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SLG 700 SmartLine Level Transmitter Guided Wave Radar HART

1. Max ET Parameter Description Electronics Temperature ET upper operating limit from Limit specification Value is in user specified temperature units Set up None ET Method Description Actual limit used in Time Above Limit and Time Since Last USL upper Event Value is equal to Max ET Limit less 10 of limits stress limit range Example Electronics Temperature range is 40 F to 185 F for a total of 225 F ET Upper Stress Limit 185 F 10 of 225 F 162 5 F Set up None calculation is automatic Max ET Parameter Description Highest Electronics Temperature ever experienced by the Value device Value is in user specified temperature units Set up None NVM Update every 8 hour Time Above Parameter Description Accumulation of minutes that device s Electronics USL Upper Temperature has been above the value of ET Upper Stress Stress Limit Limit Set up None NVM Backup once each 8 hour period Last ET up Method Description Time that has passed since the last time device s Electronics details Temperature has passed above the value of ET Upper Time Since Stress Limit in days hours and minutes Last ET Up Set up None NVM Backup once each 8 hour period Min ET Parameter Description Electronics Temperature ET lower operating limit from Limit specification Value is in user specified temperature units Set up None ET LSL Method Description Actual limit use
2. Prod Refle Gain Amplitude of the Product Surface Peak wave shape Prod Refle Attenuation Increased attenuation results in smaller side lobes of the wave s shape Increased attenuation results in smaller side lobes of the wave s shape Prod Refle If changing the gain does not help try increasing Threshold threshold Page 28 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Correlation Algorithm contd Interface Reflection If the transmitter is not detecting the Interface Level then adjust the Interface Reflection parameters to match what is seen on the observed echo curve at the Interface peak reflection For example suppose by zooming in on the observed echo curve at the Interface peak reflection position user sees the observed Interface wave s greatest amplitude is 1200 and its observed greatest width is 150mm at the x axis whereas the configured Interface Gain is 1000 and configured Interface Width is 140mm Then user needs to change the configured Gain to 1000 and configured Width to 140mm to match the observed curve Intef Refle Start Defines the start position cm of a 240 cm wide search window This parameter is not used under normal operation as the search window positions are automatically updated by a level
3. Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Probe Config Probe Probe type Custom Rod Wire Coax Probe Details Image qo Jt A to Config Blocking Dist Block Dist High See B in image A region near the flange where measurements are not possible or are inaccurate Block Dist Low See C in image A region near the probe end where measurements are not possible or are inaccurate This is somewhat dependent on the DC of the material being measured Loop Current in BD High Saturation Low Saturation Last Known Good value Default Select behavior of the analog output when the PV measurement is in the blocking distance High Saturation Sets loop current to either 20 5 or 20 8 based on Namur Selection Low Saturation Sets loop current to 3 8 mA Last Known Good value Loop current follows the last known PV value Default If distance is in High zone loop current is set to high saturation current If distance is in Low zone set loop current to 3 8 mA Config Mount Angle 0 90 Enter the probe s mounting angle if not vertical Mounting Angle 0 90 SLG 700 Series HART Option User s Manual Revision 1 0 Page 22 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or gr
4. Ww Dev id 8980224 wy Dev SW Rev 1 00050t wy Display SW Rev 1 0000af wy Fld dev rev 1 Install Date 03 12 2 W_Long tag wy Manufacturer Honeywell W Message re wy Model SLG7 00 Poll addr 0 Send Edit the parameters that are Read Write and select Send For more details on any of the FDC features refer the MC Tookit User Manual document 34 ST 25 50 Page 54 SLG 700 Series HART Option User s Manual Revision 1 0 3 2 15 Offline Configuration 3 2 15 1 Overview Offline Configuration refers to configuring a device when the device is not physically present or communicating with the application This process enables the user 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 This feature enables the user to save on device commissioning time and even helps the user to replicate the configuration in multiplicity of devices with lesser efforts Currently FDC does not support creating offline configuration However it supports importing of offline configuration from FDM R310 or later versions The configurations thus imported can be downloaded to the device from FDC The following are the tasks that the user needs to perform for importing offline configuration in FDC application software and then downloading it to the device e Create offline config
5. Device health status Device health icons Indications Indicates there s no health or status indicators reported by the device Indicates that the device is potentially reporting a status which needs attention and further investigation It is advised that the user use Device Status under Functions tab to further investigate the details Indicates that the device has lost communication with MC Toolkit 3 2 7 Tabs on the Device Home page The following are the options that are available on the device homepage e Information tab Use this option to view the device identity related information The user can view the manufacturer name device type device revision DD revision and universal revision of the HART device y longtag Manufacturer Ki Honeywell rice Device Type SLG700 a Device Revision o 0x1 Functions DD Revision 0x9 D My Views Universal Revision 7 Poll Address 0 Return Page 12 SLG 700 Series HART Option User s Manual Revision 1 0 e Functions tab This tab provides various options which the user may use for navigating through the device specific user interface and some standard features offered by FDC across all devices For the sake of explanations the right side options under this tab shall be referred as Entry points throughout the rest of the document yw longtag Information G Device Status Process Monitoring My Devi
6. E Device Setup Ha Basic Configuration E Advanced Configuration Ha Monitor Send Q Alternately the user can access the full EDDL features by selecting the My Device Tab m My Device E My Device m Device setup He Basic Configuration a Advanced Configuration HE Monitor Label Value unt mSend Q Navigate through the Menus to access various functions See section 3 2 9 page 16 for a complete listing of all the parameters and details Revision 2 0 SLG 700 Series HART Option User s Manual Page 15 3 2 9 Device Configuration and Parameter Descriptions Below are descriptions of all parameters for a HART Transmitter with the Online tab menu path The same parameters may be accessed via the Shortcuts menu under the My Device tab Parameters are grouped under the following headings e Basic configuration see Table 4 General Process Measurement Dynamic Variables 4 20mA Outputs Summary Advanced Configuration see Table 5 Probe Linearization Volume Correlation Algorithm Services Local Display Summary e Monitor see Table 6 Dashboard Device Status Device Information Echo Curve Adv Diagnostics Linearization strapping table may not work with AMS system Page 16 SLG 700 Series HART Option User s Manual Revision 1 0 Table 4 Basic Configuration parameters Key
7. ET Diagnostics s ccrcis scascs eiaa tenis a ieee at tee cee eee 64 Table 12 Operating Voltage Diagnostics ee eeeeeseeseeeseeeseeccecssecseceseesseeseesseeeseeeeeeeees 65 Table 13 Configuration Change History Diagnostics eee esecsseceseceseceseceseeeseeeseeeseeeees 66 Table 14 Error Log Diagnostics s scireeccieschiecseeevtbad tee e e a a e eases 66 Table 15 HART Critical Diagnostic Messages 0 e cc esceeseeseecnsecnsecnseceseceseceseeeteeeseeeneeeees 67 Table 16 HART Non Critical Diagnostic Messages cs escecssecsseceeceeceeceseeeseeeseeeseeeses 74 Page viii SLG 700 Series HART Option User s Manual Revision 1 0 1 Introduction 1 1 Overview The SLG 700 SmartLine Level Transmitter can be configured for operation with HART version 7 or Fieldbus communication This manual addresses the processes to configure a Transmitter for HART communication 1 2 HART Mode Communication As indicated in Figure 1 the output of a Transmitter configured for HART protocol includes two primary modes e Point to Point Mode in which one Transmitter is connected via a two conductor 4 20 mA current loop to one receiver e Multi Drop Mode in which several Transmitters are connected through a two conductor network to a multiplexed receiver device 20 mA ge EU PVEUHI Communications Operating X Digtal AC Range of 100 PY gt rv Transmitter of g ba Analog DC in implied EU Example 0 400 in cm x a
8. High Alarm Limit High Alarm Counter Change Alarm Limits Reset PV Tracking SV Tracking See Table 10 SV Tracking Diagnostics page 63 SV High Value SV Low Value Low Alarm Limit High Alarm Limit Low Alarm Counter High Alarm Counter Change Alarm Limits Reset SV Tracking ET Tracking See Table 11 ET Diagnostics page 64 ET Max ET Limit Max ET Value Last ET Up Details ET USL Time Above USL Min ET Limit Min ET Value Last ET Down Details ET LSL Time Below LSL Revision 2 0 SLG 700 Series HART Option User s Manual Page 47 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Adv Diagnostics cont d Operating Voltage See Table 12 Operating Voltage Diagnostics page 65 Loop Voltage Min Loop Voltage MSP 430 VCC Voltage Tracking Reset Volt Tracking MCU Supply Voltage Power Cycles Last Power Cycle Config History Displays a history of the last five configuration parameters First History that have been changed See Table 13 Configuration Parameter Change History Diagnostics page 66 Second History Parameter Third History Parameter Fourth History Parameter Fifth History Parameter Exit Error Log Enable and disable error logging E
9. If the problem still persists then NVM might be damaged so need to replace Communication board User may require to configure the correlation algorithm parameters if device does not make valid level measurements Common DB Corrupt NVM copy of Common database block found corrupt Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module Sensor and Comm Board DB Data Mismatch Comm sensor database Parameter Inconsistent Check the cable between Communication module and Sensor housing is proper Power cycle the device if problem still persists load the correct communication and sensor firmware versions Sensor and Comm Board DB Version Mismatch Communication firmware is not compatible with sensor firmware Update communication and sensor boards with compatible version of firmware Check with Service person support team for version details Revision 2 0 SLG 700 Series HART Option User s Manual Page 71 Table 15 HART Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Sensor Characterization Sensor Characterization Data CRC Re load the sensor firmware and if Data Failure corruption problem still persists replace the Sensor housing Sensor Configuration DB Corrupt NVM copy of Sensor configuration database block found corrupt Power cycle the device
10. If the problem still persists then NVM might be damaged so need to replace Communication module Sensor Parameter Write Failure Sensor housing does not have the latest parameter configuration Power cycle the device and perform device configuration again If problem still persists load the correct communication and sensor firmware versions Vital Configuration DB Corrupt NVM copy of Vital configuration database block found corrupt Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module Miscellaneous DB Corrupt NVM copy of miscellaneous database block found corrupt Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module General Configuration DB Corrupt Sensor Comm Timeout Electronic Module DAC Failure NVM copy of general configuration database found corrupt If there is no communication between Communication Board and Sensor Board or invalid data on communication line due to noise This is a roll up status bit that is set when any of the following critical status conditions are present e DAC SPI Interface Failure e DAC Packet Error e DAC Over Current e DAC Under Current e DAC Temperature Above 140 C e DAC Control Word Write Fault Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication
