Micro Motion RFT9709 Bedienerhandbuch

Using ProLink® Software with Micro Motion®TransmittersInstruction ManualNovember 1999

viUsing ProLink® Software with Micro Motion® TransmittersContents continuedAppendixesAppendix A How to Specify the ProLink® Product . . . . . . . . .

86Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedPressure compensation with RFT97398.7 Pressure compensa

Using ProLink® Software with Micro Motion® Transmitters87Configure Menu: Characterize continuedPressure compensation with RFT9739Configure Menu:Transm

88Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedPressure compensation with RFT9739Enter the new flow ca

Using ProLink® Software with Micro Motion® Transmitters89Configure Menu: Characterize continuedPressure compensation with RFT9739Configure Menu:Transm

90Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedPressure compensation with RFT9739Enter the new density

Using ProLink® Software with Micro Motion® Transmitters91Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Event

92Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedOverviewFigure 9-1. Configure Transmitter Vari

Using ProLink® Software with Micro Motion® Transmitters93Configure Menu: Transmitter Variables continuedFlow unitsConfigure Menu:Transmitter OutputsCo

94Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedFlow unitsTable 9-1. Mass flow measurement uni

Using ProLink® Software with Micro Motion® Transmitters95Configure Menu: Transmitter Variables continuedFlow unitsConfigure Menu:Transmitter OutputsCo

Using ProLink ® Software with Micro Motion® TransmittersviiContents continuedFigure 7-1 Status window for RFT9739 . . . . . . . . . . . . . . . . .

96Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedFlow unitsSpecial flow unitsSpecial flow units

Using ProLink® Software with Micro Motion® Transmitters97Configure Menu: Transmitter Variables continuedFlow unitsConfigure Menu:Transmitter OutputsCo

98Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedFlow unitsd. Select an appropriate time unit f

Using ProLink® Software with Micro Motion® Transmitters99Configure Menu: Transmitter Variables continuedFlow unitsConfigure Menu:Transmitter OutputsCo

100Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedDensity unitsFigure 9-6. RFT9739 for Gas6. If

Using ProLink® Software with Micro Motion® Transmitters101Configure Menu: Transmitter Variables continuedDensity unitsConfigure Menu:Transmitter Outpu

102Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedTemperature and pressure unitsIf a density un

Using ProLink® Software with Micro Motion® Transmitters103Configure Menu: Transmitter Variables continuedFlow cutoffsConfigure Menu:Transmitter Output

104Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedFlow direction9.6 Flow directionOpen the Dire

Using ProLink® Software with Micro Motion® Transmitters105Configure Menu: Transmitter Variables continuedInternal dampingConfigure Menu:Transmitter Ou

viiiUsing ProLink® Software with Micro Motion® TransmittersContents continuedFigure 14-12 Temperature Slope Calibration dialog box . . . . . . 150Fig

106Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Variables continuedInternal dampingThe damping value is the filt

Using ProLink® Software with Micro Motion® Transmitters107Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Even

108Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Outputs continuedOverviewFigure 10-1. Configure Outputs dialog b

Using ProLink® Software with Micro Motion® Transmitters109Configure Menu: Transmitter Outputs continuedFrequency/pulse outputConfigure Menu:Transmitte

110Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Outputs continuedFrequency/pulse outputTable 10-1. RFT9739 Frequ

Using ProLink® Software with Micro Motion® Transmitters111Configure Menu: Transmitter Outputs continuedFrequency/pulse outputConfigure Menu:Transmitte

112Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Outputs continuedMilliamp outputsK-factorThe K-factor enables th

Using ProLink® Software with Micro Motion® Transmitters113Configure Menu: Transmitter Outputs continuedMilliamp outputsConfigure Menu:Transmitter Outp

114Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Outputs continuedMilliamp outputsAdded damping on RFT9739 output

Using ProLink® Software with Micro Motion® Transmitters115Configure Menu: Transmitter Outputs continuedFault indicators for RFT9739Configure Menu:Tran

Using ProLink ® Software with Micro Motion® TransmittersixContents continuedTable 9-1 Mass flow measurement units forprocess variables . . . . . . . .

116Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Outputs continuedSlug duration for RFT9739Configuring fault indi

Using ProLink® Software with Micro Motion® Transmitters117Configure Menu: Transmitter Outputs continuedControl output from RFT9739Configure Menu:Trans

118Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters119Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Even

120Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Information continuedOverviewFigure 11-1. Transmitter Informatio

Using ProLink® Software with Micro Motion® Transmitters121Configure Menu: Transmitter Information continuedTransmitter databaseConfigure Menu:Transmit

122Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Information continuedPressure input for RFT9739Config and Calib

Using ProLink® Software with Micro Motion® Transmitters123Configure Menu: Transmitter Information continuedPressure input for RFT9739Configure Menu:Tr

124Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Transmitter Information continuedBurst control for RFT9739 and RFT9712/RFT97

Using ProLink® Software with Micro Motion® Transmitters125Configure Menu: Transmitter Information continuedSensor database for RFT9739 and RFT9712/RFT

xUsing ProLink® Software with Micro Motion® Transmitters

126Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters127Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Even

128Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Events continuedConfiguring event parametersFigure 12-1. Configure Events di

Using ProLink® Software with Micro Motion® Transmitters129Configure Menu: Events continuedConfiguring event parametersConfigure Menu:Transmitter Outpu

130Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Events continuedCurrent levels for milliamp eventsEvent setpointsAny value o

Using ProLink® Software with Micro Motion® Transmitters131Applications Menu Help MenuConfigure Menu:Meter FactorsCalibrate Menu Test Menu13 Configure

132Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Meter Factors continuedEntering meter factorsSome applications, such as cust

Using ProLink® Software with Micro Motion® Transmitters133Applications Menu Help MenuConfigure Menu:Meter FactorsCalibrate Menu Test Menu14 Calibrate

134Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedAuto zero4. Open the Calibrate menu, then choose Auto Zero. The Flow

Using ProLink® Software with Micro Motion® Transmitters135Calibrate Menu continuedAuto zeroApplications Menu Help MenuConfigure Menu:Meter FactorsCali

Using ProLink® Software with Micro Motion® Transmitters1File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fil

136Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedProgramming auto zero for RFT9739Diagnosing zeroing failureIf zeroin

Using ProLink® Software with Micro Motion® Transmitters137Calibrate Menu continuedProgramming auto zero for RFT9739Applications Menu Help MenuConfigur

138Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedDensity calibration14.4 Density calibrationDensity calibration adjus

Using ProLink® Software with Micro Motion® Transmitters139Calibrate Menu continuedDensity calibrationApplications Menu Help MenuConfigure Menu:Meter F

140Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedDensity calibration2. Perform a two-point, one-point, or three-point

Using ProLink® Software with Micro Motion® Transmitters141Calibrate Menu continuedDensity calibrationApplications Menu Help MenuConfigure Menu:Meter F

142Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedDensity calibrationTable 14-3. Maximum flow rates for Micro Motion s

Using ProLink® Software with Micro Motion® Transmitters143Calibrate Menu continuedDensity calibrationApplications Menu Help MenuConfigure Menu:Meter F

144Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedDensity calibrationc. If possible, shut off the flow. Otherwise, pum

Using ProLink® Software with Micro Motion® Transmitters145Calibrate Menu continuedDensity calibrationApplications Menu Help MenuConfigure Menu:Meter F

2Using ProLink® Software with Micro Motion® TransmittersBefore You Begin continuedThe ProLink® kit and system requirementsUses of the ProLink® program

146Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedDensity calibrationFigure 14-7. Density Point 1 Calibration dialog b

Using ProLink® Software with Micro Motion® Transmitters147Calibrate Menu continuedDensity calibrationApplications Menu Help MenuConfigure Menu:Meter F

148Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedTemperature calibration for RFT9739Figure 14-10.Density Point 2 Cali

Using ProLink® Software with Micro Motion® Transmitters149Calibrate Menu continuedTemperature calibration for RFT9739Applications Menu Help MenuConfig

150Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedTemperature calibration for RFT9739Figure 14-11.Temperature Offset C

Using ProLink® Software with Micro Motion® Transmitters151Calibrate Menu continuedMilliamp output trimApplications Menu Help MenuConfigure Menu:Meter

152Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedMilliamp output trimFigure 14-13.Connecting a reference device to a

