Honeywell SMV800 User Manual Download Page 1

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Honeywell Process Solutions

SMV800 MultiVariable Transmitter

Modbus Communication

User's Guide

34-SM-25-09

Revision 1.0

August 2018

Summary of Contents for SMV800

Page 1: ...Honeywell Process Solutions SMV800 MultiVariable Transmitter Modbus Communication User s Guide 34 SM 25 09 Revision 1 0 August 2018 ...

Page 2: ... be stated in its written agreement with and for its customers In no event is Honeywell liable to anyone for any indirect special or consequential damages The information and specifications in this document are subject to change without notice Honeywell TDC 3000 SFC SmartLine PlantScape Experion PKS Experion HS Honeywell HC900 Honeywell RTU2020 and TotalPlant are registered trademarks of Honeywell...

Page 3: ...ill need to supplement the information in this document with the data and procedures in the Experion Knowledge Builder For Honeywell s TotalPlant Solutions TPS you will need to supplement the information in this document with the data in the PM APM SmartLine Transmitter Integration Manual which is supplied with the TDC 3000 book set TPS is the evolution of the TDC 3000 Release Information Document...

Page 4: ...a contact details see back page or refer to the appropriate Honeywell Solution Support web site Honeywell Corporate www honeywellprocess com Honeywell Process Solutions https www honeywellprocess com smart multivariable transmitters aspx Training Classes www honeywellprocess com en US training Telephone and Email Contacts Area Organization Phone Number United States and Canada Honeywell Inc 1 800 ...

Page 5: ...on the equipment refers the user to the product manual for additional information The symbol appears next to required information in the manual WARNING Indicates a potentially hazardous situation which if not avoided could result in serious injury or death WARNING symbol on the equipment refers the user to the product manual for additional information The symbol appears next to required informatio...

Page 6: ...ion to the chassis or frame of the equipment shall be bonded to Protective Earth at the source of supply in accordance with national and local electrical code requirements The Canadian Standards mark means the equipment has been tested and meets applicable standards for safety and or performance The Ex mark means the equipment complies with the requirements of the European standards that are harmo...

Page 7: ...tool called a tokenizer Device Description Language A standardized programming language similar to C used to write device description source files Device Tag The Physical Device Tag of the device as specified in the Foundation Modbus specifications DP Differential Pressure EEPROM Electrically Erasable Programmable Read Only Memory EMI Electromagnetic Interference Event An instantaneous occurrence ...

Page 8: ...m Newton Meters NPT National Pipe Thread NVM Non Volatile Memory Object Dictionary Definitions and descriptions of network visible objects of a device There are various object dictionaries within a device The dictionaries contain objects and their associated parameters which support the application in which they are contained Objects Entities within the FBAP such as blocks alert objects trend obje...

Page 9: ...ising configuration and operational information used for control of system management operations SP Static Pressure TAC Technical Assistance Center Trim Point A selected reference point at which a measurement is calibrated URL Upper Range Limit URV Upper Range Value US Universal Station Vac Volts Alternating Current Vdc Volts Direct Current Virtual Communication Reference A defined communication e...

Page 10: ...Device Setup 11 2 3 3 Differential Pressure Configuration 16 2 3 4 Static Pressure Configuration 19 2 3 5 Flow Configuration 23 2 3 6 Meterbody Temperature Config 28 2 3 7 Process Temperature Configuration 29 2 3 8 Using Custom Units for Flow Measurement 59 2 3 10 Meterbody Details 64 2 3 1 MODBUS COM Config 67 2 4 Maintenance 69 2 4 1 Device security protection 69 2 4 2 Calibration Correction rec...

Page 11: ... 3 2 11 Diagnostics 113 3 2 12 Transmitter register maps 128 4 OPERATION AND MAINTENANCE 173 4 1 Calibration 173 4 1 1 Differential Pressure sensor calibration 174 4 1 2 Static Pressure Calibration 177 4 1 3 Process temperature sensor calibration 180 4 1 4 Dual Triple Calibration 184 4 1 5 Simulate Device Variables 185 5 TROUBLESHOOTING 186 5 1 Overview 186 5 2 Communications troubleshooting 186 5...

Page 12: ...7 Density Coefficients Dependency to Algorithm option 49 Table 3 1 Exception Response Codes 106 Table 3 2 Modbus Function Codes 107 Table 3 3 Configuration History 108 Table 3 4 Modbus Register for Process Variables 110 Table 3 5 Floating Point Format 111 Table 3 6 Communication Statistics 111 Table 3 7 Transmitter Status amd Diagnostic Registers 113 Table 3 8 SMV800 Modbus Coils 128 Table 3 9 SMV...

Page 13: ...nd Stress monitoring Table 1 1 Features and Options Feature Option Standard Available Options Communication Protocols Modbus standard RTU Human Machine Interface HMI Advanced Digital Display Advanced display languages English German French Italian Spanish Russian Turkish Chinese Japanese Three button programming optional Calibration Single Dual and Triple Cal for PV1 Differential Pressure and PV2 ...

Page 14: ... 2 0 to 3 0 then using configuration history user can find that previous value of DP damping is 2 0 Device can hold history for last 5 configured parameters data 1 2 3 Physical Characteristics As shown in Figure 1 1 the SMV800 is packaged in two major assemblies the Electronics Housing and the Meter Body The elements in the Electronic Housing respond to setup commands and execute the software and ...

Page 15: ...Advanced Digital Display In addition a Honeywell SMV Modbus PC based application is available for configuration of transmitter parameters 1 3 SMV800 Transmitter Name Plate The transmitter nameplate mounted on the bottom of the electronics housing see Figure 1 1 lists certifications The model number physical configuration electronic options accessories are located on the Product I D nameplate see F...

Page 16: ...Server 2016 Recommended to use Isolated USB RS485 modem hardware and it s driver for USB modem option Proper Execution of host requires a standard PC with at least following resources o 1 gigahertz GHz or faster 32 bit x86 or 64 bit x64 processor o 1 gigabyte GB RAM 32 bit or 2 GB RAM 64 bit o Screen Resolution at least 1280x1024 1280x960 1280x800 pixels 2 1 2 Hard Disk Space The Modbus Host requi...

Page 17: ...your local disk Structure and Files are like the below image 1 Double Click on the SmartLine Modbus Manager exe file follow the instruction to install the Host application 2 InstallShield Wizard will appear click on Next button 3 Ready to Install the program screen will appear click on Install button ...

Page 18: ...Page 6 SMV800 Modbus User s Guide Revision 1 0 4 Installing the Modbus SMV Host screen will appear 5 Installation finished screen will appear click on Finish button ...

Page 19: ...COM Port System on which Modbus Manager application is installed 3 Run SmartLine Modbus Manager Host 4 Now Add the Device by clicking on Add Device plus button 5 Device List window will appear to add the device click on the particular Device Ex SMV800 Device 6 Click on Ok button user can see the below offline screen status will be in Red color as the device is not connected ...

Page 20: ...Page 8 SMV800 Modbus User s Guide Revision 1 0 7 Right click on the device using which the user wants to connect and click on Connect manually 8 Connection Wizard will appear ...

Page 21: ...tlines how to configure the transmitter using the Modbus Host 1 Enter corresponding device COM Port Baud Rate Parity Address Timeouts Number of Retries and click on Connect 2 User can see the status in green color after having the successful connection of the device 3 Double click on the connected device ...

Page 22: ...s User s Guide Revision 1 0 4 User can see the Configuration page click on Proceed to Monitoring for viewing the Process Values For configuration changes and review of configuration click on Proceed to Configuration Setup ...

Page 23: ...Revision 1 0 SMV800 Modbus User s Guide Page 11 2 2 2 3 Device Setup 2 3 1 Device information This tab provides the detail information about the device ...

Page 24: ... date can be used by the user in any way Tag Enter Tag ID name up to 8 characters Write Protect Indicates the current state of the device write protect option as enabled yes or disabled no Transmitter Install Date One time editable Transmitter installation date in MM DD YYYY format Note If install date is not present then it will show default install date as 01 01 1978 Temp Module Install Date One...

Page 25: ...ay is connected to the device Display Type Identifies the type of Display connected to the device only Advanced Display is available for SMV devices Language Package Identifies the language package selected as Eastern or Western Common Setup Language Select the desired language to be used for the Display Rotation Time Select the desired time delay for switching between configured screens 3 to 30 s...

Page 26: ...ure Static Pressure Process Temperature Flow Meter Body Temperature Sensor Resistance Totalizer User Variable 1 to 8 Enter the selection for PV scaling note available selections are dependent on PV selection None Convert Units Linear for custom units Enter the high and low scaling values if Linear PV scaling was selected Select the new engineering unit if Convert Units PV Scaling was selected Sele...

Page 27: ...gh Limit for trending or bar graph Disp Low Limit The value configured as the Display Low Limit for trending or bar graph Scaling High The value configured as the Scaling High Limit for PV Scaling selections of linear Scaling Low The value configured as the Scaling Low Limit for PV Scaling selections of linear Scaling Units The text configured to be displayed for custom Units Screen Format The con...

Page 28: ...ts configuration is available in screen configuration for user variables If the Enable Limit Monitoring is checked then the value written to device is compared against configured LRV URV associated for each user variable and if value is out of limits then status is shown as bad in display screen 2 3 3 Differential Pressure Configuration This tab provides the detail information about the Diffrentia...

Page 29: ...elected engineering units This value may be configured to any value within the range DP LTL to DP UTL Differential Pressure URV The Upper Range Value for the Differential Pressure input which represents 100 output in user selected engineering units This value may be configured to any value within the range DP LTL to DP UTL Differential Pressure Damping Damping value for the Differential Pressure o...

Page 30: ... Inch kPa Kilopascals M Pa Megapascals mbar Millibar bar Bar g cm2 Grams per Square Centimeter Kg cm2 Kilograms per Square Centimeter inHg 32F Inches of Mercury at 32 F 0 C mmH2O 4C Millimeters of Water at 4 C 39 2 F mH2O 4C Meters of Water at 4 C 39 2 F ATM Normal Atmospheres inH2O 60F Inches of Water at 60 F 15 6 C LRV and URV The Lower Range Value and the Upper Range Value fields for DP are fou...