11. In addition the FDC application provides some functions for convenient execution of these functions Offline Configuration refers to configuring a device when the device is not physically present or communicating with the application This process enables the user 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 This feature enables the user to save on device commissioning time and even helps the user to replicate the configuration in multiplicity of devices with lesser efforts Currently FDC does not support creating offline configuration However it supports importing of offline configuration from FDM R310 or later versions The configurations thus imported can be downloaded to the device from FDC The following are the tasks that the user needs to perform for importing offline configuration in FDC application software and then downloading it to the device e Create offline configuration template in FDM e Save the configuration in FDM in FDM format e Import the offline configuration in FDC e Download the offline configuration to the device Note For details on creating and using offline configuration refer to section Offline configuration in FDM User s Guide Personnel Requirements The information and procedures in this section are based on the assumption that the per
12. Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph General Tag Enter Tag ID name up to 8 characters long Long Tag Enter Tag ID name up to 32 characters long Length Unit m Select the unit for all length related parameters cm mm in ft Temperature Unit C Select the unit for all Temperature related parameters F Volume Unit liter Select the unit for all volume related parameters ft3 in3 US gal imp gal bbl liq yd3 m3 bbl Velocity Unit i Select the unit for all Velocity rate related parameters m s in min m h ft min in s Date Gregorian calendar date that is stored in the Field Device This date can be used by the user in any way Descriptor Enter any desired or useful descriptor of the transmitter Message Enter a message up to 32 alphanumeric characters that will be sent to the Display The message will be shown on the Display interspersed with the configured screens Clear message Select to clear message from transmitter s local display Final assembly num Used for identify electronic components Revision 2 0 SLG 700 Series HART Option User s Manual Page 17 Table 4 Basic Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Process Config Meas Product Single Liquid Two Liquids Flooded Two Liquids Non Flooded Select measured prod
13. ax 25da a Mo 0200 adyn Secondary Variable SW Produet Level Rate Tortiary Variable TV Vapor Thickness id Quaternary Variable QV Vapor Thickness Ip Disconnected Q Device G Ofline Product Level 0 000 Of Range 0 000 Loop Current 0 000 mA Planning Engneer Revision 2 0 SLG 700 Series HART Option User s Manual Page 85 7 7 5 4 20mA Outputs Configuration of output pDisconnected G Device i Ofline Product Level 0 000 Of Range 0 000 Loop Carer 0 000 mA 7 7 6 Summary Summary of basic and advanced configuration Page 86 SLG 700 Series HART Option User s Manual Revision 1 0 7 8 Advanced Configuration 7 8 1 Probe Probe Type Custom Probe Length A o 0 000 m Mounting Angle 0000 deg fo te Blocking Distance High 8 0 300 m o Blocking Distance Low C 6 0 300 m When in Blocking Distance High Saturation set Loop Current to fo SpOisconnected Q Device i Ofline Product Level 0 000 Of Range 0 000 Loop Current 0 000 mA Planraing Engineer Revision 2 0 SLG 700 Series HART Option User s Manual Page 87 7 8 2 Linearization Configure linearization table to compensate for irregular tank shape Note The Level Linearization feature does not affect the values reported for the Distance to Product and Distance to Interf
14. faults are reported replace the communication board If there are no DAC faults check the connection between communication and Sensor housing Power cycle the device and if problem persists replace the Communication module Communication Board Vcc 3 3 Failure Communication board power supply is bad Power cycle the device If problem persist Check if there are critical faults related to Power Accumulator module If power Accumulator faults are noticed replace the Sensor housing and if still problem persists replace the Terminal block assembly If problem continue replace the Communication module RAM CRC Failure SIL diagnostic failure Checksum of critical parameters stored in RAM has failed Power cycle the device If the problem persists after power cycle then RAM might be damaged so need to replace Communication module RAM Walk Test Failure Communication board RAM Failure Power cycle the device If the problem persists after power cycle then RAM might be damaged so need to replace Communication module Before replacing the Communication module ensure that the device is operating in environment which falls under the specifications as mentioned in GWR User s manual 34 SL 25 11 ROM Failure Communication board ROM Failure Power cycle the device If the problem persists after power cycle then RAM might be damaged so need to replace Communication module Before replacing t
15. need to adjust that object s model as described below Page 90 SLG 700 Series HART Option User s Manual Revision 1 0 7 8 4 2 How to adjust correlation algorithm model shapes Refer to the figures and callout descriptions below 1 Select model wave shape Reference Surface Interface 2 Selected model appears on graph in brown to distinguish it from the blue echo curve 3 Click and drag cursor to move model over relevant part of the curve In this example the Surface model is being used therefore drag it to the part of the curve where the Surface would be expected to the right of the Reference 4 The closer the model shape matches the curve shape the lower the Objective Function value In the example the brown Surface model does not match the blue curve at that position around 920 cm so the Objective Function value is high greater than 1 Available Echo Curves 2015 Mar 19 15 35 52 15000 More 10000 Qy Surface at 1334 53cm Global 5000 Model Attenyati DCs Amplitude Width mm 150 Attenuation 0 100 5000 Gain 9000 10000 Start cm 220 End cm 460 Reference Plane at 49 80cm a L m L a L L a1 L 1 a 4 o 200 400 600 200 1000 1200 1400 1600 1800 Echo Curve Type Processed Full tance cm Unzoom Obj Function 9 900 Threshold 15000 Decimation 5 T T T T T T T T T Obj Func Threshold 2 Objective Fu
16. 700 Series HART Option User s Manual Page 43 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Echo Curve Config Echo Curve Configures how to generate echo curve from transmitter Echo capture Type Windowed Echo Curve Full Echo Curve Processed Full Windowed Echo Curve Used by algorithm to find level measurements Surface and Interface windows are tracking surface level and interface level respectively Background subtraction near the reference plane is applied when needed Useful for troubleshooting correlation algorithm Full Echo Curve The full raw echo curve i e not windowed and no background removal or other processing done to it Useful for troubleshooting process Processed Full Echo Curve Echo curve with background removal Useful for troubleshooting process or correlation Echo Curve algorithm Echo Distance Unit Ft Units of distance on curve m in cm mm Echo Curve Start Distance from reference to begin the curve Distance Echo Curve End Distance from reference to end the curve Distance Echo Curve Distance between samples on the curve Lower number Resolution results in more detail but takes longer to process Page 44 SLG 700 Series HART Option User s Manual Revision 1 0 Table 6 Monitor parameters cont d Key Plain Read only Bold
17. Communiestic S D am 9670 HART widi mm 200 LE Attenuaton 0100 H Gain 14000 iS Start om 0 Ena em 240 Decimation bs 2408 wee 3080 Distance 917cm Obj Function 0 993 G w I cJ we Tees Distance fom SbOisconnectad Q Device i Offine Product Level 0 000 Of Range 0 000 Loop Curren 0 000 mA Planrang Enginar 7 8 4 1 Description of correlation algorithm Each object in the tank reference surface interface for two liquids reflects an echo sine wave with its own signature or model shape Each model s shape is described with parameters such as width gain amplitude and attenuation These models are configured at the factory according to the customer s specified configuration The correlation algorithm searches each part of the captured echo curve looking for the model echo from each object and if found labels each object on the echo curve graph along with its distance The models will work as configured in the factory assuming the customer s ordered configuration is correct If for some reason the surface or other objects are not being detected correctly try the following steps Often these steps will fix the problem 1 Check the basic configuration settings and adjust if necessary 2 Check advanced configuration settings especially probe settings and adjust if necessary 3 Read echo curve again If any object is still not being read correctly then the user may
18. FDC Note To select a particular option in FDC the user can either select the option and then tap Select or directly double tap the option Revision 2 0 SLG 700 Series HART Option User s Manual Page 7 3 2 1 3 2 1 1 Settings Use this feature to customize FDC The user can customize FDC for device detection DD selection and other application settings Device Identification Use the following options to configure FDC to identify a device e Using Poll Address Use poll address 0 only Use this to detect a device with the poll address as zero Find first poll address and use Use this to detect a device with the first available poll address in the range of poll addresses that are available Use selected poll address Use this to detect a device with a specific poll address in the range of zero to 63 Use From Use this to detect a device based on a range of poll addresses e Using Device TAG Use this to detect a device with a known HART tag e Using Device LONG TAG Use this to detect a device with a known HART long tag applicable for devices with HART 6 or later Universal revisions Note If the user chooses the option Using Device TAG or Using Device LONG TAG FDC prompts the user to enter a device tag long tag name during device detection 3 2 1 2 DD selection Use the following options to configure FDC to select DD files when a DD with matching device revision is not available Use DD file of pre
19. Failsafe Option 4 20 mA dc Output amp Failsafe Option Selections Selections _ oF Honeywell Namur or Honeywell HBO 21 0mA 21 0mA _HBO_ HBC 20 8 mA 5 Normal 20 5 mA 20 mA 20 mA HBO High Burnout LBO Low Burnout HBO High Burnout LBO Low Burnout y 4mA al Normala 3 9 mA 38mA a n A LBO 36MA 36MA FTE LBO NAMUR Disabled NAMUR Enabled Page 32 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Services cont d Write Protection Image SIM OFF SIM ON UP DOWN OFF ON Write protect Displays the current configuration of the write protect function Write Protect is Enabled if either the write protect jumper on the electronics board is in the ON position or the firmware write protect has been enabled The write protect jumper must be set in the Enabled position for SIL safety applications For further information consult the SLG 700 HART Safety Manual 34 SL 25 05 Write Protect On Off Configure the firmware write protect option Write Protect selections are Enable enables the firmware write protect option changes in configuration parameters will not be permitted Disable disables the firmware write protect option requires a password A 4 digit password is required to chang
20. HART Option User s Manual Page 83 7 7 Basic Configuration 7 7 1 General Configure tags units and display message 7 7 2 Process HART _ PACTone isi T Ble ft yew pejet Qevce ftes Window Help Deda Be 0290 aa Configure Process parameters i e a SmartLine Guided Wave Roder C Offtine 0 00 0 0mA se cma e Process Measurement Oyname Vanables LMA Outputs Summary Short Tag gt SHORTTAG Long Tag this is along tag Detours O mene J us JC iroa Message on LCD 0p Disconnected QL Device ii Offine Product Levet 0 000 1 Of Range 0 000 Loop Current 0 000 mA Planning Engineer SmartLine Guides Wave Hacer Configuration Monitor Gmnine oo Gama C cen eee yma varies etn Outs soar Moasured Products O Single Liqud Vapor Dielectric Constant o 1 000 Vapor Product Dielectric Constant o 1000 Saa tom act Product Maximum Filling Rate o 0 000 ms Gp Disconnected Q Dence i Ofting Product Level 0 000 1 Of Range 0 000 Loop Currant 0 000 mA Planning Engineer SLG 700 Series HART Option User s Manual Revision 1 0 7 7 3 Measurement Configure Measurement parameters General adar I Process 3b Disconnected Q Device i Offine Product Level 0 000 Of Range 0 000 Loop Current 0 000 mA Planning Engineer 7 7 4 Dynamic Variables Configure dynamic variables Dle pdt yew projet Device Extra Window Hep
