Emerson Solu Comp Xmt-P-FF/FI Bedienerhandbuch

Model Solu Comp Xmt-PpH, ORP, and Redox TransmitterInstruction ManualPN 51-Xmt-P/rev.EOctober 2007

2MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONS1.2 SPECIFICATIONS1.2.1 GENERAL SPECIFICATIONSCase:ABS (panel mount), polycarbonate (pip

92MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.3 TROUBLESHOOTING WHEN NO FAULT MESSAGE IS SHOWING - TEMPERATURE10.3.1 Temperature measured by standard w

93MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.5.1 Warning or error message during two-point calibration.Once the two-point (manual or automatic) calibra

94MODEL Xmt-P SECTION 10.0TROUBLESHOOTINGD. Is the sensor fouled? The sensor measures the pH of the liquid adjacent to the glass bulb. If the sensor

MODEL Xmt-P SECTION 10.0TROUBLESHOOTINGor terminals.4. Connect a jumper wire between the RTD RETURN and RTD SENSE terminals (see wiring diagrams in S

96MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.7.3 Simulating pH input when the preamplifier is in a junction box.The procedure is the same as described

MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.9 MEASURING REFERENCE VOLTAGESome processes contain substances that poison or shift the poten-tial of the r

98MODEL Xmt-P SECTION 11.0MAINTENANCESECTION 11.0MAINTENANCETABLE 11-1. REPLACEMENT PARTS FOR SOLU COMP XMT (PANEL MOUNT VERSION)PART NUMBER DESCRIPTI

99SECTION 12.0pH MEASUREMENTS12.1 General12.2 Measuring Electrode12.3 Reference Electrode12.4 Liquid Junction Potential12.5 Converting Voltage to pH12

100MODEL XMT-P pH/ORP SECTION 12.0 pH MEASUREMENTSdesigned, the liquid junction potential is usually small and rel-atively constant. All three potenti

101MODEL XMT-P pH/ORP SECTION 12.0 pH MEASUREMENTSFIGURE 12-5. The Origin of Liquid Junction Potentials.The figure shows a thin section through a pore

3MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSpH/ORP SENSOR DIAGNOSTIC CAPABILITY320B Glass and Reference330B Glass and Reference320HP-

102MODEL XMT-P pH/ORP SECTION 12.0 pH MEASUREMENTSThe second term, 0.1984 T pH, is the potential (in mV) atthe outside surface of the pH glass. This p

103MODEL XMT-P pH/ORP SECTION 12.0 pH MEASUREMENTSare placed in pH 10 buffer, the cell voltage is V10. Note thatV7is not 0 mV as would be expected in

104MODEL XMT-P pH/ORP SECTION 12.0 pH MEASUREMENTSterm in equation 4 to the voltage is also shown. The liquidjunction potentials in the buffers are as

105MODEL XMT-P pH/ORP SECTION 13.0 ORP MEASUREMENTSSECTION 13.0ORP MEASUREMENTS13.1 General13.2 Measuring Electrode13.3 Reference Electrode13.4 Liquid

10613.2 MEASURING ELECTRODEFigure 13-2 shows a typical ORP measuring elec-trode. The electrode consists of a band or disc ofplatinum attached to the b

107Liquid junction potentials exist whenever dissimilar elec-trolyte solutions come into contact. The magnitude of thepotential depends on the differe

108is described by the following equation, called theNernst equation:E = E° - (2)In the Nernst equation, E is the electrode potential andE° is the s

109The Nernst equation for reaction 3 is:E = E°- (4)Note that the hydrogen ion factor in the concentrationratio is raised to the fourteenth power. T

110MODEL XMT-P pH/ORP SECTION 13.0 ORP MEASUREMENTSThe ORP of the iron (II) - iron (III) standard when meas-ured with a platinum electrode against a s

14.1 OVERVIEW OF HART COMMUNICATIONHART (highway addressable remote transducer) is a digital communication system in which two frequencies aresuperimp

4MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONS1.3 HAZARDOUS LOCATION APPROVALSIntrinsic Safety:Class I, II, III, Div. 1 Groups A-GT4 Ta

112MODEL XMT-P PH/ORP SECTION 14.0THEORY - REMOTE COMMUNICATIONSIf your communicator does not recognize the Model XMT-P pH/ORP transmitter, the device

