to verify the Code Domain Power/Noisefloor of each BBX carrier keyed up at a specific frequency.4
TX Code Domain Power/Noise Floor Acceptance Test – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-16Table 4-8: Test Code Domain Power/Noise FloorStep Action1Set up the test equipment for TX acceptance tests per Table 4-1.2Select the BBX2s and MCCs to be tested.3From the Tests menu, select TX Mask.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6 Click OK. The status report window is displayed and a Directions pop-up is displayed.7Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.8 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
TX Code Domain Power/Noise Floor Acceptance Test – continued08/01/2001 4-171X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYPilot ChannelActive channelsPILOT LEVELMAX OCNS SPEC.MIN OCNS SPEC.MAXIMUM NOISE FLOOR: < –27 dB SPEC.Inactive channelsWalsh  0  1  2   3  4  5  6   7  ... 64MAX OCNSCHANNELMIN OCNSCHANNEL8.2 dB 12.2 dBMAX NOISEFLOORPilot ChannelActive channelsPILOT LEVELMAX OCNS SPEC.MIN OCNS SPEC.MAXIMUM NOISE FLOOR:< –27 dBInactive channelsWalsh  0  1  2   3  4  5  6   7  ... 64FAILURE – DOES NOTMEET MIN OCNS SPEC.FAILURE – EXCEEDSMAX OCNS SPEC. 8.2 dB 12.2 dBFAILURE – EXCEEDS MAXNOISE FLOOR SPEC.Code Domain Power/Noise Floor (OCNS Pass) ExampleFigure 4-2: Code Domain Analyzer CD Power/Noise Floor Display ExamplesCode Domain Power/Noise Floor (OCNS Failure) Example4
RX FER Acceptance TestPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-18BackgroundThis test verifies the BTS Frame Erasure Rate (FER) on all TCHscurrently configured on all equipped MCCs (fullrate at 1% FER) at –119dBm on the main RX antenna paths.  The test is performed on alldiversity RX antenna path using only the lowest equipped MCC/CE. Alltests are performed using the external calibrated test set as the signalsource controlled by the same command. All measurements are via theLMF.Pilot gain will be set to 262 for each TX antenna, and the forward linkfor all TCH elements from the MCCs will be disabled. The BBX2 willbe keyed up using only bbxlvl level offsets, to generate a CDMAcarrier (with pilot channel element only). TX power output is set at +10dBm. (The BBX must be keyed in order to enable the RX receivecircuitry.)The LMF will prompt the MCC/CE under test to measure all–zerolongcode and provide the Frame Erasure Rate (FER) report on theselected active MCC on the Reverse Link for both the main and diversityRX antenna paths, verifying results meet the following specification:FER returned less than 1% and Total Frames measured is 1500.The BBX2 will then dekey, and if selected, the redundant BBX2 will beassigned to the current RX antenna paths under test. The test will then berepeated.4
RX FER Acceptance Test – continued08/01/2001 4-191X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYFER Acceptance TestFollow the steps in Table 4-9 to verify the FER on all RX antenna pathsusing all BBXs equipped at the BTS.Table 4-9: Test FERStep Action1Set up the test equipment for RX acceptance tests per Table 4-1.2Select the BBX2s and MCCs to be tested.3From the Tests menu, select FER.4Select the appropriate carrier(s) (carrier-bts#-sector#-carrier#) displayed in the Channels/Carrier picklist.NOTETo select multiple items, hold down the Shift or Ctrl key while making the selections.5Enter the appropriate channel number in the Carrier n Channels box.6From the RX Branch pick list, select the branch/branches to be tested.7Select the desired rate from the Rate Set pick list (1 = 9600, 2 = 14400).8 Click OK. The status report window is displayed and a Directions pop-up is displayed.9Follow the cable connection directions as they are displayed. The test results are displayed in thestatus report window.10 Click Save Results or Dismiss.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4
Generating an ATP ReportPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20014-20BackgroundEach time an ATP test is run, an ATP report is updated and must besaved using the Save Results button to close the status report window.The ATP report will not be updated if the status reports window is closedusing the Dismiss button.ATP ReportA separate report is created for each BTS and includes the following foreach test:STest nameSPASS or FAILSDescription information (if applicable)SBBX numberSChannel numberSCarrier numberSSector numberSUpper test limitSLower test limitSTest resultSTime stampSDetails/Warning information (if applicable)Follow the procedures in the Table 4-10 to view and create a printablefile for the ATP report.Table 4-10: Generating an ATP ReportStep Action1Click on the Login tab (if not in the forefront).2Select the desired BTS from the available Base Station pick list.3Click on the Report button.4Click on a column heading to start the report.5If not desiring a printable file copy, click on the Dismiss button.6If requiring a printable file copy, select the desired file, type in the pick list and click on the Savebutton. 4
08/01/2001 1X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYChapter 5: Leaving the SiteTable of ContentsUpdating Calibration Data Files 5-1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Updating CBSC Calibration Data Files 5-1. . . . . . . . . . . . . . . . . . . . . . . . . Prepare to Leave the Site 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Removing External Test Equipment 5-3. . . . . . . . . . . . . . . . . . . . . . . . . . . Reset All Devices and Initialize Site Remotely 5-3. . . . . . . . . . . . . . . . . . . Bringing Modules into Service with the CDMA LMF 5-3. . . . . . . . . . . . . Terminating LMF Session/Removing Terminal 5-4. . . . . . . . . . . . . . . . . . Connecting BTS T1/E1 Spans 5-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Before Leaving the site 5-5. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  5
Table of Contents  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/2001Notes5