21. Tap Options 3 Tap Refresh Library Or Tap e A confirmation message appears 4 Tap Yes The DD library is now validated and refreshed 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 After making changes to the device the user can also save a snapshot of the device data as history to later transfer it to FDM for record and audit purposes Page 10 SLG 700 Series HART Option User s Manual Revision 1 0 3 2 4 3 2 5 3 2 5 1 3 2 6 Offline configuration Offline configuration refers to configuring a device offline without physically connecting to the device using a template and then downloading the configuration to the device Presently FDC application software does not support creating offline configuration However it supports importing of offline configuration from FDM R310 and above Online Configuration Overview Online Configuration option provides the user a set of functions with which they can perform various operations on a device with an active communication link These operations primarily include configuration calibration monitoring and diagnostic
22. Tap Save to save device history record 7 Ifa history record for this device already exists the following warning message appears Save History Overwrite previous files for this device 8 Tap Yes to overwrite the existing name A overwrite success message appears 9 Tap OK to return to Device Home page 3 2 12 Exporting device history records to FDM The history snapshot saved in FDC can be imported into FDM for record and audit purposes This is enabled by the standard Import Export wizard in FDM This way FDM allows synchronizing the device configuration data through the MC Toolkit handheld Revision 2 0 SLG 700 Series HART Option User s Manual Page 51 To export device history from FDC and import it in FDM perform the following steps 10 11 12 13 14 Connect the MC Toolkit handheld to the computer as described earlier Browse to the folder on the computer SD Card gt FDC gt Resources gt History The FDC history records are named as per the following convention for the primary name DeviceTag_ManufacturerIDDeviceTypeDeviceRevisionDDRevision_DeviceID Copy the desired Device History Record files with fdm extension from the above mentioned location to a temporary location on FDM Client computer Use FDM Import Export wizard to import the history records into FDM After imported successfully e The snapshot would get imported into FDM database and appear as a history record for the c
23. aeeoeia saccharate ee ahead ie eee arb Sc nde ade beta EE v bist of FIQUES i e Sas esses cas aa a raa das Era arae at aa aaora a eee viii HiStOf Tables canin iia A AAN EA N AAAA viii ARN La aoo Deau Le a KOSAN dace tab asctcanteteuernsaitiasatoiterasauiasas ete rasautiasaebiarasautiaesaateataushat 1 1 1 C AT E T AE AO 1 1 2 HART Mode Communication ccccccccceceecceeseeceeeeeeeaeeeeeaeeeeeeeseeeeceaeeeeaaeseeeeeseaeeesaeeeeaeeseeeeess 1 1 3 Making Transmitter Adjustments 0 0 2 cece eeeeeeee ee eeee eter eeeeaeeeeeeaaeeeeeeaaeeeeeeaaeeeeeeaaeeeeeeaaeeeeeeaas 2 1 4 Ldcall Display Options E dashes aces dee is E ET E ued etcadene 3 2 Configuration Tools and Interfaces sisi icteistssccatnts ceteletdmtetattinteleldinieeteinteieiieieigage 4 2 1 OVVIE Wain anaa Made inn a ile ed a i aa 4 2 2 PPRCKSQUISILOS ro aa A EET E AA 4 2 3 WY Oral Kee ean eerree EPEA erie cerca are E A RT err eer toe 4 2 3 1 MC Toolkit Software Applications cccccceeeeceeeeeeeeeeeeeeeeeeeeeeeeaeseeaaeseeeeeseaeeesaeeeeeeeeeeees 4 2 3 2 Configuration Databases ccccceeeeeeeeeeeneeceeeeeceaeeeeeaeeeeaeeeeaeeesaaeeeeaaeseneeeseaeeseaeeseeeeeeeees 5 229 3 AC OMMOUMATIO Mere aa ht Sect od oe cece cata ke cM a eaten ate 5 2 3 4 MC Toolkit Transmitter Electrical Signal Connections cceeeceeeeeceeeeeeeteeeeeeeeeeeteeeees 5 2 4 OH EL eres aar aa preci tr AE A aa at Pree c erst re Peers eres fe peer treet ee 5 3 HART Transmitter Configurat
24. module User can verify the cable connector between communication and sensor board to ensure that it is not damaged Verify by replacing Communication module If it does not fix the problem replace the Sensor Housing Refer to each condition later in this table DAC SPI Interface Failure DAC SPI Interface Failure Power cycle the device Check the power supply and loop resistance are within specifications If they are then replace the Communication module DAC Packet Error Packet Error DAC or microcontroller chip may be damaged Check the power supply and loop resistance are within spec If they are then replace the Communication module DAC Over Current DAC Over Current The loop current value is greater than actual required value This might be due to some component is damaged and taking more current than expected Power cycle the device If problem persist replace the Communication module or sensing assembly or terminal block assembly Page 72 SLG 700 Series HART Option User s Manual Revision 1 0 Table 15 HART Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take DAC Under Current DAC Under Current The loop Power cycle the device If problem current value is below the actual persist replace the Communication required value module DAC Temperature Above The board temperature is high Verify the environment i
25. the SV TV and QV Dynamic Variables However if this condition is true for the PV Dynamic Variable then the critical Measurement Failure condition will also be set Verify the strapping table data or the dimensions of ideal tank shape Page 76 SLG 700 Series HART Option User s Manual Revision 1 0 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Linearization Table Error This condition indicates that one of the Dynamic Variables is mapped to a Device Variable that is derived from a linearized level measurement and the corrected level calculation failed This condition is considered non critical for the SV TV and QV Dynamic Variables However if this condition is true for the PV Dynamic Variable then the critical Measurement Failure condition will also be set Ensure that the Level linearization table has at least two entries that the entries in both measured and corrected level columns are in Ascending or descending order and also all of the entries are within the range specified by the measurement configuration parameters Linearization Table 1 Config DB corrupt NVM copy Level linearization table 1 database block found corrupt This non critical alarm can occur even linearization is disabled Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication mod
26. tracking algorithm Intef Refle End Read only this value is fixed at Start 240 cm Intef Refle Determines the step size in the search for reflections in a Decimation coarse search A decimation of 5 means that the coarse search will look for a reflection at every 5th raw data sample Once the coarse search has found the reflection a fine search determines the precise location of the reflection Intef Refle Width Determines the width of the Interface wave where it crosses the x axis one half wavelength Intef Refle Gain Amplitude of the peak corresponding to Interface wave shape Intef Refle Increased attenuation results in smaller side lobes of the Attenuation wave s shape Intef Refle If changing the gain does not help try increasing Threshold threshold Revision 2 0 SLG 700 Series HART Option User s Manual Page 29 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Correlation Algorithm cont d Probe End Reflection If the Probe End point is not being found then adjust the Probe End Reflection parameters to match the observed echo at the Probe End point location For example suppose by zooming in on the observed echo curve at the Probe End point position the user can see the observed Probe End wave s greatest amplitude is 20 and its observed greatest width is
27. vii List of Figures Figure 1 HART Point to Point and Multi drop Value Scaling 1 Figure 2 MC Toolkit Transmitter Electrical Signal Comnections esceesseesseceseceseeeeees 5 Figured PDC Homepages et eent atrora eee a Aee EEE RE E ARETA OE Ee EEEE En ana EEE 7 Figure 4 Device H mepage ssrin roe a E eee ete a as 11 List of Tables Table 1 Available Display Characteristics 0 00 cc cscessecsseceseceseceseceseeeseeeseeseneesaeeeneeeneeenaeenaees 3 Table 2 FDC homepage element eee eoi e eE a E E E EE e E E 7 Table 3 Device health Status cccsistscccstestectecclaceeetsetceessstsceescdtecetocsladcecs bel sseblecsuebbeseteatesslasett 12 Table 4 Basic Configuration parameters seeeesseeseesesreesesetssersisseestrsrestesresestrssesrenseeetesteet 17 Table 5 Advanced Configuration parameters 0 ccceeseeseeseeessecesecsseceseceseceseesseeeseeeeeeeees 22 Table 6 Monitor parameters i2cie itsccccessteesegetacebucsthegnsistsdebteptietsclaaoenslelgcenleecdestese cathe vent 39 Table 7 Tamper Reporting Logic Implementation with Write Protect 48 Table 8 Viewing Advanced Diagnostics 00 0 0 eeeeceeseeeseeeseeeseeeeecsaecsaecsaeesseeeseeseeeseeeseeeees 61 Table 9 PV Prackin Diagnostics i sccccc scectetstacehusboligesistsceescitieebodeeagcenscelestblesagoebegetaatsdalagers 62 Table 10 SV Tracking Diagnostics cee eeceeceeeceeeseeeseeeseecseecsaecesecaecsaecsseesseesseesseesseeeees 63 Table 11
28. 1 Dashboard Live view of process Interface Levul 4 70mA 1m 20 0 mA Echo Curve Internal Electronic Temperate mer 270 C se Connected G Omice B Nemcetical Alarms intertace Level 1600 m Of Range 100 000 Loap Current 20 000 mA i gt 7 9 2 Device Status amp Alarms Details of status and alarms See section 6 1 HART Diagnostic Messages for details File st Vew Project Device bens Wiadow Hep letertoce Level 4 2UMA 10m 20 0 mA Echo Curve P R Conected E Device A Noncntical Alarms hterace Level 1500 m OF Range 100 000 Loop Current 20 000 mA Page 96 SLG 700 Series HART Option User s Manual Revision 1 0 7 9 3 Device Info Device info details Hee Ede View Pret Derce btm Window Mep Connected E Dece L Noecri cs Alsea intectoce Level 1 500 m Of Range 100 000 Loop Curent 20 000 mA 7 9 4 Echo Curve Read save open echo curves Etas Window Help Honeywell Basic Advanced Status SmartLine Guided Wave Racar Confguration Configurahon Non cridcal 4 Dashboard Device Status amp Alarms Devici Echo Curve Type Start Distance End Distance Units Resolution Units Processed Full Echo Curve ome mE em 10E em E Show Behind Reference Planil Show True Distances on Stem Plots 15800 10000 s20 o lt sao 10000 aoa Reterence at 34 00em kad 5 kia 130 Echo Curve Type Processed Fut Otstance fe
29. 70mm at the x axis whereas the configured Probe End Gain is 15 and configured Probe End Width is 50mm This means the user need to change the configured Gain to 20 and configured Width to 70mm to match the observed curve Prb End Refle Start Defines the start position cm of a 240 cm wide search window This parameter is not used under normal operation as the search window positions are automatically updated by a level tracking algorithm Prb End Refle End Read only This value is fixed at Start 240 cm Prb End Refle Decimation Determines the step size in the search for reflections in a coarse search A decimation of 5 means that the coarse search will look for a reflection at every 5th raw data sample Once the coarse search has found the reflection a fine search determines the precise location of the reflection Prb End Refle Width Determines the width of the Probe End wave where it crosses the x axis one half wavelength Prb End Refle Gain Amplitude of the wave shape Prb End Refle Attenuation Increased attenuation results in smaller side lobes of the wave s shape Prb End Threshold If changing the gain does not help try increasing threshold Config Calib Offset Calibration Offset Offset to compensate for a change in geometry at the process connector that affects the measurement Reference Plane offset Read Only Distance between the reference
30. Configurable Bold underline Method Bold italic Table or graph Echo Curve cont d Observed Echo Curve Displays the echo curve observed Key points are marked by dots Example below HIN SLG700 Revision 2 0 SLG 700 Series HART Option User s Manual Page 45 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Echo Curve cont d Echo capture Type Windowed Echo Curve Full Echo Curve Processed Full Echo Curve Echo Distance Unit Ft cm mm Distance units used on curve Reference Amplitude Observed reference amplitude Reference at Observed reference distance Prod Surface Amplitude Observed Surface amplitude Product Surface At Observed Surface distance Interface Amplitude Observed Interface amplitude Interface At Observed Interface distance Probe End Amplitude Observed Probe End amplitude Probe End at Observed Probe End distance Page 46 SLG 700 Series HART Option User s Manual Revision 1 0 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Adv Diagnostics PV Tracking See Table 9 PV Tracking Diagnostics page 62 PV Low Value PV High Value Low Alarm Limit Low Alarm Counter
