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1 | user manual | Users Manual | 2.27 MiB |
GUTERMANN ZZOONNEESSCCAANN880000//882200 CCOORRRREELLAATTIINNGGRRAADDIIOOLLOOGGGGEERR Edition0110820 TableofContents 4 1. 5.1 7.1 7.2 2.2. 2.2. 2.3. 1.1. 1.2. 1.3. 3.1 3.2 3.3 3.4 GUTERMANN ............................................................................................................................... 1 Introduction.................................................................................................................5 SystemComponents ................................................................................................................ 6 Radiologgers ........................................................................................................................... 6 SystemCommunicationLink ................................................................................................... 6 2. ZONESCAN800software..............................................................................................6 InitialZS800CommlinkSetup .................................................................................................. 7 CheckRadioConnection .......................................................................................................... 8 InitialZS820CommlinkSetup .................................................................................................. 8 1 ZonescanLoggersProcessFlowChart...........................................................................9 3. CreatinganewDatabase............................................................................................10 InsertingaNewLogger .......................................................................................................... 11 InsertMulipleLoggers ........................................................................................................... 11 LoggerSetupMeasurementSettings ................................................................................. 12 Zonescan820SensitivityBoost ............................................................................................. 13 ProgrammingtheLoggers..........................................................................................14 ProgrammingCorrelation .................................................................................................... 15 4.1 4.2 Whenalogger(s)failstosynchronize ................................................................................... 16 5 DeployingtheZonescanLoggers................................................................................17 DeployingtheLoggersinthefield ......................................................................................... 18 ImportingaDigitalMapintotheZonescanSoftware..................................................19 6 7 DownloadingthedataintheLoggers.........................................................................24 SettingtheThresholdLeakLevels ......................................................................................... 25 StarttheDownload ............................................................................................................... 26 8 TheNoiseLoggingPrincipal........................................................................................28 Tab.2Thefirstsampletakenof12dBisplottedonthehistogrambelowinFig.A.....................................29 Tab.3thesecondsampletakenof12dBisplottedonthehistogrambelowinFig.B.................................30 Tab.4thethirdsampletakenof12dBisplottedonthehistogrambelowinFig.C....................................31 Tab.5thefourthsampletakenof21dBisplottedonthehistogrambelowinFig.D..................................32 Tab.6thefifthsampletakenof18dBisplottedonthehistogrambelowinFig.E.....................................33 Tab.7thesixthsampletakenof12dBisplottedonthehistogrambelowinFig.F.....................................34 Tab.8theseventhsampletakenof13dBisplottedonthehistogrambelowinFig.G................................35 Tab.9theeighthsampletakenof12dBisplottedonthehistogrambelowinFig.H..............36 9 AnalysingResults.......................................................................................................37 NoLeakResult ....................................................................................................................... 38 9.1 PossibleLeakResult .............................................................................................................. 39 9.2 ProbableLeakResult ............................................................................................................. 40 9.3 Interpretingnoiseloggingresults ......................................................................................... 41 9.4 9.5 Whichloggerisclosertotheleak? ........................................................................................ 43 9.6 WhatistheLeakValue? ........................................................................................................ 44 ReliabilityofResults .............................................................................................................. 44 9.7 10 PerformingCorrelations.............................................................................................45 10.1 Correlationbetweentwologgers .......................................................................................... 45 TheCorrelationResult ........................................................................................................... 47 10.2 ExhaustiveCorrelation .......................................................................................................... 48 10.3 InterpretingtheCorrelationResults...........................................................................49 11 12 ProjectManagement..................................................................................................52 13 AppendixSection.......................................................................................................53 2 13.3 13.1 WizardAssistedVersion ........................................................................................................ 53 13.1.1 Main Window ................................................................................................................ 53 Function buttons ............................................................................................................ 53 13.1.2 Logger list ..................................................................................................................... 54 13.1.3 13.1.4 Status panel ................................................................................................................... 54 13.2 MainMenu(WizardAssistedVersion) .................................................................................. 55 File ................................................................................................................................. 55 13.2.1 13.2.2 Logger ........................................................................................................................... 55 13.2.3 View .............................................................................................................................. 55 13.2.4 Setup .............................................................................................................................. 55 LoggerState(WizardAssistedVersion) ................................................................................ 56 13.3.1 Synchronize ................................................................................................................... 57 13.3.2 Remote listening ............................................................................................................ 57 LoggerSetup(WizardAssistedVersion)................................................................................ 57 13.4 LoggerSynchronization(allloggers)WizardAssistedVersion ........................................... 58 13.5 13.6 ViewLoggerMeasurements(WizardAssistedVersion) ....................................................... 59 13.6.1 Measurement list ........................................................................................................... 59 13.6.2 Measurement data.......................................................................................................... 59 14 Measurement............................................................................................................59 14.1 CorrelateSoundSignals(WizardAssistedVersion) .............................................................. 60 15 Sync.numbers............................................................................................................60 16 Statuspanel...............................................................................................................60 16.1 Resultdisplay ......................................................................................................................... 61 Filter ...................................................................................................................................... 61 16.2 17 Connection.................................................................................................................62 18 Audio.........................................................................................................................62 19 Language....................................................................................................................62 20 HotSync......................................................................................................................62 21 Functionbuttons........................................................................................................66 22 Loggerlist...................................................................................................................67 Usethese3stepprocess...................................................................................................68 23 Statuspanel...............................................................................................................69 24 File.............................................................................................................................69 25 Logger........................................................................................................................69 26 View...........................................................................................................................70 27 Options......................................................................................................................70 28 Synchronize................................................................................................................72 29 Remotelistening........................................................................................................72 30 Actions.......................................................................................................................75 31 Orderofsynchronization............................................................................................75 32 Synchronizationmode................................................................................................75 33 Correlation.................................................................................................................76 34 Report....................................................................................................................76 35 Synchronization.......................................................................................................76 36 Measurementlist.......................................................................................................78 37 Measurementdata.....................................................................................................79 38 Exportmeasurementdata..........................................................................................79 39 Measurement............................................................................................................80 40 View...........................................................................................................................80 41 CorrelateSoundSignals(StandardProfessionalVersion)...........................................82 42 Sync.Numbers...........................................................................................................82 3 43 Statuspanel...............................................................................................................83 43.1 Resultdisplay ......................................................................................................................... 83 Filter ...................................................................................................................................... 83 43.2 44 Functionbuttons:.......................................................................................................86 45 Warninglevels.........................................................................................................88 46 Map...........................................................................................................................89 47 Connection.................................................................................................................89 48 Audio.........................................................................................................................89 49 Language....................................................................................................................89 50 HotSync......................................................................................................................89 51 ConduitSetup............................................................................................................90 52 Synchronizethefiles..................................................................................................90 53 HandheldoverwritesPC.............................................................................................91 54 ConnectionType........................................................................................................91 55 Zonescan820CommlinkSetup....................................................................................92 56 CreatingthelinkbetweentheZonescanSoftwareandBluetoothManager...............95 57 UpdatingtheCommlinkFirmware..............................................................................96 4 ZONESCAN800/820 CorrelatingRadioLogger 1. Introduction WelcometotheZONESCAN800System. ZONESCAN 800 is a professional, easytouse analysis and documentation tool for detecting leaks in drinkingwaterdistributions.Itconsistsofsmall,intelligentunits(loggers)thataredeployedthroughout thedistributionnetworkforcollectinganalysisdataandacommunicationunitforinteractivecontrolling and transferring the data to a mobile computer (laptop). The components provide powerful radio transmissionabilitiesinordertoallowconvenientoperationfrominsideavehicle.Thesystemcomprises thefollowingfunctions:
Automaticmonitoringandanalyzingofnoisecharacteristics Calculationofleakprobabilitywithopticalandacousticindication Offlinecorrelationofsoundsignalforlocalizingleaks Remotelisteningofleaknoise ForfurtherdetailsconcerningtheloggersandthecommunicationlinkseealsoSystemComponents. TheintegratedZONESCAN800Windowssoftwareprovideseasytouseoperationoftheradiounits and powerful analysis tools of the measurement data. It supports project management for easier organization of the loggers as well as integration of geographical maps. The software also contains variousgraphicalandtabulardatadiagnosticstoolsandexportfunctions. The Windows software can be operated in two modes: Wizard assisted mode which provides guided functionsandiseasytouseorStandardprofessionalmode.Theoperationmodecanbeswitchedinthe initializationwindow. Attention!
Changesormodificationsnotexpresslyapprovedbythepartyresponsibleforcompliancecouldvoidthe user'sauthoritytooperatetheequipment. ThisequipmentcomplieswithFCCradiationexposurelimitsandIndustryCanadaRSS102setforthforan uncontrolledenvironment. Thisequipmentshouldbeinstalledandoperatedwithminimumdistance20cmbetweentheradiator&
yourbody. RSSGEN LeprsentappareilestconformeauxCNRd'IndustrieCanadaapplicablesauxappareilsradioexemptsde licence.L'exploitationestautoriseauxdeuxconditionssuivantes:(1)l'appareilnedoitpasproduirede brouillage,et(2)l'utilisateurdel'appareildoitacceptertoutbrouillageradiolectriquesubi,mmesile brouillageestsusceptibled'encompromettrelefonctionnement. 5 1.1. SystemComponents TheZONESCAN800systemconsistsofthefollowingcomponents:
Radiologgers SystemCommunicationLink(ZS820Bluetooth) Communicationcable(Serial/RS232C) Mobilecomputer(laptop)withZONESCAN800software 1.2. Radiologgers The radio loggers continuously monitor and analyze noise characteristics. The loggers need no maintenance. Depending on the setting of radio operation period and how often the functions CorrelationandRemotelistening(seeLoggerState)areused,batterylifetimenormallyexceeds5 years.Batterymaybereplacedbyauthorizedpersonnelonly. 1.3. SystemCommunicationLink The System Communication Link (abbreviated: CommLink) serves as an interface for radio communication between computer and the loggers. It is connected to the computers serial interface via the Communication Cable. When connected to the computer the System Communication Link will be automatically detected as soon as the ZONESCAN 800 software is started. It is switched off either by exiting the software or disconnecting it from the computer. Later version CommLinks have a push on/off button. Depending on the surrounding conditions, radiotransmissiontotheloggersispossibleuptoseveralhundredmetres. 2. ZONESCAN800software TheZONESCANsoftwareprovidesavarietyoffunctions:
transferring,storingandvisualizingloggermeasurementdata correlationofsoundsignals remotelisteningviaPCspeakersorheadphone programmingtheloggers checkingtheloggerstate analyzingandprintingmeasurementdata exchangingdatawithotherPCs audiomessagesduringsynchronizationofloggers geographicalmapofloggers(standardprofessionalmode) The software may be easily installed on every computer by executing the file SETUP.EXE from the installation CD or installation disk 1. The installation software will guide the user through the installationprocedure.Minimumsystemrequirementsare:
Windows95/98/Me/NT/2000 PentiumII120orhigher 32MBRAM 5MBfreediskspace Windowscompatiblemouse 6 2.1. 2.2. InitialZS800CommlinkSetup IdentifytheCommlink,doesitrequireacableorBluetoothto connecttoacomputer.Ifitsacablecontinuewiththissection. IfitsaBluetoothgotoSection2.3. The pathway of communication between the Commlink, Zonescan software and the computers communication ports require configuration before the loggers can be used. [Fig.1 Connect the CommunicationCabletoanunusedCOMportofthePC.Ifthe computerdoesnothaveaRS232inbuiltsocketthenaUSBto RS232 adaptor will be required. USB to RS232 Adaptors are availablefromacomputerdealer. Communication System Link the via Fig.1commlink picture In Windows go to device manager and expand the Ports to see which COM Port the Zonescan CommlinkorUSBtoRS232serialportadaptorisassignedto.[Fig.2intheZonescansoftwarecheck COMportsetting:selectmenucommandFileOptionsSetup,thenselectConnectionandmodify settingifnecessary. Fig.2settingupcommunicationport 7 Afterthesebasicsetupstepsthesoftwareispreparedfornormaloperation.Itisrecommendedto checkradioconnectiontotheloggersnext:
2.2. CheckRadioConnection Refertosection3.1onhowtoinsertaloggertousetochecktheRadioConnection.Selectalogger intransmissionrange(clickonaccordingentryinloggerlist)andpressthefunctionbuttonLogger State orthefunctionkeyF3.Radioconnectionshouldbeestablishedaftersomesecondsand loggerstatedatashouldbevisualizedintheLoggerStatewindow. 2.3. InitialZS820CommlinkSetup TheZS820CommlinkiscablelessandusesBluetoothasitsformofcommunicationthereforea computerwithinbuiltBluetoothoraUSBBluetoothDongleisrequired.FortheSetuppleasereferto thesectionZonescan820CommlinkSetupintheAppendixofthisdocument. 8 1 Zonescan Loggers Process Flow Chart START Create new database To program the logger, synchronise PC and all required loggers using the COMM LINK via RS232 connection or Blue Tooth More logging required?
