Page 1 SMV800 MultiVariable Transmitter Modbus Communication User's Guide 34-SM-25-09 Revision 1.0 August 2018 Honeywell Process Solutions...
Page 2 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.
Page 3 About This Document This guide provides the details of programming Honeywell SMV800 Multivariable Transmitters for applications involving Modbus protocol. For installation, wiring, and maintenance information, refer to the SMV800 Multivariable Transmitter User Manual, Document # 34-SM-25-03. The configuration of your transmitter depends on the mode of operation and the options selected for it with respect to operating controls, displays and mechanical installation.
Page 4 Patent Notice The Honeywell SMV800 Multivariable Transmitter family is covered by one or more of the following U. S. Patents: 5,485,753; 5,811,690; 6,041,659; 6,055,633; 7,786,878; 8,073,098; and other patents pending. Support and Contact Information For Europe, Asia Pacific, North and South America contact details, see back page or refer to the...
Page 5 Functional earth terminal: Used for non-safety purposes such as noise immunity improvement. NOTE: This connection shall be bonded to Protective Earth at the source of supply in accordance with national local electrical code requirements. Revision 1.0 SMV800 Modbus User's Guide Page v...
Page 6 The Ex mark means the equipment complies with the requirements of the European standards that are harmonized with the 94/9/EC Directive (ATEX Directive, named after the French "ATmosphere EXplosible"). Page vi SMV800 Modbus User's Guide Revision 1.0...
Page 7 A device which is responsible for keeping a link operational. The LAS executes the link schedule, circulates tokens, distributes time messages and probes for new devices. Low Pressure (also, Low Pressure side of a Differential Pressure Transmitter) Lower Range Limit Lower Range Value Revision 1.0 SMV800 Modbus User's Guide Page vii...
Page 8 Process Variable Printed Wiring Assembly Process Temperature Radio Frequency Interference Resistance Temperature Detector Stack The software component that implement the Foundation Modbus communications protocol specifications, including FMS, FAS, DLL, SM and NM. Page viii SMV800 Modbus User's Guide Revision 1.0...
Page 9 For example, to establish communications between a transducer block and a function block, a VCR must be defined at the transducer block and a VCR must be defined at the function block. Revision 1.0 SMV800 Modbus User's Guide Page ix...
Page 10: Table Of Contents
1.2.2.2. Configuration Change History ................2 1.2.3. Physical Characteristics ..................2 1.2.4. Functional Characteristics ..................3 SMV800 Transmitter Name Plate ..............3 CONFIGURATION ................. 4 Software installation and setup ..............4 2.1.1. System requirements..................... 4 2.1.2. Hard Disk Space: ....................4 2.1.3.
Page 11 Device not visible on the network ..............186 Alarms and conditions ................188 5.3.1. Below table shows all alarms and condition for SMV800 Modbus device..188 SECURITY ................. 206 Security Guidelines ..................206 How to report a security vulnerability ............206 Revision 1.0...
Page 12 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: SMV800 Modbus Holding Registers ..........129 Figures Figure 1-1: SMV800 Major Assemblies ............2 Figure 1-2: Typical SMV800 Name Plate ............3 Figure 2-1: Typical Volumetric Flow Range Setting Values ......
Page 13: Introduction
1. Introduction Overview This section is an introduction to the physical and functional characteristics of Honeywell’s family of SMV800 Modbus transmitters. Features of the transmitter The SMV800 SmartLine Multivariable transmitter type SMV800 Modbus supports standard Modbus RTU transmission mode with measurement capability of process...
Page 14: Advanced Diagnostics
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 protocol for the different pressure measurement types.
Page 15: Functional Characteristics
Product I.D. nameplate (see Figure 1-2). Figure 1-2 is an example of a SMV800 for the name plate information. The model number format consists of a Key Number with several table selections. Figure 1-2: Typical SMV800 Name Plate E.g. SMA810, SMA845 or SMG870 You can readily identify the series and basic transmitter type from the third and fourth digits in the key number.
Page 16: Configuration
Screen Resolution at least 1280x1024, 1280x960, 1280x800 pixels 2.1.2. Hard Disk Space: The Modbus Host requires minimum 250MB Hard Disk space. 2.1.3. Downloads Download: Honeywell PC based Modbus Host application “ SmartLine Modbus Manager” from HPS websites given below https://www.honeywellprocess.com/all-downloads.aspx https://www.honeywellprocess.com/smartline-smv800-multivariable-transmitter.aspx...
Page 17: Installing
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. Revision 1.0 SMV800 Modbus User's Guide Page 5...
Page 18 4. Installing the Modbus SMV Host screen will appear. 5. Installation finished screen will appear, click on Finish button. Page 6 SMV800 Modbus User's Guide Revision 1.0...
Page 19: Getting Started
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. Revision 1.0 SMV800 Modbus User's Guide Page 7...
Page 20 7. Right click on the device using which the user wants to connect and click on Connect manually. 8. Connection Wizard will appear. Page 8 SMV800 Modbus User's Guide Revision 1.0...
Page 21: Launching The Configuration Process
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. Revision 1.0 SMV800 Modbus User's Guide Page 9...
Page 22 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 10 SMV800 Modbus User's Guide Revision 1.0...
Page 23: Device Setup
Device Setup 2.3.1. Device information This tab provides the detail information about the device. Revision 1.0 SMV800 Modbus User's Guide Page 11...
Page 24 Key: Plain = Read only Bold = Configurable Bold underline = Method Bold italic = Table or graph Manufacturer Honeywell Device Model Displays Model or Device Type of SMV800 Transmitter Device Revision Displays Field Device Revision of the SMV800 Transmitter Software Rev...
Page 25 (3 to 30 seconds) Screen Rotation Select to enable or disable screen rotation. Contrast Level Select the level of contrast for the Display (default = 5, or select levels 1(low) to 9 (high)) Revision 1.0 SMV800 Modbus User's Guide Page 13...
Page 26 PV selected (1,2, or 3 decimal places) Enter a custom tag for the display screen up to 14 characters if desired. If no custom tag is entered, a default tag consistent with the PV selection will be used. Page 14 SMV800 Modbus User's Guide Revision 1.0...
Page 27 PV displayed by this screen PV Scaling The PV Scaling selection for this screen Trend Duration The trend duration selected for this screen if PV & trend was configured for screen format. Revision 1.0 SMV800 Modbus User's Guide Page 15...
Page 28: Differential Pressure Configuration
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 Diffrential Pressure parameters. Page 16 SMV800 Modbus User's Guide Revision 1.0...
Page 29 The Lower Transducer Limit for the Differential Pressure input • Write a new Lower Range Value and DP LRV Write DP Range Values • Upper Range Value for the Differential DP URV Revision 1.0 SMV800 Modbus User's Guide Page 17...