Page 31: ... Configuration parameters Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Static Pressure Config Static Pressure The current value of the Static Pressure input Static Pressure Unit inH2O 68 O F inHg 0O C ftH2O 68OF mmH2O 68O F mmHg 0O C psi bar mbar g cm2 kg cm2 Pa kPa Torr Atm inH2O 60O F MPa inH2O 4O C 39 2 O F mmH2O 4OC 39 2OF The user selected engineering...

Page 32: ...range SP LTL to SP UTL Static Pressure Damping Damping value for the Static Pressure output Entries may be any value from 0 00 to 32 00 seconds Static Pressure URL The Upper Range Limit for the Static Pressure input Static Pressure LRL The Lower Range Limit for the Static Pressure input Static Pressure UTL The Upper Transducer Limit for the Static Pressure input Static Pressure LTL The Lower Trans...

Page 33: ...Pa Kilopascals M Pa Megapascals mbar Millibar Bar Bar g cm2 Grams per Square Centimeter Kg cm2 Kilograms per Square Centimeter inHg 32F Inches of Mercury at 32 F 0 C mmH2O 4C Millimeters of Water at 4 C 39 2 F mH2O 4C Meters of Water at 4 C 39 2 F ATM Normal Atmospheres inH2O 60F Inches of Water at 60 F 15 6 C Static pressure may be absolute or gauge pressure depending on the SMV model type NOTE D...

Page 34: ...cess input for 0 output and URV which is the process input for 100 output for the static pressure input LRV Enter the lower range value default value is 0 0 URV Enter the upper range value default values for URV based on model are 50 psia for model SMA810750 psia for model SMA845 3000 psig for model SMG870 NOTE Static pressure may be absolute or gauge pressure depending on the model SMV800 you hav...

Page 35: ...the Flow input which represents 0 output in user selected engineering units This value may be configured to any value within the range Flow LTL to Flow UTL Flow URV The Upper Range Value for the Flow input which represents 100 output in user selected engineering units This value may be configured to any value within the range Flow LTL to Flow UTL Flow Damping Damping value for the Flow output Entr...

Page 36: ...stom Unit Flow Rate 50 g sec Flow Rate in MyNewUnit will be 50 0 5 MyNewUnit Write Flow Range values Flow LRV Flow URV Write a new Lower Range Value and Upper Range Value for the Flow input Flow can be ranged anywhere between URL to URL so that the span is URL i e URV LRV should be URL Flow Cutoff Low Lmt The lower value for Low Flow cutoff When the flow drops below this value the flow output will...

Page 37: ...ering Units for Flow Engineering Unit Meaning M3 hd Cubic Meters per Hour gal h Gallons per Hour l h Liters per Hour cc h Cubic Centimeters per Hour m3 min Cubic Meters per Minute gal min Gallons per Minute l min Liters per Minute cc min Cubic Centimeters per Minute m3 day Cubic Meters per Day gal day Gallons per Day Kgal day Kilogallons per Day bbl day Barrels per Day m3 sec Cubic Meters per Seco...

Page 38: ...ge Limit URL to desired value before you set Flow range values We suggest that you set the Flow URL to equal two times the maximum flow rate 2 x URV About URL and LRL The Lower Range Limit LRL and Upper Range Limit URL identify the minimum and maximum flow rates for the given Flow calculation The LRL is fixed at zero to represent a no flow condition The URL like the URV depends on the calculated r...

Page 39: ...e damping to the largest value that the transmitter can accept Low Flow Cutoff For calculated flow rate set low and high cutoff limits between 0 and 30 of the upper range limit URL for flow Low Flow Cutoff Low 0 0 default High 0 0 default Change the High value before editing Low value Background You can set low and high flow cutoff limits for the transmitter output based on the calculated variable...

Page 40: ...of the measured Meter body Temperature Meter Body Temperature Unit degC degF degR Kelvin The engineering unit for the Meter body Temperature value Meter Body Temperature LRV The Lower Range Value for the Meter body Temperature input Meter Body Temperature URV The Upper Range Value for the Meter body Temperature input Meter Body Temperature Damping Damping value for the Meter body Temperature measu...

Page 41: ...ut Process Temperature LRV The Lower Range Value for the Process Temperature input which represents 0 output in user selected engineering units This value may be configured to any value within the range PT LTL to PT UTL Process Temperature URV The Upper Range Value for the Process Temperature input which represents 100 output in user selected engineering units This value may be configured to any v...

Page 42: ...nt This parameter is applicable when temp sensor is configured only as a thermocouple Fixed CJ Value range is 50 to 90 C CJ Compensation Select fixed or internal cold junction compensation for the Process Temperature measurement Break Detect Allows user to enable or disable sensor break detection capability for the Process Temperature input Latch Alarm Allows user to enable or disable critical sta...

Page 43: ...l block Specify source of cold junction temperature compensation Internal Fixed Must also key in value of cold junction temperature for reference Background Every thermocouple requires a hot junction and a cold junction for operation The hot junction is located at the point of process measurement and the cold junction is in the transmitter internal or at an external location selected by the user T...

Page 44: ...emperature Input Input Type Maximum Range Limits RTD 2 3 4 wire C F Pt254 200 to 850 328 to 1562 Pt100 200 to 850 328 to 1562 Pt2004 200 to 850 328 to 1562 Pt5004 200 to 850 328 to 1562 Pt10004 200 to 500 328 to 932 Thermocouples C F B4 200 to 1820 392 to 3308 E 200 to 1000 328 to 1832 J 200 to 1200 328 to 2192 K 200 to 1370 328 to 2498 N4 200 to 1300 328 to 2372 R4 50 to 1760 58 to 3200 S4 50 to ...

Page 45: ...ce will report critical status Temperature value will be set to NaN and Flow value will also be set to NaN Background You can turn the transmitter s temperature sensor fault detection Break Detect function ON or OFF through configuration With the detection ON the transmitter drives the PT output value to NaN in the event of an open RTD or T C lead condition When fault detection is set to OFF these...

Page 46: ...RTD Range Configuration The URV changes automatically to compensate for any changes in the LRV and maintain the present span URV LRV See Figure 2 3 for an example If you must change both the LRV and URV always change the LRV first However if the change in the LRV would cause the URV to exceed the URL you would have to change the URV to narrow the span before you could change the LRV Figure 2 3 Cur...

Page 47: ...cals kPa inH2O 68oF inHg 0oC ftH2O 68oF mmH2O 68oF mmHg 0oC psi bar mbar g cm2 kg cm2 Pa kPa Torr Atm inH2O 60oF MPa inH2O 4oC 39 2 oF mmH2O 4oC 39 2oF Static Pressure Unit Pounds per Square Inch psi Kilopascals kPa Pound per Square Inch psi inH2O 68oF inHg 0oC ftH2O 68oF mmH2O 68oF mmHg 0oC psi bar mbar g cm2 kg cm2 Pa kPa Torr Atm inH2O 60oF MPa inH2O 4oC 39 2 oF mmH2O 4oC 39 2oF Temperature Uni...

Page 48: ...ounds per Foot Seconds lb ft s Flow lb sec when Flow output type is Mass Flow ft3 sec when Flow output type is Volume Flow g sec when Flow output type is Mass Flow m3 sec when Flow output type is Volume Flow See Table 2 6 and Table 2 7 for mass and volume unit Flow Custom Unit Custom Unit Flow Custom Tag Customized unit Flow Base Unit Flow Base Unit Base unit is unit from which custom unit is deri...

Page 49: ... Ideal Gas Mass Flow Ideal Gas Volume Flow Std Condition When Fluid type Gas No Flow Output Liquid Mass Flow Liquid Actual Volume Flow Liquid Volume Flow Std Condition When Fluid type Liquid No Flow Output Steam Mass Flow When Fluid type Superheated Steam or Saturated Steam DP SP or Saturated Steam DP PT Algorithm Options Advanced Algorithms ASME 1989 Algorithms Advanced Algorithms Allows Flow cal...

Page 50: ... 26 1 UNDECANOL 27 2 2 DIMETHYLBUTANE 28 2 METHYL 1 PENTENE 29 ACETIC ACID 30 ACETONE 31 ACETONITRILE 32 ACETYLENE 33 ACRYLONITRILE 34 AIR 35 ALLYL ALCOHOL 36 AMMONIA 37 ARGON 38 BENZALDEHYDE 39 BENZENE 40 BENZYL ALCOHOL 41 BIPHENYL 42 CARBON DIOXIDE 43 CARBON MONOXIDE 44 CARBON TETRACHLORIDE 45 CHLORINE 46 CHLOROPRENE 47 CHLOROTRIFLUOROETHYLENE 48 CYCLOHEPTANE 49 CYCLOHEXANE 50 CYCLOPENTENE 51 CY...

Page 51: ...NITROBENZENE 91 NITROETHANE 92 NITROGEN 93 NITROMETHANE 94 NITROUS OXIDE 95 OXYGE 96 PENTAFLUOROETHANE 97 PHENOL 98 PROPADIENE 99 PROPANE 100 PROPYLENE 101 PYRENE 102 STYRENE 103 SULFUR DIOXIDE 104 TOLUENE 105 TRICHLOROETHYLENE 106 VINYL CHLORID 107 WATER 108 Custom Fluid Custom Fluid Enter any custom fluid name if the one user wants to use is NOT in the Fluid List Enter any name for Custom Fluid ...

Page 52: ...ASME MFC 3 2004 ISA 1932 Nozzles Nozzle ISO5167 2003 Long Radius Nozzles Nozzle ISO5167 2003 Venturi Nozzles Nozzle ISO5167 2003 ISA 1932 Nozzles Nozzle GOST 8 586 2005 Long Radius Nozzles Nozzle GOST 8 586 2005 Venturi Nozzles Nozzle GOST 8 586 2005 ISA 1932 Nozzles Venturi ASME MFC 3 2004 As Cast Convergent Section Venturi ASME MFC 3 2004 Machined Convergent Section Venturi ASME MFC 3 2004 Rough...