Yes Retrieve deployed loggers and down load data No Analyse the leak noise results Run correlations for each logger Do results indicate a leak?
Red = probable leak Amber = possible leak Green = No leak No END YES Pinpoint with AQUASCOPE 3 9 3. CreatinganewDatabase StarttheZonescansoftwareinstandardprofessionalmode,seepage63.TheZonescanLoggersare individuallyidentifiedbyaserialnumberwhichisstampedonthetopofthelogger.Thisserialnumberis usedbytheZonescansoftwareasameansofcommunicatingwitheachlogger.Fig.3showshowto createaNewProjectbyselectingFilefromthemenubarandthenselectingNewProjectfromthepull downmenu. Fig.3filenewproject ThecursorwillflashintheboxwheretheProjectnameneedstobeentered.Useanamewhichhelpsidentify theareawheretheloggersaredeployed. Fig.4namenewproject 10 3.1 InsertingaNewLogger Themainwindowisblank,itsreadytoinserttheloggersrequiredforthenewlycreatedproject.Selectthe InsertNewLoggerasinFig.5,anewsmallerwindowwillappeartoallowtheloggerserialnumberstobe entered.ClickOKandthentoenteranotherlogger,repeattheprocess.TheLoggerPositionandcomment maybefilledinaftertheLoggershavebeendeployedhoweveritisimportantthattheloggerpositionis notedonaMapwhendeployed.TheMeasurementswillrequiresettingbeforeSynchronization,thiswillbe coveredlater. Fig.5insertloggerwindow 3.2 InsertMulipleLoggers ClicktheInsertMultipleLoggersbuttontoenteralargequantityofloggers.Fig.6showswheretoenterthe firstandlastserialnumberfortheproject.ClickOKandalltheloggerswillappearasalistinthemain window. Fig.6insetmultipleloggers 11 3.3 LoggerSetupMeasurementSettings TheStartandStoptimesaswellastheInterval(samplerate)requiresettingtosuityourrequirements,the besttimeperiodiswhenpressureishighestandconsumptionislowest,ifthisdoesnthappenthenthe standardsettingswillremainasinFig.6.ClicktheLoggerSetupIcon.Oncethesesettingsarecompletethen reducetheradiooperationalwindowdowntotheperiodoftimeforprogramminganddownloadingthe Loggers,bydoingthisthebatterylifewillbeextended.Fig.7theradiooperationperiodisthetimewhen communicationwiththeloggersisrequiredduringoperatorsworkinghours. UsetheCopytoAllLoggersbuttontosetalltheloggerswiththesameparameters. Note:SetthemeasurementIntervalsasfollows:3sfor3hourslogging,2sfor2hoursand1sforless than2hours Fig.7measurementsettings inloggersetup 12 3.4 Zonescan820SensitivityBoost TheZonescan820LoggershaveanextrafeaturewhichBoostthesensitivityofthesensor,thisis recommendedforveryquietleaks.TicktheboxasinFig.8andcopytoallloggerstosettheBoost. Fig.8sensitivityboost 13 ProgrammingtheLoggers 4 ConnecttheCommlinkwithAntennatothePCandswitchedon.ClicktheSynchronizebuttonandasmaller windowappears.SeeFig.9.TicktheoptionTransferloggersettingsfromPCtoLogger,thismeansthe settingsselectedinLoggerSetupandthePCtimewillbetransferredtotheLogger.TheZonescanLoggersare versatilewithrespecttotheOrderofSynchronization.Synchronizeonlyreachableloggersisusedwhenthe loggersaredeployedinthefieldasaDriveBycommunication.TheloggersSynchronizeastheycomein transmissionrangewhendrivingaroundthedeploymentzone. Synchronizeaccordingtologgerlististhemethodofcommunicationwhenallloggersareinoneplacee.g. inthecarrycase.FormoredetailedexplanationofthisSynchronizationmethodsseethesectionLogger Synchronizationonpage75. Fig.9actionsandorderofsynchronizationsettings InthesectionOrderofsynchronizationselectaccordingtologgerlistandtickWakeupLogger. Wake up loggers: Wake up loggers that are in sleep mode. This function should be activated during synchronization outside of the logger's radio operation period (see also Logger Setup). This is only for synchronizingaccordingtologgerlist. ClickMoretorevealfurthersynchronizationoptions.AsGetMeasurementsisnotselectedthenleavethe FastSyncoptionofLeakValuesselected.Thisisnotusedforprogramming;itsusedforthedownloadof results,seedownloadsection. 14 Fig.10getmeasurementssynchronizationsettings 4.1 ProgrammingCorrelation TotakeadvantageofthecorrelationfunctionoftheZonescanLoggerstheoptionmustbeselectedbyticking Prepareloggerforcorrelation(recordsoundsignal).ChooseaRecordingtimewhichisbetweenthe measurementtimesof1:00amto4:00am,3:00amisrecommended.LeaveNoiseReductionselectedasthis record3separate8secondrecordings.Choosea5to10minuteRec.pausethiswillhelpeliminateany ambiguitiessuchasaresidentflushingatoilet(falseleak)duringtherecordingtime.Singlecorrelation records1noisesourceandallowsfastdownloads.HighrescorrelationisanextensionofNoisereduction correlationwith5separate8secondrecordings,downloadswilltakelonger.Soundsignalsrecordoncefor thefirstnightandwillrequiresettingthenextdayforthefollowingnight. Fig.11correlationsynchronizationsettings OncealltheSynchronizesettingsaresetthenclickstarttoloadthesettingsintotheloggers.The correspondingboxintheReadcolumnofthedatabasewillturngreenaseachloggerissuccessfully synchronizedFig.12.AgreenlightinthedatabasewindowconfirmsconnectiontotheCommunicationsLink
(theCommlink).Realtimeprogressofthesynchronizationprocessisalsoindicatedinthebottomleftcorner 15 ofthemaindatabasewindow,whenallloggersaresynchronizedtheprogresswindowwillbeblankandthe readcolumnforallloggerswillbegreen. Fig.12synchronizationprocess 4.2 Whenalogger(s)failstosynchronize IfaloggerfailstoSynchronizethenindividuallysynchronizetheloggerbyusingtheLoggerState(eye symbol)function.ClicktheSynchronizebuttonwithintheLoggerStatewindow. Any loggers which are missed during synchronization, may be individually synchronised by using the Logger State facility
(shown as an eye icon). Once in the Logger State window for the desired logger, simply select Synchronize to commence synchronization. Fig.13individual synchronizationinloggerstate window 16 5 DeployingtheZonescanLoggers Printoutapapercopyofthedeploymentareamap,asyoumovearoundtheareamarkthepositionofthe ZonescanLoggersSerialnumberonaprintedversionoftheDigitalmap.UsetheSpacingGuidetohelpset theloggersout.Itsimportantnottooverspacetheloggers,usethetableinFig.15asaguide. Fig.14hardcopyofadigitaldeploymentmap PipeMaterial Pressure DuctileorCastIron DuctileorCastIron A.C A.C PVC PVC Higherthan25m Lessthan25m Higherthan25m Lessthan25m Higherthan25m Lessthan25m Diameter Lessthan 250mm 250mm 250mm 250mm 250mm 250mm Maximum LoggerSpacing 150m 100m 120m 100m 90m 60m Fig.15LoggerSpacing Guide 17 5.1 DeployingtheLoggersinthefield Usethefollowingphotographsasaguidetoqualityloggerdeployment. 1.OpenthechamberLid 2.CleantheHydrantorValvewithawirebrush 3.Makesurethereisagood,clean,magneticcontacttothevalvestemorhydrant.Foroptimumsoundand radiotransmissiondeploytheZonescanvertically.TopreventtheAntennatouchingthemetallidand reducingtransmission,fitapolystyreneblockbetweenthelidandAntenna. 18 4. 6 Importing a Digital Map into the Zonescan Software Step1.TosetupandviewamapfromthePCharddrive,select;ShowMap(theGlobeicon)onthemenu bar. Step2.AmapwindowwillopenasshowninFig.16.Next,clickPictureManager(theMapicon)intheMap windowmenubar Fig.16mappingwindow Important:SaveDigitalMapsinaknownfolderinJPEGorBMPformat,toconvertadifferentfileformatby printscreentheimageandopeninpaintthensaveitasaJPEGorBMP. 19 Step3.ClickthefirstFileboxtwicetoopentheSelectPictureFilewindow.Locateanddoubleclickon desiredpicturefilethenclosePictureManagerWindow.SeeFig.16.1 Fig16.1Picturemanager 20 Step4.Zoominbyselectingthedesiredscalefromthepulldownmenuoralternatively,zoominoroutone scaleatatimebyrightclickingthemouseandselectingZoominorZoomout Fig16.2Zoominthemap 21 Step5.Tomoveloggerstodesiredpositiononthemap,selecttheMoveloggersicononthemenubar then,usingthePCmouse,clickanddrageachloggertoitsdesiredpositiononthemap Theloggerbeingmovedwillalsobehighlightedontheloggerdatabase Fig.16.3movingalogger 22 Toviewthemainwindow(theprojectdatabase)overthemapatanytime,clickontheShowMain Windowicononthemenubarandreducethemainwindowtothedesiredsize. ArrangescreenlayoutofMapandDatabasewindowsasdesiredusingthestandardWindowsMaximise andRestoreWindowicons Fig.16.4rearrangingthewindows 23 7 DownloadingthedataintheLoggers EnsuretheCommLink,antennaandPCconnectionsarecorrectlymadeandswitchtheCommlinkon.Click theSynchronizebuttonandasmallerwindowappears.SeeFig.17.Todownloadtheloggers,beginby selectingthebox;Getmeasurements. IfTransferloggersettingsfromPCtologgerisselectedthenthiswillpreparetheloggersforthenextlogging session,besuretoselecttheLoggersettingspriortoSynchronization.Thiswillcleartheloggermemoryonce theloggerdatahasbeendownloaded. Ifacorrelationisrequired,alsochecktheboxGetnoisesignalforcorrelationasshown(Pleasenote:a correlationsignalwillonlybeavailableiftheloggersweresettorecordacorrelationduringsynchronization inthelast24hrs) Fig.17downloadsettings inthe Synchronizewindow Selectbox;SynchronizeonlyreachableloggersiftheloggersarestilldeployedinthefieldorSynchronize accordingtolistiftheloggersaretogetherintheircarrycase. SynchronizationmodeforGetmeasurementshas2options1.Leakvaluesandlatestamplitudedistribution
(FastSync)thisisusedfordownloadingtheresultsofthepreviousnightslogging. Allavailableamplitudedistributionswhichdownloadsallavailablenightsrecordings,thisisusuallyrequiredif theloggershavebeendeployedinthesamelocationforseveraldayswithoutbeingdownloaded. SelectGetsoundsignalforcorrelationtodownloadtherecordedsoundsignalfromthepreviousnight logging.Foraccuratecorrelationsdownloadrecordedsoundsignalswitha24hourperiod. Important:PriortoSynchronizationsettheLeakThresholdLevelsforpossibleandprobableLeak,forthis informationP.T.O. 24 7.1 SettingtheThresholdLeakLevels Tosetalarmthresholdwarninglevelsforleakage&lowbattery,selecttheSetUpicononthemain databasemenubar.EnterdesiredPossibleandProbableLeakthresholdvalue(s)seetableFig.19forcorrect valuestosuitthepressureandpipematerial. Fig.18loggeroptions PipeMaterial LeakSettings Possible Probable DuctileorCastIron(HighPressureGreaterthan25m) DuctileorCastIron(Lowpressurelowerthan25m) A.C(HighPressureGreaterthan25m) A.C(LowPressurelessthan25m) PVC(HighPressureGreaterthan25m) PVC(LowPressurelessthan25m) 50 40 50 40 25 20 80 60 80 60 50 50 Fig.19leaklevel thresholds 25 7.2 StarttheDownload NowalltheThresholdandSynchronizationsettingsareenteredclickstart.Thefollowingscreenshots explainwhathappensduringthedownloadprocess. Fig.20downloadingstarted Aseachloggerissynchronised,aleakageprobabilityiscalculated.IftheleakvaluefallsBELOWtheuser selectedthreshold,NOLEAKINDICATEDwillbeaudiblyannounced,andtherespectiveloggerwillbeturn GREENinboththedatabaseandonthemapview(ifused) Untilthesynchronizationforeachloggeriscompleted,theloggerremainsgreyincolour,bothinthe databaseandinthemapview Fig.21downloadingcontinued 26 Acorrelationrecordingmaytakeslightlylongertotransfer,asthefileislargerthanloggeddata.Realtime progressofthefiletransferisgiven. Fig.22downloadcomplete Aseachloggerissynchronised,iftheleakvaluefallsBETWEENtheuserselectedthresholds,POSSIBLELEAK INDICATEDwillbeaudiblyannounced,andtherespectiveloggerwillbeturnORANGEinthedatabaseand alsoonthemapview. IftheleakvalueisABOVEtheuserselectedthreshold,CAUTION,LEAKINDICATEDwillbeaudibly announced,andtherespectiveloggerwillbeturnREDinthedatabaseandalsoonthemapview 27 8 The Noise Logging Principal An understanding on how the Zonescan Loggers build the Histogram will help when interpreting the results. The following section explains how the sampling process works. The tables depict when the logger takes a noise sample and what the sample is caused by, e.g a passing car or leak. Traffic &