Page 30: Table 2-1: Pre-Programmed Engineering Units For Dp
(default = 100 inH2O@39.2 °F for SMV models SMA845 and SMG870) (default = 10 inH2O@39.2 °F for SMV models SMA810) Damping Adjust the damping time constant for Differential Pressure to reduce the output noise. Default value of damping is 0.5 seconds. Page 18 SMV800 Modbus User's Guide Revision 1.0...
Page 31: Static Pressure Configuration
(68 ● mmH2O (68 ● mmHg (0 ● ● ● mbar ● g/cm2 ● kg/cm2 ● ● ● Torr ● ● inH2O@60 ● ● inH2O@4 C (39.2 ● mmH2O@4 C (39.2 Revision 1.0 SMV800 Modbus User's Guide Page 19...
Page 32 Write SP Range Values Write a new Lower Range Value and  SP URV Upper Range Value for the Static Pressure Sensor Type Shows type of pressure sensor. Absolute Pressure Sensor and Gauge Pressure sensor Page 20 SMV800 Modbus User's Guide Revision 1.0...
Page 33: Table 2-2: Pre-Programmed Engineering Units For Sp
SP —Absolute Pressure SMV Models - SMA810 and SMA845 SP —Gauge Pressure -SMG870 Table 2-2 SP Engineering Units. Select one of the preprogrammed engineering units in for display of the SP measurements. Revision 1.0 SMV800 Modbus User's Guide Page 21...
Page 34 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 have selected. ATTENTION: The range for static pressure is (as measured at the high-pressure port of the meter body).
Page 35: Flow Configuration
0.00 to 32.00 seconds. The upper limit for Flow damping is 100. Flow URL The Upper Range Limit for the Flow input (editable) Flow LRL The Lower Range Limit for the Flow input Revision 1.0 SMV800 Modbus User's Guide Page 23...
Page 36  Flow Cutoff Lo Lmt Write Flow CutoffLimits Allows the user to configure new values for the  Flow Cutoff Hi Lmt low and high cutoff limits for the Low Flow Cutoff option Page 24 SMV800 Modbus User's Guide Revision 1.0...
Page 37: Table 2-3: Pre-Programmed Volumetric Flow Engineering Units For Flow
Pounds per Minute lb/h Pounds per Hour lb/sec Pounds per Second Tonnes per Hour (Metric Tons) t/min Tonnes per Minute (Metric Tons) t/sec Tonnes per Second (Metric Tons) Grams per Hour Revision 1.0 SMV800 Modbus User's Guide Page 25...
Page 38: Figure 2-1: Typical Volumetric Flow Range Setting Values
The LRV and URV set the desired zero and span points for your calculated measurement range as shown in the example in Figure 2-1. Figure 2-1: Typical Volumetric Flow Range Setting Values Page 26 SMV800 Modbus User's Guide Revision 1.0...
Page 39 Note that you configure limit values in selected engineering units between 0 to 30% of the upper range limit for Flow. If either simulation of flow is enabled or reverse flow is enabled then low and high cut off values have no effect on flow output. Revision 1.0 SMV800 Modbus User's Guide Page 27...
Page 40: Meterbody Temperature Config
0.00 to 32.00 seconds. Meter Body Temperature URL The Upper Range Limit for the Meter body Temperature value Meter Body Temperature LRL The Lower Range Limit for the Meter body Temperature value Page 28 SMV800 Modbus User's Guide Revision 1.0...
Page 41: Process Temperature Configuration
102. Entries may be any value from 0.00 to 32.00 seconds. Process Temperature URL The Upper Range Limit for the Process Temperature input Process Temperature LRL The Lower Range Limit for the Process Temperature input Revision 1.0 SMV800 Modbus User's Guide Page 29...
Page 42 4-wire RTD type Write RTD Type** Select 2-wire, 3-wire or 4-wire RTD sensor type to be used for measuring the Process Temperature * for T/C sensor configurations only ** for RTD sensor configurations only Page 30 SMV800 Modbus User's Guide Revision 1.0...
Page 43: Table 2-5: Pre-Programmed Engineering Units For Pt
RTD input or volt input for T/C input. Also, if you do switch from linear to non-linearized or vice versa, be sure you verify the LRV and URV settings after you enter the configuration data. Revision 1.0 SMV800 Modbus User's Guide Page 31...
Page 44: Table 2-6: Sensor Types For Process Temperature Input
-250 to 400 -418 to 752 ATTENTION: Whenever you connect a different sensor as the transmitter’s input, you must also change the sensor type configuration to agree. Otherwise, range setting errors may result. Page 32 SMV800 Modbus User's Guide Revision 1.0...
Page 45 Process Temperature Config tab. • LRV, enter the lower range value (default = 0.0) • URV, enter the upper range value (default = URL) Revision 1.0 SMV800 Modbus User's Guide Page 33...
Page 46: Figure 2-2: Rtd Range Configuration
Figure 2-3: Current Range Settings Damping Adjust the damping time constant for Process Temperature to reduce the output noise. Default value of damping is 0.5 seconds. Damping can be configured from 0 to 102 seconds. Page 34 SMV800 Modbus User's Guide Revision 1.0...
Page 47  inH2O@60oF   inH2O@4oC (39.2 oF  mmH2O@4oC (39.2oF)  Temperature Degrees Fahrenheit Degrees Celsius (°C) Degrees Fahrenheit (°F)  Unit (°F) Degrees Celsius (°C)  Kelvin  Degrees Rankine (°K) Revision 1.0 SMV800 Modbus User's Guide Page 35...
Page 48 Flow Base Unit: Base unit is unit from which custom unit is derived Flow Conver. Flow Conver. Factor: Enter a Factor numeric value that represents the number of base units per one custom unit. Page 36 SMV800 Modbus User's Guide Revision 1.0...
Page 49 SMV3000 algorithms and Primary Elements Dynamic option allowed on Advanced Algorithms or ASME 1989 Algorithms Dynamic Equation Model Algorithm. Select ASME 1989 Standard Algorithm Option if you need to calculate Standard Flow Revision 1.0 SMV800 Modbus User's Guide Page 37...
Page 50 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,CYCLOPROPANE, 52,ETHANE, 53,ETHANOL, 54,ETHYLAMINE, 55,ETHYLBENZENE, 56,ETHYLENE OXIDE, 57,ETHYLENE, 58,FLUORENE, 59,FURAN, 60,HELIUM-4, 61,HYDROGEN CHLORIDE, 62,HYDROGEN CYANIDE, Page 38 SMV800 Modbus User's Guide Revision 1.0...
Page 51 Viscosity and Density coefficients on Process Data page Orifice Nozzle Venturi When Algorithm Options = Pitot Tube Advanced Algorithms VCone Primary Element Type Wedge Orifice Nozzle When Algorithm Options = ASME Venturi 1989 Algorithms Pitot Tube Revision 1.0 SMV800 Modbus User's Guide Page 39...
