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Honeywell SmartLine STT700 HART User Manual

Honeywell SmartLine STT700 HART User Manual

Stt700 series hart/de option
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STT700 Series HART/DE Option
User's Manual
34-TT-25-18
Revision 1
July 2017
Honeywell Process Solutions

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Summary of Contents for Honeywell SmartLine STT700 HART

  • Page 1 STT700 Series HART/DE Option User’s Manual 34-TT-25-18 Revision 1 July 2017 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 Manual This manual provides the details of programming Honeywell STT700 SmartLine Temperature Transmitters for applications involving HART versions 5, 6, and 7 and Honeywell’s Digitally Enhanced (DE) communication protocols. For installation, wiring, and maintenance information refer to the STT700 SmartLine Temperature Transmitter User Manual, document number #34-TT-25-17.
  • Page 4 Patent Notice The Honeywell STT700 SmartLine Temperature 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: Table Of Contents

    Contents STT700 Physical and Functional Characteristics ................8 Overview ..........................8 Features and Options ......................9 1.2.1 Physical Characteristics ....................10 1.2.2 Functional Characteristics .................... 11 STT700 SmartLine Transmitter Nameplate ................. 11 Safety Certification Information ................... 12 Transmitter Adjustments ...................... 12 EU Meters Options .......................
  • Page 6 Overview of FDC Homepage ....................30 5.2.1 Settings ......................... 31 5.2.2 Manage DDs ........................ 32 5.2.3 Online configuration ....................34 5.2.4 Offline configuration ....................34 5.2.5 Online Configuration Overview ................... 34 5.2.6 Overview of Device Homepage ................... 35 5.2.7 Tabs on the Device Home page ................... 36 5.2.8 Using FDC for various device operations ..............
  • Page 7 10.5 STT700 Dashboard ......................105 10.6 STT700 Online Parameterization ..................105 10.6.1 Device Health ......................106 10.6.2 Device Icon / Honeywell Logo ................... 106 10.6.3 Process Variables ......................106 10.6.4 Shortcuts ........................106 10.7 Basic Configuration Page ....................107 10.7.1 Device Information .....................

  • Page 8: Stt700 Physical And Functional Characteristics

    Table 22 – DE Critical and Non-Critical Diagnostic Details ............. 102 1 STT700 Physical and Functional Characteristics 1.1 Overview This section is an introduction to the physical and functional characteristics of Honeywell’s STT700 SmartLine Temperature Transmitter. STT700 Series HART/DE Option User’s Manual...

  • Page 9: Features And Options

    1.2 Features and Options The STT700 SmartLine Temperature Transmitter is available in a variety of models for measuring thermocouples, RTD and millivolts and ohm sensor types. Table 1 lists the protocols, human machine interface (HMI), materials, approvals, and mounting bracket options for the STT700. Table 1 –...

  • Page 10: Physical Characteristics

    1.2.1 Physical Characteristics As shown in Figure 1 and Figure the STT700 is packaged in a single module. The elements in this module are connected to the process sensors, measure the process variables, respond to setup commands and execute the software and protocol for the different temperature measurement types. Figure 1 –...

  • Page 11: Functional Characteristics

    HART and DE. Certain adjustments can be made through an Experion Station or a Universal Station if the transmitter is digitally integrated with Honeywell’s Experion or TPS/TDC 3000 control system for HART and DE transmitters.

  • Page 12: Safety Certification Information

    34-TT-25-17 for details. 1.5 Transmitter Adjustments For HART and DE, the Honeywell MC Toolkit or other third-party hand-held can make any adjustments to a STT700 SmartLine Temperature Transmitter. Alternately, certain adjustments can be made through the Experion or Universal Station, if the transmitter is digitally integrated with a Honeywell Experion or TPS system.

  • Page 13: Communication Modes

    Figure 5 – DE Mode Value Scaling As indicated at the right of Figure 5, output values of process variables, as well as communications are transferred to a receiving device digitally. The digital coding is Honeywell proprietary, which requires the use of DE-capable Honeywell control equipment.

  • Page 14: Hart Mode Communication

    The FDC software application executing on the MCT404 supports the HART Universal, Common Practice and Device Specific Commands which are implemented in the Honeywell transmitters. As indicated in Figure 6, the output of a transmitter configured for HART protocol includes two primary modes: Figure 6 –...

  • Page 15: Configuration Tools And Interfaces

    The information and procedures in this manual are based on the assumption that personnel performing configuration and calibration tasks are fully qualified and knowledgeable in the use of the Honeywell MC Toolkit MCT404. The reference to MC Toolkit, Toolkit and MCT404 are used interchangeably as MCT404 is the model name for the Honeywell MC Toolkit product.