Updating Calibration Data Files08/01/2001 5-11X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYUpdating CBSC CalibrationData FilesAfter completing the TX calibration and audit, updated CAL fileinformation must be moved from the LMF Windows environment backto the CBSC, a Unix environment. The following procedures detailmoving files from one environment to the other.Copying CAL files from LMF to a DiskFollow the procedures in Table 5-1 to copy the CAL files from a CDMALMF computer to a 3.5 diskette.Table 5-1: Copying CAL Files to a DisketteStep Action1With Windows running on the CDMA LMF computer, insert a disk into Drive A:.2Launch the Windows Explorer Program from your Programs menu list.3Select the applicable wlmf/cdma/bts–# folder.4Drag the bts–#.cal file to Drive A.5Repeat Steps 3 and 4, as required, for other bts–# folders. Copying CAL Files from Diskette to the CBSCFollow the procedures in Table 5-2 to copy CAL files from a diskette tothe CBSC.Table 5-2: Copying CAL Files from Diskette to the CBSCStep Action1Log in to the CBSC on the OMC–R Unix workstation using your account name and password.2Place your diskette containing calibration file(s) in the workstation diskette drive.3Type in eject –q and press the Enter key.4Type in mount and press the Enter key.NOTESCheck to see that the message “floppy/no_name” is displayed on the last line.SIf the eject command was previously entered, floppy/no_name will be appended with a number.Use the explicit floppy/no_name reference displayed.5Type in cd /floppy/no_name and press the Enter key.6Type in ls –lia and press the Enter key. Verify that the bts–#.cal file is on the diskette.7Type in cd and press the Enter key.8Type in pwd and press the Enter key. Verify you are in your home directory (/home/<name>).. . . continued on next page5
Back Up Calibration Data Files – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20015-268P09253A60Table 5-2: Copying CAL Files from Diskette to the CBSCStep Action9 With Solaris versions of Unix, create a Unix–formatted version of the bts–#.cal file in your homedirectory by entering the following command:dos2unix  /floppy/no_name/bts–#.cal  bts–#.cal and press the Enter key (where # is BTSnumber).NOTEOther versions of Unix do not support the dos2unix command. In these cases, use the Unix cp(copy) command. The copied files will contain DOS line feed characters which must be edited outwith a Unix text editor.10 Type in ls –l *.cal and press the Enter key. Verify the cal files have been copied.11 Type in eject and press the Enter key.12 Remove the diskette from the workstation. 5
Prepare to Leave the Site08/01/2001 5-31X SCt4812ET Lite BTS Optimization/ATPPRELIMINARYRemoving External TestEquipment Perform the procedure in Table 5-3 to disconnect the test equipment andconfigure the BTS for active service.Table 5-3: Remove External Test EquipmentStep Action1Disconnect all external test equipment from all TX and RX connectors at the rear of the frame.2Reconnect and visually inspect all TX and RX antenna feed lines at the frame RF interface panel.! CAUTIONVerify that all sector antenna feed lines are connected to the correct ports on the frame. Crossedantenna cables will cause system degradation of call processing.Reset All Devices and InitializeSite RemotelyGenerally, devices in the BTS should not be left with data and codeloaded from the CDMA LMF. The configuration data and code loadsused for normal operation could be different from those stored in theCDMA LMF files. By resetting all devices, the required data and codecan be loaded from the CBSC when spans are again active.To reset all devices and have the OMCR/CBSC bring up the siteremotely, perform the procedure in Table 5-4.Table 5-4: Reset BTS Devices and Remote Site InitializationStep Action1Terminate the CDMA LMF session by following the procedures in Table 5-6.2NOTEIn the following step, performing Table 2-6 DC voltage measurements other than those using the MAPVOLT and AMP indicators is not necessary if DC power system components have not been replacedduring the optimization and/or ATP process.Cycle BTS power off, as specified in Table 2-9, and on, as specified in Table 2-5, Table 2-6, and step 1of Table 2-7, respectively.3Reconnect spans by following the procedure in Table 5-7.4Notify the OMCR/CBSC to take control of the site and download code and data to the BTS.5Verify the CBSC can communicate with the GLIs. Bringing Modules into Servicewith the CDMA LMFWhenever possible, have the CBSC/MM bring up the siteand enable all devices at the BTS.IMPORTANT*5
Prepare to Leave the Site  – continuedPRELIMINARY1X SCt4812ET Lite BTS Optimization/ATP 08/01/20015-4If there is a reason code and/or data should or could not be loadedremotely from the CBSC, follow the steps outlined in Table 5-5 asrequired to bring BTS processor modules from OOS to INS state.Table 5-5: Bring Modules into ServiceStep Action1In the CDMA LMF GUI environment, select the device(s) you wish to enable.NOTESThe MGLI, CSM, and applicable BDC must be INS before an MCC can be enabled to INS.SProcessors which must be enabled and the order of enabling are as follows:–MGLI–GLI–CSMs–MCCs2Click on Device from the menu bar.3Click on Enable from the Device menu. A status report window is displayed.NOTEIf a BBX is selected, a transceiver parameters window is displayed to collect keying information. Donot enable the BBX.4 Click Cancel to close the transceiver parameters window, if applicable.5 Click OK to close the status report window.The selected devices that successfully change to INS change color to green. Terminating LMFSession/Removing TerminalPerform the procedure in Table 5-6 as required to terminate the LMFGUI session and remove the CDMA LMF computer.Table 5-6: Remove LMFStep Action! CAUTIONDo not power down the CDMA LMF terminal without performing the procedure below.Corrupted/lost data files may result.1Log out of all BTS sessions and exit CDMA LMF by clicking on the File selection in the menu barand selecting Exit from the File menu list.2 Click Yes in the Confirm Logout pop–up message which appears.3In the Windows Task Bar, click Start and select Shutdown.4 Click Yes when the Shut Down Windows message appears5Wait for the system to shut down and the screen to go blank.. . . continued on next page5

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