Using ProLink® Software with Micro Motion® Transmitters153Calibrate Menu continuedMilliamp output trimApplications Menu Help MenuConfigure Menu:Meter

154Using ProLink® Software with Micro Motion® TransmittersCalibrate Menu continuedMilliamp output trimFigure 14-16.Milliamp output trim: enter measure

Using ProLink® Software with Micro Motion® Transmitters155Applications Menu Help MenuConfigure Menu:Meter FactorsCalibrate Menu Test Menu15 Test Menu1

Using ProLink® Software with Micro Motion® Transmitters3Before You Begin continuedCustomer serviceFile Menu: Print File Menu: Log Files View Menu: Var

156Using ProLink® Software with Micro Motion® TransmittersTest Menu continuedMilliamp output testing15.2 Milliamp output testingConnect a reference de

Using ProLink® Software with Micro Motion® Transmitters157Test Menu continuedFrequency/pulse output testingApplications Menu Help MenuConfigure Menu:M

158Using ProLink® Software with Micro Motion® TransmittersTest Menu continuedTest point diagnostics for Version 3 RFT9739Performing the frequency/puls

Using ProLink® Software with Micro Motion® Transmitters159Test Menu continuedTest point diagnostics for Version 3 RFT9739Applications Menu Help MenuCo

160Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters161Applications Menu Help MenuConfigure Menu:Meter FactorsCalibrate Menu Test Menu16 Applicatio

162Using ProLink® Software with Micro Motion® TransmittersApplications Menu continuedTotalizer controlFigure 16-1. Totalizer Control dialog box for RF

Using ProLink® Software with Micro Motion® Transmitters163Applications Menu continuedApplication builderApplications Menu Help MenuConfigure Menu:Mete

164Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters165Applications Menu Help MenuConfigure Menu:Meter FactorsCalibrate Menu Test Menu17 Help Menu1

4Using ProLink® Software with Micro Motion® Transmitters

166Using ProLink® Software with Micro Motion® TransmittersHelp Menu continuedKeyboardThe ProLink Help main index consists of index headings. Each head

Using ProLink® Software with Micro Motion® Transmitters167Help Menu continuedGetting around in HelpApplications Menu Help MenuConfigure Menu:Meter Fac

168Using ProLink® Software with Micro Motion® TransmittersHelp Menu continuedGlossary of termsJumping from one Help topic to anotherIn ProLink Help, h

Using ProLink® Software with Micro Motion® Transmitters169Appendix A How to Specify the ProLink®ProductProLink kit Product numberProLink kit with 110V

170Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters171Appendix B Uploading and Downloading Configuration Files with a Model 268B.1 Uploading files

172Using ProLink® Software with Micro Motion® TransmittersUploading and Downloading Configuration Files with a Model 268 continuedUploading filesTo sw

Using ProLink® Software with Micro Motion® Transmitters173Uploading and Downloading Configuration Files with a Model 268 continuedUploading filesFigur

174Using ProLink® Software with Micro Motion® TransmittersUploading and Downloading Configuration Files with a Model 268 continuedDownloading a config

Using ProLink® Software with Micro Motion® Transmitters175Uploading and Downloading Configuration Files with a Model 268 continuedDownloading a config

Using ProLink® Software with Micro Motion® Transmitters5File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fil

176Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters177Appendix C Temperature Coefficients for Flow and DensityC.1 Flow temperature coefficientThe

178Using ProLink® Software with Micro Motion® TransmittersTemperature Coefficients for Flow and Density continuedDensity temperature coefficientTable

Using ProLink® Software with Micro Motion® Transmitters179Temperature Coefficients for Flow and Density continuedDensity temperature coefficientTable

180Using ProLink® Software with Micro Motion® Transmitters

181Using ProLink® Software with Micro Motion® TransmittersAppendix D ASCII Character SetDecimal code Decimal code Decimal code000 NUL 043 + 086 V001 S

182Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters183Appendix E Transmitter Configuration WorksheetsThe following worksheets, shown in this appen

184Using ProLink® Software with Micro Motion® TransmittersTransmitter Configuration Worksheets continuedModel RFT9739 Configuration WorksheetDate ____