Page 52 Venturi GOST 8.586-2005 Cast Upstream Cone Part Venturi GOST 8.586-2005 Machined Upstream Cone Part Venturi GOST 8.586-2005 Welded Upstream Cone Part made of Sheet Steel Averaging Pitot Tube Standard V-Cone with Macrometer method Page 40 SMV800 Modbus User's Guide Revision 1.0...
Page 53 Automatically set based on AGA3 Primary Element type and Flow Calc Standard VCONE/WAFER CONE Primary Element ASME-MFC-14M WEDGE AVERAGE PITOT TUBE INTEGRAL ORIFICE CONDITIONAL ORIFICE CONDITIONAL ORIFICE ASME 1989 When Algorithm Options = SMV3000 Revision 1.0 SMV800 Modbus User's Guide Page 41...
Page 54 Pipe Material 38XA 15XM 30XM,30XMA 12X1MФ When Flow Calc 25X1MФ Standard is GOST 25X2MФ 15X5M 18X2H4MA 38XH3MФA 08X13 12X13 30X13 10X14Г14H14T 08X18H10 12X18H9T 12X18H10T 12X18H12T 08X18H10T 08X22H6T 37X12H8Г8MФБ 31X19H9MBБT 06XH28MдT 20Π 25Π Page 42 SMV800 Modbus User's Guide Revision 1.0...
Page 55 Bore Thermal Exp Value is set based on the Coefficient_alpha_d Bore Material selected. RULE: When Algorithm = ASME 1989 Algorithms, for Pitot Tube Element, Bore Thermal Expansion Coefficient = Pipe Thermal Expansion Coefficient Revision 1.0 SMV800 Modbus User's Guide Page 43...
Page 56 Process Data Screen Configure Viscosity and Density Coefficients, Design Temperature, Pressure, Nominal Temperature, Pressure values, Max values, and KUser factor Page 44 SMV800 Modbus User's Guide Revision 1.0...
Page 57 Applicable When Algorithm Option = Advanced Algorithms Viscosity Coefficient_V# Refer viscisity coefficient table to see when V1 to V5 are applicable based on Algorithm V1 to V5 option, Equation Model and Fluid Type Revision 1.0 SMV800 Modbus User's Guide Page 45...
Page 58 ON/OF is not applicable and this value is set to 1. If Flow value or KUser value calculates to NaN, make sure the Nominal Temperature Value is within the Lower TempLimit Density TpMin and Upper TempLimit Density TpMax Page 46 SMV800 Modbus User's Guide Revision 1.0...
Page 59 Maximum Temperature to select the end TpMax point 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. Revision 1.0 SMV800 Modbus User's Guide Page 47...
Page 60 Water by Dynamic/SHS default Dynamic / Sat S SMV800 / Dynamic / Gas Newer Algorithms Dynamic / liquid with All Dynamic Water by Corrections Dynamic/SHS default water by default Dynamic / Sat S Page 48 SMV800 Modbus User's Guide Revision 1.0...
Page 61: Table 2-7: Density Coefficients: Dependency To Algorithm Option
Algorithms and Dynamic / Gas Equation Model Dynamic Dynamic / liquid Dynamic/SHS water Dynamic / Sat Dynamic / Gas Advanced Algorithms Dynamic / liquid Dynamic/SHS water water by Dynamic / Sat default Revision 1.0 SMV800 Modbus User's Guide Page 49...
Page 62 (entry field when Manual Input is ON) Manual Input (for Expansion Factor_y) Expansion Factor_Y (entry field When Manual Input is ON) Manual Input (for Temp Expansion Factor_Fa) Temp Expansion Factor_Fa (entry field When Manual Input is ON) Page 50 SMV800 Modbus User's Guide Revision 1.0...
Page 63 Example When Reverse Flow ON: DP = -100 inH20 (-3.612 psi) SP = 14.45 psi. PV4 calculation will consider 100in H20 in calculation. SP value, SP=SP-DP. SP = 14.45-(-3.612)=18.062 psi will be Revision 1.0 SMV800 Modbus User's Guide Page 51...
Page 64 PV3 Failsafe is OFF When OFF, PV3 has no effect on Flow Calculation When Equation model is Dynamic, Algorithm Option is Advanced Algorithm or ASME 1989 Algorithm, this switch is always ON Page 52 SMV800 Modbus User's Guide Revision 1.0...
Page 65 Design Pressure. Fluid = Liquid: Flow equation Uses Default / Nominal Pressure. Fluid = Steam: Flow equation Uses Design Density. Design Pressure = 1 SMV3000 or SMV800 Dynamic: Fluid = Gas, Liquid Steam: Flow equation uses Nominal/Default Pressure Revision 1.0...
Page 66 PV4 is still good on bad PV3. PV4 calculation uses Design Temperature or Nominal / Default Temperature as below: SMV3000, Standard: Fluid = Gas: Flow equation Uses Design Temperature. Fluid = Liquid: Flow equation Uses Page 54 SMV800 Modbus User's Guide Revision 1.0...
Page 67 Default / Nominal Temperature. Fluid = Steam: Flow equation Uses Temperature Failsafe (PV3) Design Density. continued Design Temperature = 1. SMV3000 or SMV800 Dynamic: Fluid = Gas, Liquid, Steam: Flow equation uses Nominal/Default Temperature Simulation Simulate Differential User enters the values as selected in...
Page 68 Discharge Exponent, Reynolds Coefficinet_r1 and Reynolds Coefficinet_r2. Reynolds Coefficient_r1 Based on the selected Primary element, this is auto calculated. Applicable when Algorithm Options = SMV3000 Equation Model = Dynamic Page 56 SMV800 Modbus User's Guide Revision 1.0...
Page 69 Temp_TdMeas 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...
Page 70 “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 58 SMV800 Modbus User's Guide Revision 1.0...
Page 71: Using Custom Units For Flow Measurement
Wizard Kuser factor. When using the dynamic corrections equation, the conversion factor is used as the Kuser factor. Refer to the SCT on-line manual for additional information about using custom units Revision 1.0 SMV800 Modbus User's Guide Page 59...
Page 72 This is the Totalized Flow for Reverse flow only. The Negative Totalizer will decrement when the Flow Rate is a reverse flow (negative flow value). Note that the Reverse Flow configuration setting must be enabled to calculate negative flow. Page 60 SMV800 Modbus User's Guide Revision 1.0...
Page 73 200 etc are greater than -1000, this does not cause Totalizer Reset until after the Totalizer goes below -1000. Here Exceed counter will be incremented every time Totalizer reaches below -1000 lb. Revision 1.0 SMV800 Modbus User's Guide Page 61...
Page 74 This will be the value that gets written to the device. For example: 4567.12459 will be rounded to 4567.125 12345678 will be rounded to 12345680 123456789 will be rounded off to 123456800 Page 62 SMV800 Modbus User's Guide Revision 1.0...