Page 53: ...enturi Rough Welded Sheet Iron Inlet Leopold Venturi Gerand Venturi Universal Venturi Tube Low Loss Venturi Tube Nozzle Long radius Nozzle Venturi Preso Elipse Ave Pitot Tube Other Std compensation mode Pitot Tube When Algorithm Options SMV3000 ASME 1989 with Dynamic Corrections or Standard Flow Calc Standard ASME MFC 3M ISO5167 GOST AGA3 VCONE WAFER CONE ASME MFC 14M WEDGE AVERAGE PITOT TUBE INTE...

Page 54: ...00 Other When Flow Calc Standard is other than GOST 35Π 45Π 20XMΠ 12X18H9TΠ 15K 20K 22K 16ГC 09Г2C 10 15 20 30 35 40 45 10Г2 38XA 40X 15XM 30XM 30XMA 12X1MФ 25X1MФ 25X2MФ 15X5M 18X2H4MA 38XH3MФA 08X13 12X13 30X13 10X14Г14H14T 08X18H10 12X18H9T 12X18H10T 12X18H12T 08X18H10T 08X22H6T 37X12H8Г8MФБ 31X19H9MBБT 06XH28MдT 20Π 25Π When Flow Calc Standard is GOST ...

Page 55: ... 25X1MФ 25X2MФ 15X5M 18X2H4MA 38XH3MФA 08X13 12X13 30X13 10X14Г14H14T 08X18H10 12X18H9T 12X18H10T 12X18H12T 08X18H10T 08X22H6T 37X12H8Г8MФБ 31X19H9MBБT 06XH28MдT 20Π 25Π When Flow Calc Standard is GOST RULE When Algorithm ASME 1989 Algorithms for Pitot Tube Element Bore Material Pipe Material Bore Thermal Exp Coefficient_alpha_d Value is set based on the Bore Material selected RULE When Algorithm ...

Page 56: ...age 44 SMV800 Modbus User s Guide Revision 1 0 Process Data Screen Configure Viscosity and Density Coefficients Design Temperature Pressure Nominal Temperature Pressure values Max values and KUser factor ...

Page 57: ...ed for all the Fluids using the Polynomial of this order For Custom Fluid user can manually enter the coefficients Set this to 4 to use the highest polynomial order resulting in 5 Viscosity and 5 Density Coefficients Polynomial order 3 results in 4 Viscosity Density coefficients order 2 results in 3 Viscosity Density coefficients and so forth Relevant number of coefficients will be used in the Flo...

Page 58: ... Value cannot be 0 Max Differential Pressure When Algorithm Option ASME 1989 Algorithms Equation Model Standard Enter the value in the units selected in the Unit Configuration screen Value must be greater than or less than 0 but not 0 Flow Coefficient KUser ASME 1989 Algorithms Equation Model Standard Manual Input ON OFF Select this to ON to enter KUser value manually Select this to OFF to have DT...

Page 59: ...ndard Lower TempLimit Density TpMin Minimum Temperature to select the initial Temperature vs Density value in the polynomial equation for auto calculation of Density Enter the temperature value in the selected unit in the Unit Configuration screen Upper TempLimit Density TpMax Maximum Temperature to select the end point Temperature vs Density value in the polynomial equation for auto calculation o...

Page 60: ...Dynamic Corrections or Standard Std Gas N A N A N A N A N A N A Std liquid N A N A N A N A N A N A Std SHS N A N A N A N A N A N A Std Sat S N A N A N A N A N A N A SMV3000 ASME 1989 with Dynamic Corrections or Standard Dynamic Gas N A y y y y y Dynamic liquid N A y y y y y Dynamic SHS N A Water by default n a y n a y Dynamic Sat S N A N A N A N A N A N A SMV800 Newer Algorithms with All Dynamic C...

Page 61: ...Low High limits ASME 1989 Algorithms and Equation Model Dynamic Std Gas N A N A N A N A N A N A Std liquid N A y y y y y Std SHS N A N A N A N A N A N A Std Sat S N A N A N A N A N A N A ASME 1989 Algorithms and Equation Model Dynamic Dynamic Gas N A y y y y y Dynamic liquid N A y y y y y Dynamic SHS N A water n a y n a y Dynamic Sat S N A N A N A N A N A N A Advanced Algorithms Dynamic Gas N A y ...

Page 62: ...ion Parameters Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Manual Input Manual Input for Coefficient of Discharge_Cd ON OFF Coefficient of Discharge_Cd entry field when Manual Input is ON Manual Input for Expansion Factor_y ON OFF Expansion Factor_Y entry field When Manual Input is ON Manual Input for Temp Expansion Factor_Fa ON OFF Temp Expansion Factor_...

Page 63: ...ue will be 0 when Differential Pressure is 0 for Algorithm Options ASME 1989 Algorithms So if Reverse flow is expected select Algorithm Options Advanced Algorithms set Reverse Flow Calculation parameter ON Example When Reverse flow is ON PV4 is calculated considering the absolute value of DP when Differential Pressure is 0 and resulting Flwo value will be negative Example When Reverse Flow OFF DP ...

Page 64: ...1989 Algorithms When ON use Design Pressure for Flow Calculation when PV2 Static Pressure goes bad and PV2 Failsafe is OFF When OFF PV2 has no effect on Flow Calculation When Equation model is Dynamic Algorithm Option is Advanced Algorithms or ASME 1989 Algorithms this switch is always ON Temperature Comp Switch ON OFF Applicable when Equation Model is Standard Algorithm Option is ASME 1989 Algori...

Page 65: ...Switch ON When PV4 is mapped to output bad PV2 Process input or Sim value makes PV4 bad device goes to burnout PV4 calculated If the PV2 input becomes good Process input or Sim value device needs a power cycle to return to normal PV4 Simulated PV2 input good or bad Process input or Sim value PV4 is not dependent on PV2 If PV4 sim input is Bad device goes to Burnout If PV4 Sim input becomes good de...

Page 66: ...t If the PV3 input becomes good device returns to normal without power cycle if Critical Status Latching is OFF PV3 Sim Input If the PV3 input becomes good device returns to normal without a power cycle whether Latching is ON or OFF Case 2 This Switch ON When PV4 is mapped to output bad PV3 makes PV4 bad and device goes to burnout PV4 calculated If the PV3 input becomes good Process input or Sim v...

Page 67: ... equation uses Nominal Default Temperature Simulation Simulate Differential Pressure ON OFF User enters the values as selected in Unit Configuration screen Simulate Static Pressure ON OFF User enters the values as selected in Unit Configuration screen Simulate Temperature ON OFF User enters the values as selected in Unit Configuration screen Simulate Mass Flow ON OFF User enters the values as sele...

Page 68: ... Num_RnMax Lower limit for Reynolds number Applicable when Algorithm Options SMV3000 Equation Model Dynamic Isentropic Coefficient_k Isentropic Coefficient of Expansion Discharge Exponent 0 75 0 5 Applicable when Algorithm Options SMV3000 Equation Model Dynamic Based on the selected Primary element this is auto calculated Coefficient of Discharge in the Flow equation is calculated using Discharge ...

Page 69: ...meter and Flowing Temperature values are also used in the equation Bore Diameter Measuring Temp_TdMeas Bore diameter measuring Temperature Enter the value in the unit selected in the Unit Configuration screen For SMV3000 algorithms this value is fixed at 68degF For SMV800 Algorithms user entered Reference Temperature will be used to calculate the adjusted Diameter Note that other parameters like B...

Page 70: ...at are configured in above steps If the Raw Flow value given in review page is a valid number but the actual flow displayed in Flow Config screen is NAN then provide soft master reset to device Flow can be set to NAN if any of the parameters like viscousity and density becomes invalid based on algorithm type during run time configuration ...

Page 71: ...rd units used by the SMV into the desired custom units The standard units used by the SMV are Tonnes hour for mass flow Meters3 hour for volumetric flow For example to calculate the conversion factor for a volumetric flow rate of Standard Cubic Feet per Day SCFD Conversion Factor 847 552 For example to calculate the conversion factor for a mass flow rate of Kilograms per day kg day Conversion Fact...

Page 72: ...zer is in Run mode The Totalizer will increment during Forward positive flow and decrement during Reverse negative flow Note the Reverse Flow configuration setting must be enabled to calculate negative flow Positive Totalizer This is the Totalized Flow for Forward flow only The Positive Totalizer will increment when the Flow Rate is a forward flow positive flow value Negative Totalizer This is the...

Page 73: ...n Custom unit value in base unit conversion factor Totalizer Mode This parameter indicates the current mode of the Totalizer as RUN or STOP Start Stop Totalizer Start Totalizer Stop Totalizer This method will allow the user to Start the Totalizer or Stop the Totalizer Max Totalizer Value This is a user configurable value indicating the maximum Totalizer value When the Totalizer Value reaches this ...

Page 74: ... reset Totalizer Status This parameter indicates the current status of the Totalizer Value Possible values are Good Bad Totalizer OFF Simulation Mode Active Reset Totalizer Start Stop Reset Positive Totalizer Reset Negative Totalizer Reset Totalizer Exceed Counter This method will allow the user to Start or stop the totalizer Reset the Positive Totalizer to zero or to the configured Totalizer base...

Page 75: ...thod Bold italic Table or graph Error Log Error Log Flag Allows selection to Enable or Disable the Error Log Reset Error Log Allows resetting of the Error Log Diagnostics Advanced Diagnostics Write Install Dates Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Sensor Install Date One time writable installation date for the thermocouple or RTD sensor for measur...

Page 76: ...I Info The Table I portion of the device model number represents the temperature sensor input type available for this device Table II Info The Table II portion of the device model number indicates availability of Digital Output for this device Table III Info The Table III portion of the device model number indicates various materials of construction for this device Input Type Temp Sensor Input Ide...

Page 77: ...Identifies the installation of single or dual vent connection ports for the Meter Body Vent Drain Location Location details of the vent drain ports in the Meter Body Vent Material Material of construction for the Meter Body vent ports Gasket Material Material of construction for the Meter Body gaskets Meter Body and Connect Orientation The rotation orientation of the Meter Body process heads and p...