Using ProLink® Software with Micro Motion® Transmitters185Transmitter Configuration Worksheets continuedModel RFT9739 Configuration Worksheet(continue

6Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedCommunication standards2.2 Communication standardsSwitches and jumper

186Using ProLink® Software with Micro Motion® TransmittersTransmitter Configuration Worksheets continuedModel IFT9701 / IFT9703 Configuration Workshee

Using ProLink® Software with Micro Motion® Transmitters187Transmitter Configuration Worksheets continuedModel RFT9712 / RFT9729 Configuration Workshee

188Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters189Appendix F Flowmeter Calibration RecordsThe worksheets shown in this appendix should be used

190Using ProLink® Software with Micro Motion® TransmittersFlowmeter Calibration Records continuedModel RFT9739 Calibration RecordDate ________________

Using ProLink® Software with Micro Motion® Transmitters191Flowmeter Calibration Records continuedModel IFT9701 / IFT9703 and RFT9712 / RFT9729 Calibra

192Using ProLink® Software with Micro Motion® Transmitters

Using ProLink ™ Software with Micro Motion® Transmitters193Page numbers in bold indicate illustrations.IndexNumerics9-volt battery 19Aaccuracy 76,

194Using ProLink ™ Software with Micro Motion® TransmittersIndex continuedfault 53, 56, 109, 115–117, 122, 137FD 78–80field-flow calibration

Using ProLink ™ Software with Micro Motion® Transmitters195Index continuedmA 6, 8–10, 20, 49, 56, 62–64, 69, 86, 104, 109, 112–113, 116,

Using ProLink® Software with Micro Motion® Transmitters7Getting Started continuedWiring to the transmitterFile Menu: Print File Menu: Log Files View M

196Using ProLink ™ Software with Micro Motion® TransmittersIndex continuedrack-mount 9range 2, 60, 62, 64, 112–113recalibration 149remote

Using ProLink ™ Software with Micro Motion® Transmitters197Index continuedtemperature 47, 49, 64, 101–102, 109, 112–114, 128, 133calibration

198Using ProLink ™ Software with Micro Motion® TransmittersIndex continuedWindow menu 18Wire 60wire 58–59wiring 7–11, 20–21diagrams 7Zzero

recycled paperMicro Motion Inc. USAWorldwide Headquarters7070 Winchester CircleBoulder, Colorado 80301Tel (303) 530-8400(800) 522-6277Fax (303) 530-84

8Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedWiring to the transmitterFigure 2-2. Bell 202 temporary connection to

Using ProLink® Software with Micro Motion® Transmitters9Getting Started continuedWiring to the transmitterFile Menu: Print File Menu: Log Files View M

10Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedWiring to the transmitterFigure 2-4. Bell 202 hard-wiring to transmi

Using ProLink® Software with Micro Motion® Transmitters11Getting Started continuedWiring to the transmitterFile Menu: Print File Menu: Log Files View

12Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedConnecting to the PC and power source2.4 Connecting to the PC and po

Using ProLink® Software with Micro Motion® Transmitters13Getting Started continuedInstalling the softwareFile Menu: Print File Menu: Log Files View Me

14Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedInstalling the softwareInstallation Location dialog boxWhen the Inst

Using ProLink® Software with Micro Motion® Transmitters15Getting Started continuedInstalling the softwareFile Menu: Print File Menu: Log Files View Me

Using ProLink® Software with Micro Motion®TransmittersInstruction ManualFor technical assistance, phone the Micro Motion Customer Service Department:•

16Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedInstalling the softwareAfter ProLink software installation is comple

Using ProLink® Software with Micro Motion® Transmitters17Getting Started continuedInstalling the softwareFile Menu: Print File Menu: Log Files View Me

18Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedStart-up2.6 Start-upTo run the ProLink program, select the MMI progr

Using ProLink® Software with Micro Motion® Transmitters19Getting Started continuedConnecting to the transmitterFile Menu: Print File Menu: Log Files V

20Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedConnecting to the transmitterTransmit light on PC Interface adaptor

Using ProLink® Software with Micro Motion® Transmitters21Getting Started continuedConnecting to the transmitterFile Menu: Print File Menu: Log Files V

22Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedCommunication optionsTable 2-3. Additional ProLink troubleshooting i