Page 75 RTD sensor for measuring the Date temperature input One-time writable installation date for the Meter Write Install Dates Tx Install Date Body. One-time writable installation date for the TM Install Date Temperature Module. Revision 1.0 SMV800 Modbus User's Guide Page 63...
Page 76: Meterbody Details
(RTD-only input or Universal) Digital Output Identifies the availability of Digital Output Material Details Process Head Material Material of construction for the Meter Body process heads Diaphragm Material Material of construction for the Meter Body Page 64 SMV800 Modbus User's Guide Revision 1.0...
Page 77 Material of construction for the Meter Body gaskets Meter Body and Connect The rotation orientation of the Meter Body Orientation process heads and piping connection ports Approvals A list of official agency approvals for the transmitter Revision 1.0 SMV800 Modbus User's Guide Page 65...
Page 78 Certifications & Warranty Lists all special certifications and warranties ordered with this device Factory Identification Identifies the location of the factory for manufacturing this device Page 66 SMV800 Modbus User's Guide Revision 1.0...
Page 79: Modbus Com Config
Modbus com config tab. Default baud rate is 9600 1200, 2400, 4800, 9600, 19200 Parity Available Parity selection: The parity field can be used to even, odd, none configure parity type. Revision 1.0 SMV800 Modbus User's Guide Page 67...
Page 80 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 68 SMV800 Modbus User's Guide Revision 1.0...
Page 81: Maintenance
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. Revision 1.0 SMV800 Modbus User's Guide Page 69...
Page 82 Page 70 SMV800 Modbus User's Guide Revision 1.0...
Page 83 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 Flow. Revision 1.0 SMV800 Modbus User's Guide Page 71...
Page 84 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 72 SMV800 Modbus User's Guide Revision 1.0...
Page 85 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. Revision 1.0 SMV800 Modbus User's Guide Page 73...
Page 86 Use method “Reset Tamper Counter” to reset the tamper attempts. Page 74 SMV800 Modbus User's Guide Revision 1.0...
Page 87: Calibration & Correction Records
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. Revision 1.0 SMV800 Modbus User's Guide Page 75...
Page 88: Advanced Diagnostic
Communications board Electronics Temperature (ET) highest Value measured value ET Tracking The total number of minutes that the Communications board ET Up Cnt Electronics Temperature (ET) has exceeded the upper stress limit (ET Upper Limit) Page 76 SMV800 Modbus User's Guide Revision 1.0...
Page 89 Minimum ET Temperature Module Electronics Temperature (ET) lowest Value measured value ET Dn Cnt The total number of minutes that the Temperature Module Electronics Temperature (ET) has been below the lower stress limit Revision 1.0 SMV800 Modbus User's Guide Page 77...
Page 90 Displays the time elapsed since the Temperature Sensor Supply TimeStamp Voltage last exceeded the Maximum Supply Voltage Value Supply Voltage Displays the time elapsed since the Temperature Sensor Supply Down TimeStamp Voltage last dropped below the Minimum Supply Voltage Value Page 78 SMV800 Modbus User's Guide Revision 1.0...
Page 91 Value is equal to “Max SP Limit” minus 10% of limits range. Displays time elapsed since the Static Pressure was last SP Up TimeStamp measured as exceeding the SP Up Limit Revision 1.0 SMV800 Modbus User's Guide Page 79...
Page 92 Displays the time elapsed since the Pressure Sensor Supply TimeStamp Voltage last exceeded the Max Supply Voltage Value Supply Voltage Up Displays the time elapsed since the Pressure Sensor Supply TimeStamp Voltage last dropped below the Min Supply Voltage Value Page 80 SMV800 Modbus User's Guide Revision 1.0...
Page 93: 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 Revision 1.0 SMV800 Modbus User's Guide Page 81...
Page 94: Config History
Diagnostics – Config History Key: Plain = Read only Bold = Configurable Bold underline = Method Bold italic = Table or graph Displays the parameters updated during the last five Config History configuration changes Page 82 SMV800 Modbus User's Guide Revision 1.0...
Page 95: Review
2.5.4. Review: Revision 1.0 SMV800 Modbus User's Guide Page 83...
Page 96: Monitoring
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 84 SMV800 Modbus User's Guide Revision 1.0...
Page 97: Process Variables
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. Revision 1.0 SMV800 Modbus User's Guide Page 85...
Page 98: Smv 800 Modbus Host Menu Tree
SMV 800 Modbus Host Menu tree Device Setup Menu: Page 86 SMV800 Modbus User's Guide Revision 1.0...
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 Maintenance Menu: Revision 1.0 SMV800 Modbus User's Guide Page 91...
Page 104: Advanced Diagnotics Menu
2.7.1. Advanced Diagnotics Menu: Page 92 SMV800 Modbus User's Guide Revision 1.0...
Page 105: Monitoring Menu
2.7.2. Monitoring Menu: Revision 1.0 SMV800 Modbus User's Guide Page 93...
Page 106: Offline Configuration
Offline Configuration Offline Configuration using Honeywell SmartLine Modbus Manager application Overview Offline Configuration refers to configuring a device when the device is not physically present or communicating with the application. This process enables you to create and save a configuration for a device, even when the device is not there physically. Later when the device becomes available with live communication, the same configuration can be downloaded to the device.
Page 107 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 Revision 1.0 SMV800 Modbus User's Guide Page 95...
Page 108 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 96 SMV800 Modbus User's Guide Revision 1.0...
Page 109 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 Revision 1.0 SMV800 Modbus User's Guide Page 97...
Page 110 “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 configuration xml. “Load” button will be enabled after selecting the xml file Page 98 SMV800 Modbus User's Guide Revision 1.0...
Page 111 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. Revision 1.0 SMV800 Modbus User's Guide Page 99...
Page 112 Page 100 SMV800 Modbus User's Guide Revision 1.0...
Page 113: Compare Configuration 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. Revision 1.0 SMV800 Modbus User's Guide Page 101...
Page 114  Once the valid files are selected and compared, the results as part of the comparison will be shown as given in the below screen. Page 102 SMV800 Modbus User's Guide Revision 1.0...
Page 115  The Save button used to save the changes which are moved from File 2 to File 1 or File1 to File2.  Click Close will close the compare window. Revision 1.0 SMV800 Modbus User's Guide Page 103...
Page 117: Communication
SMV800 Modbus. It is expected that anyone creating such an interface has thorough understanding of the Modbus protocol.
Page 118: Baud Rate (Software Configurable)
The function field contains a function code. Which indicates the read, write or diagnostic command to be performed as part of query. When the SMV800 modbus device responds to a query, the function field will either verify the device’s response provide an exception that explains any errors encountered while processing the command.
Page 119: Modbus Data Types
Read and Write request for a sinlge parameter is supported, reading and writing of multiple parameters is not suggested. 3.2.5. Modbus function codes The SMV800 Modbus device supports the following function codes, which include read, write and diagnostics commands. Table 3-2: Modbus Function Codes...