Consumption noise should be ignored. A large number of samples at the quietest level, indicate a consistant sound that could be a leak which never stops. The Leak is the closest to the loudest, quietest noise. Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.1 28 Fig. A Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.2 Thefirstsampletakenof12dBisplottedonthehistogrambelowinFig.A Amplitude Distribution Graph Number of Samples 1 0.8 0.6 0.4 0.2 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB 29 Fig.B 30 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.3 thesecondsampletakenof12dBisplottedonthehistogrambelowinFig.B Amplitude Distribution Graph Number of Samples 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Fig.C Tab.4 thethirdsampletakenof12dBisplottedonthehistogrambelowinFig.C Amplitude Distribution Graph Number of Samples 3 2.5 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB 31 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.5 thefourthsampletakenof21dBisplottedonthehistogrambelowinFig.D Amplitude Distribution Graph Number of Samples 3 2.5 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB Fig.D 32 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Fig.E Tab.6 thefifthsampletakenof18dBisplottedonthehistogrambelowinFig.E Amplitude Distribution Graph Number of Samples 3 2.5 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB 33 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.7 thesixthsampletakenof12dBisplottedonthehistogrambelowinFig.F Amplitude Distribution Graph Number of Samples 4 3.5 3 2.5 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB Fig.F 34 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Fig.G Tab.8 theseventhsampletakenof13dBisplottedonthehistogrambelowinFig.G Amplitude Distribution Graph Number of Samples 4 3.5 3 2.5 2 1.5 1 0.5 0 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB 35 Sample Time 2:00:03 2:00:06 2:00:09 2:00:12 2:00:15 2:00:18 2:00:21 2:00:24 2:00:27 2:00:30 2:00:33 2:00:36 2:00:39 2:00:42 2:00:45 2:00:48 2:00:51 2:00:54 2:00:57 2:01:00 2:01:03 2:01:06 Noise Level
(DB) 12 12 12 21 18 12 13 12 13 12 12 12 12 40 35 25 13 13 25 25 24 25 Description of Noise Leak Noise Leak Noise Leak Noise Car Coming Car Going Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Leak Noise Truck Coming Truck Going Leak Noise Leak Noise Leak Noise Toilet Flush Toilet Flush Toilet Flush Toilet Flush Tab.9 theeighthsampletakenof12dBisplottedonthehistogrambelowinFig.H This process continues until the logging is complete and the Histogram is built. Fig.H Amplitude Distribution Graph Number of Samples 5 4 3 2 1 0 36 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Noise Level in DB 9 AnalysingResults Toviewtheamplitudedistributiongraphoftheloggedresults:
Step#1:selectthedesiredloggerinthedatabasewindow Step#2:selectShowmeasurementsonthemenubar(shownasabargraphicon)oralternatively doubleclickthedesiredloggertoshowthemeasurementhistogram. Highlightthedesireddatetoviewhistoricalrecordeddatafortheselectedlogger Fig.23showmeasurements 37 9.1 NoLeakResult ThefollowingscreenshotsshowaNoLeaksituation. Fig.24noleakmeasurementwithloggerlistand map Fig.25noleakmeasurement 38 9.2 PossibleLeakResult ThefollowingscreenshotshowaPossibleLeaksituation:
Fig.26possibleleak 39 9.3 ProbableLeakResult ThefollowingscreenshotsshowaProbableLeak:
Fig.27clearprobableleak 40 9.4 Interpretingnoiseloggingresults Steps1AnalyseallloggersHistogramstoestablishthenoleaknoiselevelinthearea. Fig.28 3.5dBminimumnoisehistogram 3.5dBMinimumNoiseLevel Fig.295dbminimumnoise histogram 5dBMinimumNoiseLevel 41 Step2identifyareas2to3dbhigherthanthenoleaklevel 7dBMinimumNoiseLevel Fig.307dBminimumnoise level Step3DeterminetheAreasofInterest Analysetheminimumnoiselevelforeachloggedpoint.Higherminimumnoiselevelsareclosertotheleak. Fig.30areaofinterest 42 9.5 Whichloggerisclosertotheleak?
ItsonlynaturaltousetheLeakValueasanindicationwhichloggerisclosesttotheLeakhowevercloser analysisoftheMinimumNoiseLevelsisrequired,seethefollowingexamples. Fig.32quieterpossibleleak 7dB MinimumNoiseLevel Fig.33possibleleak AlthoughFig.32hasahigherLeakvaluethanFig.33thelaterisclosertotheleakwithahigherminimum noiselevel. MinimumNoiseLevel 9dB 43 9.6 WhatistheLeakValue?
Acalculatedpercentageoftherebeingaleakbasedonthenoiselevelandnumberofsamples(consistency). Fig.33what isthe leakvalue Highlevelsandnarrowpeakscreatehighleakvalues.Anyleakvalueabove0couldbealeakespeciallyina quietpipenetworkenvironmentsuchaslowpressurePVC. 9.7 ReliabilityofResults Thenoiseloggedresultsindicateanyconstantnoisefortheloggingperiod.Reliabilityisincreasedifloggingis performedfor23nightstoseeifyougetthesameresulteverynight. Fig.34leavingthe loggersoutforat least3nights 44 10 PerformingCorrelations Correlationistheprocessofpinpointingthepositionofaleakbetweentwologgers.Inordertorun correlationsSoundRecordingsmustbeselectedintheSynchronizationmenuandthendownloadedonce theloggingiscomplete. 10.1 Correlationbetweentwologgers ClickthesinglepipesymbolwithaleaktorevealtheCorrelationwindow. Fig.35openingthe correlationwindow Step#1:Selectthefirstloggerinthedatabaseindicatingleakorpossibleleak.Thisisclassedas Logger1;theserialnumberoftheloggerwillappearinthewindow. Step#2:ThenselectthenextloggerusingtheNextrecordorPreviousrecordarrowkeysinthe Logger2partition. Step#3:Toenterpipematerial(s),selectEnterpipedatasymbol Step#4:Enterdistancemeasuredalongpipelinebetweenthetwologgers Step#5:Selectthepipelinematerialfromthepulldownmenu Step#6:Selectthepipelinediameterfromthepulldownmenu Formixedmaterialsrepeatprocessforupto4differentpipesectionsbetweenthetwologgers. SeeFig.36ascreenshotofthepipematerialenteringprocess,PTO. 45 Step #4: Enter distance measured along pipeline between the two loggers Step #5: Select the pipeline material from the pull-down menu Step #6: Select the pipeline diameter from the pull-down menu Sound velocity and filters are then computed automatically Repeat process for up to 4 different pipe sections between the two loggers Fig.36enteringthe pipedetails Fig.37adjustingthe filters IntheCorrelationwindowthelowandhighfiltersmaybeadjustedtocleanupandfinetunethecorrelation graph. 46 10.2 TheCorrelationResult Fig.38correlationwindow WhenExaminingtheCorrelationGraphaclearpeakasshowninFig.38isrequiredforconfidenceleak detection. Q=Qualityofcorrelationsothemorebarsthebetter. ThePositionoftheLeakisshownintheResultwindowwiththedistancefromtheLeaktoeitherLoggeris given.Ifincorrectdistancesareenteredthentheresultwillbewrong. 47 10.3 ExhaustiveCorrelation ClickontheExecuteallcorrelationsbuttontoperformanexhaustivecorrelation.Thewindowappears enablingtheusertochangethequalitylimitanddistancebetween2loggersbeforeexecutecorrelations. Fig.39settingthe preferences inexecutecorrelations Pressstarttocorrelateandallthecombinationswillbeexplored.Alistofcorrelationgreaterthanquality limit(e.g.60%)willbeproduced.Thehigherthequalitypercentagethegreatertheprobabilityofagood correlation. RunthroughthelistanddoubleclickonLogger1sserialnumber,thesinglecorrelationwindowwillappear whichallowsthepipedatatobeenteredandasinglecorrelationtobeperformedasdescribedinthe previoussection. 48 11 InterpretingtheCorrelationResults LeakPositionsintheCentralThirdaremoreaccuratebutbewareofcentrecorrelations.Smallvelocityerrors willcausecorrelationsintheouterthirdstobelessaccurate. Neverdigaholebasedonacorrelationpeak,unlessyouhaveconfirmedtheleakpositionwithaground microphone. Fig.40middlethirdofcorrelationscreen Fig.41Exampleofgood qualitycorrelationonan 80msectionofCastIron 49 Fig.42the followingscreenshotshowsanexampleofan outofbracketcorrelation:the main peakonthe graphisbeyondthe 0mandisconfirmedbythe 4.5mresult.Choosethe next loggerbeyondthe logger1(108518)tobringthe peakwithinbracketasshownbelowin Fig.43. Fig.43inbracketleak 50 Fig.44thisshowsacentrecorrelationcreatedbybothLoggers1andLogger2beingthesame logger108097.ToavoidcentrecorrelationLogger1and2mustbedifferentserialnumbers. 51 12 ProjectManagement The software provides a project management in order to allow the user to manage different projects. A projectmaybealocaldistributionnetworkorpartofit(e.g.atown,asuburb,etc.)oranyotherorganization unit.Allloggersthataretobeinsertedintothesoftware'sdatabasemustbeassignedtoaproject.Loggers maybeinsertedintoseveralunitswiththesameloggernumber.However,ithastobetakeninconsideration that measurement data stored in the logger can only be transferred into one project. This is because successfultransferringofthedataautomaticallyemptiesthelogger'smemory. After first time starting of the software an example project with example data will be opened. Before insertingnewloggersanewprojectshouldbecreated(mainmenucommandNewproject...):
Aprojectnamehastobechosen(freechoice,projectnamesmayalsoincludespaces)andafterpressingthe okbuttonthetabularloggerlistwillbecleared. The main menu commands allow switching between different projects, as well as copying, renaming and deletingofprojects. Additionally,projectsmaybesharedbetweendifferentusersbypackingthemintoZIPfilesandsendingthem viaemailortransferringthembydiskornetwork.DirectsendingviaemailrequiresaMAPIcapablemail software (MAPI = Mail Application Programming Interface), e.g. Microsoft Exchange, Outlook, Outlook Express or Netscape Messenger. Other mail software can also be used by choosing the second sending option:Prepareprojectformanualsending.InthiscaseaZIPfileiscreatedthathastobeattachedmanually to an email. The ZIP files sent via email or copied viadisk or network can be easily imported onanother computerbyactivatingtheImportprojectfunction. SendProject:
ImportProject:
52 13 Appendix Section 13.1 WizardAssistedVersion HowToStart:
Afterfirsttimestartingofthesoftware:
1. PleaseselectIwanttocreateanewproject 2. Chooseanameforthenewprojectandenterthenameoftheproject 3. Insert loggers: Enter logger no. of first logger (as imprinted on logger case) and add a short description oflogger position and press OK. If you like to add additional loggersplease answer questionwithYes 4. Repeatstep2forallloggersoruseInsertmultipleloggersfunctionwhenenteringloggerno 5. Followthefurtherstepsasshowninsoftware 6. If you like to transfer logger settings from PC to logger, please connect the System CommunicationLinkviatheCommunicationCabletothePCbeforeproceeding. Incasethesoftwareisunabletoestablishaconnection,COMportsettingshouldbechecked:
) Abortsynchronization(
SelectmenucommandFileOptionsSetup,thenselectConnectionandmodifysettingifnecessary. Afterthesebasicsetupstepsthesoftwareispreparedfornormaloperation.YoucanSynchronizetheloggers nowinordertoreceivemeasurementdataoracheckasingleloggerbymeansoftheLoggerStatefunction
orfunctionkeyF3). 13.1.1 M a i n W i n d o w Afterstartingthesoftwarethemainwindowisdisplayedonthescreen.Thewindowissubdividedinto a menu bar, a control panel with Explorerstyle function buttons, a tabular list of the loggers of the actual projectandastatuspanelatthebottomofthewindow.Thenameoftheactualselectedprojectisdisplayed togetherwiththeprogramname(ZONESCAN800)inthewindowtitle. Closingthemainwindowexitstheprogram. 13.1.2 F u n c t i o n b u t t o n s Thefunctionbuttonsarearrangedonsubpanelsthatcanbeeasilyrearrangedandevenbedetachedfrom themainwindowbygrabbingtheleftsidewiththetwoverticallinesanddraggingthemtothedesirednew position.Ashortdescriptionofthefunctionofeachbuttonisdisplayedbymovingthemousecursoroverthe button(withoutpressingthebutton)andwaitingashorttime.Thebuttonsprovidethefollowingfunctions:
Synchronizeallloggers:Initiatesthesynchronizationprocessthattransfersdatafromandtotheloggers Loggerstate:OpenstheLoggerStatewindowthatdisplayssettingsanddataoftheactualselectedlogger
(highlightedentryintheloggerlistofthemainwindow).Loggerstateonlycanbedisplayedwhenthelogger canbereachedbyradiotransmission.Italsoallowsremotelisteningofthesoundsignalrecordedbythe logger 53 Printreport:Printoutofthetabularloggerlist Showmeasurements:Displaysmeasurementwindowtoviewmeasurementresultsincludingleakvalueand amplitudedistribution(seeViewLoggerMeasurements). Correlate sound signals: Displays a window that allows Correlating of sound signals in case appropriate soundsignalshavebeenrecorded. Navigationbuttons:Thesebuttonsprovideeasynavigationfunctionsforselectingalogger.Alternatively, loggermaybeselectedbyclickingonanentryofthetabularlistorbyusingthearrowkeysofthekeyboard
