Nokia Solutions and Networks T5CS1 Cellular CDMA Base Station User Manual IHET5SC1 GLI3 3 of 4

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Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-1Chapter 4Automated Acceptance TestProcedures4

Automated Acceptance Test Procedure - Introduction 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-2Automated Acceptance Test Procedure - IntroductionIntroductionGeneralThe Acceptance Test Procedures (ATP) allow Cellular Field Engineers(CFEs) to run automated acceptance tests on all BTS subsystem devicesequipped in the CDF using the LMF and the test equipment it supports.Test ReportsThe CFE can choose to save the results of ATP tests to a report file fromwhich ATP reports are generated for later printing. See the Generating anATP Report section in this chapter.Test Equipment SelectionBecause test equipment functions during acceptance testing arecontrolled by the LMF through the GPIB, only the test equipmentmodels supported by the LMF can be used.NOTE 1. Before using the LMF, read the Developer Release Notessection in the LMF Help function on-line documentation forany applicable information.2. The ATP test is to be performed on out-of-service sectorsonly.3. DO NOT substitute test equipment with other models notsupported by the LMF.Test Equipment Set CalibrationRefer to Chapter 3 for detailed interconnection information needed forcalibrating equipment, cables, and other test equipment set components.Reduced ATPNOTE Equipment has been factory-tested for FCC compliance. Iflicense-governing bodies require documentation supporting BTSsite compliance with regulations, a full ATP may be necessary.Perform the Reduced ATP only if reports for the specific BTSsite are NOT required.After downloading the proper operational software to the BTS, the CFEmust perform these procedures (minimum recommendation):1. Verify the TX/RX paths by performing TX Calibration, TX Audit,and FER tests.2. Retrieve Calibration Data required for normal site operation.Should failures occur while performing the specified tests, refer to theBasic Troubleshooting section of this manual for help in determining thefailure point. Once the point of failure has been identified and corrected,refer to the BTS Optimization and ATP Test Matrix (Table B-1) in theFRU Optimization/ATP Test Matrix section of Appendix B to determinethe applicable test that must be performed.4

Acceptance Tests - Test Set-up68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-7Acceptance Tests - Test Set-upRequired Test EquipmentThe following test equipment is required:SLMFSPower meter (used with HP8921A/600 and Advantest R3465)SCommunications system analyzerSSignal generator for FER testing (required for all communicationssystem analyzers for 1X FER)WARNING -Before installing any test equipment directly to any BTSTX OUT connector, verify that there are no CDMAchannels keyed.- 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.NOTE The test equipment must be re-calibrated before using it toperform the TX Acceptance Tests.Acceptance Test Equipment Set UpAll ATP testing - Follow the steps in Table 4-3 to set up test equipmentfor all tests.Table 4-3: 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 3-10 andFigure 3-6).2If it has not already been done, refer to Table 3-11 to start a GUI LMF session and log into the BTS.3If it has not already been done, refer to Figure 3-16, Figure 3-17, Figure 3-18, Figure 3-19,Figure 3-20, or Figure 3-21, as applicable, for the test equipment and antenna duplexing being used, toconnect test equipment for acceptance testing.NOTELMF-based measurements factor in TX test cable loss between the RFMF and test equipment. Ifadditional attenuation, such as external TX combiners, is inserted in the path, it must be identified tothe LMF by including it in the TX test cable calibration. If this is not possible, include the attenuationin the TX path by editing cable loss values (refer to Table 3-34). Failure to do this will result in testinaccuracies and potential for erroneous ATP failures because the additional losses would not becompensated for in the test measurements. 4

Acceptance Tests - Test Set-up 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-8Companion frame All TX/RX, All RX, and FER for Diversity RX -When performing All TX/RX, All RX, or FER ATP for companionframe diversity RX, perform the additional test equipment set-upprocedures in Table 4-4.Table 4-4: Additional Diversity RX Test Set-up for Companion FramesStep Action1If the LMF is logged into the BTS, log out of the BTS.2If the inter-frame diversity RX cabling to a collocated companion frame is:SConnected to the companion frame under test, proceed to step 3.SDisconnected from the companion frame under test, proceed to step 7.3For companion frames with inter-frame diversity RX cables connected, click on the LMF Login tab.4In the Equipage Information box, select MPC from the Multi-Channel Preselector picklist.5Make RX test cable connections for diversity RX FER according to Figure 4-1 and Table 4-1.6Proceed to step 10.7For companion frames with inter-frame diversity RX cables disconnected, click on the LMF Logintab.8In the Equipage Information box, select EMPC from the Multi-Channel Preselector picklist.9Make RX test cable connections for diversity RX FER according to Figure 4-1 and Table 4-2.10 Click on the LMF BTS# tab, and return to the procedure for the ATP being performed. 4

Abbreviated (All-inclusive) Acceptance Tests68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-9Abbreviated (All-inclusive) Acceptance TestsAll-inclusive TestsGeneral - The all-inclusive acceptance tests are performed from theLMF GUI environment. These all-inclusive tests are called abbreviatedATPs because they 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.Abbreviated ATP Options - There are three abbreviated acceptancetests which evaluate different performance aspects of the BTS. Thisallows the CFE to select testing to meet the specific requirements forindividual maintenance and performance verification situations. Thefollowing summarizes the coverage of each abbreviated test:SAll TX/RX. Performs all transmit and receive ATPs on the selectedMCCs and BBXs.SAll TX. Performs complete set of transmit ATPs on the selectedMCCs and BBXs. 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 andBBXs. Testing is the equivalent of performing the following:-FER TestAbbreviated ATP Procedures - Procedures to accomplish each type ofabbreviated ATP are included in the following subsections.4