Page 78: ...dard or Namur General Configuration Identifies the configuration ordered with the device standard configuration or custom Accuracy Calibration Accuracy Only Standard Accuracy is available Calibrated Range Identifies the factory calibration selection ordered for this device Standard factory calibration or custom range for the three process inputs Differential Pressure Static Pressure Process Temper...

Page 79: ...Table or graph Device Address Slave device address range is 1 to 247 The device address field can be used to configure the device address Turnaround Delay Turn around delay range is 1 to 200 ms The Turnaround Delay time ms field can be used to configure the device s turnaround delay time it is the amount of time that the device takes to respond to a Modbus request Baud Rate Available baud rate 120...

Page 80: ...SMV800 Modbus User s Guide Revision 1 0 Review This tab provides information about all the device parameters User can not configure any of the parameters using this tab All parameters are read only in this tab ...

Page 81: ... the software Write Protection Tamper Alarm Soft reset and License Entry option to upgrade optional features Change WP Password This method is used to change the software write protect password Enter the old or previous password that needs to be changed Enter New Password that is used for enabling or disabling software write protection ...

Page 82: ...Page 70 SMV800 Modbus User s Guide Revision 1 0 ...

Page 83: ...ng serial number of device to TAC or Technical support Enter the Reset code shared by technical assistance in the screen shown below Enter License to enable features This method provides means to enable optional features such as Universal input and Compensated Flow Enter the License key recevied through TAC or technical support to upgrade device functionality to handle Universal or Compensated Flo...

Page 84: ... SMV800 Modbus User s Guide Revision 1 0 Enable Disable WP Software write protection can be enabled or disabled using this method by providing the user password Enter password to make write protection changes ...

Page 85: ... process variables and status The menu also provides infomration about the Optional features available with device Master reset provides soft reset to device Configure Tamper Alarm Use this method to configure Tamper feature parameters like Tamper Mode Latency and Maximum allowable attempts that device monitors to raise tamper alarm ...

Page 86: ...Page 74 SMV800 Modbus User s Guide Revision 1 0 Use method Reset Tamper Counter to reset the tamper attempts ...

Page 87: ... 75 2 4 2 Calibration Correction records This menu contains details of Factory Dual Triple calibration and methods to perform calbration of DP SP and PT 2 4 3 Review Maintenance This tab provides review information regarding maintematnce details ...

Page 88: ...erature are within 10 of respective range limits Comm Service Life Percent of the expected Service Life that the Communications Module has been in service Value is based on electronics temperature Service life accumulates faster at higher temperatures with an exponential relationship Power Up Diagnostics Power Cycles The total number of times the device has been reset by power cycle Power Cycle Ti...

Page 89: ...ature Module Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Temp Module Install Date The Temperature Module Installation Date Sensor Service Life Percent of the expected Service Life that the Temperature Module has been in service Value is based on electronics temperature Service life accumulates faster at higher temperatures with an exponential relationship...

Page 90: ...tion temperature CT CJ Up TimeStamp Displays time elapsed since the Temperature Processor Core temperature CT was last measured as higher than the Cold Junction temperature PT Tracking PT Low Alarm Limit The configured Low Alarm Limit for the Process Temperature input PT Low Alarm Counter The total number of minutes that the Process Temperature input has been below the PT Low Alarm Limit PT High A...

Page 91: ...ue of the Differential Pressure input DP Dn Count The total number of minutes that the Differential Pressure input has been below the lower stress limit DP Up Limit High Differential Pressure stress limit if the Differential Pressure input exceeds this limit the DP Up Count and DP Up Timestamp will be updated Value is equal to Max DP Limit minus 10 of limits range DP Up TimeStamp Displays time ela...

Page 92: ...inutes that the Meter Body Temperature MBT has been below the lower stress limit MBT Up Limit High Meter Body Temperature stress limit if the Meter Body Temperature exceeds this limit the MBT Up Count and MBT Up Timestamp will be updated Value is equal to Max MBT Limit minus 10 of limits range MBT Up TimeStamp Displays time elapsed since the Meter Body Temperature last measured as exceeding the MB...

Page 93: ...b provides review information regarding Error Log details Diagnostics Error Log Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Show Error Log Displays the last 10 error messages recorded and the elapsed time since the error occurred ...

Page 94: ...tab provides review information regarding Configuration History details Diagnostics Config History Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Config History Displays the parameters updated during the last five configuration changes ...

Page 95: ...Revision 1 0 SMV800 Modbus User s Guide Page 83 2 5 4 Review ...

Page 96: ...Revision 1 0 2 6 Monitoring 2 6 1 Faults This screen provides Critical and Non critical faults Alarms diagnosed by device when a fault is reported click on the fault to get details of description and resolution needed to clear the fault ...

Page 97: ...1 0 SMV800 Modbus User s Guide Page 85 2 6 2 Process Variables This screen provides device variables value Based on the selection of Process Variables 1 and 2 the header is updated to reflect the dynamic values ...

Page 98: ...Page 86 SMV800 Modbus User s Guide Revision 1 0 2 7 SMV 800 Modbus Host Menu tree Device Setup Menu ...

Page 99: ...Revision 1 0 SMV800 Modbus User s Guide Page 87 ...

Page 100: ...Page 88 SMV800 Modbus User s Guide Revision 1 0 ...

Page 101: ...Revision 1 0 SMV800 Modbus User s Guide Page 89 ...

Page 102: ...Page 90 SMV800 Modbus User s Guide Revision 1 0 ...

Page 103: ...Revision 1 0 SMV800 Modbus User s Guide Page 91 Maintenance Menu ...

Page 104: ...Page 92 SMV800 Modbus User s Guide Revision 1 0 2 7 1 Advanced Diagnotics Menu ...

Page 105: ...Revision 1 0 SMV800 Modbus User s Guide Page 93 2 7 2 Monitoring Menu ...

Page 106: ...cate the configuration in multiplicity of devices with lesser efforts The following are the tasks that you need to perform for importing offline configuration from SmartLIne Modbus Manager application software and then downloading it to the device Create offline configuration template Save the configuration in XML format Load the offline configuration Download the offline configuration to the devi...

Page 107: ... Basic Setup Parameters and click on save option 4 Only tabs which are applicable to Basic setup parameters will appear as shown below Navigate to all tabs and configure the required parameters ensure that the remaining parameters configured to default data ...

Page 108: ...Select Basic and Advanced Flow Setup Parameters and click on Save option Only tabs which are applicable to Basic and Advanced flow setup parameters will appear as shown below Navigate to all tabs and configure the required parameters ensure that the remaining parameters configured to default data ...

Page 109: ...ration a After Offline configuration done Right click on device and select Save Offline Configuration This option gets enable only when device disconnected b Browse the path to save offline configuration xml file Save button will be enabled after the file name is selected ...

Page 110: ...ata and which does not holds topology information 3 Load Offline Configuration a Load Offline configuration option used for loading the persisted xml data into the offline configuration of device package instance b Load Offline configuration option is provided in the context menu of Device and it will be enabled only device is disconnected c Click Browse button and browse for the persisted offline...

Page 111: ...validated with the device package instance information If validation succeeded xml data will be loaded in to the offline data source of device e Error message will be prompted to the end user in case of validation failure f Loaded data can be seen in the offline screens and it can be downloaded to the device by using Download option ...

Page 112: ...Page 100 SMV800 Modbus User s Guide Revision 1 0 ...

Page 113: ...y consists of the following steps in the host application which involves the comparison between two different files 1 Select the device from Device List 2 Right click on the device and click the Compare Offline Configuration from context menu 3 Select the configuration files xml that are alaredy saved ...

Page 114: ...ser Before start comparing the files the Compare button will be disabled and once the files are selected for comparison the button will be enabled to perform the comparison operation The selected File1 and File2 should have the same structure of the files If there is any invalid file is used for comparison Browse the appropriate file for comparison message will be displayed from the application On...

Page 115: ... be indicated in yellow for the modified values If user clicks button selected check box content from File 1 values will be copied to File 2 the respective cells will be highlighted in yellow for the modified values Once the modified value is copied to another file the enabled check box will be hidden as the same values will be existing in both the files Reset and Save buttons will be disabled by ...

Page 116: ......

Page 117: ...f data with the SMV800 Modbus It is expected that anyone creating such an interface has thorough understanding of the Modbus protocol Reference the Modicon Modbus Protocol Reference Guide PI MBUS 300 revision J published by Modicon Inc Industrial Automation System for further information 3 2 Modbus Communication Overview The SMV800 Modbus is a Modbus compatible measurement device The SMV800 Modbus...

Page 118: ...e codes When transmitters receive a query it will not respond until the command has been completed No subsequent commands will be processed until the first command is finish Table 3 1 Exception Response Codes Exception Response Description Explanation 01 Illegal function The received message function is not an allowable action for the transmitter 02 Illegal data address The address referenced in t...

Page 119: ...planation 01 Read Read coil status Read ON OFF status of one coil or consecutive coils 02 Read Read input status Read ON OFF status of one discrete input consecutive discrete input 03 Read Read holding register Read values of one or more holding registers 04 Read Read input registers Read values of one or more input registers 05 Write Force single coil Set coil to a specified ON or OFF state 06 Wr...

Page 120: ...rameters Table 3 3 Configuration History Parameters Name Description Parameter Size Order of Parameters for multiple parameters Slave Address 2 NA Turn around delay 2 NA Baud Rate and Parity 4 Baudrate Parity Process Temperature URV LRV 8 URV LRV Damping for Process Variables 20 DP SP PT Flow MBT Damping of DP 4 NA Damping of SP 4 NA Damping of PT 4 NA Damping of Flow 4 NA Damping of MBT 4 NA Flow...

Page 121: ...er record data 1 Byte 0x26 File Number 2 Bytes 0x0001 Record Number 2 Bytes 0x0001 Record Data Parameter id for Slave Address Parameter size Configuration history Data for Slave Address 27 Bytes 1 Byte 1 Bytes 32 Bytes 0x00 0x02 0x00 F7 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 So the last parameters that was in history record 1 is slave address whic...