(onlypossiblewhenlisthasthefocus,i.e.lististheactiveelementinthewindow). Insertnewlogger Deletelogger 13.1.3 L o g g e r l i s t Thetabularloggerlistdisplayssettingsandreadingsoftheloggersofthecurrentproject. Loggerno.:Uniqueloggerno.(mustbeidenticalwiththenumberontheloggercase) Position:Userentryforeasieridentificationofthelogger(seeLoggerSetup) Read:Dateoflastreading(synchronizing)ofthelogger LeakValue:Evaluatedleakprobabilityvalue(0..100,seeViewLoggerMeasurements).Thevalueistaken fromthenewestmeasurementthathasbeentransferredfromthislogger.Thefieldisshowninorange/red colourincasetheleakvalueexceedsthewarninglevelofapossible/probableleak,otherwiseitisshownin greencolour.Thewarninglevelsmaybeadjustedbytheuser(seeProgramSetup). Double clicking on an entry of the list opens the View Logger Measurements window (same function as correspondingbuttonormainmenuitem). 13.1.4 S t a t u s p a n e l Theleftsectionofthestatuspanelindicateswhetherthere'saconnectiontotheSystemCommunications Linkornot.Connectionisneededduringsynchronizationandwhencheckingtheloggerstate. ThemiddlesectiondisplaysbatteryvoltageandfirmwareversionoftheSystemCommunicationLinkduring connection. Therightsectionisusedforstatusmessages,especiallyduringsynchronization. 54 13.2 MainMenu(WizardAssistedVersion) 13.2.1 F i l e Newproject...:Createanewemptyproject(seeProjectManagement) Openproject...:Openanexistingproject Saveprojectas...:Savecurrentprojectunderanewprojectname Deleteproject...:Deletecurrentprojectincludingallloggers Sendproject...:PackcurrentprojectintoaZIPfileandsenditviaemailorsaveitondisk Importproject...:ImportprojectfromaprojectZIPfile Print...:Printloggerlistofcurrentproject(forprintingmeasurementsseeViewLogger Measurements) Printerpagesetup...:Adjustprinterpageproperties(margins,font,etc.) Exit...:Exitprogram 13.2.2 L o g g e r Synchronizeallloggers:Initiate/terminatethesynchronizationprocessthattransfersdatafromand totheloggers Loggerstate...:OpenLoggerStatewindow Loggersetup...:OpenLoggerSetupwindow Loggeraudiorecordings...:Openawindowthatallowscreating/changingaudiorecordingsforlogger identification. Each time a logger is identified during logger synchronization the appropriate logger audiorecordingwillbeplayed(ifavailable). Disconnect Comm Link: Disconnect System Communication Link (switch off CommLink, in order to preservebatteryPower) Findlogger...:Findaloggerbyloggerno.intheloggerlist Insertnewlogger:Insertanewlogger Importloggers...:Importloggersfromanotherproject Sortloggers:Sortloggersinlistaccordingtologgerno. Deletelogger:Deletecurrentlyselectedlogger Deleteallloggers:Deleteallloggersofcurrentproject 13.2.3 V i e w Measurements...: Display measurement window to view measurement results including leak value andamplitudedistribution(seeViewLoggerMeasurements) Correlate sound signals...: Display a window that allows Correlating of sound signals in case appropriatesoundsignalshavebeenrecorded. Synchronizationreport:Viewlastsynchronizationreport,savereportsandreviewsavedreports 13.2.4 S e t u p Setup...:OpentheProgramSetupwindow
Contents:Showcontentsofonlinehelp Info...:Displayversionandmemoryinformation 55 13.3 LoggerState(WizardAssistedVersion) TheLoggerStatewindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe main window or by simply pressing F3. It allows checking of the logger's settings, battery state and availabilityofmeasurements.Additionally,there'saremotelisteningfunctionthatallowstheuserto"listen"
tothelogger'sinputsignal. After opening the window the software first tries to establish a connection to the Comm Link. Then the CommLinktriestoobtainloggerstateinformationoftheselectedloggerviaradiotransmission.Thisprocess maylastseveralseconds.Successisindicatedinthedisplayfieldnexttotheloggerno.field:
Loggerfoundattempthasbeensuccessful Loggerunreachableradiotransmissionhasfailed:eitherloggerisoutofradiotransmissionrange(thisisthe commonreason)orloggerisoutofoperation ErrorinconnectionconnectiontoCommLinkcan'tbeestablished.possiblereasons:cableisnotproperly connectedtoPCorCommLink,wrongCOMportselected(seeProgramSetup)orbatteryvoltageofComm Linkistoolow Displayedinformation:
Loggerno.:Selectedlogger.Selectionmaybedonebyclickingonalistentryinthemainwindow'sloggerlist orbyusingthenavigationbuttononthetopoftheLoggerStatewindow.Loggerstateinformationcanbe onlyobtainediftheloggerwithexactlythesamenumberonitscaseisinradiotransmissionrange. Clock: Logger clock date and time. Logger clock will be updated during synchronization as soon as the difference to the PC's clock exceeds 1 min. Thus, it is very important that the PC clock's time is checked regularlyandwillbeadjustedifnecessary. No.ofamplitudedistr.:Numberofavailableamplitudedistributions(1perday,max.10) No.ofleakvalues:Numberofavailableleakvaluemeasurements(1perday,max.180) Soundsignalavail.:Indicateswhethersoundsignalrecordingisavailableornot Nextsoundrecording:Timeofnextsoundsignalrecording.Soundsignalrecordingsmaybeprogrammed duringLoggerSynchronization. Battery voltage: Battery voltage of the logger. Note: The voltage value of a fully loaded logger battery typicallyremainsat3.0Vsteadilyforalongtime,asthevaluecan'texceed3Vduetointernalrestrictions. Temperature:Temperatureinsidethelogger'scase Startmeasurement:Programmedstartingtimeofdailymeasurement(seeLoggerSetup) Stopmeasurement:Programmedstoptimeofdailymeasurement Interval:Programmedmeasurementinterval Versionno.:Loggerfirmwareversionno. Radiooperationfrom:Startofradiooperationperiod(seeLoggerSetup) Radiooperationto:Endofradiooperationperiod 56 13.3.1 S y n c h r o n i z e This button can be used to initiate the synchronizing process only for the selected logger instead of synchronizing all loggers. "Synchronizing" is the process of sending logger setup data and receiving measurement data, for details see Logger Synchronization. After synchronizing the logger can't be re synchronized for about 1 min. (during synchronization of all loggers: 5 min.). The button is enabled after successfulconnectiontologger. 13.3.2 R e m o t e l i s t e n i n g Remotelisteningisinitiated/terminatedbypressingtheRemotelisteningbutton(enabledaftersuccessful connectiontologger).ThenoisesignalmonitoredbytheloggerwillbesenttothePC'ssoundoutputdevice depending on the hardware configuration (e.g. internal or external speakers, headphone, lineout, etc.). There'saslightdelaybetweentherealnoisesignalandtheoutputsignal.After8secondsremotelistening willbeinterruptedforabouthalfasecond.Thispauseisnecessaryforresyncronizingtheradiotransmission. Volume:DisplaysaWindowsbuiltinutilitysoftwarethatallowsadjustmentofthevolume. Notes:
Remotelisteninginvolvesconsiderablecurrentconsumption,thusdecreasingthelogger'sbatterylifetime.It shouldn'tbeinitiatedtoooftenwithoutnecessityinordertopreservebatterypower. Remotelisteningshouldn'tbeinitiatedduringmeasurement,i.e.duringtheprogrammedmeasurementtime ofthelogger(seeLoggerSetup),asitmightaffectcollectingoftheanalysisdata. 13.4 LoggerSetup(WizardAssistedVersion) TheLoggerSetupwindowmaybedisplayedbyselectingtheappropriatemenuitemorbysimplypressingF4. Itallowsadjustmentofthepropertiesoftheactualselectedlogger:
Loggerno.:Eachloggerhasitsownuniqueloggernumberthatisneededforidentification.Thisnumbercan befoundontheloggercase.ThenumberhastobeenteredexactlyintotheLoggerno.fieldforeachlogger oftheproject,otherwisetheloggercannotbefoundbytheCommLink. Position:Ashortdescriptionofthepositiontheloggerisdeployed.Somedatashouldbeenteredbymeans ofeasieridentificationofthelogger. ThenavigationbuttonsmaybeusedtoswitchtoanotherloggerwithoutleavingtheLoggerSetupwindow. Anychangestothesettingswon'tbesavedtotheinternaldatabaseunlesstheyareconfirmedorcancelled bytheuser.ConfirmationisdonebypressingtheoksymbolbuttonortheReturnkeyorbyswitchingto anotherlogger,cancellationisdonebypressingtheXsymbolbuttonortheEscapekey. In case the LoggerSetup window is invoked by theInsert logger function,there'salso an Insertmultiple loggersbutton.Thisfunctionallowseasyinsertionofasequenceofloggerswithconsecutiveloggernumbers. Afterpressingthisbuttonandenteringthenumbersofthefirstandthelastlogger,pressingOKwillinsertall loggersatonce. 57 13.5 LoggerSynchronization(allloggers)WizardAssistedVersion Loggersynchronizationisinitiated/terminatedbyselectingtheappropriatemenuitemorfunctionbuttonin the main window or by simply pressing F2. Logger synchronization allows programming of the loggers by transferringthecorrespondingloggersetupdatatotheloggerandreceivingstoredmeasurementsfromthe loggers. Inwizardmodetheuserwillbeguidedthroughthesynchronizationsetup. Explanationofoptions:
Synchronize only reachable loggers (in case only few loggers are in transmission range, "driveby operation"): During synchronization the System Communication Link will search for the next reachable logger. This option should be used during normal operation when loggers are deployed throughout the distributionnetworkandonlyfewloggersareintransmissionrange.Iftoomanyloggerscanbereachedat thesametime,theSystemCommunicationsLinkwon'tbeabletoestablishradiotransmissiontoallloggers. Seealsonotebelow. Synchronizeaccordingtologgerlist(incasemanyorallloggersareintransmissionrange):Thismodeshould be used when many loggers are at the same place e.g. for initial programming or testing of the loggers. Duringsynchronizationthesoftwarewilltrytoconnecttheloggersexactlyinthesameorderasshowninthe loggers list of the main window. This mode is not suited for collecting data of deployed loggers as the synchronizationprocessfollowsastricttimecourse. Get sound signal for correlation: Get recorded sound signal. Sound signal is only available if logger was preparedtorecordsoundsignalduringaprevioussynchronization. Afterselectingtheoptions,synchronizationprocesswillbestartedautomatically.Accordingtotheselected orderofsynchronization,theSystemCommunicationLinkwillsearchforthenextreachableloggerorthe nextloggeroftheloggerlist.Oncealoggerisrecognized,datawillbetransferredfromandtotheloggeras specifiedbythesynchronizationoptions.Successandfailuremessagesaswellaswarningmessageswillbe displayedinthestatuspaneloftheMainWindow.Ifaudiooutputisswitchedon,therewillalsobeaudio messages. After successful synchronizing a logger in Reachable loggers mode the logger can't be re synchronizedthenext5minutes. ImportantNotes(pleaseread):
PleasecheckwhethertheselectedorderofSynchronizationoptionisadaptedtothetransmissionsituation. Synchronizeonlyreachableloggerswon'tworkproperlywithtoomanyloggersandSynchronizeaccording tologgerlistwon'tworkproperlywithdeployedloggers.Incasesynchronizationofasingleloggerisdesired pleaseusetheSynchronizecommandaccessedfromtheLoggerStatewindow. Soundsignalisrecordedonlyonce(thenexttimetheloggerclockcoincideswiththeprogrammedrecording time).Thisisbecausesoundrecordingneedsalargeamountofmemoryspace,thusnotallowingmorethan onerecording. The shorter the time between logger programming and receiving the recorded sound signal the more accuratetheresults.AsaruleofthumbsoundrecordingsshouldbetransferredtothePC24hoursafter loggerprogrammingatthelatest.Thisisonlyimportantforsoundrecordingsbecauseofthestronginfluence ofclockaccuracyontheresults.Amplitudedistributionmeasurementsandleakvaluesarenotinfluencedby clockaccuracy.Theloggercanstoreamplitudemeasurementsupto10daysandleakvaluesupto180days withoutlosinganydata. 58 Ifthesynchronizationprocessincludesprogrammingorreceivingofsoundrecordings,itisveryimportant thatthesynchronizationprocesswon'tbeinterrupteduntilallloggerswillbesynchronized.Synchronization processisinterruptedbypressingtheSynchronizebuttonagain,bydisconnectingtheCommLink,byexiting theprogramorswitchingoffthePC.Interruptionofthesynchronizationprocesswillcauseaswitchoffofthe CommLink,thuslosingclocksynchronization.However,subsequentcorrelationoftherecordedsoundsignal is only possible with proper clock synchronization of the corresponding loggers! Interruption of synchronizationdoesn'taffectleakvaluesandamplitudedistributions. 13.6 ViewLoggerMeasurements(WizardAssistedVersion) The Measurements window allows viewing of the stored leak values and amplitude distributions. It is displayed by selecting the appropriate menu item or function button in the main window or by simply pressing F5. It allows graphical and tabular representation of the stored data, as well as printing and exportingofthedata. The window is parted into a list of the stored measurements of the selected logger (left side) and the measurementdataofthecurrentlyselectedmeasurement(rightside).Ameasurementcanbeselectedby simplyclickingonthecorrespondingentryofthelistorbyusingtheupanddowncursorkeys.Thevertical dividinglinebetweenthetwopartscanbemovedby"grabbing"itwiththemousecursorandmovingitto theleftorrightside. 13.6.1 M e a s u r e m e n t l i s t Whenshowingleakmeasurements,listdisplays(fromlefttoright):