Page 120: Table 3-3: Configuration History
SP Unit Code PT Unit Code Flow Unit Code MBT Unit Code Totalizer Unit Code Software Write Protect Tamper Parameters Tamper Mode (2 bytes), Latency (2 bytes) and Max attempts (2 bytes) Page 108 SMV800 Modbus User's Guide Revision 1.0...
Page 121 So the last parameters that was in history record 1 is slave address which was changed from 247 (00 F7). Current slave address from request and response is 245(0xF5). Which means slave address is changed from 247 to 245 and the value of 247 is recorded as history. Revision 1.0 SMV800 Modbus User's Guide Page 109...
Page 122: Registers For Process Variables
398 - 399 Meter body temperature 747 - 748 Totalizer Meterbody temperature/ Differential pressure variable status Static pressure variable status/ and Process temperature variable status Flow/Totalizer variable status 406 - 409 Tranmitter status information Page 110 SMV800 Modbus User's Guide Revision 1.0...
Page 123: Floating Point Formats
Note: “S” is the sign of floating point number, “E” is the exponent, and “M” is the mantissa 3.2.9. Communications SMV800 modbus transmitter can be configured with a turnaround delay time (holding register 106), which defines how long the transmitter will wait to respond after receiving a query from the host.
Page 124: Implementing Calibration
3.2.10. Implementing calibration Each process variable in the SMV800 Modbus device (diffrential Pressure [DP], static pressure[SP], and process temperature[PT]) can be calibrated through a trim process, either a zero trim or two-point trim. The lower trim value acts the same as zero trim.
Page 125: Diagnostics
3.2.11. Diagnostics The SMV800 Modbus device features several diagnostics status bits that gives information about the status of the transmitter. A complete listing of the diagnostics status bits is shown in Table 3-7. The status bits can be read as coils, or holding registers.
Page 126 This is a roll-up status bit Refer register 116 status ailure used for reporting a failure bits for more details and Bit - 9 of the temperature sensing resolution. measurement by Pressure module. Bit 10 - Unsued Page 114 SMV800 Modbus User's Guide Revision 1.0...
Page 127 (Thermocouple or RTD) sensor connections for Bit - 8 has an open input. The disconnections or broken sensor connections may wires. Repair the sensor be disconnected or broken. connections Bit - 9 unused Revision 1.0 SMV800 Modbus User's Guide Page 115...
Page 128 Refer register 116 status input measurement is far bits for more details and outside the specified resolution. Verify that all Bit - 2 range. The Temperature inputs are within module may be specifications damaged. Page 116 SMV800 Modbus User's Guide Revision 1.0...
Page 129 URV as per need. PT Below Low Process Temperature Verify that the temperature Limit measured is below LRV input is within Bit - 11 specifications and if so adjust LRV as per need. Revision 1.0 SMV800 Modbus User's Guide Page 117...
Page 130 120. Accordingly Bit - 3 factory calibration missing return the module for Factory Calibration for factory calibration. either Temperature module or Pressure module is missing. Accuracy is compromised if not calibrated. Page 118 SMV800 Modbus User's Guide Revision 1.0...
Page 131 If still problem device persists, replace the Bit - 7 Terminal block assembly. If problem continues replace the Communication module Revision 1.0 SMV800 Modbus User's Guide Page 119...
Page 132 Check the terminal voltage to be within limits. If still problem Bit - 11 persists, replace the Terminal block assembly. If problem continues replace the Communication module Unused Bit 12- Page 120 SMV800 Modbus User's Guide Revision 1.0...
Page 133 Verify that the p_warning Internal Cold environmental temperature Junction Temperature (CJ) is within specifications and the Bit - 4 Processor Core Temperature (CT) measured in the Temperature module is greater than 10 degrees C. Revision 1.0 SMV800 Modbus User's Guide Page 121...
Page 134 D > 0 Viscosity and Density Coefficeints (as applicable) Make sure at least one of the Viscosity coefficients > 0 Make sure at least one of the Density coefficients > 0 Page 122 SMV800 Modbus User's Guide Revision 1.0...
Page 135 Communication module.If problem still persists, replace the Terminal board. ts_no_factory_c Temperature sensor Return the device for Bit - 2 alibration module factory calibration Factory Calibration is missing Revision 1.0 SMV800 Modbus User's Guide Page 123...
Page 136 Temperature Module if issue persists low_sensor_sup Temperature module Check supply voltage is Supply is Low within specification. If all Bit - 9 are within specification, replace Temperature module Bit 10- Unused Page 124 SMV800 Modbus User's Guide Revision 1.0...
Page 137 Sensor_RAM_D Pressure module is Power cycle the device. If B_Fault reporting corruption in the problem persists, Bit - 4 the database in the replace the Meter Body Random-Access Memory (RAM) Revision 1.0 SMV800 Modbus User's Guide Page 125...
Page 138 NVM copy of Display Power cycle the device. If corrupt View/Screens the problem persists Configuration database reconfigure Display Screen Bit - 5 block found corrupt. parameters. If still problem is seen replace communication module. Page 126 SMV800 Modbus User's Guide Revision 1.0...
Page 139 Constant – indicates the variable reading is set to fixed value -Example: The variable has been left in fixed simulation mode. Revision 1.0 SMV800 Modbus User's Guide Page 127...
Page 140: Transmitter Register Maps
3.2.12. Transmitter register maps This section contains three register maps for SMV800 Modbus Device. These maps include Coils, Holding register and Floating point register. Table 3-8: SMV800 Modbus Coils Coil Function Access Name Description Address Codes Type Soft Reset Perform device soft reset...
Page 141: Table 3-9: Smv800 Modbus Holding Registers
Table 3-9: SMV800 Modbus Holding Registers Name Register Description Access Data Selections / Bitmap / Start Type Type Enumeration Address Device Transmitter Device revision uint8 Revision Software Transmitter Software uint8 revision revision Date Date in DDMMYY format. uint8 YY : Year with offset as 1900.
Page 142 19 - m3/h 131 - m3/min 28 - m3/sec 29 - m3/day 16 - gal/min 136 - gal/h 235 - gal/day 17 - l/min 138 - l/h 15 - ft3/min 26 - ft3/sec Page 130 SMV800 Modbus User's Guide Revision 1.0...
Page 143 134 - 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 Revision 1.0 SMV800 Modbus User's Guide Page 131...
Page 144 134 - 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 132 SMV800 Modbus User's Guide Revision 1.0...
Page 145 Temperature 33 - degF Unit 34 - degR 35 - Kelvin Meter body Meter body Temperature uint8 32 - degC Temperature Unit 33 - degF Unit 34 - degR 35 - Kelvin Revision 1.0 SMV800 Modbus User's Guide Page 133...