Page 122: ...n the event of sensor malfunction the transmitter will return NAN Not A Number for the numeric value Table 3 4 Modbus Register for Process Variables Register number 16 bit Register number 32 bit Descriptiuon 400 401 N A Differential pressure 402 403 N A Static pressure 404 405 N A Process temperature 391 392 N A Flow 398 399 N A Meter body temperature 747 748 N A Totalizer 396 N A Meterbody temper...

Page 123: ...receiving a query from the host If the Turnaround Delay Time is set to one the device will respond as fast as it can The default Turnaround Delay is 50 miliseconds The registers shown in Table 3 6 provide statistics that may be used to gather diagonostics information about the communication between the device and the host The communication statistics will reset when SMV800 Modbus device loses powe...

Page 124: ... The lower trim value acts the same as zero trim The upper trim serves to adjust the span or slope of the device The trim value should be written to the appropriate Floating Point Registers in Table 3 5 For accurate calibration the user should be prompted to wait for the process variable to stabilize before attempting to trim the transmitter For best result a Lower Trim should be completed before ...

Page 125: ...evice If the problem persists after power cycle then board might be damaged so need to replace Communication module Bit 2 comm_section_r om_corrupt Communication board ROM Corruption Failure Power cycle the device If the problem persists after power cycle then board might be damaged so need to replace Communication module Bit 3 comm_section_f low_failure Communication module firmware Program Flow ...

Page 126: ...between communication and Temperature sensor board Terminal Board to ensure that it is not damaged Check for bent pins If cable connector is not the problem replace the Communication module If problem still persists replace the Terminal board Bit 7 comm_vcc _fault Power Supply failure Power cycle the device If problem persist Check the terminal voltage to be within limits If still problem persists...

Page 127: ...ess Memory RAM Power cycle the device If the problem persists replace the Meter Body Bit 4 pres_nvm _corrupt Pressure module is reporting corruption of the Non Volatile Memory data NVM Power cycle the device and if fault is cleared ensure to configure sensor parameters If the problem persists replace the Meter Body Bit 5 pres_ram _corrupt Pressure module is reporting corruption in the Random Acces...

Page 128: ...blem persists replace the Terminal Board Bit 15 temp_flow _control_fault Temperature module firmware Program Flow Failure This fault will get set if any of the critical part of the code is not executed after expected duration Power cycle the device If the problem persists replace the Terminal Board Device Variables Status 117 Bit 0 bad_DP The Differential Pressure input measurement is far outside ...

Page 129: ...eset the device If the problem persists replace the Meter Body Bit 5 bad_Totalizer The Totalizer calculation has failed Possible causes is same as that of Bad Flow Refer the steps for Bad Flow Bit 6 DP Above High Limit Differential pressure measured is above URV Verify that the DP input is within specifications and if so adjust URV as per need Bit 7 DP Below Low Limit Differential pressure measure...

Page 130: ...tical _failure This is a roll up status bit that is set when any of the pressure and temperature sensing modules non critical status is set such as Unreliable Communication Sensor Input Out Of Range CJ Out Of Limit Excess Calibration Correction CJ CT Delta Warning Refer detailed status bits corresponding to pressure module in register 121 and temperature module in register 120 Bit 2 cj_out_of_rang...

Page 131: ...ing setup frequently If configuration changes are required contact a qualified individual to unlock the Write Protection Mode feature and make the required updates Bit 6 low_supply _voltage The supply voltage to the transmitter power terminals is too low Any or all of these status is set Low supply voltage to the transmitter or Temp sensor module or Press Sensor or supply voltage to the transmitte...

Page 132: ...or configuration changes made If the problem still persists then NVM might be damaged so need to replace Communication board Bit 10 Comm VCC Fault The voltage supply to the Communication Module processor is outside the operational range of 2 8 to 3 2volts Power cycle the device If problem persist Check the terminal voltage to be within limits If problem continues replace the Communication module B...

Page 133: ...d process temperature range Bit 2 sensor_in1 _open The temperature sensor Thermocouple or RTD has an open input The sensor connections may be disconnected or broken Check the temperature sensor connections for disconnections or broken wires Repair the sensor connections Bit 3 sensor_input1 _out_of_range The temperature sensor is reading an out of range input value The value is outside the limits o...

Page 134: ... calculation Parameters to check For Primary Elements Algorithms other than Pitot Tube Algorithm Option ASME 1989 Algorithms and for any Elements including Average Pitot Tube Algorithm Option Advanced Algorithms Pipe Diameter D cannot be equal to Bore Diameter d d must be 0 D must be 0 d D For primary element algorithm Pitot Tube applicable to Algorithm Option ASME 1989 Algorithms only Pipe Diamet...

Page 135: ...to true process measurement Bit 7 15 Unused NA NA Information 120 Bit 0 adc_reference_f ault The reference voltage measurement in one of the two Analog to Digital Converter ADC parts in the Temperature module is not operating correctly The process temperature measurement may be affected Reset the device If the problem persists replace the Temperature module Bit 1 temp_unreliable _comm If there is ...

Page 136: ...d User Corrects Activated This is acknowledgement status for reset corrects performed by user Bit 6 bad TV Temperature module input bad Input out of range or may be open Use matching sensor suitable for the process range Reset the device replace the Temp Module if issue persists Bit 7 bad SV Temperature Module CJ measurement is bad Verify that the CJ sensor within the Temp sensor module is not out...

Page 137: ...n to factory default If required repeat the Pressure calibrations being careful to ensure that input during URV calibration URV Correct matches the configured pressure URV value Bit 2 char_calc_error The redundant integrity check on the Pressure measurement calculation indicates a failure Power Cycle the device If the problem persists replace the Pressure module Bit 3 sensor_overload _or_fault The...

Page 138: ...from the temperature source Bit 8 15 Unsed NA NA Information 122 Bit 0 common_db_co rrupt NVM copy of Common database block found corrupt Power cycle the device If the problem persists replace the transmitter Bit 1 vital_config_db_ corrupt NVM copy of Vital Configuration database block found corrupt Power cycle the device If the problem persists replace the transmitter Bit 2 general_config_ db_cor...

Page 139: ...les include differential pressure static pressure process temperature and flow Each variable status reading consists of two parts measurement quality and limit status These variable statuses are found in the register map for register Possible responses for measurement quality status Good Displays during normal device operation Poor Accuracy Indicates the accuracy of the variable measurement has be...

Page 140: ... Calib LowPt 12 5 Perform process temperature calibration at low point W Critical Alarm 49 1 Device critical alarm status R Warning Alarm 50 1 Device non critical alarm status R Differential Pressure Above Upper Limit 54 1 Status of differential pressure above upper limit R Differential Pressure Below Lower Limit 55 1 Status of differential pressure below lower limit R Static Pressure Above Upper ...

Page 141: ...acters RW ASCII Communication Module Firmware Version 9 Firmware revision of Comm Module RO Final assembly number 13 Assembly number of Transmitter RW uint32 Device Address 15 Modbus Device Slave Address RW uint8 Hardware revision 16 Transmitter Hardware revision RO Message 17 This field can hold numbers symbols upper case letters 16 characters RW ASCII Long tag 33 This field can hold numbers symb...

Page 142: ...onfig parameter All Passwords are in ASCII except the Reset Key W ASCII uint3 2 Transmitter Model type 55 Device Type 0x24 Multivariable Transmitter RO uint8 Transmitter Manufacturer 56 Manufacturer 0x17 Honeywell RO uint8 Flow Base Unit 57 Base unit is unit from which custom unit is derived RW uint8 Mass Flow Base Unit 70 g sec 71 g min 72 g h 73 kg sec 74 kg min 75 kg h 76 Kg d 77 t min Metric t...

Page 143: ...de Page 131 130 ft3 h 135 bbl day 22 gal s 24 L S 27 Cuft d 121 NmlCum h 122 NmlL h 123 StdCuft min 132 Bbl s 133 Bbl min 134 Bbl h 181 Nml m3 d 182 Nml m3 min 184 Std ft3 d 185 Bbl h 186 Nml m3 s 187 Nml m3 d 188 Nml m3 min 189 Std ft3 d ...

Page 144: ...m Unit Flow Rate 50 g sec Flow Rate in MyNewUnit will be 50 0 5 MyNewUnit RW uint8 Mass Flow Base Unit 70 g sec 71 g min 72 g h 73 kg sec 74 kg min 75 kg h 76 Kg d 77 t min Metric tons 78 t h Metric tons 79 MetTon d 80 lb sec 81 lb min 82 lb h 83 lb d 84 STon min 85 STon h 86 STon d 87 LTon h 88 LTon d 89 Custom Volume Flow Base Unit 19 m3 h 131 m3 min 28 m3 sec 29 m3 day 16 gal min 136 gal h 235 ...

Page 145: ... InH2O 4 deg C 239 mmH2O 4 deg C Static Pressure Unit 60 Static Pressure Units RW uint8 1 InH2O 68 deg F 2 InHg 0 deg C 3 FtH2O 68 deg F 4 mmH2O 68 deg F 5 mmHg 0 deg C 6 psi 7 bar 8 mbar 9 g SqCm 10 kg SqCm 11 Pa 12 kPa 13 Torr 14 Atm 145 InH2O 60 deg F 237 MPa 238 InH2O 4 deg C 239 mmH2O 4 deg C Process Temperature Unit 61 Process Temperature Unit RW uint8 32 degC 33 degF 34 degR 35 Kelvin Meter...

Page 146: ...me Flow Totalizer units lists 43 M3 46 Barrels J19 112 Ft3 166 Nm3 167 nLiters 41 Liters 168 scft 172 Scm 40 Gallons 253 Custom Unit Flow Custom Unit Tag 64 User defined Tag for custom unit selection This field can hold numbers symbols upper case letters 8 characters RW ASCII Totalizer Base Unit 68 Base unit is unit from which custom unit is derived for totalizer RW uint8 When Flow output type is ...