Individual Acceptance Tests 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-14Individual 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 LMF GUI environment.TX TestingTX tests verify any given transmit antenna path and output powercontrol. All tests are performed using the external, calibrated testequipment. All measurements are made at the appropriate BTS TX OUTconnector(s).TX tests verify TX operation of the entire CDMA forward link usingselected BBXs assigned to respective sector antennas. Each BBX iskeyed up to generate a CDMA carrier (using both bbxlevel and BLO)at the CDF file-specified carrier output power level.RX TestingRX testing verifies receive antenna paths for BBXs selected for the test.All tests are performed using the external, calibrated test equipment toinject a CDMA RF carrier with all zero longcode at the specified RXfrequency at the appropriate BTS RX IN connector(s).RX tests verify RX operation of the entire CDMA reverse link using allequipped 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 communicationssystem test set measurement interval (based on the BTS system timereference) and the incoming block of transmitted data from the BTS(Pilot only, Walsh code 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 isdone 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 for IS-95A/B and CDMA2000 1Xwith respect to total CDMA channel power.4

Individual Acceptance Tests68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-15BTS FERThis test verifies the BTS receive FER on all traffic channel elementscurrently configured on all equipped MCCs (full rate at one percentFER) at an RF input level of -119 dBm on the main RX antenna pathsusing operator-selected, CDF-equipped MCCs and BBXs at the site.Diversity RX antenna paths are also tested using the lowest equippedMCC channel element ONLY.NOTE There are no pass/fail criteria associated with FER readingstaken at levels below -119 dBm, other than to verify that theFER measurement reflects changes in the RX input signal level.4

TX Spectral Purity Transmit Mask Acceptance Test 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-16TX Spectral Purity Transmit Mask Acceptance TestBackgroundOverview - This test verifies the spectral purity of eachoperator-selected BBX carrier keyed up at a specific frequency specifiedin the current CDF. All tests are performed using the external, calibratedtest equipment controlled by the same command. All measurements aremade at the appropriate BTS TX antenna connector.Test Patterns - There are four operator-selectable test patterns withwhich this acceptance test can be performed. The patterns, along with thechannels tested and gain setting for each, are listed in Table 3-39. Referto “TX Calibration and the LMF” in the Bay Level Offset Calibrationsection of Chapter 3 for more information on the test patterns.Equipment Operation During Testing - At least one MCC must beselected to perform the Standard, CDF Pilot, and CDF test patterns. Forthese test patterns, forward links will be enabled for synch channel(SCH), paging channel (PCH), and traffic channel (TCH) elements fromthe selected MCC(s), as shown in Table 3-39. Gain will be set for theapplicable channels on each antenna as shown in the table. Theoperator-selected BBXs will be keyed using a BLO-corrected bbxlvlvalue to generate a CDMA carrier. RF output power, as measured at theappropriate frame TX antenna connector, will be set to one of thefollowing depending on the operating frequency spectrum:S800 MHz: 33.5 dBmS1.9 GHz: 31.0 dBmTest Measurements - The test equipment will measure and return theattenuation level in dB of all spurious and IM products with respect tothe mean power of the CDMA channel measured in a 1.23 MHzbandwidth, verifying that results meet system tolerances at the followingtest points (see also Figure 4-2):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 @ + 885 kHz from center frequency- At least -45 dB @ - 885 kHz from center frequency- At least -55 dB @ - 1980 kHz from center frequency- At least -55 dB @ + 1980 kHz from center frequencyRedundant BBX Testing - The BBX will then de-key, and if selected,the redundant BBX will be assigned to the current TX antenna pathunder test. The test will then be repeated.4

TX Waveform Quality (Rho) Acceptance Test68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-19TX Waveform Quality (Rho) Acceptance TestBackgroundOverview - This test verifies the transmitted pilot channel elementdigital waveform quality of each operator-selected BBX carrier keyed upat a specific frequency specified in the current CDF. All tests areperformed using the external, calibrated test equipment controlled by thesame command. All measurements are made at the appropriate TXantenna connector.Equipment Operation During Testing - Pilot gain will be set to 262for each antenna, and all TCH elements from the MCCs will beforward-link disabled. The selected BBXs will be keyed up using bothbbxlvl and BLO to generate a CDMA carrier (with pilot channelelement only, Walsh code 0). RF output power is set at 40 dBm asmeasured at the appropriate BTS TX antenna connector.Test Measurements - The test equipment will measure and return thepilot channel element digital waveform quality (rho) percentage,verifying that the result meets the following specification:Waveform quality (Rho) should be > 0.912.Redundant BBX Testing - The BBX will then de-key, and if selected,the redundant BBX will be assigned to the current TX antenna pathunder test. The test will then be repeated for the redundant BBX.Waveform Quality (Rho) Acceptance TestFollow the steps in Table 4-9 to verify the pilot channel elementwaveform quality (rho) on the TX antenna paths for the selected BBXs.Table 4-9: Test Waveform Quality (Rho)Step Action1Set up the test equipment for TX acceptance tests per Table 4-3.2Select the BBXs to be tested.3Click on Tests in the BTS menu bar, and select TX > Rho... from the pull-down menus.4Select the appropriate carrier(s) and sector(s) (carrier-bts#-sector#-carrier#) from those displayed in theChannels/Carrier pick list.NOTETo select multiple items, hold down the Shift or Ctrl key while clicking on pick list items to selectmultiple carrier(s)-sector(s).5Verify that the correct channel number for the selected carrier is shown in the Carrier # Channelsbox.- If it is not, obtain the latest bts-#.cdf and cbsc-#.cdf files from the CBSC.NOTEIf necessary, the correct channel number may be manually entered into the Carrier # Channels box.. . . continued on next page4