113MODEL XMT-P pH/ORP SECTION 15.0RETURN OF MATERIALSECTION 15.0RETURN OF MATERIAL15.1 GENERAL.To expedite the repair and return of instruments, prope

WARRANTYGoods and part(s) (excluding consumables) manufactured by Seller are warranted to be free from defects in workman-ship and material under norm

Credit Cards for U.S. Purchases Only.The right people,the right answers,right now.ON-LINE ORDERING NOW AVAILABLE ON OUR WEB SITEhttp://www.raihome.com

MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSFIGURE 1-1. MENU TREE FOR MODEL SOLU COMP Xmt-P-HT TRANSMITTER1.4 MENU TREE FOR MODEL XM

MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSFIGURE 1-2. MENU TREE FOR MODEL SOLU COMP Xmt-P-FF TRANSMITTER1.5 MENU TREE FOR MODEL XM

7MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONS1.7 FOUNDATION FIELDBUSFigure 1-3 shows a Xmt-P-FF being used to measure and control pH

8MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSFIGURE 1-4. HART Communicators. Both the Rosemount Model 375 (or 275) and a computer can

MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSFIGURE 1-5. AMS MAIN MENU TOOLS9

10MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONS1.10 ACCESSORIESPOWER SUPPLY: Use the Model 515 Power Supply to provide dc loop power t

11MODEL XMT-P pH/ORP SECTION 2.0INSTALLATIONSECTION 2.0INSTALLATION2.1 Unpacking and Inspection2.2 Pre-Installation Set Up2.3 Installation2.1 UNPACKIN

Emerson Process ManagementLiquid Division2400 Barranca ParkwayIrvine, CA 92606 USATel: (949) 757-8500Fax: (949) 474-7250http://www.raihome.com© Rosem

12MODEL XMT-P pH/ORP SECTION 2.0INSTALLATION2.2.3 Preamplifier LocationpH sensors produce a high impedance voltage signal that must be preamplified be

13MODEL XMT-P pH/ORP SECTION 2.0INSTALLATION2.3 INSTALLATION1. Although the transmitter is suitable for outdoor use,do not install it in direct sunli

14MODEL XMT-P pH/ORP SECTION 2.0INSTALLATIONFIGURE 2-3. Panel Mount InstallationAccess to the wiring terminals is through the rear cover. Four screws

15MODEL XMT-P pH/ORP SECTION 2.0INSTALLATIONFIGURE 2-4. Pipe Mount InstallationThe front panel is hinged at the bottom. The panel swings down for acce

16MODEL XMT-P pH/ORP SECTION 2.0INSTALLATIONFIGURE 2-5. Surface Mount InstallationThe front panel is hinged at the bottom. The panel swings down for a

17MODEL XMT-P pH/ORP SECTION 3.0 WIRING3.1 POWER SUPPLY/CURRENT LOOP — MODEL XMT-P-HT3.1.1 Power Supply and Load Requirements.Refer to Figure 3-1.The

18MODEL XMT-P pH/ORP SECTION 3.0 WIRING3.2 POWER SUPPLY WIRING FOR MODEL XMT-P-FF3.2.1 Power Supply Wiring. Refer to Figure 3-3 andFigure 3-4.Run the

19MODEL XMT-P pH/ORP SECTION 3.0 WIRING3.3 SENSOR WIRING3.3.1 Sensor Wiring InformationpH and ORP sensors manufactured by Rosemount Analytical can be

20For FM Intrinsically Safe Label, see Figure 4-1.For FM Intrinsically Safe Installation, see Figure 4-2.For CSA Instrinsically Safe Label, see Figure

21FIGURE 4-2. FM Intrinsically Safe Installation (1 of 2) for Model Xmt-P-HT

5. Choose the desired language. Choose >> to show more choices.6. Choose measurement: pH, ORP, or Redox. 7. Choose preamplifier location. Select