  • Page 16: Mc Toolkit Participation

     MC Toolkit. This application is used for configuring, calibrating, monitoring, and diagnosing Honeywell Digitally Enhanced (DE) devices. Details for working with the MC Toolkit are provided in the MC Toolkit User Manual, document #34- ST-25-50 (MCT404). In subsequent sections of this manual, explicit operating instructions are provided only in so far as necessary to complete required tasks and procedures.

  • Page 17: Mc Toolkit Transmitter Electrical/Signal Connections

    3.4.4 MC Toolkit Transmitter Electrical/Signal Connections Figure 7 displays how to connect the MC Toolkit directly to the terminals of a HART or DE transmitter (top) and a HART-only transmitter (bottom). Figure 7 – MC Toolkit-Transmitter Electrical/Signal Connections STT700 Series HART/DE Option User’s Manual Revision 1 Page 17...

  • Page 18: De Transmitter Configuration

    4 DE Transmitter Configuration 4.1 Configuration Personnel Requirements The configuration processes in this section reflect the assumption that you will use the Honeywell MC Toolkit configuration tool to configure an STT700 SmartLine Temperature Transmitter. The MC Toolkit application is used to configure Honeywell ST 3000 and SmartLine Pressure Transmitter, STT 3000 Smart Temperature Transmitters, as well as the STT700 SmartLine Temperature Transmitter.

  • Page 19: De Transmitter Online Configuration

    4.3 DE Transmitter Online Configuration Online configuration consists of establishing communication between the MC Toolkit and a transmitter configured for DE communication. Each transmitter has a configured database, whether new from the factory, a spare, or one to be reconfigured. In any case, the MC Toolkit application is used to upload the existing configuration from the transmitter for review and editing.
  • Page 20 6. Select Upload. A progress bar will be displayed on the QUICK MONITOR box, and when the upload is complete, the DE MAIN MENU will be displayed. Typical DE Main Menu dialog is shown below. A confirmation request message will be displayed if you select <Back for a transmitter that was previously set to Output Mode during calibration, and was not subsequently cleared.

  • Page 21: Device Information Configuration

    4.3.2 Device Information Configuration In this and subsequent procedures, the notations R for read only and R/W for read/write are used to indicate if a parameter can be edited. 1. On the DE MAIN MENU, select Device Info. The DE DEVICE INFO box will be displayed. Typical DE device information with type and firmware detail is shown here.

  • Page 22: General Configuration Parameters

    4.3.3 General Configuration Parameters Select the General Button on the DEVICE MAIN MENU page, and configure parameters. See Table 4. Table 4 – General Configuration Parameters Read (R) or Parameter Configuration Details Read/Write (R/W) Dual Range Smart Transmitter Digital Communications PV Type (STDC) or Single Range or Single Range with secondary variable (SV).

  • Page 23: De-Specific Configuration Parameters

    4.3.4 DE-Specific Configuration Parameters Select the Configure button, and configure parameters. See Table 5. Table 5 – DE Configuration Parameters Read (R) or Parameter Configuration Details Read/Write (R/W) Lower Range Limit, Floating Point Upper Range Limit, Floating Point Lower Range Value, Floating Point Upper Range Value, Floating Point PV Units Process Variable Units: scaling value selection;...

  • Page 24: De Auxiliary Configuration

    4.3.5 DE Auxiliary Configuration The DE auxiliary configuration menu contains latching status enable/disable option and also CJ compensation selection. When selecting External for the CJ Comp , CJ Temp 0.0 is only applicable choice; the temperature does not vary. Select the Back button to go back to the DE MAIN MENU. 4.3.6 DE Monitor Status The DE Monitor menu shows Input PV value, Output percentage value, SV value and Device status option.

  • Page 25: Table 6 - Monitor Parameters

    The Device status menu shows Critical, Non critical status along with gross status information. Table 6 – Monitor Parameters Read (R) or Parameter Configuration Details Read/Write (R/W) Input Sensor input in EU Output Loop output as a percent of Span Secondary Variable in SV EU Gross Transmitter Status.

  • Page 26: Saving The Configuration To File

    4.3.7 Saving the Configuration to File 1. Display the DE MAIN MENU, and select the Save to File button. The File Dialog will be displayed. 2. Save the configuration as described below. As a reminder, please refer to the MC Toolkit User Manual, #34-ST-25-50 (MCT404), for complete procedural details.

  • Page 27: De Online Configuration Summary

    4.3.8 DE Online Configuration Summary This concludes the process of configuring an STT700 DE transmitter online. For best operational results, calibrate the transmitter according to the DE calibration in section 6 of this document. 4.4 DE Transmitter Offline Configuration 4.4.1 Overview This section summarizes the features, and processes for configuring an STT700 SmartLine Temperature Transmitter set for DE operation offline.