Page 146 Volume Flow, Totalizer units lists: 43 - M3 46 - Barrels+J19 112 - Ft3 166 - Nm3 167 - nLiters 41 - Liters 168 - scft 172 - Scm 40 - Gallons Page 134 SMV800 Modbus User's Guide Revision 1.0...
Page 147 Communication Baud rate 01 - 2400 selection 02 - 4800 03 - 9600 04 - 19200 Parity Select Modbus Serial uint8 00 - None Communication Parity 01 - Odd 03 – Even Selection Revision 1.0 SMV800 Modbus User's Guide Page 135...
Page 148 Sensor Char CRC Failure Bit - 12 Temperature Sensor NVM Corrupt Bit - 13 Temperature Sensor RAM Failure Bit - 14 Temperature Sensor Code Corrupt Bit - 15 Temperature Sensor Flow Failure Page 136 SMV800 Modbus User's Guide Revision 1.0...
Page 149 Temp/MBT Bit - 7 Device Warm Reset Bit - 8 Display Communication Failure Bit - 9 Display NVM Corrupt Bit - 10 Communication Module VCC Failure Bit - 11 Communication Supply Failure Revision 1.0 SMV800 Modbus User's Guide Page 137...
Page 150 Bit - 8 Pressure Module Low Supply Bit - 9 Reverse Flow is enabled Bit - 10 Flow bad for Negative Square root Bit - 11 Flow bad for Divided By Zero Page 138 SMV800 Modbus User's Guide Revision 1.0...
Page 151 Bit - 4 NVM copy of totalizer value back up block is found corrupt Bit - 5 NVM copy of user variables block is found corrupt Reserve Reserve Address Revision 1.0 SMV800 Modbus User's Guide Page 139...
Page 152 Bit - 4 Enable Monitoring of User Variable 5 Bit - 5 Enable Monitoring of User Variable 6 Bit - 6 Enable Monitoring of User Variable 7 Bit - 7 Enable Monitoring of User Variable 8 Page 140 SMV800 Modbus User's Guide Revision 1.0...
Page 153 Time and Date DP Current Current time record for DP uint32 LRV Correction Correction Time and Date DP Current Current time record for DP uint32 Zero Zero Correction Correction Time and Date Revision 1.0 SMV800 Modbus User's Guide Page 141...
Page 154 LRV Correction Correction Time and Date SP Last LRV Last time record for SP LRV uint32 Correction Correction Time and Date SP Previous Last time record for SP Zero uint32 Correction Page 142 SMV800 Modbus User's Guide Revision 1.0...
Page 155 The total number of minutes uint32 that the Meter Body Temperature (MBT) has exceeded the upper stress limit. MBT Down The total number of minutes uint32 Count that the Meter Body Temperature (MBT) has Revision 1.0 SMV800 Modbus User's Guide Page 143...
Page 156 11-15 = Reserved Legacy Shows currently selected (Byte 0 :-> Bit 4 to 5) Control: legacy Control. This is user 0 = SMV800 Method configurable parameter. 1 = SMV300 Method 2-3 = Reserved Page 144 SMV800 Modbus User's Guide Revision 1.0...
Page 157 Bit 5 :-> Reserved Compensations can be set to ON or OFF. This setting determines the usage of alternate values for AP and/or TEMP for Standard Gas Flow calculations when Failsafe setting is OFF. Revision 1.0 SMV800 Modbus User's Guide Page 145...
Page 158 0x19 = PE-1.25inch for 14inch Pipe 0x1A = PE-1.25inch for 16inch Pipe 0x1B = PE-1.25inch for 18inch Pipe 0x1C = PE-1.25inch for 20inch Pipe 0x1D = PE-1.25inch for 22inch Pipe 0x1E = PE-1.25inch for Page 146 SMV800 Modbus User's Guide Revision 1.0...
Page 159 0x02 = ASME-MFC-3 O- D&D/2Taps 0x03 = IS05167 O-FTaps 0x04 = IS05167 O-CTaps 0x05 = IS05167 O- D&D/2Taps 0x06 = Gost 8.586 O- FTaps 0x07 = Gost 8.586 O- CTaps 0x08 = Gost 8.586 O-3- Revision 1.0 SMV800 Modbus User's Guide Page 147...
Page 160 0x60 = Integral Orifice 0x70 = Small Bore O- FTaps 0x71 = Small Bore O- CTaps 0x80 = Cond O-405 0x81 = Cond O-1595 FTaps 0x82 = Cond O-1595 CTaps 0x83 = Cond O-1595 D&D/2Taps Page 148 SMV800 Modbus User's Guide Revision 1.0...
Page 161 0 = Advanced Algorithms Type Advanced Algorithms 1 = ASME1989 Algorithms type or ASME 1989 Algorithms. When Algorithm Options is ON, Algorithm is ASME 1989 Algorithms type. When OFF, it is Advanced Algorithms type. Revision 1.0 SMV800 Modbus User's Guide Page 149...
Page 162 16 = 15XM 17 = 30XM,30XMA 18 = 12X1MФ 19 = 25X1MФ 20 = 25X2MФ 21 = 15X5M 22 = 18X2H4MA 23 = 38XH3MФA 24 = 08X13 25 = 12X13 26 = 30X13 Page 150 SMV800 Modbus User's Guide Revision 1.0...
Page 163 Simulated DP Simulated DP value when float Simulation setting is ON Simulated SP Simulated SP value when float Simulation setting is ON Simulated PT Simulated PT value when float Simulation setting is ON Revision 1.0 SMV800 Modbus User's Guide Page 151...
Page 164 Meterbody Bar Bar Code number of Meter string Code Body adc Filter Configuration option for uint8 0 = Std SOR selection Standard or Fast Speed of 1 = Fast SOR Response Page 152 SMV800 Modbus User's Guide Revision 1.0...
Page 165 The current value of the float calculated Flow Totalizer Totalizer Value float Value Flow, Totalizer Flow, Totalizer Status uint8 Status MBT, DP MBT, DP status uint8 status MBT, SP, PT MBT, SP, PT status uint16 status Revision 1.0 SMV800 Modbus User's Guide Page 153...
Page 166 Bit9: reserved Bit10: reserved Bit11: 0 = Off; 1 = pt below lower limit Bit12: 0 = Off; 1 = pt above upper limit Bit13: reserved Bit14: reserved Bit15: reserved Page 154 SMV800 Modbus User's Guide Revision 1.0...
Page 167 Percent of the expected uint32 Time In Service Life that the Service Temperature Module has been in service. Value is based on electronics temperature. Service life accumulates faster at higher temperatures with an exponential relationship. Revision 1.0 SMV800 Modbus User's Guide Page 155...
Page 168 Cold Junction temperature (CJ). CJ M360 Core The total number of minutes uint32 Temp down that the Temperature accumulator Processor Core temperature (CT) has been lower than the Cold Junction temperature (CJ). Page 156 SMV800 Modbus User's Guide Revision 1.0...