22FIGURE 4-3. FM Intrinsically Safe Installation (2 of 2) for Model Xmt-P-HT

23FIGURE 4-4. CSA Intrinsically Safe Label for Model Xmt-P-HT

24FIGURE 4-5. CSA Intrinsically Safe Installation (1 of 2) for Model Xmt-P-HT

25FIGURE 4-6. CSA Intrinsically Safe Installation (2 of 2) for Model Xmt-P-HT

26FIGURE 4-7. ATEX Intrinsically Safe Label for Model Xmt-P-HT

27FIGURE 4-8. ATEX Intrinsically Safe Installation (1 of 2) for Model Xmt-P-HT

28FIGURE 4-9. ATEX Intrinsically Safe Installation (2 of 2) for Model Xmt-P-HT

29FIGURE 4-10. FM Intrinsically Safe Label for Model Xmt-P-FF10 /6 /0410 /6 /04 J. FLOCK°CT4 Tamb = 509241564-00/ARosemount AnalyticalRFMAPPROV

30FIGURE 4-11. FM Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FF10/6/04J. FLOCK511.59mW157.17mA13.03V7.972.9740.97421.695.990.964514. MET

31FIGURE 4-12. FM Intrinsically Safe Installation (2 of 2) for Model Xmt-P-FFOR SIMPLE APPARATUSFM APPROVED DEVICEPH SENSOR WITH TCOR SIMPLE APPARATUS

iMODEL XMT-P pH/ORP TABLE OF CONTENTSMODEL XMT-P pH/ORP TWO-WIRE TRANSMITTERTABLE OF CONTENTSSection Title Page1.0 DESCRIPTION AND SPECIFICATIONS ...

32FIGURE 4-13. CSA Intrinsically Safe Label for Model Xmt-P-FF 10/6 /04 J. FLOCK°CT4 Tamb = 50SEE BLANK LABEL PN 9241406-01.SUPER PREMIUM BLACK TH

33FIGURE 4-14. CSA Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FF 10/6/04 10/6/04J. FLOCKJ. FLOCKHAZARDOUS AREA CLASS III CLASS II, G

34FIGURE 4-15. CSA Intrinsically Safe Installation (2 of 2) for Model Xmt-P-FFHAZARDOUS AREA CLASS III CLASS II, GRPS E-GIS CLASS I, GRPS A-DCSA A

35FIGURE 4-16. ATEX Intrinsically Safe Label for Model Xmt-P-FF10 /6 /04°C°C TO +50Tamb = 09241580-00/ARosemount AnalyticalRSIGNAL INPUTSUPPLYII 1

36FIGURE 4-17. ATEX Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FF 10/6/04 10/6/04J. FLOCKJ. FLOCK0mH5.5nF172mW123mA12.9V4020523.26.51LiC

37FIGURE 4-18. ATEX Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FF+PHSENSOREEx ia IIC T4Baseefa04ATEX0213XII 1 G 1180(ZONE 0)HAZARDOUS

38FIGURE 4-19. FM Intrinsically Safe Label for Model Xmt-P-FI10/6 /04 J. FLOCK J. FLOCK FARSIDE AND SPLIT LINER) OR (INTERMEC PN L7211210, 2

39FIGURE 4-20. FM Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FI 10/6/04 10/6/04 10/6/0414. METAL CONDUIT IS NOT REQUIRED BUT IF USED BON

40FIGURE 4-21. FM Intrinsically Safe Installation (2 of 2) for Model Xmt-P-FIOR SIMPLE APPARATUSFM APPROVED DEVICEPH SENSOR WITH TCOR SIMPLE APPARATUS

41FIGURE 4-22. CSA Intrinsically Safe Label for Model Xmt-P-FI 10 /6 /04 FARSIDE AND SPLIT LINER) OR (INTERMEC PN L7211210, 2 MIL GLOSS WHIT

MODEL XMT-P pH/ORP TABLE OF CONTENTSTABLE OF CONTENTS CONT’Dii8.0 CALIBRATION — TEMPERATURE...