  • Page 28: Save To A File

    Units, Damping, SV Units, Line Filter frequency, Sensor Type, and the output characterization selection.  Parameter Set 3 is oriented primarily to the Honeywell SmartLine Temperature Transmitter models for monitoring purposes. 4.4.3 Save to a File Saving to a file in offline mode will let you add an edited configuration to a working file. Alternately, if you decide not to save an edited configuration to the current file, you can select a new location and file name for it.

  • Page 29: Hart Transmitter Configuration

    STT700 SmartLine Temperature Transmitter. Therefore, detailed procedures are supplied only in so far as necessary to ensure satisfactory configuration. The other HART configuration ools are Honeywell Experion in conjunction with FDM, DTMs running on FDM or PACTware, and Emerson 375/475.

  • Page 30: Overview Of Fdc Homepage

    5.2 Overview of FDC Homepage The FDC homepage consists of links for Online Configuration, Offline Configuration, Manage DDs, and Settings. See figure 8 below. Figure 8 – FDC Homepage Table 7 lists the items that appear on the FDC homepage and their descriptions. Table 7 –...

  • Page 31: Settings

    With this option enabled, FDC creates necessary log files for troubleshooting and diagnostics. These files are stored in SD Card\FDC folder. Note: You must not enable this option unless suggested by Honeywell TAC because this may impact the application performance.

  • Page 32: Manage Dds

    5.2.2 Manage DDs Using this feature, you can manage the DD files installed with FDC. A DD file contains descriptive information about the functionality of a device. By default, a set of DD files are installed with FDC. However, if you do not have a DD for a given device, you can install it using the “Add DD” feature. Similarly, you can uninstall a DD file or a set of DD files using “Delete DD”...
  • Page 33 5.2.2.3 Delete a DD file Using this option, you can delete a particular version of a DD file. To delete a DD file for a device, perform the following steps.  From the FDC homepage, tap Manage DDs > Select. The Manage DDs dialog box appears.

  • Page 34: Online Configuration

    5.2.3 Online configuration Using online configuration, you can configure, calibrate, monitor and diagnose a HART device which is connected to MC Toolkit. FDC provides the features to perform these functions through the various constructs offered through the DD file of the device. Besides there are certain other features available under this link for you to conveniently work with a HART device with live communication.

  • Page 35: Overview Of Device Homepage

    5.2.6 Overview of Device Homepage Once the device is detected and loaded successfully, you can view the device homepage for the identified device. The workspace area on the device homepage consists of four (4) tabs on the left hand side. Selecting a tab displays functions/information associated with that tab on the right hand side.

  • Page 36: Tabs On The Device Home Page

    5.2.7 Tabs on the Device Home page The following are the options that are available on the device homepage.  Information tab: Use this option to view the device identity related information. You can view the manufacturer name, device type, device revision, DD revision, and universal revision of the HART device.
  • Page 37  My Views tab: Quite often, you may be interested only in a set of variables of a device. But navigating through the menu tree of a device may not be helpful because of time and further all variables that you want may not be in the same location. Using this unique feature of FDC, you can now choose what you want to view in a device in your own views.

  • Page 38: Using Fdc For Various Device Operations

    5.2.8 Using FDC for various device operations Typical operations with a smart field device involve configuration, calibration, monitoring, and diagnostics. FDC enables you to achieve these operations with a HART device via the various interfaces/constructs exposed through the DD file of the device. The “Functions”...
  • Page 39 Online Device Entry Point: When you tap on to open the Online tab, the device configuration screen appears as shown below. Typical Online Menu is shown below. The specific Menu items shown are based upon the connected device type. Alternately you can access the full EDDL features by selecting the “My Device” Tab. The typical My Device Tab is shown below.

  • Page 40: Device Configuration And Parameter Descriptions

    Displays all parameters Online Menu Flow Parameter menu/ Description/Valid values name Online Honeywell Logo Photograph of a STT700 temperature transmitter along with the official “Honeywell” logo Table 10 – Basic Configuration Online Menu Flow Parameter menu/ Description/Valid values name Basic Configuration /General Transmitter Install Enter the date of site installation.
  • Page 41 Device Setup/Basic PV[Loop] Displays the current value of the Primary Configuration/Process Variable (loop PV according to the control Values/PV [Loop] mode selected) in user selected engineering units Device Setup /Basic SV [Cold Jn. Displays the current value of the Secondary Configuration/Process Temperature] Variable (CJ temperature) in user selected...
  • Page 42 PV Damp Enter a value for damping of the device output. Entries may be any value from 0.00 to 102.00 seconds. The following output-related values and operations are available in this menu: Poll Address: Select HART short address 0 to 63. Loop current mode: Select the Loop Poll Address Current Mode configuration:...