Page 147: ...Service 97 Total time that the Transmitter is in service in minutes RO uint32 Tamper Mode 99 Tamper detection parameters configuration change mode RW uint8 00 Disble 01 Enable Tamper Latency 100 Time in seconds for clearing Tamper alarm status after reading alarm status once RW uint8 Max Tamper Allowable Attempts 101 Maximum tamper attempts to set Tamper Alarm RW uint8 Tamper Attempt Counter 102 N...

Page 148: ...sure Sensor Comm Timeout Bit 6 Temp Sensor Comm Timeout Bit 7 Supply Vcc Failure Bit 8 Pressure Sensing Failure Bit 9 Temperature Sensing Failure Critical Faults Details 116 More Details of Crtical Faults RO uint8 Bit 0 Meterbody Failure Bit 1 Pressure Sensor Charactarization corrupt Bit 2 Pressure Suspect Input Bit 3 Sensor RAM DB Fault Bit 4 Pressure NVM Corrupt Bit 5 Pressure Sensor RAM Corrupt...

Page 149: ...Temperature measured is below LRV Bit 12 Meter body Temperature measured is above URV Bit 13 Field Meter body Temperature measured is below LRV Bit 14 Field Flow measured is above URV Bit 15 Field Flow measured is below LRV Warnings Status 1 118 Warnings Status 1 RO uint8 Bit 0 Communication Section Non Critical Failure Bit 1 Sensing Section NC Failure Bit 2 CJ Out Of Limit Bit 3 No Factory Calibr...

Page 150: ...issing Bit 3 Temperature Sensor Over Temperature Bit 4 Excess Calibration Correction Bit 5 User Corrects Activated Bit 6 Sensor input bad Bit 7 Sensor CJ Bad Bit 8 Sensor Input Failure Bit 9 Temperature Module Low Supply Press Mod Debug Information 1 121 Pressure Module Faults debug Information 2 RO uint8 Bit 0 Pressure Sensor Excess Zero Correction Bit 1 Pressure Sensor Excess Span Correction Bit...

Page 151: ...iew Screens Configuration database block found corrupt Bit 6 NVM copy of Display Common Configuration database block found corrupt Bit 7 NVM copy of Totalizer Configuration database block found corrupt Database Fault Information 2 123 Database Fault Information 2 RO uint8 Bit 0 NVM copy of Miscellaneous Configuration database block found corrupt Bit 1 NVM copy of totalizer value block is found cor...

Page 152: ...ide Part 4 165 Model Selection Guide MSG Part 4 RO ASCII Comm Module Temp Up Count 175 The total number of minutes that the Communications Module board Electronics Temperature ET has exceeded the upper stress limit ET Upper Limit RO uint32 Comm Module Temp Down Count 177 The total number of minutes that the Communications Modlue board Electronics Temperature ET has been below the lower stress limi...

Page 153: ...selection This field can hold numbers symbols upper case letters 8 characters RW ASCII Reserve 197 Reserve Address NA NA Totalizer Exceed Count 198 This value indicates the number of times the Totalizer Value has reached the userconfigured Maximum Totalizer Value RO uint16 Start Stop Totalizer M Reset Totalizer 199 Reset Totalizer Mode and Values RW uint16 Bit 0 Start Stop Set to 1 for Start Bit 1...

Page 154: ... NA N A DP Current Reset Corrects Time and Date 223 Current time record for DP Reset Correction RO uint32 N A DP Last Reset Corrects Time and Date 225 Last time record for DP Reset Correction RO uint32 N A DP Previous Reset Corrects Time and Date 227 Previous time record for DP Reset Correction RO uint32 N A SP Current URV Correction Time and Date 229 Current time record for SP URV Correction RO u...

Page 155: ...2 N A DP Down Count not used in AP or GP 258 The total number of minutes that the Differential Pressure input has been below the lower stress limit RO uint32 N A DP Up time stamp 260 Displays time elapsed since the Differential Pressure was last measured as exceeding the DP Up Limit RO uint32 N A DP down time stamp not used in AP or GP 262 Displays time elapsed since the Differential Pressure was ...

Page 156: ... on electronics temperature Service life accumulates faster at higher temperatures with an exponential relationship RO uint32 N A Flow Type 285 Shows the current Flow Output type When it is No Flow Output type Flow Rate output will be 0 Flow Calculation details status will be active until the device is power cycled R W uint8 Byte 0 Bit 0 to 3 0 No Flow Output 1 Ideal Gas Actual Volume Flow 2 Ideal...

Page 157: ...NDITIONAL ORIFICE 10 LEGACY SMV 3000 11 LEGACY LAMINAR FLOW 12 31 Reserved Byte 0 Bit 5 to 6 Reserved Discharge Exponent Shows Discharge Exponent setting This is user configurable parameter When the Reynolds Exponent is Off the value is 0 75 When ON the value is 0 5 Byte 0 Bit 7 0 0 75 1 0 5 Manual Input Switch 287 Shows currently selected Manual Input Switch This is user configurable parameter Co...

Page 158: ...SO 2 D 2 3 0x02 O CTaps ASME ISO 0x03 O D D 2Taps ASME ISO 0x04 O 2 5D 8DTaps ASME ISO 0x05 V MI ASME ISO 0x06 V RCI ASME ISO 0x07 V RW Sheet Iron Inlet ASME ISO 0x08 N ASME LR 0x09 V nozzle ISA Inlet 0x0A V Leopold 0x0B V Gerand 0x0C Uni V Tube 0x0D Lo Loss V Tube 0x0E PE 0 875inch for 2inch Pipe 0x0F PE 0 875inch for 2 5inch Pipe 0x10 PE 0 875inch for 3inch Pipe 0x11 PE 0 875inch for 4inch Pipe ...

Page 159: ...or 20inch Pipe 0x2A PE 2 25inch for 22inch Pipe 0x2B PE 2 25inch for 24inch Pipe 0x2C PE 2 25inch for 26inch Pipe 0x2D PE 2 25inch for 28inch Pipe 0x2E PE 2 25inch for 30inch Pipe 0x2F PE 2 25inch for 32inch Pipe 0x30 PE 2 25inch for 34inch Pipe 0x31 PE 2 25inch for 36inch Pipe 0x32 PE 2 25inch for 42inch Pipe 0x33 PE 2 25inch for gt42inch Pipe 0x34 Other Pitot Tube For Legacy Control SMV800 Metho...

Page 160: ...ost 8 586 ISA 1932 Nozzles 0x20 ASME MFC 3 V As Cast CSec 0x21 ASME MFC 3 V Machined CSec 0x22 ASME MFC 3 V RW CSec 0x23 IS05167 V As Cast CSec 0x24 IS05167 V M CSec 0x25 IS05167 V RW Sheet Iron CSec 0x26 Gost 8 586 V CU Cone Part 0x27 Gost 8 586 V MUCone Part 0x28 Gost 8 586 V WU ConePart made of Sheet Steel 0x30 APT 0x40 Std Vcone 0x41 Wafer Cone 0x50 Wedge 0x60 Integral Orifice 0x70 Small Bore ...

Page 161: ...ne Y Method This is user configurable parameter Byte 0 Bit 4 0 Use McCrometer Method 1 Use ASME Method VCone Simplified Liquid Shows currently selected VCone Simplified Liquid This is user configurable parameter Byte 0 Bit 5 0 Off 1 ON Use Wedge Fixed Flow Coefficient Shows currently selected Use Wedge Fixed Flow Coefficient This is user configurable parameter Byte 0 Bit 6 0 Off 1 ON Byte 0 Bit 7 ...

Page 162: ...Options Supports GOST material Standard R W uint8 When Flow Calc Standard is other than GOST 0 304 Stainless Steel 1 316 Stainless Steel 2 304 316 Stainless Steel 3 Corbon Steel 4 Hastelloy 5 Monel 400 6 Other When Flow Calc Standard is GOST 0 35Π 1 45Π 2 20XMΠ 3 12X18H9TΠ 4 15K 20K 5 22K 6 16ГC 7 09Г2C 8 10 9 15 10 20 11 30 35 12 40 45 13 10Г2 14 38XA 15 40X 16 15XM 17 30XM 30XMA 18 12X1MФ 19 25X...

Page 163: ...0 35 12 40 45 13 10Г2 14 38XA 15 40X 16 15XM 17 30XM 30XMA 18 12X1MФ 19 25X1MФ 20 25X2MФ 21 15X5M 22 18X2H4MA 23 38XH3MФA 24 08X13 25 12X13 26 30X13 PV Simulation Fail Safe 293 Configures Temperature and Static Pressure failsafe ON Off conditions Reverse Flow ON OFF condition and Simulation ON OFF conditions for Process Variables DP SP PT Flow R W uint8 Bit 0 0 Off 1 pv2 failsafe Bit 1 0 Off 1 pv3...

Page 164: ... factory calibration A B C for Diffrential Pressure RO uint8 0 CAL A 1 CAL B 2 CAL C 3 Best Fit Selected calibration set for SP 317 The currently selected custom factory calibration A B C for Static Pressure RO uint8 0 CAL A 1 CAL B 2 CAL C 3 Best Fit Available calibration set for SP 318 The available custom factory calibration A B C for Static Pressure RO uint8 0 CAL A 1 CAL B 2 CAL C 3 Best Fit ...

Page 165: ...p 340 Displays time elapsed since the Pressure Module Electronics Temperature last measured as exceeding the ET upper stress limit RO uint32 N A ET down time stamp 342 Displays time elapsed since the Pressure Module Electronics Temperature was last measured below the ET lower stress limit RO uint32 N A Reserve For Device Specific 376 NA RO uint32 N A Reserve For Device Specific 378 RO uint8 N A Te...

Page 166: ... Bit6 reserved Bit7 reserved Bit8 reserved Bit9 0 Off 1 dp below lower limit Bit10 0 Off 1 dp above upper limit Bit11 reserved Bit12 reserved Bit13 0 Off 1 warning alarm Bit14 0 Off 1 critical alarm Bit15 reserved Transmitter status2 407 Second byte of transmitter status RO uint8 Bit0 reserved Bit1 reserved Bit2 0 Off 1 lcd display communicationfailure Bit3 reserved Bit4 0 Off 1 mbt below lower li...

Page 167: ... Alarm Limit RO uint32 N A PT Lo Alarm Counter 413 The total number of minutes that the Process Temperature input has been below the PT Low Alarm Limit RO uint32 N A PT High Val TimeStamp 415 Displays the highest recorded value of Process Temperature and the time elapsed since the Process Temperature last exceeded the PT High Alarm Limit RO uint32 N A PT Low Val TimeStamp 417 Displays the lowest r...

Page 168: ...number of minutes that the Temperature Module cold junction temperature CJ has exceeded the upper stress limit RO uint32 N A CJ Temp down accumulator 433 The total number of minutes that the Temperature Module cold junction temperature CJ has been below the lower stress limit RO uint32 N A CJ Temp up time stamp 435 Displays time elapsed since the Temperature Module cold junction temperature CJ las...

Page 169: ...service Value is based on electronics temperature Service life accumulates faster at higher temperatures with an exponential relationship RO uint32 N A Power ups since transmitter installed 453 Total number of power cycle count since transmitter installed RO N A 0x0000000 TM Install Date 455 Temperature Module installed date R W uint32 N A Sensor Type Sensor Id Change Sensor Type Id M 458 The type...

Page 170: ...RO uint16 N A PT Prev LRV Correct Records 476 Previous time record for PT LRV Correction RO uint16 N A PT Curr Reset Records 478 Current time record for PT reset Correction RO uint16 N A PT Last Reset Records 480 Last time record for PT reset Correction RO uint16 N A PT Prev Reset Records 482 Previous time record for PT reset Correction RO uint16 N A Language 501 Western languages and Eastern lang...

Page 171: ...or 1 Resis 7 Totalizer 8 User Variable1 9 User Variable2 10 User Variable3 11 User Variable4 12 User Variable5 13 User Variable6 14 User Variable7 15 User Variable8 Display Unit 515 Engineering units code R W uint8 Decimals 516 Number of digits to display after the decimal point R W uint8 0 x 1 x x 2 x xx 3 x xxx PV Scaling 517 When Convert Units is selected the selected PV Selection parameter wil...

Page 172: ... connected 1 connected Language Package 553 shows type of language package loaded in advanced display RO uint8 0 None 1 Western Language Pack 2 Easter Language Pack User Variable 1 601 User defined varaible 1 R W float N A User Variable 2 603 User defined varaible 2 R W float N A User Variable 3 605 User defined varaible 3 R W float N A User Variable 4 607 User defined varaible 4 R W float N A Use...

Page 173: ...alue R W float N A User Var8_URV 647 User defined variable 8 upper range value R W float N A Reserve For Device Specific 649 NA NA NA DP URV 667 Diffrential pressure upper range value RW float DP LRV 669 Diffrential pressure lower range value RW float DP URL 671 The Upper Range Limit for the Differential Pressure input RO float DP LRL 673 The Lower Range Limit for the Differential Pressure input R...

Page 174: ...Flow cutoff When the flow drops below this value the flow output will be forced to 0 RW float Flow Cutoff High 711 The upper value for Low Flow cutoff The flow will not exit the low flow cutoff state 0 flow until the flow exceeds this value RW float Comm stress life 713 Percent of Communication Module service life spent in stressful conditions Indicates the of service life where one or more of pro...

Page 175: ...is maximum value it automatically resets to zero and continues totalizing It also increments the Exceed Counter On a Negative Totalizer Max value with a decreasing Total Flow value Totalizer will reset only on crossing the negative max value Ex Totalizer Max 1000lb On an emptying Tank say Totalizer reaches 100 200 300 etc Even though 100 200 etc are greaterthan 1000 this does not cause Totalizer R...

Page 176: ...t the Reverse Flow configuration setting must be enabled to calculate negative flow RO float N A Positive Totalizer value 755 This is the Totalized Flow for Forward flow only The Positive Totalizer will increment when the Flow Rate is a forward flow positive flow value RO float N A Reserved for device specific 757 RO Reserved for device specific 759 RO Differential Pressure UTL 765 Differential Pr...

Page 177: ...V trim point at which factory A calibration was performed RO Float N A Factory Calibration B DP URV Trim Point 797 The DP URV trim point at which factory B calibration was performed RO Float N A Factory Calibration B DP LRV Trim Point 799 The DP LRV trim point at which factory B calibration was performed RO Float N A Factory Calibration C DP URV Trim Point 801 The DP URV trim point at which factor...

Page 178: ...ot used in AP or GP devices 821 Minimum value of DP recorded with a time and date stamp with units of seconds since the event RO Float N A SP max not used in AP or GP 823 maximum value of SP recorded with a time and date stamp with units of seconds since the event RO Float N A MB Temp max 825 Maximum value of meter body temperature recorded with a time and date stamp with units of seconds since th...

Page 179: ...serve For Device Specific 841 NOT USED RO Float Reserve For Device Specific 843 NOT USED RO Float Reserve For Device Specific 845 NOT USED RO Float Reserve For Device Specific 847 NOT USED RO Float Reserve For Device Specific 849 NOT USED RO Float Reserve For Device Specific 851 NOT USED Reserve For Device Specific 853 NOT USED R W Float Reserve For Device Specific 855 NOT USED RO Float Reserve Fo...

Page 180: ...ients 4 R W Float N A V5 893 Viscosity polynomial coefficients 5 R W Float N A Tu_min 895 Lower Temperature Limit Viscosity R W Float N A Tu_max 897 Upper Temperature Limit Viscosity R W Float N A k 899 Isentropic coefficient R W Float N A atmosphere 901 Local Atmosphere Pressure R W Float N A MnInDensity 903 Manually Input Density Value R W Float N A MnInViscos 905 Manually Input Viscosity Value ...

Page 181: ...sibility R W Float N A Gi 945 Specific Gravity of Ideal Gas R W Float N A Qmax 947 Max Flowrate on Sizing of Vcone R W Float N A DPmax 949 Maximum DP on Sizing for VCone R W Float N A gostRaWB 951 Pipe Roughness for Gost or Beta R W Float N A gostrH 953 Initial Radius R W Float N A gostTy 955 Inter Control Interval R W Float N A Reserve For Device Specific 956 1000 N A N A Reserve For Device Speci...

Page 182: ...Temperature R W Float N A Reserve For Device Specific 1027 N A N A PV1 max 1029 Process Temperature maximum Value RO Float N A PV1 min 1031 Process Temperature minimum Value RO Float N A ET max 1033 Temperature sensor module Electronic Temperature Maximum Value RO Float N A ET min 1035 Temperature sensor module Electronic Temperature Minimum Value RO Float N A CJ Temp max 1037 CJ Temperature Maxim...

Page 183: ...1 Value 1059 Bias1 Value R W Float N A Fixed CJ Compensation Value 1061 Fixed CJ Compensation Value R W Float N A CVD coefficient R0 1063 CVD coefficient R0 R W Float N A CVD coefficient α 1065 CVD coefficient α R W Float N A CVD coefficient δ 1067 CVD coefficient δ R W Float N A CVD coefficient β 1069 CVD coefficient β R W Float N A Reserve For Device Specific 1071 N A Reserve For Device Specific...

Page 184: ...t the Totalizer is in Run mode The Totalizer will increment during Forward positive flow and decrement during Reverse negative flow Note the Reverse Flow configuration setting must be enabled to calculate negative flow RO double N A Positive Totalizer value 1350 This is the Totalized Flow In double for Forward flow only The Positive Totalizer will increment when the Flow Rate is a forward flow pos...

Page 185: ...e following sections describe for pressure and temperatue measurement range How to perform a two point calibration of a transmitter How to perform a correct reset to return a transmitter calibration to its default values It is suggested to use SMV Modbus PC based application tool for quicker calibration of transmitter instead of manually writng each Modbus register defined for respective calibrati...

Page 186: ...ration using SMV Modbus Manager application tool The Differential Pressure Calibration screen has following options 1 DP URV Correct 2 DP LRV Corrrect 3 DP Reset Corrects 4 DP Zero Trim 5 Records that include Current Last and Previous Calibration Corrects dates By default Records show the date as Jan 01 1972 Filter Performace option is provided for process where Noise has to be considered during c...

Page 187: ...te the date in the DDMMYY format in the calibration time and date register Register address 125 126 The date to be written as month and day followed by the year Year to be entered as year 1900 For example to enter calibration date as June 10th 2018 write to register 125 126 as 0x0A067600 3 Adjust the PV input Pressure to the exact value of the LRV 4 Write to single coil address 3 as ON Correcting ...

Page 188: ...tors to the signal terminals of the Transmitter s terminal block 2 Connect the precision pressure source to the high pressure side of the DP type Transmitter 3 Turn on the power supply and allow the Transmitter to become stable 4 Launch SMV Modbus application connect to the device and go to the DP Calibration screen as show below DP Calibration is available at Maintenance Calibration and Correctio...

Page 189: ...tic Pressure Calibration to perform SP Calibration using SMV Modbus Manager application tool The Static Pressure Calibration screen has following options 1 SP URV Correct 2 SP LRV Corrrect 3 SP Reset Corrects 4 SP Zero Trim 5 Records that include Current Last and Previous Calibration Corrects dates By default Records show the date as Jan 01 1972 ...

Page 190: ...ble at Maintenance Calibration and Correction Records Static Pressure Calibration 5 Adjust the pressure source to apply pressure equal to the LRV 0 and 6 Click on SP LRV Correct button follow the on screen prompts Calibrate manually by writing to Modbus registers 1 Write the LRV value for which the correction is required to the registers 677 678 2 Write the date in the DDMMYY format in the calibra...

Page 191: ...required to the registers 675 676 2 Write the date in the DDMMYY format in the calibration time and date register Register address 125 126 The date to be written as month and day followed by the year Year to be entered as year 1900 For example to enter calibration date as June 10th 2018 write to register 125 126 as 0x0A067600 3 Adjust the SV input Pressure to the exact value of the URV 4 Write to ...

Page 192: ...June 10th 2018 write to register 125 126 as 0x0A067600 2 Write to single coil address 9 as ON 4 1 3 Process temperature sensor calibration Navigate to Maintenance Calibration and Correction Records Process Temperature Calibration to perform PT Calibration using SMV Modbus Manager application tool The Process Temperature Calibration screen has following options 1 PT High Point Calibration 2 PT Low ...