42FIGURE 4-23. CSA Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FI 10/6/04 10/6/0459.9729.977.9721.695.99HAZARDOUS AREA CLASS III CLAS

43FIGURE 4-24. CSA Intrinsically Safe Installation (2 of 2) for Model Xmt-P-FIHAZARDOUS AREA CLASS III CLASS II, GRPS E-GIS CLASS I, GRPS A-DCSA A

44FIGURE 4-25. ATEX Intrinsically Safe Label for Model Xmt-P-FI10 /6 /04°C°C TO +50Tamb = 09241580-00/ARosemount AnalyticalRSIGNAL INPUTSUPPLYII 1

45FIGURE 4-26. ATEX Intrinsically Safe Installation (1 of 2) for Model Xmt-P-FI 10/6/04 10/6/04 J. FLOCK0mH5.5nF172mW123mA12.9V4020523.26.51LiCiDOES N

46FIGURE 4-27. ATEX Intrinsically Safe Installation (2 of 2) for Model Xmt-P-FI17.5 VDC MAX17.5 VDC MAX17.5 VDC MAX SENSORAMPEROMETRIC SENSORAMPER

47MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATIONSECTION 5.0DISPLAY AND OPERATION5.1. DISPLAYThe Model Xmt-P has a two-line dis-play. Generally,

MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATION485.3 PROGRAMMING AND CALIBRATING THE MODEL XMT- TUTORIALSetting up and calibrating the Model Xmt

MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATION5.4 MENU TREES - pHThe Model Xmt-P pH transmitter has four menus: CALIBRATE, PROGRAM, HOLD, and D

50MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATIONFIGURE 5-3. MENU TREE FOR MODEL SOLU COMP Xmt-P-HT TRANSMITTER50

51MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATIONFIGURE 5-4. MENU TREE FOR MODEL SOLU COMP Xmt-P-FF TRANSMITTER

iiiMODEL XMT-P pH/ORP TABLE OF CONTENTSTABLE OF CONTENTS CONT’D13.0 ORP MEASUREMENTS...

52MODEL XMT-P pH/ORP SECTION 5.0 DISPLAY AND OPERATION1. If a security code has been programmed, pressing MENU causes thesecurity screen to appear.2.

53MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375SECTION 6.0OPERATION WITH MODEL 3756.1 Note on Model 375 HART and Foundation Fieldbus Communi

54MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 3756.3 Operation6.3.1 Off-line and On-line OperationThe Model 375 Communicator features off-line

55MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375Device setupProcess variablespH (1)ORP/Redox (2)TempInput (1)GlassZ (1)RefZTempRUncorr pH (4)

56MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375Temp mode [Live, Manual] (1)Man temp (6)Temp unit [ºC, ºF]Temp snsr [RTD PT100, RTD PT1000, M

57MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375RESOURCEIdentificationMANUFACT_IDDEV_TYPEDEV_REVDD_REVCharacteristics Block TagTAG_DESCHardwa

58MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375TRANSDUCERStatusMODE_BLK: ActualTransducer ErrorST_REVBLOCK_ERRFaultsWarningsAdditional trans

59MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375Glass fault low setpointGlass warn high setpointGlass warn low setpointTemperature Compensati

60MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375LOW_CUTSIMULATE: Simulate StatusSIMULATE: Simulate ValueSIMULATE: Transducer StatusSIMULATE:

61MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375OUT_SCALE: EU at 100%OUT_SCALE: EU at 0%OUT_SCALE: Units IndexOUT_SCALE: DecimalGRANT_DENY: G

ivMODEL XMT-P pH/ORP TABLE OF CONTENTSLIST OF FIGURESNumber Title Page1-1 Menu Tree — Xmt-P-HT...

62MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375DV_LO_LIMGAINHI_HI_LIMHI_LIMLO_LIMLO_LO_LIMOUT_SCALE: EU at 100%OUT_SCALE: EU at 0%OUT_SCALE:

63MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375TRK_SCALE: Units IndexTRK_SCALE: DecimalTRK_VAL: StatusTRK_VAL: ValueConnectorsBK_CAL_IN: Sta

64MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375UPDATE_EVT: Time StampUPDATE_EVT: Static RevUPDATE_EVT: Relative IndexBLOCK_ALM: Unacknowledg

65PV: ValueSP: StatusSP: ValueOUT: StatusOUT: ValuePV_SCALE: EU at 100%PV_SCALE: EU at 0%PV_SCALE: Units IndexPV_SCALE: DecimalOUT_SCALE: EU at 100%OU

66MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375UPDATE_EVT: Relative IndexBLOCK_ALM: UnacknowledgedBLOCK_ALM: Alarm StateBLOCK_ALM: Time Stam