  • Page 43: Table 11 - Advanced Configuration

    Table 11 – Advanced Configuration Online Menu Flow Parameter menu/ name Description/Valid values Advanced Configuration/Sensors (The following signal control parameters may be configured in this menu) Select Internal or Fixed Cold Junction Compensation for the temperature measurement. If Internal Compensation is selected, then the Cold Junction temperature CJ Compensation is measured using an internal sensor.
  • Page 44 Average Average of S1 and S2 When the LCM is configured in redundant Redundant mode, the loop is initially controlled via Sensor Should any disconnection occur to Sensor 1 (such as a burnout), the loop control will immediately switch to Sensor 2. Should Sensor 1 be repaired after this time, the LCM will wait 15 seconds and then switch loop control back to Sensor 1.
  • Page 45 Sensor 1 Sensor 1 Config Parameters: Displays the information related to the Sensor 1 Type, Sensor 1 ID Displays range information of the Sensor 1. The following limits are read only: LRL1: Lower range limit for sensor 1 URL1: Upper range limit for sensor 1 LTL1: Lower transducer limit for sensor 1 UTL1: Upper Transducer limit for sensor 1 Allows user to configure “Lower calib Point...
  • Page 46 Online Menu Flow Parameter menu/ Description/Valid values name Advanced Configuration/Calibration PV Levels Displays a graphic representation of all PV ranges and limits for the STT700 temperature transmitter The following calibration methods are available: Apply Values: performs a Set LRV and/or Set URV to configure the LRV/URV to applied inputs.
  • Page 47 Clear all user calibration adjustments. S2 Cal Hi Records: Online/Device Displays the time and date history records for the Setup/Advanced last three URV Correct calibrations. Configuration/Calibration S2 Cal Lo Records: Displays the time and date history records for the last three LRV Correct calibrations. S2 Reset Correct Records: Displays the time and date history records for the last three times Reset Corrects was issued.
  • Page 48 Advanced Configuration/CVD2 (Callendar-Van Dusen constants for sensor 2) User can configure CVD 2 coefficients Write CVD 2 R0, Alpha, Delta and Beta Coefficients CVD 2 resistance for corresponding the low CVD 2 Low Limit temperature calibration point Online/Device CVD 2 resistance for corresponding the high CVD 2 High Limit Setup/Advanced temperature calibration point...
  • Page 49 Online Menu Flow Parameter menu/ Description/Valid values name Advanced Configuration/Services Write Protect Displays the current configuration of the write protect function. Write Protect is “Enabled” if the firmware write protect has been enabled. Write Protect Displays the current configuration of the write protect function.
  • Page 50 Loop Test This function enables the user to test the Analog Output measurement at any value over the full operational range. Select a current value to apply to the output and verify the measured current on the loop with a calibrated meter.

  • Page 51: Table 12 - Monitor

    Table 12 – Monitor Online Menu Flow Parameter menu/ name Description/Valid values Monitor/Dashboard PV LRV Displays the current value of the Lower Range Value (input which represents 0% output) in user selected engineering units. This value may be configured to any value within the range as per selected loop control mode (It will be computed depending on LTL1, UTL1, LTL2 and UTL2.
  • Page 52 TV Meter Displays a gauge meter representation of the current value of the Tertiary Variable (Sensor 1 temperature). TV [Sensor 1] Displays the current value of the Tertiary Variable (Sensor 1 temperature) in user selected engineering units. Trend of TV Displays a trending chart of the current value of the Tertiary Variable (Sensor 1 temperature).
  • Page 53 Online Menu Flow Parameter menu/ name Description/Valid values Monitor/Device Status Overall Status Displays a pictorial representation of the current device status. Critical Displays all possible Critical Status faults and indicates OFF for inactive faults or ON for active faults. Non-Critical Displays the first set of possible Non-Critical Status faults and indicates OFF for inactive faults or ON for active faults.
  • Page 54 Software rev Displays the Electronics Board Software Revision of the STT700 temperature transmitter. Manufacturer Displays Manufacturer of the STT700 temperature transmitter: Honeywell International Model Displays Model number of the STT700 temperature transmitter: STT700 Model Number Displays the full order model number of the STT700 temperature transmitter.
  • Page 55 Online Menu Flow Parameter menu/ Description/Valid values name Monitor/Diagnostics Displays Advanced Diagnostics details for tracking basic device operation. For more detailed information on Advanced Diagnostics, refer to HART Advanced Diagnostics section in this Manual. Adv Diagnostics Diagnostic information includes: Installation and Device Life details Operating Voltage details Online/Device Core Temperature Diagnostics details...
  • Page 56 Accuracy & Accuracy Calibration Calibration Range Calibration Quantity Certificates & Certifications & Warranty Warranty Factory Factory Identification Review Online/Device Displays the current values for all of the pertinent Setup/Review operating parameters listed in this table, plus revision information. Parameters are not configurable in this menu.