Page 169 0x0001 = Enabled detection capability for the Process Temperature input. Select fixed or internal cold uint8 0 = Internal Compensation junction compensation for 1 = External Type the Process 2 = Fixed Temperature measurement. Revision 1.0 SMV800 Modbus User's Guide Page 157...
Page 170 Screen Rotation Time. uint8 Screen Screen Rotation Enable/ uint8 0 = Disable Rotation Disable option 1 = Enable Password (ASCII – 4 Byte Password ASCII data) Contrast Level Display Contrast level uint8 Page 158 SMV800 Modbus User's Guide Revision 1.0...
Page 171 Not Applicable to Sensor Resis. None, Linear, Convert Units applicable to Diff Press, Gauge/Absolute Press, Temp, Meter Body Temp, Mass/Volume Flow, Sensor, Totalizer Trend Duration of the trend screen uint8 Duration in hours. Revision 1.0 SMV800 Modbus User's Guide Page 159...
Page 172 User User defined variable 2 float Var2_URV upper range value. User User defined variable 3 lower float Var3_LRV range value. User User defined variable 3 float Var3_URV upper range value. Page 160 SMV800 Modbus User's Guide Revision 1.0...
Page 173 The Lower Range Limit for float the Static Pressure input Process Process Temperature Upper Float Temperature Range Value Process Process Temperature Lower Float Temperature Range Value Process Process Temperature Upper Float Temperature Range Limit Revision 1.0 SMV800 Modbus User's Guide Page 161...
Page 174 Service life accumulates faster at higher temperatures with an exponential relationship. Communicaito Communications board Float n Module ET Electronics Temperature Min. limit (ET) lowest operating limit from specification. Page 162 SMV800 Modbus User's Guide Revision 1.0...
Page 175 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. Revision 1.0 SMV800 Modbus User's Guide Page 163...
Page 176 Float Temperature lower Transducer Limit Static Static Prssure Upper Float Pressure UTL Transducer Limit Static Static Pressure Lower Float Pressure LTL transducer limit Reserve For NOT USED Float NOT USED Device Specific Page 164 SMV800 Modbus User's Guide Revision 1.0...
Page 177 Pressure URV which factory A calibration during factory was performed. A calibration Static The SP LRV trim point at Float Pressure LRV which factory A calibration during factory was performed. A calibration Revision 1.0 SMV800 Modbus User's Guide Page 165...
Page 178 Pressure Minimum value of Float sensor temperature recorded for the controller Core controller on pressure meter Temp min body with a time and date stamp with units of seconds since the event Page 166 SMV800 Modbus User's Guide Revision 1.0...
Page 179 Float Device Specific Reserve For NOT USED Float Device Specific Reserve For NOT USED Float Device Specific K_user Kuser Float Pipe Diameter Float Bore Diameter Float TD_meas Pipe Diameter Measure Float Temperature Revision 1.0 SMV800 Modbus User's Guide Page 167...
Page 180 Manually Input Temperature Float Expansion Factor Density polynomial Float coefficients 1 Density polynomial Float coefficients 2 Density polynomial Float coefficients 3 Density polynomial Float coefficients 4 Density polynomial Float coefficients 5 Page 168 SMV800 Modbus User's Guide Revision 1.0...
Page 181 Variable = Resistance) in Ohms Reserve For 1007 Device Specific PV1 UTL 1009 Process Temperature Upper Float Limit Value PV1 LTL 1011 Process Temperature Lower Float Limit Value Reserve For 1013 Device Specific Revision 1.0 SMV800 Modbus User's Guide Page 169...
Page 182 CJ Temperature Minimum Float Value CJ_M360 1041 Temperature sensor Float Core Temp processor Core Temp Delta Delta Value CJ_M360 1043 Temperature sensor Float Core Temp processor Core Temp Delta delta max Maximum Value Page 170 SMV800 Modbus User's Guide Revision 1.0...
Page 183 Application Specific Reserve For 1131 Parameter Used by Host Device Application Specific Reserve For 1132 Parameter Used by Host Device Application Specific Reserve For 1133 Parameter Used by Host Device Application Specific Revision 1.0 SMV800 Modbus User's Guide Page 171...
Page 184 Reverse flow only. The Negative Totalizer will decrement when the Flow Rate is a reverse flow (negative flow value). Note that the Reverse Flow configuration setting must be enabled to calculate negative flow. Page 172 SMV800 Modbus User's Guide Revision 1.0...
Page 185: Operation And Maintenance
It also covers the procedure to reset calibration to the default values as a quick alternative to measurement range calibration. The SMV800 SmartLine transmitter does not require calibration at periodic intervals to maintain accuracy. If a recalibration is required, we recommend that perform a bench calibration with the transmitter removed from the process and located in a controlled environment to get the best accuracy.
Page 186: Differential Pressure Sensor Calibration
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 calibration. Page 174 SMV800 Modbus User's Guide Revision 1.0...
Page 187 Calibration screen as show below. DP Calibration is available at Maintenance- >Calibration and Correction Records->Differential Pressure Calibration. 5. Adjust the pressure source to apply pressure equal to the URV (100%), and 6. Click on “DP URV Correct” button. follow the on-screen prompts. Revision 1.0 SMV800 Modbus User's Guide Page 175...
Page 188 Year to be entered as year -1900. For example, to enter calibration date as June 10 2018 write to register 125- 126 as 0x0A067600 2. Write to single coil address 8 as ON Page 176 SMV800 Modbus User's Guide Revision 1.0...
Page 189: Static Pressure Calibration
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. Revision 1.0 SMV800 Modbus User's Guide Page 177...
Page 190 For example, to enter calibration date as June 10 2018 write to register 125-126 as 0x0A067600 3. Adjust the SV input Pressure to the exact value of the LRV. 4. Write to single coil address 5 as ON Page 178 SMV800 Modbus User's Guide Revision 1.0...
Page 191 4. Launch SMV Modbus application, connect to the device and go to the SP Calibration screen as show below. SP Calibration is available at Maintenance- >Calibration and Correction Records->Static Pressure Calibration. 5. Click on “SP Reset Corrects” button. follow the on-screen prompts. Revision 1.0 SMV800 Modbus User's Guide Page 179...
Page 192: Process Temperature Sensor Calibration
1. PT High Point Calibration 2. PT Low Point Calibration 3. PT Reset Corrects 4. Records that include Current, Last and Previous Calibration/Corrects dates. By default, Records show the date as Jan 01 1972. Page 180 SMV800 Modbus User's Guide Revision 1.0...
Page 193 For example, to enter calibration date as June 10 2018 write to register 125-126 as 0x0A067600 3. Adjust the temperature source to apply value equal to the Lower Calibration Point, 4. Write to single coil address 12 as ON Revision 1.0 SMV800 Modbus User's Guide Page 181...