Measurementdate,leakvalue(seebelow),programmedmeasurementduration,programmedmeasurement intervalanddateofmeasurementtransfer. Leakvalue:Thisvalueisevaluatedfromtheamplitudedistributionshownontherightside.Itsrangeis0to 100, characterizing the leak probability. The leak value depends on spread and shape of the amplitude distribution.Itisespeciallyinfluencedbysharpnessandpositionofitsmainpeak.Thefieldbackgroundis showninorange/redcolourincasetheleakvalueexceedsthewarninglevelsofapossible/probableleak, otherwiseitisshowningreencolour.Thewarninglevelsmaybeadjustedbytheuser(seeProgramSetup). 13.6.2 M e a s u r e m e n t d a t a Thedisplayedmeasurementdataistheamplitudedistributionofthesignalthatismonitoredandanalyzed duringtheprogrammedmeasurementperiod(seeLoggerSetup).Analyzingtheamplitudedistributionallows obtainingfurtherinformationconcerningmeasurementconditions,interferingnoisesources,etc. Menucommands:
14 Measurement Printreport...:Printoverviewlistorgraphicviewofthedisplayedmeasurementdata Allowmultipleselection:Enablemultiplemeasurementselectionfordeletion Deletemeasurements:Deletecurrentlyselectedmeasurement(s) Deleteallmeasurements:Deleteallmeasurementsofcurrentlyselectedlogger 59 Buttons:
The printer symbol button corresponds to the menu item Print report. The navigation buttons allow switchingtoanotherloggerwithoutleavingtheMeasurementwindow. 14.1 CorrelateSoundSignals(WizardAssistedVersion) TheCorrelationwindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe mainwindoworbysimplypressingF7.Itallowscorrelatingofthesoundsignalsoftwologgersinorderto calculateleakpositions. Howtocorrelate:
1.Selectloggers Enterloggerno.orusenavigationbuttonstoselectlogger1andlogger2:
When selecting the same logger no. as logger 1 and 2 auto correlation will be performed, otherwise the soundsignalswillbecrosscorrelated(normaloperationmodeforleaklocation). 2.Selectsoundrecordings Clickondesiredsoundrecordinginthesoundrecordingslistoflogger1orlogger2. Afterselectingasoundrecordingofalogger,thesoftwareattemptstofindafittingsoundrecordinginthe loggerlistoftheotherlogger.Ifanappropriatesoundrecordingisfound,itwillbeautomaticallyselected. Crosscorrelation(leaklocation)isonlypossibleincasethe2selectedsoundrecordingshavebeenrecorded atthesamedateandtime. 15 Sync.numbers Newerversionsoftheloggerfirmwareprovidesocalledsync.numbers,inordertorecognizewhetherthe soundrecordingshavebeenmadewiththesametimesynchronizationornot.Incaseasync.no.exists(see fieldbelowsoundrecordingslist),thesync.numbersofthe2soundrecordingshavetobethesame.The sync.no.willincreasewitheveryswitchonoftheSystemCommunicationLink. 16 Statuspanel Whenselectingloggersandsoundrecordingsthestatuspanelshowswhethercorrelationispossibleornot andgivesfurtherinformation. 60 3.Enterpipedata Forcalculatingcrosscorrelations,pipedatahastobeenteredbyselectingthemenuitemMeasurement Enterpipedata...orpressingthebutton Up to 4 different pipe sections may be entered by selecting pipe section length, material, diameter and soundvelocity.Ifmaterialordiameterisnotinthelistorexactsoundvelocityisknown,soundvelocitycan beenteredmanuallybyselectingmaterialOther.Enteredpipedatawillbeautomaticallystoredininternal database. Autocorrelationmaybedonewithoutenteringpipedata. 16.1 Resultdisplay Afterenteringpipedata,thecorrelationresultswillbedisplayedbelowthecorrelationgraphics(orvalues table, if tabular view is selected). The result display shows the distances between the two loggers and a possible leak. On the left side there's a small bar graphics (Q) indicating the calculated quality of the correlation (0 to 5 bars). The higher the value the better the correlation quality and the higher the leak probability. 16.2 Filter Quality of correlation results may be improved by using the filter function. Filter frequencies will be preselectedafterenteringthepipedataandmaybeadaptedmanuallybytheuser. Testcorrelation Functionforaquickcheckwhethertheselectedcombinationofloggersproducesareasonablecorrelation
(i.e.probableleak)ornot.Pipedataneedn'tbeentered(thecorrelationwillbecalculatedonbaseofapipe lengthof600mandasoundvelocityof1000m/s).Correlationqualitywillbecalculatedandwillallowquick assessmentwhetheraleakisprobable. Note: This function is not suitable to obtain leak distances. For calculating a correct correlation result
(distancetoleak)itisnecessarytoentercorrectpipedataandtoswitchoffthetestcorrelationfunction. Execute all test correlations (main menu item): Function for testing all combinations of loggers whether thereareprobableleaksornot.Awindowwillappearcontainingthetestresults.Itispossibletoadjustthe testpipelengthandsoundvelocity,aswellasthequalitylimitvalue. AfterpressingtheStartbutton,correlationqualitywillbecalculatedforeachpossiblecombinationofloggers
(value0to100%),incasethereareappropriatesoundrecordings.Onlytestcorrelationswithaqualityvalue 61 exceedingthelimitvaluewillbelistedintheresultlist(correlationquality,peakmaximumvalue,distanceto themiddle,loggernumbers,dateandtimeofsoundrecording).Resultsmaybesortedbycolumn(mouse clickoncolumnheader).Theyalsomaybeexportedorprinted.Executionofthisfunctionmaytakeupsome considerableamountoftime,dependingonthenumberofloggersinthemainwindow'slist. TheremainingfunctionbuttonsandmenuitemshavethesamefunctionsasintheMeasurementsWindow. ProgramSetup(WizardAssistedVersion) TheProgramSetupwindowmaybedisplayedbyselectingtheappropriatemenuitem(OptionsSetup)or functionbuttoninthemainwindow.Itallowsadjustmentofgeneralsettingsoftheprogram:
17 Connection SelectionofCOMport. 18 Audio Create/changerecordingsofaudiomessagesduringsynchronizationprocess.Therespectivemessagecanbe selected by choosing a list entry. The recordings may be played (if available) or (re)recorded. For new recording of a message the option Allow recordings must be enabled. Recording and playback volume settingsmaybechangedbypressingthecorrespondingbuttons.TheywilldisplayaWindowsbuiltinutility software thatallows adjustment of the volume. Audiooutput may be suppressedbydisablingthe option Audiooutputduringsynchronization. 19 Language Selectionofdisplaylanguage. 20 HotSync RegisteringandunregisteringofZONESCAN800conduit(seeDataSynchronizationviaPalmHotSync). 62 StandardProfessionalVersion Thisistheinitialscreen.Youhave3secondstochangetheOptions otherwisethesoftwarecontinuesinthepreviouslyusedmode.On firstuseoftheZonescansoftwarestandardwizardassistmode starts. HowToStart Afterfirsttimestartingofthesoftware:
1. Createnewproject:selectmenucommandFileNewProject...,andthenenterprojectnameand pressOK. 2. Insert loggers: Press function button Insert logger
, then enter logger no. of first logger (as imprintedonloggercase),addashortdescriptionofloggerposition,eventuallymodifyremaining settingsandpressOK. 3.Repeatstep2forallloggersoruseInsertmultipleloggersfunctionwhenenteringloggerno. 4.ConnecttheSystemCommunicationLinkviatheCommunicationCabletoanunusedCOMportofthePC. 63 5.CheckCOMportsetting:selectmenucommandFileOptionsSetup,thenselectConnectionandmodify settingifnecessary 4. 5.. Afterthesebasicsetupstepsthesoftwareispreparedfornormaloperation.Itisrecommendedtocheck radioconnectiontotheloggersnext:
Selectaloggerintransmissionrange(clickonaccordingentryinloggerlist)andpressthefunctionbutton LoggerState orthefunctionkeyF3.Radioconnectionshouldbeestablishedaftersomesecondsand loggerstatedatashouldbevisualizedintheLoggerStatewindow. 64 Afterdeployingtheloggersinthedistributionnetwork,programmingoftheloggersandreceivingof measurementdataisdonebymeansoftheSynchronizefunction. MainWindow(StandardProfessionalVersion) Afterstartingthesoftwarethemainwindowisdisplayedonthescreen.Thewindowissubdividedinto a menu bar, a control panel with Explorerstyle function buttons, a tabular list of the loggers of the actual projectandastatuspanelatthebottomofthewindow.Thenameoftheactualselectedprojectisdisplayed togetherwiththeprogramname(ZONESCAN800)inthewindowtitle. Closingthemainwindowexitstheprogram. 65 21 Functionbuttons Thefunctionbuttonsarearrangedonsubpanelsthatcanbeeasilyrearrangedandevenbedetachedfrom themainwindowbygrabbingtheleftsidewiththetwoverticallinesanddraggingthemtothedesirednew position.Ashortdescriptionofthefunctionofeachbuttonisdisplayedbymovingthemousecursoroverthe button(withoutpressingthebutton)andwaitingashorttime.Thebuttonsprovidethefollowingfunctions:
Synchronize all loggers: Initiates the synchronization process that transfers data from and to the loggers Loggerstate:OpenstheLoggerStatewindowthatdisplayssettingsanddataoftheactualselected logger(highlightedentryintheloggerlistofthemainwindow).Loggerstateonlycanbedisplayed whentheloggercanbereachedbyradiotransmission.Italsoallowsremotelisteningofthesound signalrecordedbythelogger Loggersetup:DisplaystheLoggersetupwindow. Showmeasurements:Displaysmeasurementwindowtoviewmeasurementresultsincludingleak valueandamplitudedistribution(seeViewLoggerMeasurements). Show signal graphics: Displays sound signals that have been recorded and stored for Correlating soundsignals. Correlate sound signals: Displays a window that allows Correlating of sound signals in case appropriatesoundsignalshavebeenrecorded. Executeallcorrelations:Displaysawindowthatallowsthecorrelationofallpossiblecombination ofloggers.Correlationrecordingsmustbemadetomakethispossible. Showmap:OpenstheLoggerMap,agraphicaloverviewofthedeployedloggers Setup:DisplaystheprogramSetupwindow. Printreport:Printoutofthetabularloggerlist Findlogger:Opensasmallwindowforsearchingacertainloggerbyloggerno. 66 Navigation buttons: These buttons provide easy navigation functions for selecting a logger.Alternatively,loggermaybeselectedbyclickingonanentryofthetabularlistorbyusingthearrow keysofthekeyboard(onlypossiblewhenlisthasthefocus,i.e.lististheactiveelementinthewindow). Insertnewlogger Deletelogger Moveloggeronerowupinlist Moveloggeronerowdowninlist 22 Loggerlist Thetabularloggerlistdisplayssettingsandreadingsoftheloggersofthecurrentproject. Loggerno.:Uniqueloggerno.(mustbeidenticalwiththenumberontheloggercase) Position:Userentryforeasieridentificationofthelogger(seeLoggerSetup) Read:Dateoflastreading(synchronizing)ofthelogger LeakValue:Evaluatedleakprobabilityvalue(0..100,seeViewLoggerMeasurements).Thevalueistaken fromthenewestmeasurementthathasbeentransferredfromthislogger.Thefieldisshowninorange/red colourincasetheleakvalueexceedsthewarninglevelofapossible/probableleak,otherwiseitisshownin greencolour.Thewarninglevelsmaybeadjustedbytheuser(seeProgramSetup). Batt.:Batteryvoltageofthelogger.Valuewillbeupdatedduringsynchronization.Thefieldisshowninred colourincasethevalueexceedsthebatterywarninglevel.Thewarninglevelmaybeadjustedbytheuser