  • Page 57: Procedure To Enter The Transmitter Tag

    5.2.10 Procedure to Enter the Transmitter Tag 1. From the My Device menu, make the following menu selections: 2. My Device>Device Setup>Basic Configuration>General>Tag Click Edit. The Tag screen will be displayed. 3. Key in the tag name (for example: STT700) which can be a maximum of eight characters. 4.

  • Page 58: Setting Pv Urv, And Lrv Values

    5.2.12 Setting PV URV, and LRV Values STT700 transmitters are calibrated at the factory with ranges using deg C. For a reverse range, enter the upper range value as the LRV and the lower range value as the URV. The LRV and URV values can be entered with the Toolkit keypad or by applying the corresponding temperature values directly to the transmitter.

  • Page 59: Saving Device History

    5. When the Current applied process value: is displayed, choose Select as 4mA value, and click OK. 6. Repeat steps 2 through 4 to set the URV to the applied input temperature for 20 mA output. 7. Click Return to go back to the Calibration menu. 8.

  • Page 60: Exporting Device History Records To Fdm

    Note: The device can be identified with History Record Name and Device Tag in FDM, once the record is imported in FDM, provided the device is not already present in the FDM network. 5. Select the Format. The following are the available formats: DocuMint 6.

  • Page 61: Exporting Device History Records To Documint

    5.2.16 Exporting device history records to DocuMint To export device history from FDC and import it in FDM, perform the following steps. 1. Connect your MC Toolkit handheld to your computer as described earlier. 2. Browse to the folder on your computer, SD Card > FDC > Resources > History. 3.
  • Page 62 Note: To view the custom views, tap My View 1 > Select. The My View 1 page appears. Example View1 is shown. Based on the connected device model, you can select the applicable parameters Edit the parameters that are Read / Write and select Send. For more details on any of the FDC features, refer the “MC Toolkit User Manual, document #34-ST- 25-50 (MCT404).”...

  • Page 63: Offline Configuration

    5.2.18 Offline Configuration 5.2.18.1 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 64 5.2.18.3 Deleting offline configuration Using this feature you can delete an offline configuration template. To delete an offline configuration, perform the following steps. 1. On the FDC homepage, tap Offline Configuration > Select. The Offline Configurations page appears. 2. Select the required offline configuration template from the list. 3.
  • Page 65 Tap Next. The Offline – Review and Send page appears with the list of selected variables. Tap Send and the process to send the variables to the device starts. Once the downloading is complete, the following page appears. Typical screen is shown here. Note: If the variables are downloaded successfully, status appears as SUCCESS in green color;...

  • Page 66: De Calibration

    6.2 Calibration Recommendations If the transmitter is digitally integrated with a Honeywell control system, like the Total Plant Solution (TPS) or Experion PKS system, you can initiate range calibration and associated reset functions through displays at the Universal Station, Global User Station (GUS), or Experion Station. However, a range calibration using the MC Toolkit with the transmitter removed from service is recommended.

  • Page 67: Analog Output Signal Calibration

    6.4 Analog Output Signal Calibration The transmitter analog output can be calibrated at its zero (0) and 100% levels using a constant current source mode. The transmitter does not have to be removed from service for the analog output signal calibration procedure.
  • Page 68 6. Select the Set button. You will be prompted to confirm that you want to put the transmitter in output mode. 7. Select Yes, and note the output current at 0%, 100% or the other value established in the previous step. With the transmitter in analog mode, you can observe the output on an externally connected meter or on a display.

  • Page 69: Calibrating Range Using The Mc Toolkit

    6.5 Calibrating Range Using the MC Toolkit The range calibration involves two procedures, one to calibrate the input, the other to calibrate the output. This section provides details on both procedures. 6.6 Conditions for Input Calibration Calibrate the transmitter input only when necessary, and under conditions that will ensure accuracy: ...

  • Page 70: Input Calibration Procedure

    Figure 11 – Input Calibration Connections 6.8 Input Calibration Procedure 6.8.1 Correct Input at the Lower Range Value (LRV) This section describes the action to correct the input at the Lower Range Value (LRV). To begin, enter the appropriate values before doing the calibration. Configure sensor type to mV or TC or RTD or Ohms for the input which you are going to perform calibration.