Using ProLink® Software with Micro Motion® Transmitters23Getting Started continuedCommunication optionsFile Menu: Print File Menu: Log Files View Menu

24Using ProLink® Software with Micro Motion® TransmittersGetting Started continuedCommunication options6. Open the Windows Program Manager, open the M

Using ProLink® Software with Micro Motion® Transmitters25Getting Started continuedExitFile Menu: Print File Menu: Log Files View Menu: VariablesBefore

26Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters27File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fi

28Using ProLink® Software with Micro Motion® TransmittersFile Menu: Database continuedFile selectionFigure 3-1. Transmitter Database dialog box3.2 Fil

Using ProLink® Software with Micro Motion® Transmitters29File Menu: Database continuedDatabase command buttonsFile Menu: Print File Menu: Log Files Vi

30Using ProLink® Software with Micro Motion® TransmittersFile Menu: Database continuedOffline, save, and upload commands3.4 Offline, save, and upload

Using ProLink® Software with Micro Motion® Transmitters31File Menu: Database continuedLoad commandFile Menu: Print File Menu: Log Files View Menu: Var

32Using ProLink® Software with Micro Motion® TransmittersFile Menu: Database continuedRemove commandTo send a configuration file to the transmitter:1.

Using ProLink® Software with Micro Motion® Transmitters33File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fi

34Using ProLink® Software with Micro Motion® TransmittersFile Menu: Print continuedPrint setupFigure 4-1. Print Setup/Ticket Builder dialog boxSelect,

Using ProLink® Software with Micro Motion® Transmitters35File Menu: Print continuedPrint setupFile Menu: Print File Menu: Log Files View Menu: Variabl

Using ProLink ® Software with Micro Motion® TransmittersiContents1 Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.

36Using ProLink® Software with Micro Motion® TransmittersFile Menu: Print continuedPrint setup2. At the Add Transmitter Tag dialog box, use the Tag Na

Using ProLink® Software with Micro Motion® Transmitters37File Menu: Print continuedPrint setupFile Menu: Print File Menu: Log Files View Menu: Variabl

38Using ProLink® Software with Micro Motion® TransmittersFile Menu: Print continuedPrintClick an option button to choose a separator. If Other is chos

Using ProLink® Software with Micro Motion® Transmitters39File Menu: Print continuedInterval printFile Menu: Print File Menu: Log Files View Menu: Vari

40Using ProLink® Software with Micro Motion® TransmittersFile Menu: Print continuedUpdate rate4.5 Update rateUpdate Rate controls how often the ProLin

Using ProLink® Software with Micro Motion® Transmitters41File Menu: Print continuedPrint fileFile Menu: Print File Menu: Log Files View Menu: Variable

42Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters43File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fi

44Using ProLink® Software with Micro Motion® TransmittersFile Menu: Error and Change Log Files continuedChange loggingError log optionsUse the Error L

Using ProLink® Software with Micro Motion® Transmitters45File Menu: Error and Change Log Files continuedChange loggingFile Menu: Print File Menu: Log

iiUsing ProLink® Software with Micro Motion® TransmittersContents continued4 File Menu: Print. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

46Using ProLink® Software with Micro Motion® TransmittersChange log optionsUse the Change Log check boxes to set the options for the change log file.

Using ProLink® Software with Micro Motion® Transmitters47File Menu: Print File Menu: Log Files View Menu: VariablesBefore You Begin Getting Started Fi

48Using ProLink® Software with Micro Motion® TransmittersView Menu: Variables continuedProcess variables windowFigure 6-1. Process variables window fo

Using ProLink® Software with Micro Motion® Transmitters49View Menu: Variables continuedOutput levels windowFile Menu: Print File Menu: Log Files View

50Using ProLink® Software with Micro Motion® TransmittersView Menu: Variables continuedCopying displayed values to other software applicationsFigure 6

Using ProLink® Software with Micro Motion® Transmitters51View Menu: Variables continuedCopying displayed values to other software applicationsFile Men

52Using ProLink® Software with Micro Motion® Transmitters

Using ProLink® Software with Micro Motion® Transmitters53Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Event

54Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedOverviewTable 7-1. Status indicatorsFigure 7-1. Status window for

Using ProLink® Software with Micro Motion® Transmitters55View Menu: Status continuedOverviewConfigure Menu:Transmitter OutputsConfigure Menu:Transmitt

Using ProLink ® Software with Micro Motion® TransmittersiiiContents continued7.5 Informational indicators . . . . . . . . . . . . . . . . . . . . . .

56Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedFault outputs7.2 Fault outputsIf a flowmeter failure occurs, trans

Using ProLink® Software with Micro Motion® Transmitters57View Menu: Status continuedCritical indicatorsConfigure Menu:Transmitter OutputsConfigure Men

58Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedCritical indicatorsTo troubleshoot these status indicators, follow

Using ProLink® Software with Micro Motion® Transmitters59View Menu: Status continuedCritical indicatorsConfigure Menu:Transmitter OutputsConfigure Men

60Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedCritical indicatorsTable 7-4. Nominal resistance and voltage range

Using ProLink® Software with Micro Motion® Transmitters61View Menu: Status continuedCritical indicatorsConfigure Menu:Transmitter OutputsConfigure Men

62Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedOperational indicators"Analog Input Error" and "Pre

Using ProLink® Software with Micro Motion® Transmitters63View Menu: Status continuedOperational indicatorsConfigure Menu:Transmitter OutputsConfigure

64Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedOperational indicatorsTo program slug flow limits, follow these st

Using ProLink® Software with Micro Motion® Transmitters65View Menu: Status continuedOperational indicatorsConfigure Menu:Transmitter OutputsConfigure

ivUsing ProLink® Software with Micro Motion® TransmittersContents continued10Configure Menu: Transmitter Outputs. . . . . . . 10710.1 Overview . . .

66Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedInformational indicators"Raw Flow Overflow" and "Ra

Using ProLink® Software with Micro Motion® Transmitters67View Menu: Status continuedInformational indicatorsConfigure Menu:Transmitter OutputsConfigur

68Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedInformational indicatorsTable 7-8. Troubleshooting informational f

Using ProLink® Software with Micro Motion® Transmitters69View Menu: Status continuedInformational indicatorsConfigure Menu:Transmitter OutputsConfigur

70Using ProLink® Software with Micro Motion® TransmittersView Menu: Status continuedInformational indicatorsEvent indicatorsWith flow, density, temper

Using ProLink® Software with Micro Motion® Transmitters71Configure Menu:Transmitter OutputsConfigure Menu:Transmitter InformationConfigure Menu: Event

72Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedOverviewTo open the Characterize Sensor dialog box, ope

Using ProLink® Software with Micro Motion® Transmitters73Configure Menu: Characterize continuedFlow calibration factorConfigure Menu:Transmitter Outpu

74Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedFlow calibration factorTable 8-1. Temperature coefficie

Using ProLink® Software with Micro Motion® Transmitters75Configure Menu: Characterize continuedFlow calibration factorConfigure Menu:Transmitter Outpu

Using ProLink ® Software with Micro Motion® TransmittersvContents continued14Calibrate Menu. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

76Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedFlow calibration factorSensor or transmitter replaced i

Using ProLink® Software with Micro Motion® Transmitters77Configure Menu: Characterize continuedFlow calibration factorConfigure Menu:Transmitter Outpu

78Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedDensity factors for RFT973910.Multiply the meter factor

Using ProLink® Software with Micro Motion® Transmitters79Configure Menu: Characterize continuedDensity factors for RFT9739Configure Menu:Transmitter O

80Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedDensity factor for IFT9701/IFT9703 and RFT9712/RFT9729T

Using ProLink® Software with Micro Motion® Transmitters81Configure Menu: Characterize continuedSlug flow limitsConfigure Menu:Transmitter OutputsConfi

82Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedTemperature factor for RFT97398.6 Temperature factor fo

Using ProLink® Software with Micro Motion® Transmitters83Configure Menu: Characterize continuedTemperature factor for RFT9739Configure Menu:Transmitte

84Using ProLink® Software with Micro Motion® TransmittersConfigure Menu: Characterize continuedTemperature factor for RFT97398. Using the values deter

Using ProLink® Software with Micro Motion® Transmitters85Configure Menu: Characterize continuedTemperature factor for RFT9739Configure Menu:Transmitte