(see Program Setup). Note: The voltage value of a fully loaded logger battery typically remains at 3.0 V steadilyforalongtime,asthevaluecan'texceed3Vduetointernalrestrictions. Vers.:Versionno.ofloggerfirmware Measurem.from:Dateofoldestmeasurementthathasbeentransferredfromthelogger Measurem.to:Dateofthenewestmeasurement Double clicking on an entry of the list opens the View Logger Measurements window (same function as correspondingbuttonormainmenuitem). 67 Expanded AmplitudeDistributionHistogramResult Step1establishthenoleaknoise levelinthearea.Minimumnoiseis4db Step2identifyareas2or3dbhigher thanthenoleaklevel.Minimumnoiseis 7db Step3DeterminetheAreasofInterest.Analysethe minimumnoiselevelforeachloggedpoint. Higherminimumnoiselevelsareclosertotheleak Usethese3stepstohelpdeterminewhich logger(s)theleaksisnearto,thisisespecially usefulinquietPVCenvironments. 68 23 Statuspanel Theleftsectionofthestatuspanelindicateswhetherthere'saconnectiontotheSystemCommunications Linkornot.Connectionisneededduringsynchronizationandwhencheckingtheloggerstate. ThemiddlesectiondisplaysbatteryvoltageandfirmwareversionoftheSystemCommunicationLinkduring connection. Therightsectionisusedforstatusmessages,especiallyduringsynchronization. MainMenu(StandardProfessionalVersion) 24 File Newproject...:Createanewemptyproject(seeProjectManagement) Openproject...:Openanexistingproject Saveprojectas...:Savecurrentprojectunderanewprojectname Deleteproject...:Deletecurrentprojectincludingallloggers Sendproject...:PackcurrentprojectintoaZIPfileandsenditviaemailorsaveitondisk Importproject...:ImportprojectfromaprojectZIPfile Print...:Printloggerlistofcurrentproject(forprintingmeasurementsseeViewLoggerMeasurements) Printerpagesetup...:Adjustprinterpageproperties(margins,font,etc.) Exit...:Exitprogram 25 Logger Synchronizeallloggers:Initiate/terminatethesynchronizationprocessthattransfersdatafromandtothe loggers Loggerstate...:OpenLoggerStatewindow Loggersetup...:OpenLoggerSetupwindow Logger audio recordings...: Open a window that allows creating/changing audio recordings for logger identification. Each time a logger is identified during logger synchronization the appropriate logger audio recordingwillbeplayed(ifavailable). DisconnectCommLink:DisconnectSystemCommunicationLink(switchoffCommLink,inordertopreserve batteryPower) Findlogger...:Findaloggerbyloggerno.intheloggerlist Insertnewlogger:Insertanewlogger Importloggers...:Importloggersfromanotherproject Sortloggers:Sortloggersinlistaccordingtologgerno. Deletelogger:Deletecurrentlyselectedlogger Deleteallloggers:Deleteallloggersofcurrentproject 69 26 View Measurements...: Display measurement window to view measurement results including leak value and amplitudedistribution(seeViewLoggerMeasurements) Signalgraphics...:Displaysoundsignalrecordingsofselectedlogger(seeViewLoggerMeasurements) Correlate sound signals...: Display a window that allows Correlating of sound signals in case appropriate soundsignalshavebeenrecorded. Showmap...:OpentheLoggerMap,agraphicaloverviewofthedeployedloggers Synchronizationreport:Viewlastsynchronizationreport,savereportsandreviewsavedreports 27 Options Setup...:OpentheProgramSetupwindow
Contents:Showcontentsofonlinehelp Info...:Displayversionandmemoryinformation 70 LoggerState(StandardProfessionalVersion TheLoggerStatewindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe main window or by simply pressing F3. It allows checking of the logger's settings, battery state and availabilityofmeasurements.Additionally,there'saremotelisteningfunctionthatallowstheuserto"listen"
tothelogger'sinputsignal. AfteropeningthewindowthesoftwarefirstattemptstoestablishaconnectiontotheCommLink.Thenthe CommLinkattemptstoobtainloggerstateinformationoftheselectedloggerviaradiotransmission.This processmaylastseveralseconds.Successisindicatedinthedisplayfieldnexttotheloggerno.field:
Loggerfoundattempthasbeensuccessful Loggerunreachableradiotransmissionhasfailed:eitherloggerisoutofradiotransmissionrange(thisisthe commonreason)orloggerisoutofoperation ErrorinconnectionconnectiontoCommLinkcan'tbeestablished.Possiblereasons:cableisnotproperly connectedtoPCorCommLink,wrongCOMportselected(seeProgramSetup)orbatteryvoltageofComm Linkistoolow Displayedinformation:
Loggerno.:Selectedlogger.Selectionmaybedonebyclickingonalistentryinthemainwindow'sloggerlist orbyusingthenavigationbuttononthetopoftheLoggerStatewindow.Loggerstateinformationcanbe onlyobtainediftheloggerwithexactlythesamenumberonitscaseisinradiotransmissionrange. Clock: Logger clock date and time. Logger clock will be updated during synchronization as soon as the difference to the PC's clock exceeds 1 min. Thus, it is very important that the PC clock's time is checked regularlyandwillbeadjustedifnecessary. No.ofamplitudedistr.:Numberofavailableamplitudedistributions(1perday,max.10) No.ofleakvalues:Numberofavailableleakvaluemeasurements(1perday,max.180) Soundsignalavail.:Indicateswhethersoundsignalrecordingisavailableornot Nextsoundrecording:Timeofnextsoundsignalrecording.Soundsignalrecordingsmaybeprogrammed duringLoggerSynchronization. 71 Battery voltage: Battery voltage of the logger. Note: The voltage value of a fully loaded logger battery typicallyremainsat3.0Vsteadilyforalongtime,asthevaluecan'texceed3Vduetointernalrestrictions. Temperature:Temperatureinsidethelogger'scase Startmeasurement:Programmedstartingtimeofdailymeasurement(seeLoggerSetup) Stopmeasurement:Programmedstoptimeofdailymeasurement Interval:Programmedmeasurementinterval Versionno.:Loggerfirmwareversionno. Radiooperationfrom:Startofradiooperationperiod(seeLoggerSetup) Radiooperationto:Endofradiooperationperiod 28 Synchronize This button can be used to initiate the synchronizing process only for the selected logger instead of synchronizing all loggers. "Synchronizing" is the process of sending logger setup data and receiving measurement data, for details see Logger Synchronization. After synchronizing the logger can't be re synchronized for about 1 min. (during synchronization of all loggers: 5 min.). The button is enabled after successfulconnectiontologger. 29 Remotelistening Remotelisteningisinitiated/terminatedbypressingtheRemotelisteningbutton(enabledaftersuccessful connectiontologger).ThenoisesignalmonitoredbytheloggerwillbesenttothePC'ssoundoutputdevice depending on the hardware configuration (e.g. internal or external speakers, headphone, lineout, etc.). There'saslightdelaybetweentherealnoisesignalandtheoutputsignal.After8secondsremotelistening willbeinterruptedforabouthalfasecond.Thispauseisnecessaryforresyncronizingtheradiotransmission. Volume: Displays a Windows builtin utility software that allows adjustment of thevolume. Notes:
Remotelisteninginvolvesconsiderablecurrentconsumption,thusdecreasingthelogger'sbatterylifetime.It shouldn'tbeinitiatedtoooftenwithoutnecessityinordertopreservebatterypower. Remotelisteningshouldn'tbeinitiatedduringmeasurement,i.e.duringtheprogrammedmeasurementtime ofthelogger(seeLoggerSetup),asitmightaffectcollectingoftheanalysisdata. 72 LoggerSetup(StandardProfessionalVersion) TheLoggerSetupwindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe mainwindoworbysimplypressingF4.Itallowsadjustmentofthepropertiesoftheactualselectedlogger:
Loggerno.:Eachloggerhasitsownuniqueloggernumberthatisneededforidentification.Thisnumbercan befoundontheloggercase.ThenumberhastobeenteredexactlyintotheLoggerno.fieldforeachlogger oftheproject,otherwisetheloggercannotbefoundbytheCommLink. Position:Ashortdescriptionofthepositiontheloggerisdeployed.Somedatashouldbeenteredbymeans ofeasieridentificationofthelogger. Comment:Adatafieldprovidedforvarioususerspurposes.Entryisarbitrary. StartMeas.:Startingtimeofdailymeasurement(defaultvalue:02:00) Stop.Meas.:Stoptimeofdailymeasurement(defaultvalue:04:00) Interval:Measurementinterval,selectablefrom1secto3min(defaultvalue:3sec) Restrictions:Whensettingintervalto1secmax.measurementdurationis12hours,otherwiseitcanbeset tomax.23hours59min. Noisecharacteristicsismonitoredandanalyzedonlybetweenstartingandstoptime.Byrestrictionofthe measurementtimeitispossibletoexcludedaytimeperiodswithinterferingnoisesources(e.g.traffic)from beinganalyzed,thusleadingtofalseevaluationresults. Radiooperationfrom:Startofradiooperationperiod.Duringradiooperationperiod,loggersarereachable in5speriodsinordertoensureeasyconnectionduringsynchronization.Outsidetheradiooperationperiod, loggersgotosleepmodeinordertosavebatterycapacity.Insleepmode,loggersarereachablein30second periods:Theycanbeconnectedtowithin30secondsusingtheloggerstatefunctionorduringsynchronizing according to logger list (in case wake up loggers function is activated, see Logger Synchronization). Synchronizingusing"onlyreachableloggersmode"isnotrecommendedoutsideradiooperationmode. Radiooperationto:Endofradiooperationperiod Note:Eventually,theloggerclockshouldbecheckedtoensureproperoperationregardingmeasurementand radiocommunicationsettings. Copytoallloggers(notavailablewhenwindowinvokedby theInsertloggerfunction):Foreasiersetupitispossibletocopychangesofthemeasurementsettingstoall loggersoftheproject. Latitude and longitude coordinates: (see Logger Map) Thenavigationbuttonsmaybeusedtoswitchtoanotherloggerwithout leavingtheLoggerSetupwindow.Anychangestothesettingswon'tbesavedtotheinternaldatabaseunless 73 theyareconfirmedorcancelledbytheuser.Confirmationisdonebypressingtheoksymbolbuttonorthe Returnkeyorbyswitchingtoanotherlogger,cancellationisdonebypressingtheXsymbolbuttonorthe Escapekey. IncasetheLoggerSetupwindowisinvokedbytheInsertlogger function,there'salsoanInsertmultipleloggersbutton.Thisfunctionallowseasyinsertionofasequenceof loggerswithconsecutiveloggernumbers.Afterpressingthisbuttonandenteringthenumbersofthefirst andthelastlogger,pressingOKwillinsertallloggersatonce. SensitivityBoost:ThisoptionisonlyavailablewiththeZonescan820loggersandSoftwareVersion5.13 onwards.ItsusedtoincreasetheSensorSensitivityandisusefulforloggingquiet,difficultleaks.Toactivate, ticktheboxandthencopyallloggers. 74 LoggerSynchronization(allloggers)StandardProfessionalVersion Loggersynchronizationisinitiated/terminatedbyselectingtheappropriatemenuitemorfunctionbuttonin the main window or by simply pressing F2. Logger synchronization allows programming of the loggers by transferringthecorrespondingloggersetupdatatotheloggerandreceivingstoredmeasurementsfromthe loggers. Afterinitiatingsynchronizationawindowisdisplayed,allowingtheusertoselectsynchronizationoptions. PressingtheMore...buttonwillreveallessoftenusedoptions. 30 Actions Getmeasurements:Getleakvaluesandamplitudedistributionmeasurements(ifavailable) Transfer logger settings from PC to logger: Program logger with the corresponding logger settings, see Logger Setup. Important: Transferring logger settings will erase all measurements stored in logger. It is recommendedalwaystoselecttheGetmeasurementsoptiontogetherwiththisoptionfortransferringany storedmeasurementstothePCbeforeerasingtheloggermemory. 31 Orderofsynchronization Synchronize only reachable loggers (in case only few loggers are in transmission range, "driveby operation"): During synchronization the System Communication Link will search for the next reachable logger. This option should be used during normal operation when loggers are deployed throughout the distributionnetworkandonlyfewloggersareintransmissionrange.Iftoomanyloggerscanbereachedat thesametime,theSystemCommunicationsLinkwon'tbeabletoestablishradiotransmissiontoallloggers. Seealsonotebelow. Synchronizeaccordingtologgerlist(incasemanyorallloggersareintransmissionrange):Thismodeshould be used when many loggers are at the same place e.g. for initial programming or testing of the loggers. Duringsynchronizationthesoftwarewilltrytoconnecttheloggersexactlyinthesameorderasshowninthe loggers list of the main window. This mode is not suited for collecting data of deployed loggers as the synchronizationprocessfollowsastricttimecourse. Wake up loggers: Wake up loggers that are in sleep mode. This function should be activated during synchronizationoutsideofthelogger'sradiooperationperiod(seealsoLoggerSetup).Onlyforsynchronizing accordingtologgerlist. 32 Synchronizationmode Leakvaluesandlatestamplitudedistribution(FastSync):Thisallowsfastsynchronizationofeachlogger,as there will be transferred max. one amplitude distribution. This mode is especially suited for driveby collectingofdataofdeployedloggers. 75 Leakvaluesandallavailableamplitudedistributions:Fullsynchronization,maytakelongertimethanFast Syncmode,dependingonnumberofstoredamplitudedistributions. 33 Correlation PresstheMoreButtontoaccesstheCorrelationoptions Prepare logger for correlation (record soundsignal): Program logger for recording of sound signal at the desiredrecordingtime.Therecordingofsoundsignalsallowscorrelationinordertolocatethenoisesource