31. DC provides the user a unique feature wherein the user can choose what they want to view in a device and thus creating your own custom views This is a very convenient utility when the user is interested in select few variables in a device and saves time for navigating through the menus The user can create two views per device type with maximum of 10 variables selected for each custom view To create modify the custom views perform the following 1 On Device Home page tap My Views 2 Tap Configure and tap Select The Configure My Views dialog box appears 3 To customize View1 and View2 select the variables by checking the box against desired variables 4 Tap or to navigate to previous and next set of variables 5 Once done tap Options to select Save My Views Two custom views are ready with selected variables Note Since a custom view can contain only up to 10 variables each a warning is displayed if more than 10 variables have been selected To rename the views perform the following 6 Tap Options gt Rename View1 A dialog box appears informing the user to enter the name 7 Tap OK 8 Tap Option gt Save to persist the change 9 Tap Return to return to My Views page There are two options with the names assigned to the newly created views Revision 2 0 SLG 700 Series HART Option User s Manual Page 53 Note To view the custom views tap My View 1 gt Select The My View 1 page appears View 1 ne Ca
32. Honeywell SLG 700 SmartLine Level Transmitter Guided Wave Radar HART Option User s Manual 34 SL 25 06 Revision 2 0 July 2015 Honeywell Process Solutions Copyrights Notices and Trademarks Copyright 2015 by Honeywell Inc Revision 2 0 July 2015 While the information in this document is presented in good faith and believed to be accurate Honeywell disclaims any implied warranties of merchantability and fitness for a particular purpose and makes no express warranties except as may be stated in the written agreement with and for its customers In no event is Honeywell liable to anyone for any indirect special or consequential damages The information and specifications in this document are subject to change without notice Honeywell TDC 3000 SFC SmartLine PlantScape Experion PKS and TotalPlant are registered trademarks of Honeywell International Inc Other brand or product names and service marks are the property of their respective owners Honeywell Process Solutions 1860 Rose Garden Lane Phoenix AZ 85027 Page ii SLG 700 Series HART Option User s Manual Revision 2 0 About This Manual This manual provides the details of programming Honeywell SLG 700 SmartLine Level Transmitters for applications involving HART versions 5 6 and 7 communication protocols For installation wiring and maintenance information refer to the SLG 700 SmartLine Level Transmitter User Manual document number 34 SL 25 11 T
33. Length Unit m Unit used in volume calculation cm mm in ft Volume Unit L Unit used in volume calculation ft3 in3 gallon ImpGal bbl liquid yd3 m3 Config Table Entry Single entry in strapping table is updated with this method using index position provided by user Volume value is provided by user but level is measured by device for each entry configuration device may take 15 seconds to update the table with measured Level and corresponding Volume as entered by user User can repeat until all required strapping table entires are configured Save Strap Date Enter the date of creation modification of the strapping table Strapping Records Read Only Date as configured using Save Strap Date Revision 2 0 SLG 700 Series HART Option User s Manual Page 25 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Correlation Algorithm Config Corr The correlation algorithm searches the full echo curve Algorithm looking for reflection shapes that match that is correlate highly with models for reference surface and interface Each reflection model is a waveform whose shape is defined by parameters such as gain width and amplitude Under normal circumstances the transmitter will automatically find the level of the surface and interface if applicable using the configuration that was shipped from the fac
34. Manual Page 75 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Meter Display Timeout Display module not connected properly to Comm module or the interface connector or hardware of either Comm module or display module is damaged Power cycle the device and check the local display connectivity Secure Display connections and recheck Refer to Maintenance in User manual 34 SL 25 11 for more details about how to connect the display module with Communication module If problem still persists replace the display module Display NVM Corrupt Display configuration data has been corrupted Power cycle the device Device will try to restore last saved configuration If CRC still doesn t match with last configuration the NVM block will be defaulted Reconfigure Display general configuration like screen rotation language and password If individual views are corrupted then reconfigure the corresponding view that is defaulted Display View1 corrupt Display View1 database block found corrupt Power cycle the device User will need to reconfigure Display view1 Display View2 corrupt Display View2 database block found corrupt Power cycle the device User will need to reconfigure Display view2 Display View3 corrupt Display View3 database block found corrupt Power cycle the device User will need to reconfigu
35. Revision 1 0 7 Tap Send and the process to send the variables to the device starts Once the downloading is complete the following page appears yl Offline Status Measured Products Single Li FAILED a m FAILED m3 SUCC amp west FAILED m SUCC Product SUCC 1 SUCC Block Dist High 0 FAILED Block Dist Low 0 SUCC Language English SUCC Probe Length 1 2 FAILED Calibration Offset 0 2 FAILED Level Offset 0 3 FAILED Volume Offset 0 Max Product Level 1 2 Finish Note If the variables are downloaded successfully status appears as SUCCESS in green color and if failed status appears as FAILED in red color 8 Tap Finish to return to FDC Homepage Revision 2 0 SLG 700 Series HART Option User s Manual Page 57 4 HART Calibration 4 1 About This Section This section provides information about how to calibrate a Transmitter s analog output circuit H procedures in this manual assume the Transmitter is configured for Loop Current Mode enabled 4 1 1 Equipment Required e Digital Voltmeter or millimeter with 0 02 accuracy or better e 250 ohm resistor with 0 01 tolerance or better 4 2 Analog Output Signal Calibration Trim With a Transmitter in its constant current source mode its analog output circuit can be trimmed at its 0 zero and 100 levels It is not necessary to remove the Transmitter from service The user can calculate milliamperes of current from a voltage measur
36. TAA RRM cod oe Pr AE OR SA et Ree RT 87 T o AE Eoc ANIZATIOMN AAAA EAE aS coos Sees At ot ote Si ee Beh tetas tk lie TA 88 PGi NOI EA ASAE ER E ee i oe es he tee or eS fone Aer Mle le te tS skh oe 89 7 8 4 Correlation Algorithm cccceeecececeeeceeeeeeeeeceeeeeceaeeeeaaeeseaeeceaeeeceaeeesaaeeeeeeeseaeeeseaeeeeeeseeeeesaas 90 TB Dx SSSVICES hort 2 hcl a GRAN hs SS ke Ae ome Sel is foe lk teat a AN ie Ce TT 94 T80 LOGal DISPLAY aa tek bea lavegt eacel se Giant ca tik TNA 95 7 9 MONON PAE PTEE AEE ETE O E st Pe soca cadena dose A a ed eae cesu dened ber EE TE EA 96 FOAL IDASMBDO Ariss fa ich teers ose Scie Nee be cae ed tA Sis cook Se be tee ake LO olk EATE 96 7 9 2 Device Status amp Alarms wo a a a a e a a a a aa 96 TA EE E BIN Te can O AETI AAT E A A ATE E TE 97 Te E e e To EAU ATE EATE EO TAE ETA 97 Page vi SLG 700 Series HART Option User s Manual Revision 1 0 8 HART DD binary file format compatibility matrix ccceeeeeeeeeeeeeeeeeetteeeeeeees 98 95 SECUN meer eee etre eae ein er ee ere eer ote eect rare re ee ee ne ere re renter rere ee ren 1 9 1 How to report a security Vulnerability cece eee ceee ee eeee eter eeeeaeeeeeeaaeeeeeeaaeeeeeeaaeeeeeeaaeeeeeaas 1 CLS Ny nAn ra an a ae non ca ae on sy acre mts 2 16 gt epee ea ee Sree OPT Pret er Pe Oren er er PTO or RET Oy Ore Or rere ee eer rer etre er ee er eer eee eer er eer eee 3 Revision 2 0 SLG 700 Series HART Option User s Manual Page
37. This history record may then be transferred to a central asset management database such as FDM Using this feature the user can save the device configuration snapshot as device history of a connected device at any given time in a predefined location The following are the features of save device history option e Two formats of history are supported FDM and DocuMint e Only one snapshot per device instance is allowed to be saved and can save the snapshot of a device any number of times overwriting the existing one To save device history perform the following steps 1 On Device Home page tap Tools 2 Select Save History and tap Select The Save History page appears Page 50 SLG 700 Series HART Option User s Manual Revision 1 0 B Save History History Record Name NewDeviceRecord Ca Device Tag fer JR Format FDM Documint Return 3 Enter the History Record Name using the keypad and tap OK History Name field accepts alphanumeric characters underscore and no other special characters 4 Enter the Device Tag using the keypad and tap OK Device Tag field accepts alphanumeric characters underscore and no other special characters 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 FOM network 5 Select the Format The following are the available formats e FDM e DocuMint 6
38. Wave Radar Pocket Configuration Guide 34 SL 00 01 SLG 700 SmartLine Level Transmitter Guided Wave Radar Quick Start Guide 34 SL 25 04 SLG 700 SmartLine Level Transmitter Guided Wave Radar Specification 34 SL 03 03 MC Toolkit MCT 404 User Manual 34 ST 25 50 Smart Field Communicator Model STS 103 Operating Guide Document 34 ST 11 14 Revision 2 0 SLG 700 Series HART Option User s Manual Page iii Patent Notice The Honeywell SLG 700 SmartLine Guided Wave Radar Level Transmitter family is covered by the following U S Patents 6 055 633 Support and Contact Information For Europe Asia Pacific North and South America contact details refer to the back page of this manual or the appropriate Honeywell Solution Support web site Honeywell Corporate Honeywell Process Solutions Training Classes www honeywellprocess com https www honeywellprocess com en US explore products instrumentation process level sensors Pages smartline level transmitter aspx http www honeywellprocess com en US training Telephone and Email Contacts Area Organization Phone Number United States and Canada Honeywell Inc 1 800 343 0228 Customer Service 1 800 423 9883 Global Technical Support Global Email Support Honeywell Process Solutions hfs tac su ort honeywell com Page iv SLG 700 Series HART Option User s Manual Revision 1 0 Contents CIM OPES
39. ables derived from distance to interface will be shown as unknown in local display and on HART host the status would be poor accuracy Page 74 SLG 700 Series HART Option User s Manual Revision 1 0 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Sensor Characterization Status This indicates that device is not characterized this has an impact on accuracy of device measurements at different temperatures Replace the Sensor housing with characterized Sensor housing and send the un characterized device to factory Sensor Calibration Status This indicates device is not calibrated and impacts the accuracy of measurements at different positions of level Replace the Sensor housing with calibrated Sensor housing and send the non calibrated device to factory Electronic Module Comm Failure This is a roll up status bit that is set when any of the following non critical status conditions are present e DAC Temperature above 100 C e Config change database block is corrupted in Communication board e Advance diagnostics database block is corrupted in Communication board e Brownout Status Refer to each condition later in this table DAC Temperature Above 100 C The communication board temperature is high above 100 C Check the ambient temperature and if ambient temperature is well below 100 deg C che
40. ace device variables If Level Linearization checkbox is enabled associated level are no longer described solely by the basic geometry and it is possible that the Product Level will not be equal to Sensor Height Level Offset Distance to Product Likewise for the Interface if is being calculated ae Dadas Do 5280 says m Honeywell Basic States Product Level 420A Enable Linearization O Sp Disconnected Device ll Offime Product Level 0 000 Of Range 0 000 Loop Current 0 000 mA Planning Engineer Page 88 SLG 700 Series HART Option User s Manual Revision 1 0 7 8 3 Volume Configure volume calculation method 2X Honeywen Basic States Product Level trm je n O O aa Probe Lneanzation Correlation Algonthm Sernces Local Display Volume Cacuaten PTT a o Fa Tank Shape Sphere lt p Tank Diameter A 0 000 m Volume Offset 0 000 t AbDisconnected Q Dewce E Oftine Product Level 0 000 1 Of Range 0 000 Loop Current 0 000 mA Planning Engineer Sates Product Levet ANMA 0 00 Honeywell Basic a Probe Lneanzation Ap Mescannacted Q Omice i Offine Product Lil 0 000 Of Range 0 000 Loop Curent 0 000 mA Revision 2 0 SLG 700 Series HART Option User s Manual Page 89 7 8 4 Correlation Algorithm View echo curve and make adjustments to improve echo detection if needed States Product Levet A To T HART