67SchedulingDetailPhysical Device TagAddressDevice IDDevice RevisionAdvancedStack CapabilitiesFasArTypeAndRoleSupportedMaxDIsapAddressesSupportedMaxDI

68MODEL XMT-P pH/ORP SECTION 6.0 OPERATION WITH MODEL 375Normal RcvUrgent RcvTime Available SAP EC DCNormal SAP EC DCUrgent SAP EC DCTime Available Rc

69MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTERSECTION 7.0PROGRAMMING THE TRANSMITTER7.1 GENERALThis section describes how to program the

707.3 CONFIGURING AND RANGING THE OUTPUT (-HT version only)7.3.1 Purpose1. Configuring an output means a. displaying the output reading in units of m

71MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTER7.3.3 Procedure: Configuring the Output1. Press MENU. The menu screen appears. Choose Pro

v9-1 Calibration Slope and Offset ... 6310-1 Simulate pH...

72MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTERCurrent Outputfor Test:12.00mAOutput TempMeasurement°>>Test OutputTrim OutputOutput?

73MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTER7.4 CHOOSING AND CONFIGURING THE ANALYTICAL MEASUREMENT7.4.1 PurposeThis section describes

74MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTER7.4.3 Procedure: Measurement.To choose a menu item, move the cursor to the item and press

75MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTER7.5.3 Procedure: Temperature.To choose a menu item, move the cursor to the item and press

76Outputs TempMeasurement >>Security HART>>7.6.2 Procedure: Setting a security codeCalibrate HoldProgram DisplayLock?Calib Config1. Press

77MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTEROutputs TempMeasurement >>Security HART>>7.8.2 Procedure: Noise reductionCalib

78MODEL XMT-P pH/ORP SECTION 7.0 PROGRAMMING THE TRANSMITTERDefault DisplayDisplay Contrast7.10.2 Procedure: Choosing a display screen.Calibrate HoldP

79MODEL XMT-P pH/ORP SECTION 8.0 CALIBRATION — TEMPERATURESECTION 8.0CALIBRATION — TEMPERATURE8.1 INTRODUCTIONThe Calibrate Menu allows the user to ca

80MODEL XMT-P pH/ORP SECTION 8.0 CALIBRATION — TEMPERATURE8.2.2 Procedure1. Remove the sensor from the process. Place it in an insulated container of

81MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pHSECTION 9.0CALIBRATION — pH9.1 INTRODUCTIONFor pH sensors, two-point buffer calibration is standard.

1MODEL XMT-P pH/ORP SECTION 1.0DESCRIPTION AND SPECIFICATIONSSECTION 1.0DESCRIPTION AND SPECIFICATIONSModel Xmt Family of Two-wire Transmitters• CHOIC

82MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH9.2 PROCEDURE — AUTO CALIBRATION1. Obtain two buffer solutions. Ideally, the buffer values should b

83MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH14. The top line shows the actual reading. The transmitter also identifies thebuffer and displays the

84MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH9.3 PROCEDURE — MANUAL TWO-POINT CALIBRATION1. Obtain two buffer solutions. Ideally, the buffer val

85MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH9.4 PROCEDURE — STANDARDIZATION1. The pH measured by the transmitter can be changed to match the re

86MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH9.5 PROCEDURE — ENTERING A KNOWN SLOPE VALUE.1. If the electrode slope is known from other measurem

87MODEL XMT-P pH/ORP SECTION 9.0 CALIBRATION — pH9.6 ORP CALIBRATION9.6.1 Purpose1. For process control, it is often important to make the measured OR

88MODEL Xmt-P SECTION 10.0TROUBLESHOOTINGSECTION 10.0TROUBLESHOOTING10.1 OVERVIEWThe Xmt-P transmitter continuously monitors itself and the sensor for

89MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.2 TROUBLESHOOTING WHEN A FAULT OR WARNING MESSAGE IS SHOWINGFault message Explanation See SectionRTD Open

90MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.2.2 Broken pH Glass and pH Glass Z HighThese messages mean that the pH sensor glass impedance is outside t

91MODEL Xmt-P SECTION 10.0TROUBLESHOOTING10.2.8 pH mV Too HighThis message means the raw millivolt signal from the sensor is outside the range -2100 t