(especially leaks). Correlation is only possible, when two loggers record the sound signal at the same programmed recording time. As frequent recording and transferring of the sound signal reduces battery lifetime,thisoptionshouldonlybeusedwhenneeded. Get sound signal for correlation: Get recorded sound signal. Sound signal is only available if logger was preparedtorecordsoundsignalduringaprevioussynchronization,seebelow. 34 Report Create report: If selected, a text file containing a short report of the last synchronization process will be created. Viewreport:Displayreportfile. 35 Synchronization Pressing the Start button will start the synchronization process. According to the selected order of synchronization,theSystemCommunicationLinkwillsearchforthenextreachableloggerorthenextlogger oftheloggerlist.Oncealoggerisrecognized,datawillbetransferredfromandtotheloggerasspecifiedby thesynchronizationoptions.Successandfailuremessagesaswellaswarningmessageswillbedisplayedin thestatuspaneloftheMainWindow.Ifaudiooutputisswitchedon,therewillalsobeaudiomessages.After successfulsynchronizingaloggerinReachableloggersmodetheloggercan'tberesynchronizedthenext5 minutes. 76 ImportantNotes(pleaseread):
PleasecheckwhetherOrderofSynchronizationoptionisadaptedtothetransmissionsituation.Synchronize onlyreachableloggerswon'tworkproperlywithtoomanyloggersandSynchronizeaccordingtologgerlist won'tworkproperlywithdeployedloggers.Incasesynchronizationofasingleloggerisdesiredpleaseuse theSynchronizecommandfromtheLoggerStatewindow. Soundsignalisrecordedonlyonce(thenexttimetheloggerclockcoincideswiththeprogrammedrecording time).Thisisbecausesoundrecordingneedsalargeamountofmemoryspace,thusnotallowingmorethan onerecording. The shorter the time between logger programming and receiving the recorded sound signal the more accuratetheresults.AsaruleofthumbsoundrecordingsshouldbetransferredtothePC24hoursafter loggerprogrammingatthelatest.Thisisonlyimportantforsoundrecordingsbecauseofthestronginfluence ofclockaccuracyontheresults.Amplitudedistributionmeasurementsandleakvaluesarenotinfluencedby clockaccuracy.Theloggercanstoreamplitudemeasurementsupto10daysandleakvaluesupto180days withoutlosinganydata. Ifthesynchronizationprocessincludesprogrammingorreceivingofsoundrecordings,itisveryimportant thatthesynchronizationprocesswon'tbeinterrupteduntilallloggerswillbesynchronized.Synchronization processisinterruptedbypressingtheSynchronizebuttonagain,bydisconnectingtheCommLink,byexiting theprogramorswitchingoffthePC.Interruptionofthesynchronizationprocesswillcauseaswitchoffofthe CommLink,thuslosingclocksynchronization.However,subsequentcorrelationoftherecordedsoundsignal is only possible with proper clock synchronization of the corresponding loggers! Interruption of synchronizationdoesn'taffectleakvaluesandamplitudedistributions. 77 ViewLoggerMeasurements(StandardProfessionalVersion) The Measurements window allows viewing of the stored leak values, amplitude distributions and sound measurements.Itisdisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthemainwindow or by simply pressing F5 (leak measurements and amplitude distributions) or F6 (sound signals). It allows graphicalandtabularrepresentationofthestoreddata,plusprintingandexportingofthedata. The window is parted into a list of the stored measurements of the selected logger (left side) and the measurementdataofthecurrentlyselectedmeasurement(rightside).Ameasurementcanbeselectedby simplyclickingonthecorrespondingentryofthelistorbyusingtheupanddowncursorkeys.Thevertical dividinglinebetweenthetwopartscanbemovedby"grabbing"itwiththemousecursorandmovingitto theleftorrightside. 36 Measurementlist Whenshowingleakmeasurements,listdisplays(fromlefttoright):
Measurementdate,leakvalue(seebelow),programmedmeasurementduration,programmedmeasurement intervalanddateofmeasurementtransfer. Leakvalue:Thisvalueisevaluatedfromtheamplitudedistributionshownontherightside.Itsrangeis0to 100, characterizing the leak probability. The leak value depends on spread and shape of the amplitude distribution.Itisespeciallyinfluencedbysharpnessandpositionofitsmainpeak.Thefieldbackgroundis showninorange/redcolourincasetheleakvalueexceedsthewarninglevelsofapossible/probableleak, otherwiseitisshowningreencolour.Thewarninglevelsmaybeadjustedbytheuser(seeProgramSetup). Whenshowingsoundsignals,thelistdisplays(fromlefttoright):
Measurementdateandtime,dateofmeasurementtransferanddateofsynchronization(programming). Note:Thereshouldn'tbemorethanonedaybetweenprogrammingandmeasurementtransferbecauseof thedangerofinaccuracywhencorrelatingthesoundsignals(seealsoLoggerSynchronization) 78 37 Measurementdata Measurementdatacanbeshowningraphicortabularview.Switchingisdonebythecorrespondingmenu commandorfunctionbutton. When showing leak measurements, the displayed measurement data is the amplitude distribution of the signalmonitoredandanalyzedduringtheprogrammedmeasurementperiod(seeLoggerSetup).Analyzing the amplitude distribution allows obtaining further information concerning measurement conditions, interferingnoisesources,etc. When showing sound signals, the displayed measurement data is the sound signal recorded at the programmed measurement time. Due to the amplitude resolution of the recorded signal, measurement valuescanonlybe10or10.Innormaloperationsignalvaluesshouldbeequallydistributedtopositiveand negativevalues. Options:
Duringgraphicviewdisplayfeaturesmaybechangedbytheuser(seeChartOptions). 38 Exportmeasurementdata During tabular view all or part of the displayed measurement values may be exported to a file or to the clipboardbypressingtherightmousebuttonandselectingtheappropriateitem. 79 Menucommands:
39 Measurement Printreport...:Printoverviewlistorgraphicviewofthedisplayedmeasurementdata Findmeasurement...:Findmeasurementbydate Allowmultipleselection:Enablemultiplemeasurementselectionfordeletion Deletemeasurements:Deletecurrentlyselectedmeasurement(s) Deleteallmeasurements:Deleteallmeasurementsofcurrentlyselectedlogger 40 View Graphic/tabularview...:Togglebetweengraphicandtabularviewofthemeasurementdata Buttons:
The function buttons correspond to the menu items Graphic/tabular view, Print report and Find measurement.ThenavigationbuttonsallowswitchingtoanotherloggerwithoutleavingtheMeasurement window. 80 ChartOptions(StandardProfessionalVersion) Thedisplayfeaturesofthegraphicview(chart)maybechangedbytheuser:
Functionbuttons Fromlefttoright:
Typeofpresentation:Areachart,barchart,linechart,pointchart Chartoptions:Activate/deactivateverticalgrid,horizontalgrid,3Dview Colours:Colourofthebackground,ofthegridandoftheforeground(measurementgraph). Unzoom functions: Adjust chart to all values (unzoom in y direction), show all values (unzoom in x direction).Note:Keysarenotactivatedwhenthechartisdisplayedintheoriginalscale. Cursor Pressing the left mouse button displays a vertical cursor line, together with a small, yellow window that displaysxandyvaluesofthecursorposition. Zoom Therightmousebuttonmaybeusedforzoominginoroutofthegraphics.Selectionofthedesiredzoom area is done by moving the mouse over the graphics with right mouse button pressed. Zooming may be repeated.TheoriginalrepresentationmayberecalledbyusingtheUnzoomfunctions(seeabove). Settingswillbestoredatprogramexitandberecalledafterprogramrestart. 81 41 CorrelateSoundSignals(StandardProfessionalVersion) TheCorrelationwindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe mainwindoworbysimplypressingF7.Itallowscorrelatingofthesoundsignalsoftwologgersinorderto calculateleakpositions. Howtocorrelate:
1.Selectloggers EnterloggerNo.orusenavigationbuttonstoselectlogger1andlogger2:
When selecting the same logger No. as logger 1 and 2 auto correlation will be performed, otherwise the soundsignalswillbecrosscorrelated(normaloperationmodeforleaklocation). 2.Selectsoundrecordings Clickondesiredsoundrecordinginthesoundrecordingslistoflogger1orlogger2. Afterselectingasoundrecordingofalogger,thesoftwareattemptstofindafittingsoundrecordinginthe loggerlistoftheotherlogger.Ifanappropriatesoundrecordingisfound,itwillbeautomaticallyselected. Crosscorrelation(leaklocation)isonlypossibleincasethe2selectedsoundrecordingshavebeenrecorded atthesamedateandtime. 42 Sync.Numbers NewerversionsoftheloggerfirmwareprovideSync.Numbers,inordertorecognizewhetherthesound recordingshavebeenmadewiththesametimesynchronizationornot.IncaseaSync.No.exists(seebelow soundrecordingslist),theSync.Numbersofthe2soundrecordingshavetobethesame.TheSync.No. willincreasewitheveryswitchonoftheSystemCommunicationLink. 82 43 Statuspanel Whenselectingloggersandsoundrecordingsthestatuspanelshowswhethercorrelationispossibleornot andgivesfurtherinformation. 3.Enterpipedata Forcalculatingcrosscorrelations,pipedatahastobeenteredbyselectingthemenuitemMeasurement Enterpipedata...orpressingthebutton Up to 4 different pipe sections may be entered by selecting pipe section length, material, diameter and soundvelocity.Ifmaterialordiameterisnotinthelistorexactsoundvelocityisknown,soundvelocitycan beenteredmanuallybyselectingmaterialOther.Enteredpipedatawillbeautomaticallystoredininternal database. Autocorrelationmaybedonewithoutenteringpipedata. 43.1 Resultdisplay Afterenteringpipedata,thecorrelationresultswillbedisplayedbelowthecorrelationgraphics(orvalues table, if tabular view is selected). The result display shows the distances between the two loggers and a possible leak. On the left side there's a small bar graphics (Q) indicating the calculated quality of the correlation (0 to 5 bars). The higher the value the better the correlation quality and the higher the leak probability. 43.2 Filter Quality of correlation results may be improved by using the filter function. Filter frequencies will be preselectedafterenteringthepipedataandmaybeadaptedmanuallybytheuser. 83 Testcorrelation Functionforaquickcheckwhethertheselectedcombinationofloggersproducesareasonablecorrelation
(i.e.probableleak)ornot.Pipedatadoesnotneedtobeentered(thecorrelationwillbecalculatedonbase ofapipelengthof600mandasoundvelocityof1000m/s).Correlationqualitywillbecalculatedandwill allowquickassessmentwhetheraleakisprobable. Note: This function is not suitable to obtain leak distances. For calculating a correct correlation result
(distancetoleak)itisnecessarytoentercorrectpipedataandtoswitchoffthetestcorrelationfunction. Executealltestcorrelations(mainmenuitem):
Function for testing all combinations of loggers whether there are probable leaks or not. A window will appearcontainingthetestresults.Itispossibletoadjustthetestpipelengthandsoundvelocity,aswellas thequalitylimitvalue. AfterpressingtheStartbutton,correlationqualitywillbecalculatedforeachpossiblecombinationofloggers