41. ales FP Sales Apps Honeywell com or TAC hfs tac support honeywell com AMERICAS Honeywell Process Solutions Phone TAC 1 800 423 9883 or 215 641 3610 Sales 1 800 343 0228 Email Sales FP Sales Apps Honeywell com or TAC hfs tac support honeywell com 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 Honeywell House Skimped Hill Lane Bracknell England RG12 1EB Shanghai City Centre 100 Jungi Road Shanghai China 20061 www honeywellprocess com Honeywell 34 SL 25 06 Rev 2 July 2015 2015 Honeywell International Inc
42. alibration 360 rotation in 90 increments Three 3 configurable screen formats o Large process variable PV o PV with bar graph o PV with trend 1 24 hours configurable Advanced Eight 8 screens 3 30 seconds configurable rotation timing Display Standard and custom engineering units Diagnostic alerts and diagnostic messaging Multiple language support o English French German Spanish Turkish Italian and Russian Supports optional 3 Button configuration and HART calibration Supports transmitter messaging and maintenance mode indication Revision 2 0 SLG 700 Series HART Option User s Manual Page 3 2 Configuration Tools and Interfaces 2 1 Overview This section describes the tools and interfaces involved in configuring a new SLG 700 SmartLine Level Transmitter for HART communication operation The information in this section also applies to adjusting the configuration of a Transmitter that has been in operation and updating one that is currently in operation 2 2 Prerequisites 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 or MCT404 The name MC Toolkit or Toolkit and MCT404 are used interchangeably as MCT404 is the model name for the Honeywell MC Toolkit product A When using MCT404 before connecting to a HART transmitter verify that the Field Device Configurato
43. ank Shape Using ideal tank shape method user can select the tank shape Sphere Cubic Tooo Horizontal Bullet A A X X _ I Vertical Cylinder A _ Horizontal Cylinder os Rectangle e j Vertical Bullet Ao Note Above pictures have the following notation A Tank Diameter B Tank Height C Tank Length D Tank Width Config Tank Configure the applicable tank properties These are used Dimensions to derive volume if volume calculation type is selected as Ideal Tank Shape Tank Length Enter dimension see C Tank Width Enter dimension see D Tank Height Enter dimension see B Tank Diameter Enter dimension see A Volume Offset Enter volume correction value if desired Page 24 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Volume cont d Config Points In Use 2 50 This defines number of valid index points Level to Volume in strapping table used by the device to calculate volume Between 2 and 50 pairs of points can be used to construct the strapping tables Points in Use 2 50 Strapping Table In this dry volume strapping table for each point enter a Level and a corresponding Volume Press Send to download the table to the transmitter s memory Refresh Table Updates table with any changes made
44. aph Linearization Linearization Disable Enable Enables or disables the linearization table in the transmitter When enabled the transmitter s measured values are replaced by corresponding user specified corrected values from the linearization table Before enabling the user must first configure linearization table then Send it to the transmitter Table can be updated either as complete block dry calibration or single entry wet calibration measurements are active Note The Level Linearization feature does not affect the values reported for the Distance to Product and Distance to Interface device variables If Level Linearization is enabled measured level are no longer described solely by the basic geometry and it is possible that the Product Level will not be equal to Sensor Height Level Offset Distance to Product Likewise for the measured interface if is applicable based on measured product type Config Points In Use 2 32 Enter number of index points to be used in the dry and wet linearization tables The user can enter up to a maximum of 32 points to construct the tables Points in use 2 32 Linearization Table In this table for dry linearization user can enter pairs of Measured Level and a corresponding Corrected Level Press Send to download the table to the transmitter s memory Table will be used after Linearization is enabled Refresh Table Updates the table with r
45. b under the device home page provides the entry points for navigating through the device specific user interface to perform the above mentioned operations A device may define up to four entry points in the DD file All devices shall have at least one entry point generally referred to as Online Besides the device specific entry points FDC provides custom entry points for navigational aids to specific types of information features One such entry point is called Device Status which is used for reviewing device health Another is called Methods List which is used to navigate to all the methods available in a device All of the device specific entry points represent the device interface as explained using the Online entry point as an example All the other device specific entry points have a similar interface except for the fact that the variables and other DD constructs provided under each may vary as indicated by the title of each entry point B For the sake of explanation the pages that appear on navigating through the device specific entry points are referred to as Device Configuration pages in this document However it must be noted that this does not prohibit the user from performing other device operations as explained above Page 14 SLG 700 Series HART Option User s Manual Revision 1 0 Online Device Entry Point When the user tap on to open the Online tab the device configuration screen appears as shown below Online
46. ce Device Status w a me a Methods List Tools Select e My Views tab Quite often the user 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 the user want may not be in the same location Using this unique feature of FDC the user can now choose what they want to view in a device in your own views FDC allows the user to create two such views per device revision of a specific device type The user can always modify them as per your needs y longtag O Configure Information Functions My Yiews Select Return Revision 2 0 SLG 700 Series HART Option User s Manual Page 13 3 2 8 e Tools tab This tab is a placeholder for FDC specific tools for providing certain functionality Currently the only option it provides is called as Save History Using this option you can save the snapshot of the device variables This snapshot is saved in a format which can be later imported as a history record in FDM g longtag Save History a2 Functions My Views Select Return Using FDC for various device operations Typical operations with a smart field device involve configuration monitoring and diagnostics FDC enables the user to achieve these operations with a HART device via the various interfaces constructs exposed through the DD file of the device The Functions ta
47. ck if there are other DAC faults reported by device Power cycle the device and if error still persists replace the Communication module Config Change DB corrupt NVM copy of Configuration history database block found corrupt Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module Adv Diag DB RAM corrupt Communication board RAM copy of Advanced diagnostics database block found corrupt Power cycle the device If the problem still persists then RAM might be damaged so need to replace Communication module Brownout Status This indicates that device is reset due to fluctuations in supply voltage of communication board Verify the supply voltage to transmitter and loop resistance and any noise source near transmitter Power cycle the device and if problem still persists then replace Communication module Local Display Failure This is a roll up status bit that is set when any of the following critical status conditions are present e Meter Display Timeout e Display NVM Corrupt e Display View1 corrupt e Display View2 corrupt e Display View3 corrupt e Display View4 corrupt e Display View5 corrupt e Display View6 corrupt e Display View7 corrupt e Display View8 corrupt Refer the resolution column corresponding to respective non critical status conditions Revision 2 0 SLG 700 Series HART Option User s
48. d in Time Below Limit and Time Since Last Lower Event Value is equal to Min ET Limit plus 10 of limits Limit for range Stress Example Electronics Temperature range is 40 C to 85 C for a total of Condition 125 C ET Lower Stress Limit 40 C 10 of 125 C 27 5 C Set up None calculation is automatic Min ET Parameter Description Lowest Electronics Temperature ever experienced by the Value device Value is in user specified temperature units Set up None NVM Update every 8 hour Time Below Parameter Description Accumulation of minutes that device s Electronics LSL Lower Temperature has been below the value of ET Lower Stress Stress Limit Limit Set up None NVM Backup once each 8 hour period Last ET Method Description Time that has passed since the last time device s Electronics Down Temperature has passed below the value of ET Lower Details Stress Limit in days hours and minutes Time Since Set up None A z NVM Backup once each 8 hour period own Page 64 SLG 700 Series HART Option User s Manual Revision 1 0 Table 12 Operating Voltage Diagnostics MSP 430 VCC Parameter Description MSP430 VCC in volts Loop Voltage Parameter Description Operating voltage available at device terminals Current Op Set up None units always in volts Voltage NVM none Note No accuracy is specified for this measuremen
49. des HART Mode Communication 5 Configuration Tools and Interfaces 8 Application Design Installation Startup and Operation 8 MC Toolkit 8 MC Toolkit Participation 8 Copyrights Notices and Trademarks ii Correlation Algorithm adjust with DTM 90 Calibration Offset 34 Interface Reflection 33 Probe End Reflection 34 Prod Surface Reflection 32 Reference Plane offset 34 Reference Reflection 31 D D A Trim 37 See Calibration dielectric constant DC 22 dynamic variables configure 24 monitor 42 Dynamic Variables 24 Field Device Configurator 11 aving device history 51 Custom Views 54 Device Configuration and Parameter Descriptions 20 Exporting device history records to Documint 54 Exporting device history records to FDM 52 Manage DDs 13 Offline configuration 15 Offline Configuration 56 Online configuration 14 Revision 2 0 Overview of Device Homepage 15 Procedure to Enter the Transmitter Tag See Settings 12 Using FDC for various device operations 18 G Glossary 99 H HART Advanced Diagnostics 62 HART Calibration 59 Analog Output Signal Calibration 59 HART DD binary file format compatibility matrix 98 HART Mode Communication 5 HART Transmitter Configuration 10 Overview of FDC Homepage 11 I Interface Reflection 33 Latching Mode 25 Local Display Options 7 Lower Prod Attenuation 35 P Patent Notice iv Physical and Functional Characteristics 5 Local Display Opti
50. e Bold underline Method Bold italic Table or graph Correlation Algorithm cont d Prod Surface Reflection If the transmitter is not detecting the Product Surface level then adjust the Product Surface reflection model parameters to match what is seen on the observed echo at the Surface point location For example suppose by zooming in on the observed echo curve at the Surface point position the observed Surface wave s greatest amplitude is 9000 and its observed greatest width is 150mm at the x axis whereas the configured Surface Gain is 7500 and configured Surface Width is 140mm This means user needs to change the configured Gain to 9000 and configured Width to 150mm to match the observed curve Prod Refle Start Defines the start position cm of a 240 cm wide search window This parameter is not used under normal operation as the search window positions are automatically updated by a level tracking algorithm Prod Refle End Read only this value is fixed at Start 240 cm Prod Refle Decimation Determines the step size in the search for reflections in a coarse search A decimation of 5 means that the coarse search will look for a reflection at every 5th raw data sample Once the coarse search has found the reflection a fine search determines the precise location of the reflection Prod Refle Width Determines the width of the Surface wave where it crosses the x axis one half wavelength