  • Page 71: Correct Input At Urv

    3. Adjust the PV input Temperature to the exact value of the LRV entered in the DE CONFIGURE display. 4. Select the OK button 5. Observe the input temperature at the applied value; when it is stable, select the OK button. 6.
  • Page 72 2. Adjust the PV input Temperature to the exact value of the URV entered in the DE CONFIGURE display. 3. Select the OK button. 4. When the transmitter has completed the URV correction, this message appears. 5. Select OK to acknowledge. STT700 Series HART/DE Option User’s Manual Page 72 Revision 1...

  • Page 73: De Output Calibration

    6.9 DE Output Calibration 6.9.1 Output Calibration Preparation This procedure applies to DE transmitters operating in analog (current) mode only. First, verify the integrity of the electrical components in the output current loop. Make the connections shown in Figure 12, and establish communication with the transmitter. Connect the MC Toolkit as indicated, and establish communication with the transmitter.

  • Page 74: Figure 13 - De Analog Mode Scaling And Test Connections

    Figure 13 – DE Analog Mode Scaling and Test Connections 1. Start the MC Toolkit application such that the DE MAIN MENU is displayed. 2. Select the Calibration button to display the CALIBRATION menu. 3. Select Trim DAC Curr. To display the TRIM DAC CURRENT box. 4.
  • Page 75 a. Select Set Output To 0% or 100%. You will be prompted to confirm that you want to place the transmitter in output mode. b. Verify that the loop is in manual control. In output mode, output current is fixed at the 0% or 100% level as selected in the TRIM DAC CURRENT box in the previous step.

  • Page 76: Manually Setting The Process Variable Range

    6.10 Manually Setting the Process Variable Range This procedure applies to DE transmitters operating in both DE mode and analog (current) mode. During this procedure, the PV input will be set to 0%, which will be applied as the LRV. Further, the PV input will be set to 100% and applied as the URV.
  • Page 77 Select the Calibration button to display the CALIBRATION menu. 2. In the Apply Values group, select Set LRV. The following message will be displayed; a. The value of the input shown in the Set LRV box above updates only when the popup is called up.
  • Page 78 c. While observing the PV value at the physical process element, adjust the process variable to the desired maximum level, and then select Set URV. d. If the displayed value is satisfactory, select Yes to copy the Input Value to the URV in the transmitter.

  • Page 79: Procedure To Reset Calibration

    6.11 Procedure to Reset Calibration A STT700 SmartLine HART Temperature Transmitter can have its incorrect calibration data erased by resetting the device back to default values using the MC Toolkit. The default values return the transmitter calibration to the original factory characterization values. However, note that this is not the final factory calibration, which is performed per the ordered range.
  • Page 80 5. If corrects should not be overwritten with factory values, select No. If corrects need to be overwritten, select Yes. The timer will appear briefly, indicating the operation is performed This function commands the transmitter to overwrite all user input corrections with factory default ("characterization") values.

  • Page 81: Hart Calibration

    7 HART Calibration 7.1 About This Section This section provides information about calibrating a transmitter’s analog output and measurement range. It also covers the procedure to reset calibration to the default values as a quick alternative to measurement range calibration. This section includes the following topics: ...

  • Page 82: Input Calibration Procedure

    7.1.3 Input Calibration Procedure 7.1.3.1 Correct Sensor 1 / 2 Input at Low Calibration Point 1. After Low and High Calibration points have been entered, as described above, select the S 1 / 2 cal lo Corrects button on the CALIBRATION display. 2.
  • Page 83 8. Observe the input temperature at the applied value; when it is stable, select the OK button. 9. A screen appears to Remove applied input on sensor 1. 10. When the transmitter has completed the S 1 / 2 Cal lo correction, this message appears: STT700 Series HART/DE Option User’s Manual Revision 1 Page 83...

  • Page 84: Correct Input At Sensor 1 / 2 Calibration High Point

    11. Select OK to acknowledge. 7.1.4 Correct Input at Sensor 1 / 2 Calibration High Point 1. Select the S 1 / 2 Cal Hi Corrects button. This message appears. 1. Check the device is not in write protect mode and press OK 2.
  • Page 85 5. Adjust the PV input Temperature to the exact value of the Sensor1 high calibration point entered. Select the OK button. 6. Observe the input temperature at the applied value; when it is stable, select the OK button. 7. A screen appears Remove applied input on sensor 1. STT700 Series HART/DE Option User’s Manual Revision 1 Page 85...
  • Page 86 8. When the transmitter has completed the Sensor 1 high calibration point correction, this message appears. 9. Select OK to acknowledge. All procedures in this manual assume the transmitter is configured for Loop Current Mode enabled). STT700 Series HART/DE Option User’s Manual Page 86 Revision 1...