Page 194 For example, to enter calibration date as June 10 2018 write to register 125-126 as 0x0A067600 3. Adjust the temperature source to apply value equal to the High Calibration Point, 4. Write to single coil address 11 as ON Page 182 SMV800 Modbus User's Guide Revision 1.0...
Page 195 Year to be entered as year -1900. For example, to enter calibration date as June 10 2018 write to register 125- 126 as 0x0A067600 2. Write to single coil address 10 as ON Revision 1.0 SMV800 Modbus User's Guide Page 183...
Page 196: Dual / Triple Calibration
The above selections can be made manually using the registers defined for Factory calibration configuration selection. Refer Communication Table for registers in the range 315-320. Page 184 SMV800 Modbus User's Guide Revision 1.0...
Page 197: Simulate Device Variables
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 configuration screen completion. Revision 1.0 SMV800 Modbus User's Guide Page 185...
Page 198: Troubleshooting
5. Troubleshooting Overview Using the Honeywell Modbus Host in the on-line mode you can check the transmitter status by navigating into Monitoring tab, identify diagnostic messages and access troubleshooting information so you can clear fault conditions. Refer section 6.3 to understand alarams and its resolution...
Page 199 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. Revision 1.0 SMV800 Modbus User's Guide Page 187...
Page 200: Alarms And Conditions
Alarms and conditions 5.3.1. Below table shows all alarms and condition for SMV800 Modbus device. Category Alarm Name Description Resolution Modbus details Holding Register This is a roll-up status bit Power cycle the device. that is set when any of the...
Page 201 This is a roll-up status bit Refer register 116 status Temp used for reporting a failure bits for more details and Sensing of the temperature resolution. Bit - 9 Failure sensing measurement by Pressure module. Revision 1.0 SMV800 Modbus User's Guide Page 189...
Page 202 (Thermocouple or connections for Sensor Input RTD) has an open disconnections or Bit - 8 Failure input. The sensor broken wires. Repair connections may the sensor be disconnected or connections broken. Page 190 SMV800 Modbus User's Guide Revision 1.0...
Page 203 Flow Failure. This persists, replace the Sensor Flow fault will get set if any Terminal Board. Bit - 15 Failure of the critical part of the code is not executed after expected duration. Revision 1.0 SMV800 Modbus User's Guide Page 191...
Page 204 (register : 389-390) . A power cycle is recommended here to reset and get correct reading. If a Flow Control Fault is set, reset the device. If the problem persists, replace the Meter Body. Page 192 SMV800 Modbus User's Guide Revision 1.0...
Page 205 URV if not adjust above URV the Flow URV. Verify that the Flow value expected is New Field within specifications Bit - 15 Flow measured is and if so adjust Flow below LRV Revision 1.0 SMV800 Modbus User's Guide Page 193...
Page 206 Accordinly return the module factory module for factory No Factory calibration missing calibration. Bit - 3 Calibration Factory Calibration for either Temperature module or Pressure module is missing. Accuracy is compromised if not calibrated. Page 194 SMV800 Modbus User's Guide Revision 1.0...
Page 207 Press. Sensor; problem still persists or supply voltage to replace the the transmitter has communication dropped low enough module followed by to cause a Device Temperature module Warm Reset followed by Meter Body. Revision 1.0 SMV800 Modbus User's Guide Page 195...
Page 208 If problem persist, Check the terminal voltage to be within limits. If still Transmitter problem persists Bit - 11 Supply Failure replace the Terminal block assembly. If problem continues replace the Comms module Page 196 SMV800 Modbus User's Guide Revision 1.0...
Page 209 Cold Junction temperature is within Temperature (CJ) specifications CJ CT Delta and the Processor Bit - 4 Warning Core Temperature (CT) measured in the Temperature module is greater than 10 degrees C. Revision 1.0 SMV800 Modbus User's Guide Page 197...
Page 210 D H and D > 0 Viscosity and Density Coefficeints (as applicable) Make sure at least one of the Viscosity coefficients > 0 Make sure at least one of the Density coefficients > 0 Page 198 SMV800 Modbus User's Guide Revision 1.0...
Page 211 Simulation Mode prior to online operation.\nWhile conducting testing, the status indicates that sim is being used. When testing is completed, clear the sim mode for the inputs to return to true process measurement Revision 1.0 SMV800 Modbus User's Guide Page 199...
Page 212 Bit - 4 Correction calibration procedure to repeat the temperature calibration. User Corrects This is Activated acknowledgement User Corrects status for reset Bit - 5 Activated corrects performed by user Page 200 SMV800 Modbus User's Guide Revision 1.0...
Page 213 Temperature Module if issue persists Temperature module Check supply voltage Supply is Low is within specification. Low Supply If all are within Bit - 9 specification, replace Temperature module Revision 1.0 SMV800 Modbus User's Guide Page 201...
Page 214 Correct the Sensor Overload excessive pressure Bit - 3 input. If higher pressures are required, a higher range device type may be required. Meter Body may have been damaged. Page 202 SMV800 Modbus User's Guide Revision 1.0...
Page 215 Accuracy and temperature is within Press Sensor life span may specification. Take Over Bit - 7 decrease if it remains steps to insulate the Temperature high. Temperature module from the temperature source. Revision 1.0 SMV800 Modbus User's Guide Page 203...
Page 216 NVM copy of Power cycle the Totalizer device. If the problem Totalizer Config Configuration persists, replace the Bit - 7 DB Corrupt database block found transmitter corrupt. Page 204 SMV800 Modbus User's Guide Revision 1.0...
Page 217 Power cycle the variables block is device. If the problem found corrupt persists reconfigure User Variable DB user defined variables Bit - 5 Corrupt LRV,URV if required.If still problem persists replace transmitter. Revision 1.0 SMV800 Modbus User's Guide Page 205...
Page 218: Security
6. Security Security Guidelines The SMV800 provides several features designed to prevent accidental changes to the device configuration or calibration data. These features include a Hardware Write Protect Jumper and a Software Write Protect configuration parameter. These features can be used in combination to provide multiple layers of configuration change protection.
Page 219 Terms and Acronyms ..........vii Totalizer ..............60 Troubleshooting ............187 Maintenance .............. 69 Meterbody Details ............ 64 Meterbody Temperature Config ....... 28 Viscosity Coefficients ..........48 MODBUS COM Config ..........67 Modbus Communication ......... 105 Revision 1.0 SMV800 Modbus User's Guide Page 207...
Page 220 Phone: +(822) 799 6114 Fax: +(822) 792 9015 For more information To learn more about SmartLine Transmitters, visit www.honeywellprocess.com Or contact your Honeywell Account Manager Process Solutions Honeywell 1250 W Sam Houston Pkwy S Houston, USA, TX 77042 Honeywell Control Systems Ltd...

Honeywell SMV800 User Manual

1 Introduction

2 Configuration

3 Communication

4 Operation and Maintenance

5 Troubleshooting

6 Security

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