51. e Method Bold italic Table or graph Surface Sig Strength Upper Product signal strength Surface Sig Quality Upper Product signal quality Refresh Signal Info This will get the live values of signal Strength and Quality Meas Product Level Non linearized value of product level Distance To Product Live value of distance to product Distance To Interface Live value of distance to interface Meas Interface level Non linearized value of Interface level Process monitoring PV Trend of PV PV PV Meter SV Trend of SV SV SV Meter TV Trend of TV TV TV Meter QV Trend of QV QV QV Meter Live values of dynamic variables in trend or meter form Page 40 SLG 700 Series HART Option User s Manual Revision 1 0 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Dashboard cont d ET Live value of sensing module internal electronics Trend of ET temperature ET ET Meter PV AO Live value of PV analog output Trend of AO PV loop current Live value of loop current AO Meter Live value of AO PV AO Percent Live AO PV rnge Live PV PV rnge Live PV Revision 2 0 SLG 700 Series HART Option User s Manual Page 41 Table 6 Monitor param
52. e the Write Protect option from Enabled to Disabled to allow configuration changes The default password is 0000 and can be re configured by the user Note This cannot be changed if transmitter s Write Protect hardware jumper is disabled See user manual 34 SL 25 11 for details Change Password Change the write protect password to a new 4 digit code The password available over the HART R communication interface is separate from the local keyboard display password see SLG 700 Users manual 34 SL 25 11 When the write protect jumper is set to the ON position write protection is enable regardless of software write protect selection Apply values Perform a device re range by applying the desired Upper Range Value and Lower Range Values to the device input This sets the LRV and URV values corresponding to the device measured PV value D A trim Calibrates Analog Output with an external reference at the operating endpoints of the Analog Output Revision 2 0 SLG 700 Series HART Option User s Manual Page 33 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Loop test Tests the Analog Output measurement at any value over the full operational range Select a current value to apply and verify the current output on the loop with a calibrated meter Note that this function is only avai
53. eased onli ined aaaea 50 3 2 12 Exporting device history records to FDM eccceeeeeeeeeeeeeeeeeeeeeaeeeeeeeaeeeeeeaeeeeeeaeeeeseaas 51 3 2 13 Exporting device history records to Documint 0 0 0 eee ee ceeeeeeeeeeeeeeeeaeeeeeeaaeeeeeeaeeeeeeaas 53 S214 Custom VICWS iAtsaete Aiea Ah dint dani stadt aa a 53 3 2 15 Offline Configuratio Meesi rea ia aaar aat ea rede elimi ae rates Abadia ete 55 Revision 2 0 SLG 700 Series HART Option User s Manual Page v 4 HART Calibration i ccccccecccccccedccedconceeccesececcdcceaccedcendesncecesecaccecececcendusndecedeceseces 58 4 1 About This Se Ction EAEE EEEE E E EE 58 4 1 1 Equipment Regue sorre ETE AOTEA 58 4 2 Analog Output Signal Calibration Trit cccccceecceseeeceseeeceeeeeseeeesaeeeeaeeseeeeeseaeeesaeseeaeeeeaees 58 4 2 1 Procedure with handheld COMMUNICALON cccc cece cece ccce ee ceseceeeseeseeeeeeeuuuseueeeeueeeeueeeeeeanes 59 4 2 2 Procedure with DTM ou ccc cecccsceeececeeeceeeeeeeceeseueeceeuaeuueeeuaessesauaueeeeauaeueeeeaeeuaueueeesanes 60 5 HART Advanced Diagnostics ccccccceeeeeeeeneeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeenuieeeeeeeees 61 5 1 About This S ClOn Ac c diatcd vate etisalat tintin EE E 61 5 2 Advanced Diagnostics 20 c0 a ieee naan 61 6 Troubleshooting and Maintenance ccccceeeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeceeenneeeeeeees 67 6 1 PowerUp Be aviOlai cssscccetivrctegesiceds Sucteedestcedeuensnsacdasdacedectancuedesd ccceuapanaacde
54. ecent changes made Length Unit cm mm in ft Length unit used in the linearization tables Config Table Entry Linearization table must be enabled before executing this method Use this method to update single entry of linearization table with adjusted level value entered by user and current level measured by device User provides the Adjusted level value for the current measured level by device After entering Adjusted corrected level value user is required to wait for at least 10 15 seconds Save Linear Date Enter the date of creation for the linearization table Linearization Records Date of saved linearization table Revision 2 0 SLG 700 Series HART Option User s Manual Page 23 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Volume Vol Calc Type None Choose volume calculation method as Ideal tank shape if Ideal Tank Shape tank has ideal shape such as Sphere or Cylinder If tank Strapping Table has irregular shape then user can select volume Calculation calculation type as Strapping Table Calculation and define Level to Volume relationship in the table Note Select Volume Calculation Type as None if Volume related device variables like Product Volume are not required to be measured and monitored by device Contig T
55. eds to be changed Revision 2 0 SLG 700 Series HART Option User s Manual Page 79 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Linearization Table 1 Config DB RAM corrupt Level linearization table 1 RAM copy of database block found corrupt This non critical alarm can occur even linearization is disabled Power cycle the device and if problem still persists replace the Communication module Linearization Table 2 Config DB RAM corrupt Level linearization table 2 RAM copy of database block found corrupt This non critical alarm can occur even linearization is disabled Power cycle the device and if problem still persists replace the Communication module Volume Strapping Table 1 Config DB RAM corrupt RAM copy of Volume strapping table 1 database block found corrupt This non critical alarm can occur even volume calculation type is none Power cycle the device and if problem still persists replace the Communication module Volume Strapping Table 2 Config DB RAM corrupt RAM copy of Volume strapping table 2 database block found corrupt This non critical alarm can occur even volume calculation type is none Power cycle the device and if problem still persists replace the Communication module Sensor Algorithm Config DB RAM Corrupt Sensor algorithm RAM copy of database block found cor
56. em Distance 1336cm Obj Function 0 304 Notice at 5 the brown model s amplitude is slightly larger than the blue curve s amplitude To reduce the model s amplitude to better match the blue curve decrease the Gain By gradually decreasing Gain from 9000 to 7300 the model more closely matches the blue curve while the Objective Function value has improved from 0 304 to 0 239 Tip By using the up and down arrows to increase and decrease Gain the user can focus in on the lowest Objective Function value In the bottom graph of the Objective Function the red line indicates the Threshold The brown curve of the Objective Function must dip below this red Threshold line to be recognized If the Threshold is too low increase its value to raise the red line slightly above the dip as shown In most cases changing the position Gain and occasionally Threshold should fix any problems with the echo reading Click Apply to save your changes SLG 700 Series HART Option User s Manual Revision 1 0 Amplitude Objective Function Amplitude 6000 F 6000 4000 2000 2000 4000 j 6000 j d Surfa e at 1334 53cm Curves Global Available Echo More 2015 Mar 19 15 35 52 Model Attenuation DCs 1240 1260 Echo Curve Type Processed Full 1220 Distance 1240 cm 1260 1280 Obj Func Threshold Objective Function 11 Objec
57. ement as follows Dc milliamps 1000 X voltage resistance H IMPORTANT Be sure that the accuracy of the resistor is 0 01 or better for current measurements made by voltage drop Write Protect Write Protect Configuration Jumper Status Software Status Change Allowed ON OFF NO RO OFF amper Reporting Tamper Alerted Status Posted ON YES Page 58 SLG 700 Series HART Option User s Manual Revision 1 0 4 2 1 7 8 Procedure with handheld communicator Connect the MC Toolkit across loop wiring and turn it on See Figure 2 page 5 for a sample test equipment hookup Launch the FDC application On the Home page select Online and establish a connection with the device as follows Select the My Device menu and choose from the following menus a Online gt Device setup gt Advanced Configuration gt Services gt D A Trim b My Device gt Device setup gt Advanced Configuration gt Services gt D A Trim The user will be prompted to remove the loop from automatic control after removing the loop from automatic control press OK When a prompt appears connect reference meter in the loop to check readings and press OK The following prompts will be displayed e Setting fld dev to output to 4mA Press OK e Enter meter value Key in the meter value and press ENTER e Fld dev output 4 000 mA equal to reference meter 1 Yes 2 No o If the reference meter is not equal to the field device output then select No and pr
58. eral parameters database block found corrupt Power cycle the device and re configure display configuration if required Display View DB RAM Corrupt RAM copy of display view screen configuration database block found corrupt Power cycle the device and if problem still persists replace the Communication module Adv Diag DB RAM corrupt RAM copy of advanced diagnostics database block found corrupt Power cycle the device and if problem still persists replace the Communication module Config Change DB RAM corrupt RAM copy of configuration history database block found corrupt Power cycle the device and if problem still persists replace the Communication module General Config DB RAM corrupt RAM copy of general configuration database block found corrupt Power cycle the device and if problem still persists replace the Communication module Vital Configuration DB RAM Corrupt RAM copy of Vital configuration database block found corrupt Power cycle the device and if problem still persists replace the Communication module Common DB RAM Corrupt RAM copy of Common database block found corrupt Power cycle the device and if problem still persists replace the Communication module Miscellaneous DB RAM Corrupt RAM copy of Miscellaneous database block found corrupt Power cycle the device If the problem persists even after power cycle then Communication module ne
59. ess Enter o Key in the new meter value Return back to the Enter Meter Value prompt until the field device output equals the reference meter o Select Yes and press Enter The following display prompts will appear e Setting fld device output to 20mA Press OK e Enter meter value Key in the meter value and press ENTER e Field device output 20 000 mA equal to reference meter e 1 Yes e 2No o If the reference meter is not equal to the field device output then select No and press Enter o Key in the new meter value Return back to the Enter Meter Value prompt until the field device output equals the reference meter o Select Yes and press Enter The prompt notifies the user that the field device will be returned to its original output Revision 2 0 SLG 700 Series HART Option User s Manual Page 59 4 2 2 Procedure with DTM 1 2 Go to Advanced Configuration gt Services gt DAC Calibration Press Begin button This will automatically put transmitter into Fixed Current Mode at 4mA Enter the value read at multimeter into field under Enter Zero Trim Value 4mA read at multimeter Press the Set button under Enter Zero Trim Value 4mA read at multimeter This will automatically put transmitter into Fixed Current Mode at 20mA Enter the value read at multimeter into field under Enter Span Trim Value 20mA read at multimeter Press the Set button under Enter Spa
60. ess message appears Revision 2 0 SLG 700 Series HART Option User s Manual Page 9 3 2 2 3 3 2 2 4 3 2 3 Delete a DD file Using this option the user can delete a particular version of a DD file To delete a DD file for a device perform the following steps 1 From the FDC homepage tap Manage DDs gt Select The Manage DDs dialog box appears 2 The user can choose to delete DD s in one of the following ways a By device manufacturer Select a device manufacturer to delete all device types and DDs associated with the manufacturer s devices b By device type Select a device type to delete all DDs associated with the device c By device revision and DD revision Select the specific entry of device revision DD revision to delete the specific DD 3 Tap Options gt Delete DD Or Tap A confirmation message appears 4 Tap Yes If the DD file is deleted successfully a success message appears 5 Tap OK to return to DD Library page Validating a manually edited library Besides using the Add Delete DD features advanced users may also manipulate a DD library by directly editing the contents of the FDC Library folder DD files can also be transferred directly to this location by connecting the MCT to a PC In such cases the user must perform the following steps to validate a DD Library thus edited manually 1 From the FDC homepage tap Manage DDs gt Select The Manage DDs dialog box appears 2