TX Waveform Quality (Rho) Acceptance Test 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-20Table 4-9: Test Waveform Quality (Rho)Step Action6 Click OK to display a status bar followed by a Directions pop-up window.7Follow the cable connection directions as they are displayed, and click the Continue button to begintesting.- As the ATP process is completed, results will be displayed in a status report window.8Click the Save Results or Dismiss button.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4

TX Pilot Time Offset Acceptance Test68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-21TX Pilot Time Offset Acceptance TestBackgroundOverview - This test verifies the transmitted pilot channel element PilotTime Offset of each operator-selected BBX carrier keyed up at a specificfrequency specified in the current CDF. All tests will be performed usingthe external, calibrated test equipment controlled by the same command.All measurements will be made at the BTS TX antenna connector.Equipment Operation During Testing - The pilot gain will be set to262 for each antenna and all TCH elements from the MCCs will beforward-link disabled. The selected BBXs will be keyed using bothbbxlvl and BLO to generate a CDMA carrier (with pilot channelelement only, Walsh code 0). TX power output is set at 40 dBm asmeasured at the TX output.Test Measurements - The test equipment will measure and return thePilot Time Offset in ms, verifying that results meet the followingspecification:Pilot Time Offset should be within 3 ms of the target PT Offset (zero ms).Redundant BBX Testing - The BBX will then de-key, and if selected,the redundant BBX will be assigned to the current TX antenna pathunder test. The test will then be repeated for the redundant BBX.NOTE This test also executes and returns the TX Frequency and TXWaveform Quality (rho) ATP tests, however, only Pilot TimeOffset results are written to the ATP test report.Pilot Time Offset Acceptance TestFollow the steps in Table 4-10 to verify the Pilot Time Offset on the TXantenna paths for the selected BBXs.Table 4-10: Test Pilot Time OffsetStep Action1Set up the test equipment for TX acceptance tests per Table 4-3.2Select the BBXs to be tested.3Click on Tests in the BTS menu bar, and select TX > Pilot Time Offset... from the pull-down menus.4Select the appropriate carrier(s) and sector(s) (carrier-bts#-sector#-carrier#) from those displayed in theChannels/Carrier pick list.NOTETo select multiple items, hold down the Shift or Ctrl key while clicking on pick list items to selectmultiple carrier(s)-sector(s).. . . continued on next page4

TX Pilot Time Offset Acceptance Test 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-22Table 4-10: Test Pilot Time OffsetStep Action5Verify that the correct channel number for the selected carrier is shown in the Carrier # Channelsbox.- If it is not, obtain the latest bts-#.cdf and cbsc-#.cdf files from the CBSC.NOTEIf necessary, the correct channel number may be manually entered into the Carrier # Channels box.6 Click OK to display a status bar followed by a Directions pop-up window.7Follow the cable connection directions as they are displayed, and click the Continue button to begintesting.- As the ATP process is completed, results will be displayed in a status report window.8Click the Save Results or Dismiss button.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4

TX Code Domain Power/Noise Floor Acceptance Test68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-23TX Code Domain Power/Noise Floor Acceptance TestBackgroundOverview - This test verifies the Code Domain Power and Noise Floorof each operator-selected BBX carrier keyed at a specific frequencyspecified in the current CDF. All tests are performed using the external,calibrated test equipment controlled by the same command. Allmeasurements are made at the appropriate BTS TX antenna connector.CDMA Channel Test Set-up - Pilot gain will be set to 262 for eachantenna and the selected MCCs will be configured to supply allodd-numbered Walsh code traffic channel elements by enablingOrthogonal Channel Noise Source (OCNS) on all odd MCC channelelements (maximum 32 full rate channels with an OCNS gain of 81). Alleven-numbered Walsh code traffic channel elements will not haveOCNS enabled, and are considered “OFF”. Selected MCCs will beforward-link enabled for the antenna (sector) under test.Equipment Operation During Testing - The BBX will be keyed upusing a BLO-corrected bbxlvl value to generate a CDMA carrierconsisting of pilot and OCNS channels. RF output power, as measured atthe appropriate frame TX antenna connector, is set at one of thefollowing values depending on the operating frequency spectrum:S800 MHz: 33.5 dBmS1.9 GHz: 31.0 dBmTest Measurements - The test equipment will measure and return thechannel element power in dB of all specified Walsh channels within theCDMA spectrum. Additional calculations will be performed to verify thefollowing parameters are met (refer to Figure 4-3 for graphicrepresentations):STraffic channel element power level will be verified by calculating theratio of Pilot power to OCNS gain of all traffic channels (root sum ofthe 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) isverified to be < -27 dB for IS-95A/B and CDMA2000 1X withrespect to total CDMA channel power.NOTE When performing this test using the LMF and the MCC is anMCC8E or MCC24E, the redundant BBX may fail or showmarginal performance. This is due to a timing mismatch that theLMF does not address. Performing this test from the CBSC willnot have this timing problem.Redundant BBX Testing - The BBX will then de-key, and if selected,the redundant BBX will be assigned to the current TX antenna pathunder test. The test will then be repeated for the redundant BBX. Uponcompletion of the test, OCNS channels will be disabled on the specifiedMCC channel elements.4

RX FER Acceptance Test 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-26RX FER Acceptance TestBackgroundOverview - This test verifies the BTS Frame Erasure Rate (FER) on allTCHs currently configured on operator-selected MCCs (full rate at 1%FER) at -119 dBm. All tests are performed using the external, calibratedtest equipment as the signal source controlled by the same command.Measurements are made at the specified BTS RX antenna connection.Equipment Operation During Testing - The pilot gain on each MCCwill be set to 262 for each TX antenna, and the forward link for all TCHelements from the MCCs will be enabled. Appropriate BBX(s) must bekeyed in order to enable the RX receive circuitry. Operator-selectedBBXs will be keyed using only bbxlvl, to generate a CDMA carrierwith pilot channel element only. Transmit power output is set at -40dBm. Test equipment output power is set so that the received power atthe BBX is -119 dBm. The final output power setting of the testequipment takes into account the MPC type, BTS RF path losses, andtest cable losses. If selected, the redundant BBX will be assigned to thecurrent RX antenna paths under test.Test Measurements - The LMF will prompt the MCC channel elementunder test to measure all-zero longcode and provide the FER report onthe selected active MCC on the reverse link for the main and, if selected,diversity RX antenna paths. Results are evaluated to ensure they meetthe following specification:FER returned less than 1% and Total Frames measured is 1500Redundant BBX Testing - After the test, the BBX and the testequipment will be de-keyed to shut down the pilot signal and the activechannel element, respectively. If the redundant BBX was tested, BBXRassignment to an active sector will also be reset.Antenna Connections for Companion Frame RX Diversity Tests - Ata site equipped with companion frames, RX diversity for eachSC4812ET Lite frame is provided by the receive antennas for thecollocated companion frame. Because of this, performing FER oncompanion frame diversity RX requires different RX test cableconnections than on a starter frame. When performing companion framediversity RX FER, use Figure 4-1 and Table 4-1 or Table 4-2 todetermine the correct location for the RX test cable connections.4

RX FER Acceptance Test68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-27FER Acceptance TestFollow the steps in Table 4-12 to verify the FER on RX antenna pathsusing selected MCCs and BBXs.Table 4-12: Test FERStep Action1Set up the test equipment for RX acceptance tests per Table 4-3.2If a companion frame is being tested and either BOTH or DIV is to be selected in step 7, perform theadditional test equipment set-up in Table 4-4 for the diversity RX portion of the ATP.NOTEIf the LMF has been logged into the BTS with a different Multi-Channel Preselector setting than theone to be used for this test, the LMF must be logged out of the BTS and logged in again with the newMulti-Channel Preselector setting. Using the wrong MPC setting can cause a false test failure.3Select the BBXs and MCCs to be tested.4Click on Tests in the BTS menu bar, and select RX > FER... from the pull-down menu.5Select the appropriate carrier(s) and sector(s) (carrier-bts#-sector#-carrier#) from those displayed in theChannels/Carrier pick list.NOTETo select multiple items, hold down the Shift or Ctrl key while clicking on pick list items to selectmultiple carrier(s)-sector(s).6Verify that the correct channel number for the selected carrier is shown in the Carrier # Channelsbox.- If it is not, obtain the latest bts-#.cdf and cbsc-#.cdf files from the CBSC.NOTEIf necessary, the correct channel number may be manually entered into the Carrier # Channels box.7NOTEIf a companion frame with the inter-frame diversity RX cabling disconnected is being tested do notselect BOTH in this step. The RX main and diversity paths must be tested separately for thisconfiguration because each requires a different Multi-Coupler Preselector type to provide the propertest signal gain.Select the appropriate RX branch (Both, Main, or Diversity) in the drop-down list.8In the Rate Set box, select the appropriate data rate (1=9600, 2=14400, 3=9600 1X) from thedrop-down list.NOTEThe Rate Set selection of 2 is only available if non-1X cards are selected for the test.The Rate Set selection of 3 is only available if 1X cards are selected for the test.9 Click OK to display a status bar followed by a Directions pop-up window.10 NOTEWhen testing diversity RX paths on companion frames, be sure to follow the RX test cable connectioninformation in Table 4-1 or Table 4-2, as applicable, during this step.Follow cable connection directions as they are displayed, and click the Continue button to begintesting.- As the ATP process is completed, results will be displayed in the status report window.. . . continued on next page4

RX FER Acceptance Test 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-28Table 4-12: Test FERStep Action11 Click the Save Results or Dismiss button.NOTEIf Dismiss is used, the test results will not be saved in the test report file. 4

Generating an ATP Report68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY4-29Generating an ATP ReportBackgroundEach time an ATP test is run, ATP data is updated and must be saved toan ATP report file using the Save Results button to close the statusreport window. The ATP report file will not be updated if the statusreports window is closed using 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 4-13 to view and create a printablefile for the ATP report.Table 4-13: Generating an ATP ReportStep Action1Click on the Login tab (if not in the forefront).2Click on the desired BTS in the Available Base Stations pick list to select it.3Click on the Report button.4If a printable file is not needed, click on the Dismiss button.5If a printable file is required, perform the following:5a - Select the desired file type (text, comma-delimited, HTML) for the report file from thedrop-down list at the bottom of the screen.5b - Click the Save button to save the file.-- The file will be saved in the selected format in the bts-# folder for the BTS selected. 4

Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-1Chapter 5Leaving the Site5

$Updating Calibration Data Files 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-2Updating Calibration Data 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 DisketteFollow the procedures in Table 5-1 to copy the CAL files from an LMFcomputer to a 3.5 diskette.Table 5-1: Copying CAL Files to a DisketteStep Action1 With Windows running on the LMF computer, insert a disk into Drive A:\.2Launch the Windows Explorer application program from the Start > Programs menu list.3Select the applicable <x>:\<lmf home directory/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 into the CBSC on the OMC-R Unix workstation using your account name and password.2Place the 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 the bts-#.cal file filename appears in the displayed directory listing.7Type in cd and press the Enter key.8Type in pwd and press the Enter key.- Verify the displayed response shows the correct home directory (/home/<user’s name>).9 With Solaris versions of Unix, create a Unix-formatted version of the bts-#.cal file in the homedirectory by performing the following:. . . continued on next page5$

Updating Calibration Data Files68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-3Table 5-2: Copying CAL Files from Diskette to the CBSCStep Action9a - Type the following command:dos2unix /floppy/no_name/bts-#.cal bts-#.calWhere: # = BTS number for which the CAL file was created9b - Press the Enter key.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.- Verify all CAL files to be transferred appear in the displayed listing.11 Type eject, and press the Enter key.12 Remove the diskette from the workstation. 5

Prepare to Leave the Site 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-4Prepare to Leave the SiteRemoving External Test EquipmentPerform the procedure in Table 5-3 to disconnect the test equipment andconfigure the BTS for active service.Table 5-3: Remove External Test EquipmentStep Action1n WARNINGBe sure no BBXs are keyed before performing this step. Failure to do so can result in personal injuryand damage to BTS LPAs.Disconnect 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.NOTEVerify that all sector antenna feed lines are connected to the correct antenna connectors on the frame.Crossed antenna cables will degrade call processing.Reset All Devices and Initialize Site RemotelyGenerally, devices in the BTS should not be left with data and codeloaded from the LMF. The configuration data and code loads used fornormal operation could be different from those stored in the LMF files.By resetting all devices, the required data and code can be loaded fromthe CBSC using the DLM 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 LMF session by following the procedures in Table 5-6.2Cycle BTS power off, as specified in Table 2-9 and Table 2-10, and on, as specified in Table 2-11 andTable 2-12.3Reconnect 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. 5

Prepare to Leave the Site68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-5Bringing Modules into Service with the LMFNOTE Whenever possible, have the CBSC/MM bring up the site andenable all devices at the BTS.If 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 LMF GUI environment, select the device(s) to be enabled by clicking on each one.NOTESThe MGLI and CSM must be INS_ACT (bright green) before an MCC can be enabled.SProcessors which must be enabled and the order of enabling are as follows:1. MGLI2. CSMs3. MCCs2Click on Device in the BTS menu bar, and select Enable from the pull-down list.- 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.3 Click Cancel to close the transceiver parameters window, if applicable.4 Click OK to close the status report window.- The color of devices which successfully change to INS will change bright green. Terminating LMF Session/Removing TerminalPerform the procedure in Table 5-6 as required to terminate the LMFGUI session and remove the LMF computer.Table 5-6: Remove LMFStep Action1! CAUTIONDo not power down the LMF terminal without performing the procedure below. Corrupted/lostdata files may result.Log out of all BTS sessions and exit LMF by clicking on File in the LMF window menu bar and select-ing Logout and Exit from the pull-down list.2In the Windows Task Bar, click Start and select Shutdown.3 Click Yes when the Shut Down Windows message appears4Wait for the system to shut down and the screen to go blank.. . . continued on next page5

Prepare to Leave the Site 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY5-6Table 5-6: Remove LMFStep Action5Disconnect the LMF terminal Ethernet port from the BTS frame.6Disconnect the LMF terminal serial port, the RS-232-to-GPIB interface box, and the GPIBcables as required for equipment transport. Connecting BTS T1/E1 SpansBefore leaving the site, connect any T1 or E1 span connectors removedpreviously to allow the LMF to control the BTS. Refer to Table 5-7 andFigure 3-2.Table 5-7: Connect T1 or E1 SpansStep Action1Re-connect any disconnected span connectors to the Span I/O A and B boards.2If equipped, ensure the CSU is powered on.3Verify span status, ensuring the OMC-R/CBSC can communicate with the BTS.Before Leaving the siteBe sure all requirements listed in Table 5-8 are completed before leavingthe site.Table 5-8: Check Before Leaving the SiteStep Action1When backup batteries are installed, all battery circuit breakers are ON (pushed in).2Both heat exchanger circuit breakers on the DC PDA are set to ON (pushed in), and the heatexchanger blowers are running.3The External Blower Assembly (EBA) power cable is connected, and the EBA is running.4The MAP power switch is set to ON, and the POWER (green) LED is lighted.5The MAP TCP switch is set to ON.6The BATT TEST switch on the MAP is set to OFF, and the BATT. TEST (amber) LED is not lighted.7No alarm conditions are being reported to the CBSC with all frame doors closed.5

Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-1Chapter 6Basic Troubleshooting6

Basic Troubleshooting: Overview 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-2Basic Troubleshooting: OverviewOverviewThe information in this chapter addresses some of the scenarios likely tobe encountered by Customer Field Engineering (CFE) team memberswhile performing BTS optimization and acceptance testing. Thistroubleshooting guide was created as an interim reference document foruse in the field. It provides “what to do if” basic troubleshootingsuggestions when the BTS equipment does not perform according to theprocedures documented in the manual.Comments are consolidated from inputs provided by CFEs andinformation gained from experience in Motorola labs and classrooms.6

Troubleshooting: Installation68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-3Troubleshooting: InstallationCannot Log into Cell-SiteTable 6-1: Login Failure Troubleshooting ProceduresnStep Action1If the MGLI LED is solid RED, it implies a hardware failure. Reset MGLI by re-seating it. If thispersists, install GLI card in MGLI slot and retry. A Red LED may also indicate no termination onan external LAN connector (power entry compartment at rear of frame).2Verify that the span line is disconnected at the Span I/O card. If the span is still connected, verifythe CBSC has disabled the BTS.3Try to ‘ping’ the MGLI.4Verify the LMF is connected to the primary LAN (LAN A) at the LAN shelf below the SCCPcage. If LAN A is not the active LAN, force a LAN switch to LAN A by following the procedurein Table 6-2.5Verify the LMF was configured properly.6If a Xircom parallel BNC LAN interface is being used, verify the BTS-LMF cable is RG-58(flexible black cable less than 2.5 feet in length).7Verify the external LAN connectors are properly terminated (power entry compartment at rear offrame).8Verify a T-adapter is not used on LMF computer side connector when connected to the primaryLAN at the LAN shelf.9Try connecting to the Ethernet Out port in the power entry compartment (rear of frame). Use aTRB-to-BNC (triax-to-coax) adapter at the LAN connector for this connection.10 Re-boot the LMF and retry.11 Re-seat the MGLI and retry.12 Verify GLI IP addresses are configured properly by following the procedure in Table 6-3. Table 6-2: Force Ethernet LAN A to Active State as Primary LANnStep Action1If LAN A is not the active LAN, make certain all external LAN connectors are either terminatedwith 50Ω loads or cabled to another frame.2If it has not already been done, connect the LMF computer to the stand-alone or starter frame, asapplicable (Table 3-10).3If it has not already been done, start a GUI LMF session and log into the BTS on the active LAN(Table 3-11).4Remove the 50Ω termination from the LAN B IN connector in the power entry compartment at therear of the stand-alone or starter frame. The LMF session will become inactive.5Disconnect the LMF computer from the LAN shelf LAN B connector and connect it to the LAN Aconnector.. . . continued on next page6

Troubleshooting: Installation 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-4Table 6-2: Force Ethernet LAN A to Active State as Primary LANnActionStep6If the LAN was successfully forced to an active state (the cards in any cage can be selected andstatused), proceed to step 13.7With the 50Ω termination still removed from the LAN B IN connector, remove the 50Ωtermination from LAN B OUT connector. If more than one frame is connected to the LAN,remove the termination from the last frame in the chain.8If the LAN was successfully forced to an active state (the cards in any cage can be selected andstatused), proceed to step 13.9With the 50Ω terminations still removed from LAN B, unseat each GLI card in each frameconnected to the LAN, until all are disconnected from the shelf backplanes.10 Reseat each GLI card until all are reconnected.11 Allow the GLIs to power up, and attempt to select and status cards in the CCP shelves. If LAN Ais active, proceed to step 13.12 If LAN A is still not active, troubleshoot or continue troubleshooting following the procedures inTable 6-1.13 Replace the 50Ω terminations removed from the LAN B IN and OUT connectors. Table 6-3: GLI IP Address SettingnStep Action1If it has not previously been done, establish an MMI communication session with the GLI card asdescribed in Table 3-15.2Enter the following command to display the IP address and subnet mask settings for the card:config lg0 currentA response similar to the following will be displayed:GLI2>config lg0 currentlg0: IP address is set to DEFAULT (configured based on card location)lg0: netmask is set to DEFAULT (255.255.255.128). . . continued on next page6

Troubleshooting: Installation68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-5Table 6-3: GLI IP Address SettingnActionStep3If the IP address setting response shows an IP address rather than “Default (configuredbased on card location),” enter the following:config lg0 ip defaultA response similar to the following will be displayed:GLI2>config lg0 ip default_param_config_lg0_ip(): param_delete(): 0x00050001lg0: ip address set to DEFAULT4If the GLI subnet mask setting does not display as “DEFAULT (255.255.255.128),” set it todefault by entering the following command:config lg0 netmask defaultA response similar to the following will be displayed:GLI2>config lg0 netmask default_param_config_lg0_netmask(): param_delete(): 0x00050001lg0: netmask set to DEFAULT5Set the GLI route default to default by entering the following command:config route default defaultA response similar to the following will be displayed:GLI2>config route default default_esh_config_route_default(): param_delete(): 0x00050001route: default gateway set to DEFAULT6NOTEChanges to the settings will not take effect unless the GLI is reset.When changes are completed, close the MMI session, and reset the GLI card.. . . continued on next page6

Troubleshooting: Installation 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-6Table 6-3: GLI IP Address SettingnActionStep7Once the GLI is reset, re-establish MMI communication with it and issue the following commandto confirm its IP address and subnet mask settings:config lg0 currentA response similar to the following will be displayed:GLI2>config lg0 currentlg0: IP address is set to DEFAULT (configured based on card location)lg0: netmask is set to DEFAULT (255.255.255.128)8Repeat steps 1 through 7 for all remaining GLIs, including those in any additional,inter-connected frames. Cannot Communicate with Power MeterTable 6-4: Troubleshooting a Power Meter Communication FailurenStep Action1Verify power meter is connected to LMF with GPIB adapter.2Verify cable connections as specified in Chapter 3.3Verify the GPIB address of the power meter is set to the same value displayed in the applicableGPIB address box of the LMF Options window Test Equipment tab. Refer to Table 3-28 orTable 3-29 and the Setting GPIB Addresses section of Appendix NO TAG for details.4Verify the GPIB adapter DIP switch settings are correct. Refer to Test Equipment Preparationsection of Appendix NO TAG for details.5Verify the GPIB adapter is not locked up. Under normal conditions, only 2 green LEDs must be‘ON’ (Power and Ready). If any other LED is continuously ‘ON’, then cycle GPIB box power andretry.6Verify the LMF computer COM1 port is not used by another application; for example, if aHyperTerminal window is open for MMI, close it.7 Reset all test equipment by clicking Util in the BTS menu bar and selecting Test Equipment >Reset from the pull-down lists. 6

Troubleshooting: Installation68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-7Cannot Communicate with Communications System AnalyzerTable 6-5: Troubleshooting a Communications System Analyzer Communication FailurenStep Action1Verify analyzer is connected to LMF with GPIB adapter.2Verify cable connections as specified in Chapter 3.3Verify the analyzer GPIB address is set to the same value displayed in the applicable GPIBaddress box of the LMF Options window Test Equipment tab. Refer to Table 3-28 or Table 3-29and the Setting GPIB Addresses section of Appendix F for details.4Verify the GPIB adapter DIP switch settings are correct. Refer to Test Equipment Preparationsection of Appendix NO TAG for details.5Verify the GPIB adapter is not locked up. Under normal conditions, only 2 green LEDs must be‘ON’ (Power and Ready). If any other LED is continuously ‘ON’, then cycle GPIB box power andretry.6Verify the LMF computer COM1 port is not used by another application; for example, if aHyperTerminal window is open for MMI, close it.7 Reset all test equipment by clicking Util in the BTS menu bar and selecting Test Equipment >Reset from the pull-down lists. Cannot Communicate with Signal GeneratorTable 6-6: Troubleshooting a Signal Generator Communication FailurenStep Action1Verify signal generator is connected to LMF with GPIB adapter.2Verify cable connections as specified in Chapter 3.3Verify the signal generator GPIB address is set to the same value displayed in the applicable GPIBaddress box of the LMF Options window Test Equipment tab. Refer to Table 3-28 or Table 3-29and the Setting GPIB Addresses section of Appendix NO TAG for details.4Verify the GPIB adapter DIP switch settings are correct. Refer to Test Equipment Preparationsection of Appendix NO TAG for details.5Verify the GPIB adapter is not locked up. Under normal conditions, only 2 green LEDs must be‘ON’ (Power and Ready). If any other LED is continuously ‘ON’, then cycle GPIB box power andretry.6Verify the LMF computer COM1 port is not used by another application; for example, if aHyperTerminal window is open for MMI, close it.7 Reset all test equipment by clicking Util in the BTS menu bar and selecting Test Equipment >Reset from the pull-down lists. 6

Troubleshooting: Download 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-8Troubleshooting: DownloadTable 6-7: Troubleshooting Code Download FailurenStep Action1Verify T1 or E1 span is disconnected from the BTS at Site I/O boards (Figure 3-2).2Verify LMF can communicate with the BTS devices using the LMF Status function.3Communication with MGLI must first be established before trying to communicate with any otherBTS device. MGLI must be INS_ACT state (bright green).4Verify the target card is physically present in the cage and powered-up.5If the target card LED is solid RED, it implies hardware failure. Reset card by re-seating it. If LEDalarm persists, replace with same type of card from another slot and retry.6Re-seat card and try again.7If a BBX reports a failure message and is OOS_RAM, the code load was OK. Use the LMFStatus function to verify the load.8If a BBX or an MCC remains OOS_ROM (blue) after code download, use the LMFDevice > Status function to verify that the code load was accepted.9If the code load was accepted, use LMF Device > Download > Flash to load RAM code into flashmemory. Cannot Download DATA to Any Device (Card)Table 6-8: Troubleshooting Data Download FailurenStep Action1Re-seat card and repeat code and data load procedure.2Verify the ROM and RAM code loads are of the same release by statusing the card. Refer toDownload the BTS section of Chapter G for more information.6

Troubleshooting: Download68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-9Cannot ENABLE DeviceBefore a device can be enabled (placed in service), it must be in theOOS_RAM state (yellow in LMF display) with data downloaded to thedevice. The color of the device on the LMF changes to green once it isenabled.The four device states that can be displayed by the LMF are:SEnabled (bright green, INS_ACT)SStand-by (olive green, INS_SBY - redundant CSM and GLI only)SDisabled (yellow, OOS_RAM)SReset (blue, OOS_ROM)Table 6-9: Troubleshooting Device Enable (INS) FailurenStep Action1Re-seat card and repeat code and data load procedure.2If CSM cannot be enabled, verify the CDF has correct latitude and longitude data for cell sitelocation and GPS sync.3Ensure primary CSM is in INS_ACT (bright green) state.NOTEMCCs will not enable without the CSM being INS.4Verify 19.6608 MHz CSM clock is present; MCCs will not enable without it.5BBXs should not be enabled for ATP tests.6If MCCs give “invalid or no system time,” verify the CSM is enabled.7Log out of the BTS, exit the LMF, restart the application, log into the BTS, and re-attemptdevice-enable actions. LPA ErrorsTable 6-10: LPA ErrorsnStep Action1If LPAs give continuous alarms, cycle power with the applicable DC PDA circuit breakers.2Establish an MMI session with the LPA (Table 3-15), connecting the cable to the applicable MMIport on the ETIB.2a - Type alarms at the HyperTerminal window prompt and press Enter.-- The resulting display may provide an indication of the problem.2b - Call Field Support for further assistance.6

Troubleshooting: Calibration 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-10Troubleshooting: CalibrationBay Level Offset Calibration FailureTable 6-11: Troubleshooting BLO Calibration FailurenStep Action1Verify the power meter or communications system analyzer is configured correctly (see the TestEquipment Set-up section of Chapter 3), and is connected to the proper BTS TX antennaconnector.2If a power meter is being used:2a - Re-calibrate the Power Meter and verify it is calibrated correctly with cal factors from thepower sensor (refer to Appendix F).2b - Verify the power sensor is functioning properly by checking it with the 1-mW (0 dBm) PowerRef signal.2c - Verify communication between the LMF and Power Meter is working by checking that themeter display is showing RES :3Verify the parameters in the bts-#.cdf file are set correctly for the BTS operating band asfollows:For 1900 MHz:Bandclass=1; Freq_Band=16For 800 MHz:Bandclass=0; Freq_Band=84Verify that no LPA on the carrier is in alarm state (rapidly flashing red LED).4a - If any are, reset the LPA(s) by pulling the applicable circuit breaker on the DC PDA, and,after 5 seconds, pushing back in.5Verify GPIB adapter is not locked up. Under normal conditions, only 2 green LEDs must be ‘ON’(Power and Ready). If any other LED is continuously ‘ON’, power-cycle (turn power off and on)the GPIB Box and retry. 6

Troubleshooting: Calibration68P09255A69-3Aug 2002 1X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-11Calibration Audit FailureTable 6-12: Troubleshooting Calibration Audit FailurenStep Action1Verify the power meter or communications system analyzer is configured correctly (see the TestEquipment Set-up section of Chapter 3), and is connected to the proper BTS TX antennaconnector.2If a power meter is being used:2a - Re-calibrate the Power Meter and verify it is calibrated correctly with cal factors from thepower sensor (refer to Appendix F).2b - Verify the power sensor is functioning properly by checking it with the 1-mW (0 dBm) PowerRef signal.2c - Verify communication between the LMF and Power Meter is working by checking that themeter display is showing RES :3Verify that no LPA on the carrier is in alarm state (rapidly flashing red LED).3a - If any are, reset the LPA(s) by pulling the applicable circuit breaker on the DC PDA, and,after 5 seconds, pushing back in.4After calibration, the BLO data must be re-loaded to the BBXs before auditing. Click on theBBX(s), and in the BTS menu bar select Device > Download >BLO.Re-try the audit.5Verify GPIB adapter is not locked up. Under normal conditions, only 2 green LEDs must be ‘ON’(Power and Ready). If any other LED is continuously ‘ON’, power-cycle (turn power off and on)the GPIB Box and retry.6If calibration was being performed for the redundant BBX, be sure the Single-Sided BLOcheckbox was not checked in the CDMA Test Parameters test set-up window.7If additional items, such as directional couplers or combiners, have been installed in the TX path,be sure that one of the following has been done:SVerify BLO checkbox in the CDMA Test Parameters test set-up window is unchecked.SThe additional path losses have been added into each applicable sector using the Util > Edit >TX Coupler Loss... function. 6

$Basic Troubleshooting: RF Path Fault Isolation 68P09255A69-3Aug 20021X SCt4812ET Lite BTS Optimization/ATP Software Release 2.16.1.xPRELIMINARY6-12Basic Troubleshooting: RF Path Fault IsolationOverviewThe optimization (RF path characterization or calibration) andpost-calibration (audit) procedures measure and limit-check the BTSreported transmit and receive levels of the path from each BBX to theback of the frame. When a fault is detected, it is specific to a receive ortransmit path. The troubleshooting process in this section determines themost probable cause of the fault.As the calibration and audit tests are performed, results are displayed inthe LMF test status report window. When faults are encountered, the testprocedure in progress continues running and displaying any furtherfaults. If it appears that there are major faults, the test can be aborted.The test results can be saved to a bts-#.rpt file in the<x>:\<lmf homedirectory \cdma\bts-# folder. To do this, close the test status reportwindow using the Save Results button.NOTE Closing the test status report window with the Dismiss buttonwill delete the test results without saving them.If a test is re-run or a new calibration, audit, or test is run and the resultsare saved, the previous test results in the bts-#.rpt file areoverwritten. To prevent losing previous test results in the bts-#.rptfile, refer to the procedure in Table 4-13 before performing furthertesting with the LMF.If there are major faults, recheck the test equipment attachments forerrors. If none are found, close the test status report window using theSave Results button, and save the contents of the resulting bts-#.rptfile as described in Table 4-13. Also, note other specifics about thefailure, and proceed with the fault isolation procedure.If Every Test FailsCheck the calibration equipment for proper operation by manuallysetting the signal generator output attenuator to the lowest output powersetting. Connect the output port to the spectrum analyzer RF input port.Set the signal generator output attenuator to -90 dBm, and switch on theRF output. Verify that the spectrum analyzer can receive the signal,indicate the correct signal strength (accounting for the cable insertionloss), and indicate the approximate frequency.Verify BLO CheckboxWhen performing a calibration with the TX Calibration... or AllCal/Audit... functions, the Verify BLO checkbox should normally bechecked. When a calibration fails, determine if any items such asdirectional couplers or combiners have been added to the TX path. Ifadditional items have been installed in the path, try re-running thecalibration with Verify BLO unchecked. If calibration still does notpass, refer to the following paragraphs and use the TX output faultisolation flowchart to identify the most probable cause of the failure.6$