  • Page 87: Analog Output Signal Calibration

    7.2 Analog Output Signal Calibration With a transmitter in its constant current source mode, its analog output circuit can be calibrated at 0 (zero) % and 100% levels. It is not necessary to remove the transmitter from service. The following procedure is used for analog output signal calibration. You can calculate milliamperes of current from a voltage measurement as follows: Dc milliamps = 1000 X voltage/resistance IMPORTANT: Be sure that the accuracy of the resistor is 0.01% or better for current measurements made by voltage...

  • Page 88: Calibrating Analog Inputs

    7.3 Calibrating Analog Inputs The STT700 SmartLine Temperature Transmitter supports two-point input calibration. This result of this calibration is that when two points in a range are calibrated, all points in that range adjust to the calibration. Calibration High and Low points should always be calibrated both at the same time. This procedure assumes that the transmitter has been removed from the process and is located in a controlled environment.

  • Page 89: Correcting The High Calibration Point

    7.3.2 Correcting the High Calibration Point Assuming that you have just finished the S 1 / 2 cal Lo correct, select the My Device menu to proceed further. 1. Select the My Device menu, and choose one of the following options: a.

  • Page 90: Stt700 Calibration Records

    7.3.4 STT700 Calibration Records A history of the date and time of the last three calibration procedures is available for this HART device. Run the Methods and follow the screen prompts to read the calibration records. Select “My Device\Device Setup\Advanced Configuration\Calibration” to select the following calibration records ...

  • Page 91: Hart Advanced Diagnostics

    8 HART Advanced Diagnostics 8.1 About This Section This section provides information about the Advanced Diagnostic features in the STT700 SmartLine Temperature Transmitter. 8.2 Advanced Diagnostics Table 14 – Viewing Advanced Diagnostics What to do What you want to view Select Start/FDC to Launch the FDC application Advanced Diagnostic menu parameters are: ...

  • Page 92: Pv Tracking Diagnostics

    Method and Parameter The terms Method and Parameter referenced in the table below follow the same meaning as applied used with device descriptions. Specifically, Parameter: The value of the parameter presented to the user. If the parameter can be modified (i.e., the parameter’s handling allows it), then the user can modify its value.
  • Page 93 PV - High or PV Low Alarm Parameter Description Lower Transducer Limit Low Alarm Limit corresponds to specified lower Counter operating limit in user-selected eng unit. Set-up None. Backup immediately into NVM PV Low Alarm Parameter Description Counter that counts the number Counter of time PV crosses below the PV Low Alarm Limit.
  • Page 94 Reset PV Reset All Method Description This method will reset all PV Tracking diagnostics. PV high and It resets Values low values and its time stamp, PV high and low alarm limits, PV high and low alarm counters Upon reset, the default data will get saved in diagnostics variables and also gets saved in non- volatile memory...

  • Page 95: Cold Junction Tracking

    8.2.3 Cold Junction Tracking The below table provides the diagnostic details related to Cold Junction temperature tracking such as high /low value recorded and retention of the record into Non-Volatile Memory (NVM) of the transmitter. The table lists the methods to configure the limits for tracking Cold Junction Low and High values and methods to read the recorded diagnostic parameter values.
  • Page 96 Reset Cold Reset All Method Description Executing this method will reset all Junction Cold Junction diagnostics. It resets SV Tracking high and low values and the time Values stamp, SV high and low alarm limits, SV high and low alarm counters. Set-up None Backup immediately into NVM...

  • Page 97: Ct Tracking Diagnostics

    8.2.4 CT Tracking Diagnostics The below table provides the diagnostic details related to Core Temperature such as high / low values recorded and retention of the record into Non-Volatile Memory (NVM) of the transmitter. The table lists the methods to read the diagnostic parameter values. Table 17 –...

  • Page 98: Installation And Device Life

    8.2.5 Installation and Device Life The below table provides the diagnostic details related to installation and device life such as install dates of transmitter sensors, service life and time in service recorded, and saving of the record into Non-Volatile Memory (NVM) of the transmitter Table 18 –...

  • Page 99: Power Up Diagnostics

    Parameter Description Process voltage in volts Set-up None None – no action Time Since Last Method Description Executing this method will Displays time Voltage Low since last minimum operating voltage event in minutes. Set-up User can reset as desired using method described in item below.