61. essages 6 2 1 Critical diagnostics Table 15 critical HART diagnostic messages also called alarms Table 15 HART Critical Diagnostic Messages Name DTM DD Description Cause Resolution Steps to take Measurement Failure Revision 2 0 This is a roll up status bit that is set when any of the following critical status conditions are present e f Device variable selected as Primary Variable PV is not applicable for configured measured product PV selected is any of Volume device variables and the value is either infinite or not a valid number PV Selected is derived from measured level which is either infinite or not a valid number SLG 700 Series HART Option User s Manual If the non critical Device Variable Not Supported status is set check if the device variable selected as Primary Variable is applicable for the configured measured product type See page 20 If the non critical Volume Calculation Failure status is set check if Volume Calculation Type is configured as Strapping table check the Strapping table entries for valid data If Volume calculation type is selected as Ideal Tank Shape check the tank dimensions configured are valid and correct If the non critical Linearization Table Error Status is set check the Linearization table for valid entries corresponding to Measured and Adjusted level values Page 67 Name DTM DD Description Cause Re
62. et Sensor Power Supply 2 5V OSC Fault Power Accumulator board is damaged or malfunctions Power cycle the device and if problem persists replace Sensor housing If problem still persists replace the terminal block assembly Sensor Power Supply 2 5V Fault Power Accumulator board is damaged or malfunctions Power cycle the device and if problem persists replace Sensor housing If problem still persists replace the terminal block assembly Sensor Power Supply 3 3V Power Accumulator board is Power cycle the device and if OSC Fault damaged or malfunctions problem persists replace Sensor housing If problem still persists replace the terminal block assembly Revision 2 0 SLG 700 Series HART Option User s Manual Page 69 Table 15 HART Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Comm Module SIL Diag Failure This is a roll up status bit that is set when any of the following critical status conditions are present e Program Flow Failure e Communication Board Vcc 3 3V Failure e RAM CRC Failure e RAM Walk Test Failure e ROM Failure Refer to each condition later in this table Program Flow Failure Communication firmware Program Flow Failure This fault will get set if any of the critical part of the code is not executed after expected duration Check if any other faults are reported like DAC faults if DAC
63. et to more than 21 mA Low Loop current is set to less than 3 6 mA Loop current mode Enable enables loop current mode analog output will operate as a 4 to 20 mA signal consistent with the transmitter output Disable disables loop current mode analog output will be fixed to value set by user Poll addr Address used by the Host to identify a Field Device and changeable by the User to control the Multidrop Mode for Analog Output 1 and the Analog Output Fixed Mode of Analog Output 1 Num req preams Number of request preambles required from the Host request by the Field Device for Synchronization Echo Lost Timeout Enter number of seconds In case of Echo is lost peaks are not detected device waits for configured timeout to report fault Latching mode Determines behavior in the event of a critical error Latching the transmitter will stay in the critical error state until the user performs a hardware or software reset Non Latching the transmitter will leave the critical error state automatically after the circumstances leading to the critical state cease to exist NAMUR output Enabled High saturation current value set to 20 5 Disabled High saturation current value set to 20 8 Summary Summary Shows important basic configuration parameters Revision 2 0 SLG 700 Series HART Option User s Manual Page 21 Table 5 Advanced Configuration parameters
64. eters accordingly using the DTM Surface signal strength bad Surface signal strength is weak Read the Echo curve and configure algorithm and DC parameters accordingly Interface signal quality bad Interface signal quality is bad Read the Echo curve and configure algorithm and DC parameters accordingly Interface signal strength bad Lower product signal strength is weak Read the Echo curve and configure algorithm and DC parameters accordingly Sensor Configuration DB RAM Corrupt RAM copy of Sensor configuration database block found corrupt Power cycle the device Strapping Linearization Table Absent 1 If linearization table is not available in communication board NVM when level linearization is enabled 2 If strapping table is not available when volume calculation type is Strapping table Configure the Linearization table before level linearization is enabled Configure the Strapping table to select Volume calculation type Strapping table Display Common Config DB corrupt NVM copy of Display general parameters database block found corrupt Power cycle the device and re configure display configuration if required Display View Config DB corrupt NVM copy of Display view screen configuration database block found corrupt Power cycle the device and re configure display configuration if required Display Common DB RAM Corrupt RAM copy of display gen
65. eters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Device Status Critical Displays all possible Critical Status faults and indicates OFF for inactive faults or ON for active faults Help Critical Provides a more detailed description of each Critical Status Diagnostics fault Non Critical Displays the first set of possible Non Critical Status faults and indicates OFF for inactive faults or ON for active faults Help Non Crit Provides a more detailed description of each of the first set Diagnostics of Non Critical Status faults Non Critical Displays the second set of possible Non Critical Status faults and indicates OFF for inactive faults or ON for active faults Help Non Crit Provides a more detailed description of each of the second Diagnostics set of Non Critical Status faults Extd dev status Displays all possible Extended Device Status faults and indicates OFF for inactive faults or ON for active faults Help Extended Device Status Provides a more detailed description of each Extended Device Status fault Additional status DAC Failure Communication Display amp Sensor Other Info Sensor Sensor Database integrity Database integrity RAM Integrity RAM Integrity Display Integrity Displays additional status of these components Page 42 SLG 700 Serie
66. fault values User may require to configure Strapping table again for his application No DAC Compensation Communication board DAC compensation is not performed Loop accuracy may be slightly compromised Effect will be minor degradation of ambient temperature influence specifications Replace Communication module to achieve the maximum current loop accuracy and return the device to factory for DAC compensation Revision 2 0 SLG 700 Series HART Option User s Manual Page 77 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Unreliable Sensor Communication Communication between sensor and communication modules is not proper due to damaged connector or hardware issue with Comm module or sensor module Verify the cable connector between communication and Sensor housing to ensure that it is not damaged Either the transmitter is installed in a noisy environment or internal communication quality between the Electronics Module and Sensor is degrading Try replacing either Communication module or Sensor housing PV Out of Range PV value is not within LRV and URV Check if digital value of PV is out of configured LRV and URV Read the echo curve to see if stem markers are valid for distance to product and distance to interface if applicable based on measured product type If PV selected is derived fro
67. figurable Bold underline Method Bold italic Table or graph Display Units Distance Select display s units ft in m cm mm Volume ft3 in3 US gal Imp gal barrels yd3 m3 liters Level Rate ft s m s in min m h Internal temp F C Decimals Display s decimal point position Trend Duration For PV and trend display option enter a trend duration time from 1 to 24 hours Summary Summary Shows the important advanced configuration parameters Table 6 Monitor parameters Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Dashboard PV Is Product Level Displays measured values for dynamic variables PV SV TV PV and QV as configured from the choices at left Product Level SV Is SV Distance To TV Is Product TV Product Level Rate QV Is Vapor Thickness ay Vapor Thickness Interface Level Interface Level Distance To Interface Interface Level Rate Upper Product Thickness Product Volume Vapor Volume Lower Product Volume Upper Product Volume PV Loop current Live value of PV output current Internal Elect Temp Live value of sensing module electronics temperature Interface Sig Lower Product signal strength Strength Interface Sig Quality Lower Product signal quality Revision 2 0 SLG 700 Series HART Option User s Manual Page 39 Key Plain Read only Bold Configurable Bold underlin
68. figuration Change History Diagnostics Config History Method Description Provides configuration change history of device parameters Out of the last five configuration change instances user can select the specific instance to view the associated parameter changed Set up None NVM Information is stored in NVM when ever configuration change is successful Configuration change details of Linearization and Strapping details are not tracked and cannot be retrieved using configuration change history Table 14 Error Log Diagnostics Error Log Method Description Error log time stamp is provided based on sequence number of error event Set up Error log has to be enabled to log details NVM The information is stored in NVM at every 8 hours of continuous device operation Page 66 SLG 700 Series HART Option User s Manual Revision 1 0 6 Troubleshooting and Maintenance 6 1 Power Up Behavior At power on the loop current is set to 12 mA and HART digital communication start up time is 40 seconds from the instance device is powered Distance to Product and Distance to Interface if applicable are set to zero and the loop current to 20 8 mA 20 5 mA if Namur is Enabled until a valid level is detected by the transmitter In case of critical faults the device sets the loop current to burnout level as programmed Low scale lt 3 6 mA or High scale 21 5 mA 6 2 HART Diagnostic M
69. g J Tamper Alarm Settings O J Perform Soft Reset Y Reset to Factory Defaults For example DAC Calibration pDicannected Deuce Offine Product Level 0 000 Of Range 0 000 Loop Current 0 000 mA x Product Level 0 00 SmartLine Guided Wave Radar Configuration cont Ain 4 0 5 Set Cancel Enter Zero Trim Value 4mA read at multimeter mA Enter Span Trim Value 20mA read at multimeter Set Cancel 20 0 mA Page 94 SLG 700 Series HART Option User s Manual Revision 1 0 7 8 6 Local Display Configure global settings and up to 8 screen formats of the transmitter s display SR Honeywell Basic fares Product Level PEN EE e OO OOS aa Probe Lineanzation Volume Correlation Algonthen sve MEOD Global Settings Display Type None Configured Device Type Lenguege Rock Engish Display Password 0000 Pe Display Language Engish 3 Screen Rotation fore Display Contrast E z Roution Time 310 30secs E F Screen Settings Sereen Number KES Screen Format Hone Trond Duration Ars ff Variable to Display Trond Low Limit 600 Ot mie Number of Decimal Pleces o a Custom Tog Disconnected A Device Oline Product Level 0 000 Of Range 0 000 Loap Curren 0 000 mA Planning Engineer Revision 2 0 SLG 700 Series HART Option User s Manual Page 95 7 9 Monitor 7 9