Page 193: ...cess Temperature Calibration 5 Adjust the temperature source to apply value equal to the Lower Calibration Point and when the temperature stabilizes wait for 5 seconds and press ok 6 Click on PT Low Point Calibration button and follow the on screen prompts Calibrate manually by writing to Modbus registers 1 Write the low point calibration value for which the correction is required to the registers...

Page 194: ...cess Temperature Calibration 5 Adjust the temperature source to apply value equal to the High Calibration Point and when the temperature stabilizes wait for 5 seconds and press ok 6 Click on PT High Point Calibration button and follow the on screen prompts Calibrate manually by writing to Modbus registers 1 Write the high point calibration value for which the correction is required to the register...

Page 195: ... screen as show below PT Calibration is available at Maintenance Calibration and Correction Records Process Temperature Calibration 4 Click on PT Reset Corrects button follow the on screen prompts Reset Corrects for Process Temperature manually by writing to Modbus registers 1 Write the date in the DDMMYY format in the calibration date register Register address 125 126 The date to be written as mo...

Page 196: ... new range is written new URV and LRV values or the selection is changed If all three calibrations have not been performed at the factory then set A is selected and the default values have no effect on the Process Values Navigate to Maintenance Calibration and Correction Records and select the Required Calibration option in the drop down box Differential Pressure Factory Calibration for Differenti...

Page 197: ...s provided for user to write defined simulated values to device When the device is power cycled the configuration is lost device reports the actual values as measured To enable simulation of device variables navigate to Device Setup Advanced Flow Setup Flow Configurations screen as given below Check the box Simulation On for individual device variable and enter the value and continue the Flow conf...

Page 198: ...roblem with the SMV800 Modbus Transmitter Symtom Corrective action No communication between Honeywell SMV800 Modbus transmitter interface software and the transmitter 1 Check proper voltage across the power terminal of the transmitter 9 5V 30 Vdc 2 Check Com port selected correctly No communication between transmitter and host 1 Check proper voltage across the power terminal of the transmitter 9 5...

Page 199: ...ost and transmitter 8 Verify the transmitter Address 9 The turn around delay time for the transmitter may be too fast for host Try using longer time 10 The RTU may be polling too fast and cutting off the transmitter response message Try adjusting polling time on RTU 11 Verify the software for the host is functioning properly ...

Page 200: ...mmunication board ROM Corruption Failure Power cycle the device If the problem persists after power cycle then board might be damaged so need to replace Communication module Bit 2 Program Flow Failure Communication module firmware Program Flow Failure This fault will get set if any of the critical part of the code is not executed after expected duration Check the connection between communication a...

Page 201: ...tor between communication and Temperature sensor board Terminal Board to ensure that it is not damaged Check for bent pins If cable connector is not the problem replace the Communication module If problem still persists replace the Terminal board Bit 6 Comm Vcc Failure Power Supply failure Power cycle the device If problem persist Check the terminal voltage to be within limits If still problem per...

Page 202: ...Memory RAM Power cycle the device If the problem persists replace the Meter Body Bit 3 Pressure NVM Corrupt Pressure module is reporting corruption of the Non Volatile Memory data NVM Power cycle the device and if fault is cleared ensure to configure sensor parameters If the problem persists replace the Meter Body Bit 4 Sensor RAM Corrupt Pressure module is reporting corruption in the Random Acces...

Page 203: ...Power cycle the device and if fault is cleared ensure to configure sensor parameters If the problem persists replace the Terminal Board Bit 12 Sensor RAM Failure Temperature module is reporting corruption in the Random Access Memory RAM Power cycle the device If the problem persists replace the Terminal Board Bit 13 Sensor Code Corrupt Temperature module is reporting corruption in sensor firmware ...

Page 204: ...er 116 status bits for more details and resolution Verify that all inputs are within specifications Bit 2 Bad SP The Static Pressure input measurement is far outside the specified range The meter body may be damaged The status is set if any of the critical faults is set Refer register 116 status bits for more details and resolution Verify that all inputs are within specifications Bit 3 Bad Flow Th...

Page 205: ... adjust LRV as per need Bit 9 New Field Process Temperature measured is above URV Verify that the temperature input is within specifications and if so adjust URV as per need Bit 10 New Field Process Temperature measured is below LRV Verify that the temperature input is within specifications and if so adjust LRV as per need Bit 11 New Field Meter body Temperature measured is above URV Verify that t...

Page 206: ...ter 121 and temperature module in register 120 Bit 1 CJ Out Of Limit The Internal Cold Junction Temperature CJ measured in the Temperature module is outside of the specified range Range limits are 40 to 85 degrees C Verify that the environmental temp is within spec If it is Temperature module may have been damaged Replace the Temperature module Bit 2 No Factory Calibration This is roll up status b...

Page 207: ...Tamper Alarm enabled Warning stays active until the specified Tamper latency period has elapsed If needed set the Tamper attempt to maximum value 10 or disable the Tamper alarm during setup stages of the device to avoid alarm being setup frequently If configuration changes are required contact a qualified individual to unlock the Write Protection Mode feature and make the required updates Bit 5 Lo...

Page 208: ...e is reporting corruption of the Non Volatile Memory data NVM related to display screen configuration Power cycle the device If the problem is not seen verify the parameters for configuration changes made If the problem still persists then NVM might be damaged so need to replace Comms board Bit 9 Communication Module VCC Failure The voltage supply to the Communication Module processor is outside t...

Page 209: ... process temperature range Bit 1 Sensor Input Open The temperature sensor Thermo couple or RTD has an open input The sensor connections may be disconnected or broken Check the temperature sensor connections for disconnections or broken wires Repair the sensor connections Bit 2 Sensor Input Out of Range The temperature sensor is reading an out of range input value The value is outside the limits of...

Page 210: ...lation Parameters to check For Primary Elements Algorithms other than Pitot Tube Algorithm Option ASME 1989 Algorithms and for any Elements including Average Pitot Tube Algorithm Option Advanced Algorithms Pipe Diameter D cannot be equal to Bore Diameter d d must be 0 D must be 0 d D For primary element algorithm Pitot Tube applicable to Algorithm Option ASME 1989 Algorithms only Pipe Diameter D m...

Page 211: ... 6 119 DP SP PT FLOW Simulation Mode Process variables simulation enabled This bit is set when any of the process variables like DP SP PT and Flow are configured for Simulation Simulation mode sim is enabled for the Diff Static Press Process Temp or Flow Sim mode simplifies testing of flow calc prior to online operation nWhile conducting testing the status indicates that sim is being used When tes...

Page 212: ...If problem still persists replace the Terminal board Bit 1 Temperature module Factory Calibration missing Temperature sensor module factory calibration is missing Return the device for Factory Calibration Bit 2 Temperature Sensor Over Temperature The Process Temperature input exceeds the Temperature Upper Range Limit URL as determined by the configured Sensor Type Check the process temperature If ...

Page 213: ...ensor module is not outside of the operating temp limits 40 to 85 degC Reset the device replace the Temp Module if issue persists Bit 7 Sensor Input Failure Fault is set if Temperature module input failue faulty sensor out of range input open Replace the faulty sensor if that is the reason Select suitable sensor type for the process Reset the device replace the Temperature Module if issue persists...

Page 214: ...form a Reset Corrects on the DP and or SP Pressure Calibration to reset the User calibration to factory default If required repeat the Pressure calibrations being careful to ensure that input during URV calibration URV Correct matches the configured pressure URV value Bit 1 Char Calc Error The redundant integrity check on the Pressure measurement calculation indicates a failure Power Cycle the dev...

Page 215: ...quality between the Communication Module and Pressure Sensor is degrading Either the transmitter is installed in a noisy environment or internal communication quality between the Communication Module and Pressure Sensor module is degrading Verify the connector for bent pins If cable connector is not the problem replace the Communication module If problem still persists replace the Terminal board B...

Page 216: ...replace the transmitter Bit 3 Advance Diagnostics DB Corrupt NVM copy of Advanced Configuration database block found corrupt Power cycle the device If the problem persists replace the transmitter Bit 4 Display View Config DB Corrupt NVM copy of Display View Screens Configuration database block found corrupt Power cycle the device If the problem persists reconfigure Display Screen parameters If sti...

Page 217: ... totalizer value block is found corrupt Power cycle the device If the problem persists replace the transmitter Bit 2 Flow Parameter DB Corrupt NVM copy of advance flow value block is found corrupt Power cycle the device If the problem persists replace the transmitter Bit 3 Backup Totalizer Value DB Corrupt NVM copy of totalizer value back up block is found corrupt Power cycle the device Bit 4 User...

Page 218: ...nse code to reset PIN A tamper detection feature see section 5 of this document for more details is available that can indicate that an attempt was made to change either the configuration or calibration of the device whether a change was made or not These security features are designed to avoid accidental changes and to provide a means to detect if an attempt was made to change the configuration a...

Page 219: ...ow Parameters 56 I Introduction 1 L Local Display 13 M Maintenance 69 Meterbody Details 64 Meterbody Temperature Config 28 MODBUS COM Config 67 Modbus Communication 105 Diagnostics 114 Modbus Host Menu 86 Advanced Diagnotics Menu 92 Monitoring Menu 93 Monitoring 84 Faults 84 Process Variables 85 N Name Plate 3 O Offline Configuration 94 Operation and Maintenance 174 Calibration 174 P Patent Notice...

Page 220: ...istributor contact one of the offices below ASIA PACIFIC Honeywell Process Solutions TAC hfs tac support honeywell com Australia Honeywell Limited Phone 61 7 3846 1255 FAX 61 7 3840 6481 Toll Free 1300 36 39 36 Toll Free Fax 1300 36 04 70 China PRC Shanghai Honeywell China Inc Phone 86 21 5257 4568 Fax 86 21 6237 2826 Singapore Honeywell Pte Ltd Phone 65 6580 3278 Fax 65 6445 3033 South Korea Hone...

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