(value0to100%),incasethereareappropriatesoundrecordings.Onlytestcorrelationswithaqualityvalue exceedingthelimitvaluewillbelistedintheresultlist(correlationquality,peakmaximumvalue,distanceto themiddle,loggernumbers,dateandtimeofsoundrecording).Resultsmaybesortedbycolumn(mouse clickoncolumnheader).Theyalsomaybeexportedorprinted.Executionofthisfunctionmaytakeupsome considerableamountoftime,dependingonthenumberofloggersinthemainwindow'slist. TheremainingfunctionbuttonsandmenuitemshavethesamefunctionsasintheMeasurementsWindow. 84 LoggerMap(StandardProfessionalVersion) TheLoggerMapwindowmaybedisplayedbyselectingtheappropriatemenuitemorfunctionbuttoninthe mainwindoworbysimplypressingF8.Itisusedtoshowageographicalviewoftheproject'sloggers. Theloggersaredisplayedassymbolstogetherwiththeirloggernumberonageographicalmap.Theloggers positioncanbemodifiedeitherbyeditingthecoordinatesintheLoggerSetupwindow(pressrightmouse buttonandchooseShowloggersetup)orbymovingtheloggersymbolbymouse(seebelow).Clickingona loggersymbolwill selecttheaccordingentryintheloggerlistoftheMainWindow.Double clickingona logger symbol will open the Measurement Window showing the stored leak values and amplitude distributions of the selected logger (or press right mouse button and choose Show measurements). The colouroftheloggersymbolcorrespondstothebackgroundcolouroftheloggerlistleakvalue:Incasethe leakvalueexceedsthewarninglevelaredloggersymbolisshownotherwiseanorange(possibleleak)ora green(noleak)symbolisshown. Scale:
Changescaleofmap.ThescalemaybealsochangedbypressingtherightmousebuttonandselectingZoom inorZoomout. 85 44 Functionbuttons:
Showmainwindow:Switchtomainwindow. Showgrid:Toggledisplayofacoordinatesgrid. Moveloggers:Whenpressed,loggersmaybemovedbymouse:Afterselectingaloggersymbol,it maybedraggedtoanewpositionwiththeleftmousebutton. Picturemanager:Showsawindowthatallowsmanagingofthebackgroundpictures(maps).Oneor more picture files may be inserted to the pictures list. The pictures origin coordinates and extensionsmaybeadaptednumericallyorgraphically(picturemanagerhastobeopen). AutoAdjuststheMapsizetofitthewindowanddisplayalltheloggers.Thisisdemonstratedinthe imagebelow. 86 WhentheLoggershavethecorrectcoordinatesenteredeithermanuallyorviaa GPS Handheld PDA with Scanner when deployed then the Google Earth facility maybeusedtoplottheloggersonthePlanet.SeeLiftandShiftinstructionmanual forfurtherinformation. Statuspanel:
The left section indicates the mouse cursor position transformed to geographical coordinates. The right section shows the logger number of the selected logger, together with the leak value of the newest measurement(ifavailable). MaporigincoordinatesandextensionsmaybechangedintheLoggerSetupwindow. DeploymentofLoggers:whendeployingtheloggersaroundthenetworktheloggerspacingiscritical especiallyifcorrelationrecordingsaremade.BelowisaguidetoLoggerSpacingwhodependsonPipe MaterialandNetworkPressurestodeterminethedistancebetweenloggers.Sometimesitsnotpractically possibletomaintainthespacingduetoactualdistancebetweenvalvesandhydrantsthereforethistablecan onlybeusedasaguideandcommonsenseisrequired. 87 ProgramSetup(StandardProfessionalVersion) TheProgramSetupwindowmaybedisplayedbyselectingtheappropriatemenuitem(OptionsSetup)or functionbuttoninthemainwindow.Itallowsadjustmentofgeneralsettingsoftheprogram:
45 Warninglevels Selectionofwarninglevelsforleakvalueandloggerbatteryvoltage.Ifthevaluesreceivedfromtheloggers exceedthewarninglevel,thecorrespondingfieldwillbeshownwithadifferentbackgroundcolour(seeMain WindowandViewLoggerMeasurements).Additionally,therewillbeawarningmessageinthestatuspanel duringsynchronization.Ifaudiooutputisswitchedon,therewillalsobeanaudiomessage.Belowisaguide towhatwarninglevelstosetdependingonPipeMaterialandNetworkPressures. 88 46 Map SelectionoforigincoordinatesandextensionoftheLoggerMap. 47 Connection SelectionofCOMport. 48 Audio Create/changerecordingsofaudiomessagesduringsynchronizationprocess.Therespectivemessagecanbe selected by choosing a list entry. The recordings may be played (if available) or rerecorded. For new recording of a message the option Allow recordings must be enabled. Recording and playback volume settingsmaybechangedbypressingthecorrespondingbuttons.TheywilldisplayaWindowsbuiltinutility software thatallows adjustment of the volume. Audiooutput may be suppressedbydisablingthe option Audiooutputduringsynchronization. 49 Language Selectionofdisplaylanguage. 50 HotSync RegisteringandunregisteringofZONESCAN800conduit(seeDataSynchronizationviaPalmHotSync). 89 DataSynchronizationviaPalmHotSync TheZONESCAN800softwarepackageincludesasoftwaremodulefortransferringmeasurementandlogger setupdatabetweenaPC(laptop)andaPalmOSdrivenhandheldviathePalmHotSyncManager.This softwaremoduleiscalledaconduit. RegisteringConduit BeforeusingtheZONESCAN800conduit,ithastoberegisteredtotheHotSyncManager(PalmDesktop softwarehastobeinstalledbefore):
StartZONESCAN800Windowssoftware SelectOptionsSetupfrommainmenu SelectHotSynctab Registerconduit(incaseitisnotyetregistered) IncasetheZONESCAN800HotSyncconduitisalreadyregisteredagreenLEDwillbedisplayed(otherwisered LED).IncaseofproblemspleaserefertoReadMefileinConduitfolder. UpdatesoftheZONESCAN800softwarepackagemaycontainnewerversionsoftheconduit.Registrationof updatedconduitwillbedoneautomaticallyassoonastheZONESCAN800Windowssoftwareisstarted, manualregisteringisnotnecessary.Therefore,itisstronglyrecommendedtostarttheZONESCAN800 softwareatleastonceaftersoftwareupdatebeforeinitiatingaHotSync. Note:
Besidesofregisteringtheconduit,theZONESCAN800Windowssoftwaredoesn'tcontainanyfunctions regardingHotSyncdatasynchronization.Alldatatransferisdonebytheconduititself.Therefore,itisnot necessarytoruntheZONESCAN800WindowssoftwareduringaHotSync.Inordertoavoiddataconflicts,it isrecommendedtoexittheZONESCAN800WindowssoftwarebeforestartingaHotSync. 51 ConduitSetup BeforeinitiatingtheHotSyncprocess,thesynchronizationmodeoftheZONESCAN800conduitshouldbe checkedandeventuallybemodified. ClicktheHotSyncManagericon,thenselectCustom.SynchronizationmodeoftheZONESCAN800conduit willbedisplayedandmaybechanged:
52 Synchronizethefiles Thisisthenormaloperationmodeforsynchronizingthedatabases:Measurementdatawillbetransferred fromthehandheldtothePCandloggersetupdatawillbetransferredintothedirectiondependingonwhere itwasmodified.NewloggersmaybeaddedtothePCdatabaseaswellastothehandhelddatabase.Dueto securityreasons,deletingofloggerswillnotbemirroredfromthehandheldtothePC(inordertoavoid possibledataloss). ImportantNote1:ThenameofthehandheldZONESCAN800projectmustexistinsidethePCdatabase
(databaseoflastinstalledZONESCAN800Windowssoftware).Incasetheprojectnamedoesn'texistnodata transferwilloccur.ThehandheldprojectnamemaybeadjustedbyselectingOptionsSettingsProject insidethehandheldZONESCAN800software. ImportantNote2:InthismodethehandheldshouldalwaysbesynchronizedwiththesamePC.Itispossible tosynchronizemorethanonehandheldwiththesamePCbutnotviceversa.Synchronizingahandheldto severalPCsmayresultinlossofthehandheld'sZONESCANdata. 90 53 HandheldoverwritesPC LoggerandmeasurementdatawillbemirroredfromhandheldtoPC.ExistingdatainthePCdatabasewillnot be deleted (but may be overwritten). In case the handheld project name does not exist inside the PC database, theproject name will be automatically addedas new project to the PC database. This mode is especiallyusefulfortransferringhandhelddatatoseveralPCs. DoNothing(NoAction) Nodatatransferwilloccur. Changeofsynchronizationmodemaybedonetemporarily(e.g.onlyvalidfornextHotSync)orpermanently. InthelattercaseSetasDefaulthastobemarkedinsidetheChangedialog. 54 ConnectionType IncaseHotSyncisdoneonlyviaUSBport,theserialportoptionshouldbedisabledbecauseofapossible conflictwiththeZONESCAN800Windowssoftware:
ClicktheHotSyncManagericon,thenclickLocalSerialincasethere'sacheckmarklefttotheentry(un checkentry). 91 55 Zonescan820CommlinkSetup TheZonescan820Commlink(shownbelow)usesBluetoothtoconnectwithacomputer.TheComputereither requiresaninbuiltBluetoothoraUSBBluetoothdongleforcommunicationwiththeCommlink.The BluetoothHardwareusuallyhasBluetoothManagingSoftwarewhichcontrolsit. BluetoothManagerSoftware TheComputerswithinbuiltBluetootharenormallyactivatedbypressingabuttonorflickingaswitch.Once thisisdonetheBluetoothsymbolwillappearintherightsideofthetaskbar,somehaveashortcutonthe desktop,doubleclicktoopen.USBBluetoothDongleswillrequireinstallingthesoftware;ashortcutwillbe created.ThescreenshotbelowisanexampleoftheBluetoothSoftwareManager. 1. 92 1. OpentheBluetoothManageronyourPC,turnontheZonescan820Commlinkandrefreshorsearch fordevices.TheCommlinkwillappearasadevicebutnotasamobilephone. 2. CreatetheBluetoothLinkbyselectingtheDevice,doubleclickthesymbolandenterthepincode whichis4zeros(0000)andclickOK,seebelow. 3. TheSerialnumberoftheCommlink(thisisonalabelunderneaththeunit)willbedisplayed. 2. 4. ConnecttotheZS820Bluetoothdevicebychoosingtheoptiontoconnectorpair. 3. 93 5. ConnectiontotheZS820Bluetoothdevicewillhappenthroughadesignatedcomport.Inthisexample itiscom5rememberthisport. 4. 6. ForthisBluetoothUtilityalinkisshownbyadottedlinetotheSun.OtherBluetoothManagerswill displaythisinanotherway. 5. 6. 94 7. DisconnectfromtheZS820BluetoothdevicebychoosingtheoptiontoDisconnect. 56 CreatingthelinkbetweentheZonescanSoftwareandBluetoothManager 1. OpenthelatestversionoftheZonescanSoftware,inthisexampleits5.13. 2. GotoSetupandthenchooseOptions. 7. 95 3. SelecttheCommlinksallocatedcomport,inthisexampleCOM5intheConnectiondropdownand clickOK.UseLoggerStatetocommunicatewithaloggertocheckthesetupiscorrect. Note.TheZonescan820isrechargeablesochargetheunitbeforeuse. 57 UpdatingtheCommlinkFirmware MakesureaconnectionismadewiththeCommlinkbycommunicatingwithaloggerusingtheLoggerState function,thenclosetheLoggerStatewindow. SelectSetupthenUpdateCommlinkifanewversionofthefirmwareisreleased.Theupdatetakes approximately10minutes. 96 Browseforthesavedlatestversionupdatefileandthenselectandopen Theprogressionoftheupdateisdisplayedasacountinguppercentageasshownabove. Oncethisreaches100%thenprogrammingbeginsasshownbelow. TheconnectionwillfailastheCommlinkwillturnitselfoffwhenprogrammingiscomplete.Switchthe Commlinkbackonandestablishaconnection.Thenewversionfirmwarewillbedisplayednexttothebattery level. Whenanewversionfirmwareisreleasedyouwillbenotifiedbyemailwithacopyofthenewfirmwarefile. 97 Notes:
98
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2012-01-20 | 904 ~ 918.7 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2012-01-20
|
||||
1 | Applicant's complete, legal business name |
Gutermann Technology GmbH
|
||||
1 | FCC Registration Number (FRN) |
0021035092
|
||||
1 | Physical Address |
Gottlieb-Daimler-Str. 10
|
||||
1 |
Ravensburg, N/A 88214
|
|||||
1 |
Germany
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
b******@phoenix-testlab.de
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
ZSS
|
||||
1 | Equipment Product Code |
ZS820915LR
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
E******** G****
|
||||
1 | Title |
Managing Director
|
||||
1 | Telephone Number |
+49 7********
|
||||
1 | Fax Number |
+49 7********
|
||||
1 |
e******@gutermann-water.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | ZONESCAN 820 LOGGER AND ZONESCAN 820 REPEATER - DATA COLLECTION UNIT | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output Power listed is peak conducted. This device must not be co-located or operating in conjunction with any other antenna or transmitter. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
PHOENIX TESTLAB GmbH
|
||||
1 | Name |
H****** B******
|
||||
1 | Telephone Number |
49-52********
|
||||
1 | Fax Number |
49-52********
|
||||
1 |
o******@phoenix-testlab.de
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 904.00000000 | 918.70000000 | 0.0240000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC