软件验收测试规范英文第一版

SoftwareAcceptanceTestSpecificationISSUEHISTORYIssueDateIssuedAuthor(s)ChangeNo.12015-01-19ZRJCAMENDMENTHISTORYIssueDateIssuedDetailsApprovalTABLEOFCONTENTSTOC\o"1-6"\u1 INTRODUCTION 51.1 TESTOBJECTIVESANDCOVERAGE 51.2 TESTCLASSIFICATION 51.3 DOCUMENTOVERVIEW 51.4 REFERENCEDOCUMENTS 61.5 DEFINITIONS&ABBREVIATIONS 62 TESTPREPARATION,SETUPANDSAFETY 72.1 TESTSAFETY 72.2 TESTENVIRONMENT 72.3 SOFTWAREVERSIONINPUTID 72.4 HARDWARECONFIGURATION 7 TestEquipmentIdentification 82.5 TESTPREPARATIONANDSETUP 82.6 TESTMETHODANDCRITERIA 9 ComputerTestMethod 9 HDLCTestMethod 9 NetworkCardConfiguration 9 InstallTMSSimulatorSoftwareintheTestComputer 10 HMITestMethod 14 TestEquipmentTestMethod 142.7 TestContents 173 CHECKLIST 203.1 INITIALSETUPANDSTARTUPTESTS 20 INITIALSETUP 20 STARTUP 203.2 INPUTSANDOUTPUTS 20 I/OMapping 203.3 NetworkControl 21 HDLCnetworktest 21 NetworkSIGNALSTest 21 EmergencyVentilationMode 24 SmokeAlarm 253.4 LocalControl 25 CANNetworkTest 25 LocalControlOperationConditionTest 25 ReadandDeletetheFAult 27 ReadandDeletetheRuntime 27 SetandReadtheSystemTime 27 ReadtheTargetTemperatuere 28 TCMSStatusData 28 InputandOutputStatusMonitoring 28 CommunicationPortDataMonitoring 29 NoOperation 293.5 DamperControl 29 FreshAirDamperControl 29 ReturnAirDamperControl 30 EmergencyBypassAirDamperControl 303.6 FaultSimulation 31 CompressorFault 31 CondenserFanFAult 37 EvaporatorFanFault 38 TemperatureSensorFault 38 EmergencyVentilationInverterFAult 383.7 PTUReading 39 RS232SerialPortCommunicationTest 39 ReadandDeletetheFault 39 ReadandDeletetheRuntime 40 SetandREadtheSystemTime 40 REadtheTargetTemperature 40 InputandOutputStatusMonitoring 41 ReadtheFAT/RAT 41 VACOperationCondition 41 SetandReadtheCarriageNo. 424.NOTESANDNON-CONFORMANCES 424.1TESTNOTES 424.2TESTNON-CONFORMANCE 43INTRODUCTIONTESTOBJECTIVESANDCOVERAGEThepurposeofthisSystemVerificationPlan(SoftwareAcceptanceTest–SWATChecklist)istodocumenttheteststobeperformedontheZRJCSCL1141Aprojectsoftwareonthebench.TheSystemVerificationbenchtestinginvolvessimulatingthesystem’senvironmenttogivelocalcontrolandnetworkcontroloverthesoftware.VACtesting(FactoryAcceptanceTest–FAT)andfieldtraintesting(SiteAcceptanceTest–SAT)phasesareplannedfollowingsuccessfulcompletionofbenchtestingTESTCLASSIFICATIONTypeTest.DOCUMENTOVERVIEWThisdocumentisstructuredinthefollowingmanner.(a)Section1–Thissectiondescribedthebackground,contextandenvironmentforthetest.(b)Section2–Thissectioncontainstheactualtestchecklist(c)Section3–Thissectioncontainscommentstobemadeonthetestanddetailsthenon-conformancesarisingfromthetest.REFERENCEDOCUMENTSDocumentReferenceIssueDateIssueNumberAuthorTitleT002VACSoftwareRequirementSpecification.doc18/1/2023AZRJCVAC

SoftwareRequirements

SpecificationDEFINITIONS&ABBREVIATIONSTermDefinitionTMSTrainManagementSystemHDLCHigh-LevelDataLinkControlFATFreshAirTemperatureRATReturnAirTemperatureSRSSoftwareRequirementsSpecificationVACVentilationandAirConditioningHMIElectricalTouchScreenforVACControlZRJCGuangzhouZhongcheRailwayVehiclesEquipmentJoint-StockCo.,LtdTSStandardtemperatureRHReturnAirhumidityPTUPortableTestUnitTESTPREPARATION,SETUPANDSAFETYTESTSAFETYThetestenvironmentuseslowvoltages(24VDC)andappropriatesafetyprecautionsshouldbeobserved.TESTENVIRONMENTCompanyZRJCAddressNo.38NanbianRoad,HaizhuDistrict,Guangzhou,ChinaLocationElectricalResearchDepartmentDateSOFTWAREVERSIONINPUTIDKEIL:VVb:V6.0Qt:HARDWARECONFIGURATIONModelofcontrollerCRPC11Serialnumberofcontroller：N/A-boardsonlyTestEquipmentIdentificationComputerXPormoreadvancedastheoperatingsystemHDLCMasterModelHMT-1EMDNetworkTestingPlatformHMIHMI-02TESTPREPARATIONANDSETUPThetestershallberesponsibleforconductingthetestasperthetestprocedureinthisdocument.Thetestershallalsoberesponsibleforconfiguringthetestenvironmentandsetupoftestequipmentasperthatasshowninfigure1.Figure1ControllerTestingEnvironmentConfigurationTESTMETHODANDCRITERIAComputerTestMethodThetestcomputerisusedfordownloadingsoftware,runningthePTUsoftwareandTMSsimulatorsoftware.SerialportcommunicationlineshallbeusedtoconnectX6portofcontrollerand485communicationlineshallbeusedtoconnecttheX5portofcontroller.HDLCTestMethodNetworkCardConfigurationAsshowninfigure1,connectthetestequipment,testlinesandcontroller.Dialthe60inputswitchestocorrectpositionaccordingtothecorrespondingsoftwarecontrolspecification.DrawoutthecommunicationlinefromcomputerforconnectingtheX5portofcontroller.Confirmthejumpercappositionofnetworkcardiscorrect.Andpleaseseebelowfordetailedspecification:Figure2HDLCCommunicationBoardDiagram：JumperSetting：JP2：programmingandoperationselection,1-2:programming；2-3：operation；JP9:485bus120Ωresistance：Disconnect：removethe120Ωresistance；Connect：placethe120Ωresistanceinparallel；LEDlight：LD1：RSRS232send；LD2：RSRS232receive；LD3：HDLCsend；LD4：HDLCreceive；LD5：CPUoperateindicatorlight；LD6：datavalidationerrorinstructionJX5：DB9/M；JX7：DB9/F；(1-9pinsofJX5andJX7arecorrespondinglyconnected)Signaldefinition：6—RS485A；2—RS485B；5—SGND；HDLCMastershallbeconnectedtoX5andX7portsofcontrollerbyHDLCcommunicationline.InstallTMSSimulatorSoftwareintheTestComputerInstallTMSSimulatorSoftwareforthetestcomputerthensupplypowertocontroller.Thesoftwareinterfaceisasshowninbelowfigure:Theleftpartisforsendinginstruction,bydoubleclickingthedatainthisarea,modificationforeachbytecanberealized.Andtherightpartisforreceivinginstruction.Oncethereisdatareturnedfromcontroller,theywillbedisplayedatthisarea.FigureAsshowninbelowfigure,fillininputinstructionattheleftpart:FigureByclicking,dialogbox(asshowninfigure4.4)willpopup.Select“OneShot”fordatasingletransmission,otherwiseisfordatacontinuoustransmission.Andthenclick,communicationbeginsandinterfaceasshowninfigureappears.FigureFigureKeepitinnormalcommunicationformorethan2hours,observethecommunicationlightstoconfirmitisnormalwithoutproblems.Thenormalmodeis：JP2selectedtooperate；JP9selectedtoconnect；LD5flickers；DuringcommunicationLD1、LD2、LD3、LD4flicker.Note:ifLD6ison,thatmeansthereissomethingwiththecommunicationboardIfthetestresultsarequalified,clickfirstthendisconnectthepowertoreplacethenextcommunicationboardcard.Clicktoclearthecountingbeforetestingnewcard.HMITestMethodTheHMIisusedforlocalcontroloverthecontroller.ItisconnectedtoX3portofcontrollerbyCANdataline.TestEquipmentTestMethodThetestequipmentisasshowninbelowfigure:Figure2.1Onthetopleftcorner,therearepowersupplyconnectingterminal,powerswitchesandpowerindicatorlights.Therearetotal30LEDoutputs(DO01~DO30)tosimulatetherelayoutputs,and60inputs(DI01~DI60)tosimulateeachinstructionandfaultinput;andthereare61kadjustablepotentiometerstosimulatethetemperaturesensorPT100,820kadjustablepotentiometerstostimulatethetemperaturesensorNTC;setvariablesfromDI1~DI60,upwardlydialthecorrespondingswitch,thecorrespondingvariable=0,anddownwardlydialthecorrespondingswitch,thecorrespondingvariable=1(e.g.downwardlydialthefirstswitch,thenDI1changesfrom0to1:pulsetheDI1=0then1).ThebelowtableshowstheIOofthetestequipmentmappingthevariablesofcontroller:VariableDefinitionIOCF11_HOTCondenserfan11overheatprotectionCF12_HOTCondenserfan12overheatprotectionCP11_HOTCompressor11overheatprotectionCP12_HOTCompressor12overheatprotectionCP13_HOTCompressor13overheatprotectionCP14_HOTCompressor14overheatprotectionEF11_HOTFan11overheatprotectionHT1_HOTElectricheater1overheatprotectionEF12_HOTFan12overheatprotectionCP11_HIGHPRESSURECompressor11highpressureprotectionCP11_LOWPRESSURECompressor11lowpressureprotectionCP11_ExhaustHotCompressor11exhaustprotectionCP12_HIGHPRESSURECompressor12highpressureprotectionCP12_LOWPRESSURECompressor12lowpressureprotectionCP12_ExhaustHotCompressor12exhaustprotectionCP13_HIGHPRESSURECompressor13highpressureprotectionCP13_LOWPRESSURECompressor13lowpressureprotectionCP13_ExhaustHotCompressor13exhaustprotectionCP14_HIGHPRESSURECompressor14highpressureprotectionCP14_LOWPRESSURECompressor14lowpressureprotectionCP14_ExhaustHotCompressor14exhaustprotectionMixAirValve1_FBMixedairdamper1feedbackEmergAirValve1_FBEmergencyairdamper1onfeedbackINVERTER1_FBInverter1faultSmoke1_FBSmoke1alarmsignalSmoke1_FaultSmakeDetecter1Fault380_OVThree-phaseelectricover-voltage380_LVThree-phaseelectriclack-voltageHT1Electricheater1CF11Condenserfan11CF12Condenserfan12CP11Compressor11CP12Compressor12CP13Compressor13CP14Compressor14EF1Normalventilationnormalfan1EIF1Emergencyventilationfan1MixAirValve1_ONMixedairdamper1onMixAirValve1_OFFMixedairdamper1offEmergAirValve1_ONEmergencyairdamper1onEmergAirValve1_OFFEmergencyairdamper1offINVERTER1Inverter1operatesTr1Returnairtemperaturesensor1Th1ReturnAirhumiditySensorTef1EvaporationFan1SensorTef2EvaporationFan2SensorTf1FreshAirSensorTcfCoolingAirSensorTestContentsNo.TestItemsNotesInitialSetUpAndStartUpTestsPrograminitialisationStartingupInputsandOutputsI/OmappingNetworkControlHDLCnetworktestNetworkcontroloperationconditiontestEmergencyventilationmodeLoadsheddingmodeDehumidificationmodeSmokealarmLocalControlCANnetworktestLocalcontroloperationconditiontestReadanddeletethefaultReadanddeletetheruntimeSetandreadthesystemtimeReadthetargettemperatureNetworkcontrolinstructionswitchingInputandoutputstatusmonitoringCommunicationportdatamonitoringDampercontrolFreshairdampercontrolReturnairdampercontrolEmergencybypassairdampercontrolFaultSimulationCompressorfaultCondenserfanfaultFanfaultDamperfaultTemperaturesensorfaultEmergencyventilationinverterfaultPTUReadingRS232serialportcommunicationtestReadanddeletethefaultReadanddeletetheruntimeSetandreadthesystemtimeReadthetargettemperatureInputandoutputstatusmonitoringReadtheFAT/RATReadtheVACoperationconditionSetandreadthecarriageNo.Notes:alltheabovetestitemsmustbeconductedforeachcontroller.Testcaseswithinasectionmustfollowsequentiallyandalltestcasesperformed.Eachtestcase,andcriteriatopassthetest,isdescribedinthefollowingsections.Thetestershalltickthe“P”passcolumnshouldtheresultmeetthetestcriteria.Ifthetestdoesnotmeetthetestcriteria,atickshallbeplacedinthe“F”failcolumnanda“NC#”referencetonotesin§4.Digitaloutputsonthetestequipmentshallbeobservedaspertestcasedetails.Digitaloutputsnotcoveredbythetestcasecriteriashallbeobservedandunexpectedchangesnotedastestfailure.The“A”abandonedcolumnshallbetickedfortestswhichhavebeenskipped.Testmaybeabandonedbecauseofearlierfailuremakingthetestredundant.Failedorabandonedtestshallberetestedinasubsequenttestround.Testwhichhavepassed,failedorabandonedmayhavetestnotesassociatedwiththem,Inthissituation,“N#”isplacedinthe“P”,“F”or“A”columnreferencingthenotedetailsin§4CHECKLISTINITIALSETUPANDSTARTUPTESTSINITIALSETUPReferenceSRSTestDescriptionPFAN/ASetupthetestingplatformasshowninfigure1.DownloadthecontrollercodeusingPhilipsLPC210x_ISP.exeinthetestcomputer.Verifyitdownloadssuccessfully.STARTUPReferenceSRSTestDescriptionPFAN/AAftercompletionofcontrollerprograminitialization,supplypowerforcontrollerandrestarttoverifyitrunswithouterrors.3.1.N/AVerifythesoftwareversiondisplayedontheHMIiscorrect.INPUTSANDOUTPUTSI/OMappingReferenceSRSTestDescriptionPFAWithcontrolcodeinsimulativetestingmode,changeeachdigitalinputDI1~DI60fromopencircuittoshortcircuit(to24v).Confirmthattherelevantvariables(fault)infigure1aresavedinfaultmessages.AndconfirmthatitcanbecheckedtoensuretherelevantoutputsarecorrectafterfaultonHMI.NetworkControlHDLCnetworktestReferenceSRSTestDescriptionPFASettheTMSsimulatorsoftwareaccordingtoformatinformationofthefollowingtableaspertheHDLCtestmethod.Thedatasentandthatreturnedfromcontrollershallbethesame.Iftheyarenotequal,thereoccurstheframelossproblem.NetworkSIGNALSTestReferenceSRSTestDescriptionPFAByte0:Usingthetestcomputer,configuretheTMSsimulatorsignalsTextcode=20H,ConfirmtestcomputerconnecttoNo.1VACByte0:Usingthetestcomputer,configuretheTMSsimulatorsignalsTextcode=A0HConfirmtestcomputerconnecttoNo.2VACByte1:Usingthetestcomputer,configuretheTMSsimulatorsignalsTeststartrequest=1,confirmtheVACisundertheon-boardtest.Byte1:Usingthetestcomputer,configuretheTMSsimulatorsignalsTestexecutionrequest=1,confirmtheVACwillcarryouttheon-boardtestitemByte5:Usingthetestcomputer,configuretheTMSsimulatorsignalsTime/Datevalid=1andTime/Dateadjustment=1ConfirmthattheVACadjustsitsclockaccordingtothetimegiveninByte6-Byte11.Thissignalissetforatleast1s.Byte5:Usingthetestcomputer,configuretheTMSsimulatorsignalsCarNo.valid=1,confirmthattheVACadjustsitscarNo.accordingtothedatagiveninByte12bit0~bit3andByte13.Byte5:Usingthetestcomputer,configuretheTMSsimulatorsignalsCarTypevalid=1,confirmthatVACadjustsitsCarTypeaccordingtothedatagiveninByte12bit4~bit7.Byte5:Usingthetestcomputer,configuretheTMSsimulatorsignalsTracedataclearrequest=1,confirmthatVACclearsthestoredtracedata.Byte5:Usingthetestcomputer,configuretheTMSsimulatorsignalsPseudofailurerequest=1,confirmthatVACcollectsthefaulttracedata.Byte14:Usingthetestcomputer,configuretheTMSsimulatorsignalsInstructionvalid=1,confirmthattheinstructioncommandinByte15isvalid.

Byte14:Usingthetestcomputer,configuretheTMSsimulatorsignalsStandardtemperaturevalid=1,confirmtheinstructioncommandinByte17isvalid.Byte14:Usingthetestcomputer,configuretheTMSsimulatorsignalsPassengerloadvalid=1,confirmtheinstructioncommandinByte19isvalid.Byte14:Usingthetestcomputer,configuretheTMSsimulatorsignalsCarnumbervalidflag=1,confirmtheinstructioncommandinByte20isvalid.Byte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsInstructionvalid=1andVentilation=1,adjusttheRATtorequestVentilationmode.ConfirmtheDO8ison.Byte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsInstructionvalid=1andDehumidification=1,adjusttheRATandRHtorequestDehumidificationmode,confirmtheDO8/DO1/DO2/DO4/DO5areon(asshownintable1).Ts-1.5≤Tr<Ts-1

RH55%-65%25%Cool+HeaterTs-2≤Tr<Ts-1.5

RH>65%Ts-1.5≤Tr<Ts-1

RH>65%50%Cool+HeaterByte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsInstructionvalid=1andON=1,adjusttheRATandTStorequestcoolmode.ConfirmtheDO8/DO1/DO2/DO3/DO4/DO5/DO6/DO7areon(asshowninFigure1).Figure1Byte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsInstructionvalid=1andOFF=1,confirmtheDO8/DO1/DO2/DO3/DO4/DO5/DO6/DO7areOFFByte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsFleshairdamperclosing=1,confirmVACimmediatelyclosedamper,DO10isONandDO11isOFF.Byte15:Usingthetestcomputer,configuretheTMSsimulatorsignalsFleshairdamperclosing=0,confirmthatVACimmediatelyopendamper,DO10isOFFandDO11isON.Byte16:Usingthetestcomputer,configuretheTMSsimulatorsignalsVACstartcommand=FFHfor2seconds,confirmtheVACthatreceived“FFH”operates,othersthatdonotreceivedarenotpermittedtooperate.Byte16:Usingthetestcomputer,configuretheTMSsimulatorsignalsSmoke=1,confirmthatfreshairdamperiskeptonholdByte17:Usingthetestcomputer,configuretheTMSsimulatorsignalsCoolingstandardtemperature,confirmthatVACreturnsthecoolingstandardtemperatureinBinary,0.2deg/bit,between20.0degand26.0deg,.Byte21:Usingthetestcomputer,configuretheTMSsimulatorsignalsAPS3ActiceFlagandAPS2ActiceFlagandAPS1ActiceFlag:whenoneofthesethreesignals=0,confirmthatVACoperatesinSemi-coolingmode;whentwoofthem=0,confirmthatVACoperatesinVentilationmode;andwhenallthesethreesignals=0,confirmthatVACoperatesinEmergencyVentilationmode.EmergencyVentilationModeReferenceSRSTestDescriptionPFA3.1PulsetheDI27=0then1andDI28=0then1tosimulatea380V,50HzACpowerfault.ConfirmthatemergencyventilationsysteminitiatesandDO12isonthenoffafter35s.ConfirmDO11isoff,DO10isonthenoffafter35s(freshairdamperopen),andDO13isoff,DO12isonthenoffafter35s(emergencybypassdamperopen).Atthemeanwhile,DO14isonandthentheemergencyventilationinverterisstarted.Ifinverterdoesnotfail,DI24=1iskeptonhold,confirmDO09ison.1hourafteroperatingtheemergencyventilation,confirmDO09isoffandsystemexitsemergencyventilationmode.Within1hourafteroperatingtheemergencyventilation,pulsetheDI27=1then0andDI28=1then0,confirmthatVACandventilationsystemrecoverstonormaloperationandDO09isoff.SmokeAlarmReferenceSRSTestDescriptionPFAStarttheSmoke1FBwithDI25=0.ConfirmthattheVACfreshairventisclosedwithMixAirValve1_ON.DO10isoff,DO11isonandreturnair100%circulates.TmssimulatorsoftwareissuestheinternalsmokealarmmodebysimulatingthesmokealarmsignalthatissuedbySTMS.ConfirmthatreturnairventoftheunitisclosedwithMixAirValve1_OFF,andDO11isoff,DO10ison,freshair100%circulates.PulseDI25=0andTmssimulatorsimulatesthesmokealarmsignalthatissuedbySTMSatthesametime,confirmthattheunitstopsalloutputs.LocalControlCANNetworkTestReferenceSRSTestDescriptionPFA5.2ConnecttheX3portofcontrollerwithHMI.Confirmeachfunctionisnormal.PlacetheHMIinInputandOutputpagetoreal-timedetectthecontrolIOportdata,confirmthatCANnetworkcommunicationisnormalwithoutproblems.LocalControlOperationConditionTestReferenceSRSTestDescriptionPFA3.Ventilation:pressthe“ventilation”onHMI,confirmthatonlyDO8(fanoftheunit)ison.3.4.2Full-cooling:pressurethe“full-cooling”onHMI,confirmthatDO8(fanoftheunit),DO2,DO3(condenserfan)areon,andDO4,DO5,DO6andDO7(4compressorsofeachunit)areon.3.4.23/4Cooling:pressurethe“3/4cooling”onHMI,confirmthatDO8(fanoftheunit)ison,DO2,DO3(condenserfan)areon,andthreeoftheDO4,DO5,DO6andDO7(3compressorswithshorterruntimeamongthe4compressorsofeachunit)areon.3.4.2Semi-Cooling:pressthe“Semi-cooling”onHMI,confirmtheDO8(fan)ison,DO2andDO3(condenserfan)areon.TwoofDO4,DO5,DO6andDO7(onlystart2compressorswiththeshortestruntimeamongthe4compressorsofeachunit)areon.3.4.21/4cooling:pressthe“1/4cooling”onHMI,confirmtheDO8(fan)ison,DO2,DO3(condenserfan)areon.OneoftheDO4,DO5,DO6andDO7(onlystart1compressorthatwiththeshortestruntimeamongthe4compressorsofeachunit)ison.3.4.2Stop:Clickthe“stop”onHMItostopallcomponentsoftheunit.Confirmthecorrespondingoutputindicatorlightsoftestequipmentareoff.E.g.underdehumidificationmode,confirmthatDO1(preheater)isoff,DO2,DO3(condenserfan)areoffthenDO8(fan)isoffafter60s.ReadandDeletetheFAultReferenceSRSTestDescriptionPFA35.1Pressthe“Fault”onHMItoenterthefaultreadinganddeletingpage.Clickthe“Read”,thenitwilldisplaythatthefaultisbeingread.Afterreading,thefaultcodewillbedisplayed.Ifthereisnofaultontheselectedfaultdate,NoFaultwillbedisplayed.Clickthe“deletethefault”todeletefaults.Iffaultissuccessfuldeleted,allfaultmessageonpagewillbecleared.ReadandDeletetheRuntimeReferenceSRSTestDescriptionPFA2.4EntertheStatuspageandclickthecorresponding“Read”buttontoreadtheruntimeofcorrespondingcomponent.3.42.4。EntertheStatuspageandclickthe“clearalltime”,thenruntimeofallcomponentswillbecleared.Allboxdisplays0day0minute0second.SetandReadtheSystemTimeReferenceSRSTestDescriptionPFA2.4Pressthe“parametersetting”ongeneralmessagepageofHMI,andthenclick“thenextpage”toadjustthesystemtimeaccordingtobuttonsonpage.Thenclick“set”,thesystemtimewillbewrittenincontroller,HMIdisplays“writingissuccessfully”Pressthe“parametersetting”ongeneralmessagepageofHMI,andthenclick“thenextpage”toreadthesystemtime.ReadtheTargetTemperatuereReferenceSRSTestDescriptionPFA.12.4Pressthe“parametersetting”ongeneralmessagepageofHMIthenclickthe“Read”button,thetargettemperaturewillbedisplayedinblackarea.TCMSStatusDataReferenceSRSTestDescriptionPFA5.2Pressthe“NetworkControl”buttonforswitchingtonetworkcontrolmode.InputandOutputStatusMonitoringReferenceSRSTestDescriptionPFA5.2Pressthe“InputandOutputStatus”ongeneralmessagepagetoenterthecontrollerIOportmonitoringpage.Thispagecanreal-timedisplaytheinputandoutputstatusoftestequipment.CommunicationPortDataMonitoringReferenceSRSTestDescriptionPFA5.2Press“dataflowdisplay”ongeneralmessagepagetoentercontrollerX5portmonitoringpage.Thispagecanreal-timedisplaythedataexchangebetweencontrollerandTMSSimulator.NoOperationReferenceSRSTestDescriptionPFA5.2Nooperationfor5min(tentative)ontheHMI,automaticallyswitchtonetworkcontrolmode.DamperControlFreshAirDamperControlReferenceSRSTestDescriptionPFA3.1Pre-cooling:confirmDO11isoff,DO10isonthenoffafter35s(damperclosed)..23.1Cooling:adjustmentwillbemadeaccordingtopassengerload..33.1Ventilation:adjustmentwillbemadeaccordingtopassengerload..43.1Emergencyventilation:confirmDO11isoff,DO10isonthenoffafter35s(damperopen)..53.1PulsetheDI25=1then0toinitiateSmoke1FB.ConfirmDO10isoff,DO11isonthenoffafter35s..63.1TMSsimulator:internalsmokealarmmodeisactiveaftersoftwaresimulatingthesmokealarmsignalissuedbySTMS.ConfirmthatDO10andDO11arekeptonhold.ReturnAirDamperControlReferenceSRSTestDescriptionPFA3.1Pre-cooling:confirmDO10isoff,DO11isonthenoffafter35s(damperclosed)..23.1Refrigeration:confirmDO10isoff,DO11isonthenoffafter35s(damperclosed)..33.1Ventilation:confirmDO10isoff,DO11isonthenoffafter35s(damperclosed).43.1Emergencyventilation:confirmDO11isoff,DO10isonthenoffafter35s(damperopen)..53.1Externalsmokealarm:confirmDO10isoff,DO11isonthenoffafter35s(damperclosed)..63.1Internalsmokealarm:confirmDO11isoff,DO10isonthenoffafter35s(damperopen)..73.1Stop:confirmDO10isoff,DO11isonthenoffafter35s(damperclosed).EmergencyBypassAirDamperControlReferenceSRSTestDescriptionPFA3.1Emergencyventilation:confirmthatDO13isoff,DO12isonthenoffafter35s(damperopen).FaultSimulationCompressorFaultReferenceSRSTestDescriptionPFA3.3.1CP11highpressurefaultdetection:1.PulseDI10=1then0forlessthan2minutes.ConfirmthatCP11stopsfor2minutes,andDO4isoff.Confirm“CP11HIGHPRESSUREFAULT”israisedandrecorded,thenfaultrecord+1.2.Winthin2minutespulseDI10=0then1.ConfirmthatCP11changesintonormaloperationandDO4ison;3.AftertheCP11startsinnormaloperation,confirmthatDI10=1for15minutesandfaultrecordiscleared.AndconfirmthattheunitchangesintonormaloperationandDO4ison.4.Repeatstep2andstep3,thenpulsetheDI10=1then0after2minutesandwithin15minutestosimulateahighpressurefault.Confirm“HIGHPRESSUREFAULT”israisedandrecorded,thenfaultrecord+1.AndconfirmDO4isofffor2minutes.5.Within2minutestopulsetheDI11=1then0againtosimulateahighpressurefault.ConfirmD04isoff.ConfirmthatthecompressorislockedbycontrollerandthefaultcanbecheckedonHMI.CP12highpressurefaultdetection：PulseDI13=1then0forlessthan2minutes.ConfirmthatCP12stopsfor2minutes,andDO5isoff.Confirm“HIGHPRESSUREFAULT”israisedandrecorded,thenfaultrecord+1.;Winthin2minutespulseDI13=0then1.ConfirmthatCP12changesintonormaloperationandDO5ison;AftertheCP12startsinnormaloperation,confirmthatDI05=1for15minutesandfaultrecordiscleared.AndconfirmthattheunitchangesintonormaloperationandDO5ison.Repeatstep2andstep3,thenpulsetheDI13=1then0after2minutesandwithin15minutestosimulateahighpressurefault.Confirm“HIGHPRESSUREFAULT”israisedandrecorded,thenfaultrecord+1.AndconfirmDO5isofffor2minutes.;Within2minutestopulsetheDI13=1then0againtosimulateahighpressurefault.ConfirmD05i