  • Page 100: Troubleshooting And Maintenance

    9 Troubleshooting and Maintenance Troubleshooting and maintenance is supported by specific diagnostic information available from the transmitter. Detailed diagnostic messages are available for the STT700 with HART or DE protocol versions. 9.1 HART Diagnostic Messages Table 21 critical and non-critical (warning) HART diagnostic messages. Table 21 –...
  • Page 101 Non-Critical Description More Details ( Cause and Resolution ) Diagnostics MCU temperature of Core Temperature Out Of Range (-36C to 112.5C). CT Out of Range the device is out of If it is certain that the reading is in error, then contact your range vendor.

  • Page 102: De Diagnostic Details

    Applied input 2 value and measured value Sensor2 excess This will be set when difference between applied Input 2 LRV differ by more than LRV correct value and measured value exceeds 1.5% of span 1.5% span at low calibration point Applied input 2 value and measured value Sensor2 excess...
  • Page 103 Critical Factory calibration This indicates that device is not Try to restart the device. If the Diagnostics corrupted characterized or the status persists, contact your characterization data is corrupted. vendor. This has an impact on accuracy of device measurements at different temperatures User configuration The diagnostic of the configuration...

  • Page 104: Dtms

    Download from www.pactware.com  Download 2: HART Communication DTM\ Download from http://www.codewrights.biz/  Download 3: Honeywell HART DTM Library Download from HPS website 10.4 Procedure to Install and Run the DTM  Install the Download 1, 2, or 3 from above. ...

  • Page 105: Stt700 Dashboard

    10.5 STT700 Dashboard The dashboard screen will display the overall device health along with all the device variables in dial gauge format. 10.6 STT700 Online Parameterization On selecting Parameter/Online Parameterization, the DTM home page will be displayed. Typical home page screen is shown below. Based on the device type respective parameters will be shown. STT700 Series HART/DE Option User’s Manual Revision 1 Page 105...

  • Page 106: Device Health

    10.6.2 Device Icon / Honeywell Logo This will display the Honeywell Logo, Transmitter icon. 10.6.3 Process Variables The Process variable displayed will be PV, SV, TV, QV, % Range and Loop Current.

  • Page 107: Basic Configuration Page

    10.7 Basic Configuration Page The Basic Configuration page provides a view to the most common configuration items, as shown below. 10.7.1 Device Information The Device Information tab allows access to both read only parameters and read/write parameters, and provides access to message, clear message and maintenance mode. Refer to Table 9 for more details 10.7.2 Model Number The Model number function will display the STT700 model number.

  • Page 108: Stt700 Offline Parameterization

    10.8 STT700 Offline Parameterization On selecting Parameter/ Parameterization, the Offline parameter configuration page will be displayed. Upon making changes, select Device / Load to Device to download the Offline Configuration to the connected device. STT700 Series HART/DE Option User’s Manual Page 108 Revision 1...

  • Page 109: Hart Dd Binary File Format Compatibility Matrix

    11 HART DD Binary File Format Compatibility Matrix "Host - STT700 - HART DD binary file format" compatibility matrix Host DD file format to be used Experion R410 Experion R400 to R300 Experion below R300 FDM R430 FDM R410 – R302 FDM Below R302 Refer the respective tools’...

  • Page 110: Glossary

    Glossary American Wire Gauge Cold Junction Callendar-Van Dusen is an equation that describe the relationship between resistance (R) and temperature (t) of platinum resistance thermometers (RTD) Device Description Digital Enhanced Communications Mode Device Type Manager Electromagnetic Interference EEPROM Electrically Erasable Programmable Read Only Memory Field Device Manager Field Termination Assembly HART...
  • Page 111 Thermocouple Upper Range Limit Upper Range Value Universal Station Volts Alternating Current Volts Direct Current WRITE AS ONE (grouping of parameters for editing, for example you can edit PV URV and PV LRV in one shot if URV LRV is provided under wao list) STT700 Series HART/DE Option User’s Manual Revision 1 Page 111...
  • Page 112 INDEX About This Manual ............iii Field Device Configurator ..........30 aving device history ..........59 Custom Views ............61 Device Configuration and Parameter Descriptions .. 40 Exporting device history records to Documint ..61 Calibration Exporting device history records to FDM ....60 Input Calibration Procedure ........
  • Page 113 Safety Certification Information ........12 Transmitter Adjustments ..........12 Selecting the Process Variable (PV) Unit of Temperature Troubleshooting and Maintenance ......100 Measurement............57 Setting Range Values for Applied Temperature ..... 58 STT700 Physical and Functional Characteristics .... viii Features and Options ..........viii Uploading a Transmitter Configuration ......
  • Page 114 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, TX 77042 Honeywell Control Systems Ltd...

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