70. gl ceis E 67 6 2 HART Diagnostic Messages ceceeeecne cece ee eeeeeeaeae cece ee eeceaaaeaeeeeeeeseeaaaaeeeeeseseseeaeaeeeeeeeeeeees 67 6 2 1 Critical GiAQNOSTICS 2 0 0 eee ceceesceceeeeeeeeeeeeeaeeececeaeeeseesaeeeseesaeeeseeaaeeeseceaeeesscaeesenenaeeeeseaas 67 6 2 2 Non Critical Diagnostics ccccsceceesceceseeeeeeceeeeeeeceeeaeeeceeeaeeesseaaeeeseesaeeesseaeeeeseneeeeseaas 74 Te SVG TS aean nS oni sn chem ee Rae Rae nS Chm A 81 7 1 ITFOCUCTIOR MEAP EEE E ARES EAEE EE be ctle cll Bites iho ci bote lel Eee dealin 81 7 2 COMpPONnentS naarits ene e ar ieee el nis We eee 81 7 3 BISAIA IEE 0 ETE AAEE EAE A ee 81 7 4 Procedure to Install and Run the DTM cece cess ce eecessseeeseeeeeuesseueueseueuaeeeeeaeeeeauaeeeeeaaes 82 7 5 SLG 700 Online Parameterization 0 0 0 cc cece cece ceceeceeceseee ease eeseesseaueeseceeeeeeeauaaeeseeeeeeeaeaa 83 7 6 DTM We lp icctcccccctedetan cette i a Anne iectavvlae a TEE AA nites 83 7 7 Basic Configuration sss oa E a A A aa E A E O 84 TET E E e Ee EEEE E T AA E EE EADE TE TE 84 TEI ER 01E EIE AE AEE TEE E E TEE EATA 84 TES M as r eme ntn u a e a a a a devel a aa a a ai aa a aN 85 7 7 4 Dynamic Variables ersen ihoreaktio 85 Talion 4 20MA Outputs ira a aa de ened npn eee 86 PASS SUMMALY lhc eesti thud a a al iaa Taaa er noliedla Na iaaea a Na erai 86 7 8 Advanced Configuration cccscccccsssececessneceeeesneeeeeeaeeeeseaaeeesseaeeeesesaeeesseaaeeesseaeeeessnaeeeeeeaas 87
71. he Communication module ensure that the device is operating in environment which falls under the specifications as mentioned in GWR User s manual 34 SL 25 11 Page 70 SLG 700 Series HART Option User s Manual Revision 1 0 Table 15 HART Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Device Configuration Failure This is a roll up status bit that is set when any of the following critical status conditions are present e Algorithm Configuration DB Corrupt e Common DB Corrupt e Sensor and Comm Board DB Data Mismatch e Sensor and Comm Board DB Version Mismatch e Sensor Characterization Data Failure e Sensor Configuration DB Corrupt e Sensor Characterization Data Failure e Sensor Parameter Write Failure e Vital Configuration DB Corrupt e Miscellaneous DB Corrupt e General Configuration DB Corrupt The following non critical conditions can also cause this to be set e Level linearization table 1 or table 2 corrupted in Communication Board when linearization is Enabled e Volume Strapping table 1 or table 2 corrupted in Communication Board when volume calculation type is Strapping Table Refer to each condition later in this table Refer to Table 16 HART Non Critical Diagnostic Messages page 74 Algorithm Configuration DB Corrupt NVM copy of Sensor algorithm database block found corrupt Power cycle the device
72. he 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 Details for operations involving the Honeywell Multi Communication MC Tookit MCT404 are provided only to the extent necessary to accomplish the tasks at hand Refer to the associated MCT404 User Manual for complete details The Reference section in the front matter of this manual lists document titles and numbers The SLG 700 SmartLine Level transmitter can be digitally integrated with one of two systems Experion PKS you will need to supplement the information in this document with the data and procedures in the Experion Knowledge Builder Honeywell s TotalPlant Solutions TPS you will need to supplement the information in this document with the data in the PM APM SmartLine Transmitter Integration Manual which is supplied with the TDC 3000 book set TPS is the evolution of the TDC 3000 Release Information Rev 1 0 April 2015 First release Rev 2 0 July 2015 Security Vulnerability section added References The following list identifies publications that may contain information relevant to the information in this document SLG 700 SmartLine Level Transmitter Guided Wave Radar User s Manual 34 SL 25 11 SLG 700 SmartLine Level Transmitter Guided Wave Radar HART Option Safety Manual 34 SL 25 05 SLG 700 SmartLine Level Transmitter Guided
73. he following steps 1 On the FDC homepage tap Offline Configuration gt Select The Offline Configurations page appears 2 Select the required offline configuration template from the list 3 Tap Options gt Delete A warning message appears 4 Tap Yes to delete the offline configuration template 3 2 15 4 Downloading an offline configuration Using this feature the user can download the offline configuration when the device is online To download an offline configuration perform the following steps 1 On the FDC homepage tap Offline Configuration gt Select The Offline Configurations page appears 2 Select the required offline configuration template from the list 3 Tap Options gt Download The Offline Select Variables page appears with the all the variables Note By default all the variables selected in FDM will appear as selected and non editable variables appear in grey color 4 Select the required variable In case the user selects a dependent variable then variables on which it is dependent on will also be selected and the following warning appears a Offline Information o write this variable the following variables will also be selected 1 STATUS ACCESS 2 SYSTEM OPTION ECC 3 SYSTEM OPTION ADW DIAG 5 Tap OK to return to the offline wizard 6 Tap Next The Offline Review and Send page appears with the list of selected variables Page 56 SLG 700 Series HART Option User s Manual
74. iables Measured Products Single Liquid Two Liquids Flooded Two Liquids Non Flooded Selected product being measured IMPORTANT If the user changes the Measured Product after configuring Dynamic Variables always check that dynamic variables configuration corresponds to the new Measured Product For example an error will be generated if PV is Intf Level while Measured Product is Single Liquid Config Dynamic Var PV Primary Variable and loop current SV Secondary Variable TV Tertiary variable QV Quaternary Product Level Product Level Distance To Product Product Level Rate Vapor Thickness Vapor Thickness Interface Level Four dynamic variables PV SV TV and QV can each be configured to monitor a different device variable These 4 dynamic variables and their live measured values will be displayed under the Monitor tab Note The device variables available to PV SV TV QV will vary according to the measured products For example Dist to Intf will not be available for a sinqle liquid Also the volume vanable Interface Level related device variables are available only if the Distance To Interface volume calculation method has been configured Interf Level R page 24 Always check configuration after MISH AGS eval Tale changing Measured Product configuration Upper Product Thickness IMPORTANT The PV primary variable is the Product Volume process variable that contro
75. iator modem DB9 connector to the PC COM port Run PACTware Select Update Device Catalog before adding Device before adding HART Comm DTM Add Device Add HART Comm DTM Right click on HART DTM select Connect Right Click on HART Comm DTM and select Add device Add the Device DTM from for your device from the list for example SLG 700 DevRev 1 Right Click on Device DTM and select Connect Right click on Device DTM and select Parameter online parameterization You should see Status Connected to be able to do configuration calibration etc Browse through the menus to access various parameters functions Page 82 SLG 700 Series HART Option User s Manual Revision 1 0 7 5 SLG 700 Online Parameterization The following sections provide a high level overview of SLG 700 DTM screens The Menu structure is similar to the MC Toolkit FDC application On selecting Parameter Online Parameterization the DTM home page is displayed as shown Configuration and ting Proceed to Guided Setup gt SmartLine SLG700 M Level Transmitter Honeen f rocne e Guided setup takes the user step by step through the Basic Configuration page 84 e Advanced Setup goes to Advanced Configuration tab page 87 e Dashboard goes to the Monitor tab page 96 7 6 DTM help Mouse over the O symbol next to a parameter to read its description On some pages the user can click on Page Help if available Revision 2 0 SLG 700 Series
76. ig Process Range of he 4mA lt gt PVEULO HART Point Point Modo i URU rnamrn mms munma omi mi swnma sms mmama oa m URV S gt PVEUHI Span Digital PV kii i Digital Communications LRN Bai ON LRV lt gt 4 mA approx HA RT Multi Drop Mode Figure 1 HART Point to Point and Multi drop Value Scaling In point to point mode the value of the primary Process Variable PV is represented by a 4 20 mA current loop almost identical to that of a Transmitter operating in analog mode In this case however the analog signal is modulated by Frequency Shift Keying FSK using frequencies and current amplitude that do not affect analog sensing at the receiver The accuracy of the analog level must be precisely controlled for accurate sensing HART communication will not bump process variables In multi drop mode up to 16 transmitters in HART 5 addresses 0 15 and up to 64 transmitters in HART6 7 addresses 0 63 can exist on the two conductor network Revision 2 0 SLG 700 Series HART Option User s Manual Page 1 Transmitters with HART capability have features that vary among manufacturers and with the characteristics of specific devices 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 1 3 Making Transmitter Adjustments Zero and Span adjustments are possible in
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78. ions Figure 2 displays how to connect the MC Toolkit directly to the terminals of a HART Transmitter Power sj I 7 Supply RL2 250 Ohms MC Toolkit MCT 404 Figure 2 MC Toolkit Transmitter Electrical Signal Connections 2 4 DTM A DTM is supplied for use with PACT ware See Chapter 7 Using DTMs for details Revision 2 0 SLG 700 Series HART Option User s Manual Page 5 3 HART Transmitter Configuration 3 1 Using the Field Device Communicator FDC 3 1 1 Each new SLG 700 Level Transmitter configured for HART protocol is shipped from the factory configured as ordered to meet customer requirements No reconfiguring should be necessary however if changes are desired then this section assumes that the user will use the Field Device Communicator FDC application for HART configuration tasks The FDC application provides the facilities for the online and offline configuration of Transmitters operating with HART protocol Online configuration requires that the Transmitter and MC Toolkit are connected and communication between the two has been established Online configuration provides a set of functions with which to perform various operations on a HART communication network through an active communication link These operations primarily include configuration calibration monitoring and diagnostics Typically these operations could be realized through various constructs exposed by the Device Description DD file
79. is action Transmitter config Indicates whether user has validated the configuration data using DTM for the very first time transmitter is power on and configuration is validated Page 36 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Local Display Display Connected Yes Display is connected No Display is not connected Type of Display Type of local display installed on the transmitter Basic or Advanced Common Setup Change Password Select password that will be required for access to the display User configurable languages supported by transmitter are English French German Spanish Russian Turkish and Italian Rotation Time Length of time each configured screen is visible before rotating to the next available screen when screen rotation time is selected as Yes Available range of screen rotation time is from 3 to 30 seconds Screen Rotation Screen rotation configuration can be either Yes or No When user selects Screen Rotation as Yes all the screens configured will rotate with set Rotation Time Contrast Level Display contrast level selection range from 1 low to 9 high Revision 2 0 SLG 700 Series HART Option User s Manual Page 37 Table 5 Advanced Configuration parameters c
80. lable when Loop Current mode is Enabled Page 34 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Services cont d Config Tamper Alarm The Tamper Alarm feature provides a warning if more than a specified number of attempted or actual configuration changes are made whether write protected or not when Tamper Alarm is Enabled The warning stays active until the specified latency period has elapsed after the Primary Master reads the corresponding status byte Examples of attempted configuration changes moving the Write Protect jumper entering a wrong password The method allows user to configure the following parameters in the order as specified below 1 Tamper Mode 2 Tamper Latency 3 Maximum Allowable Attempts Tamper Mode When enabled the Attempt Counter will keep track of the number of times an attempt is made After the configured Max Attempts an alarm status non critical flag is generated Attempt Counter Displays the number of device configuration change attempts made when tamper mode is enabled Changing the tamper mode from enable to disable and vice versa is also considered as configuration change attempt and Attempt Counter is incremented If user configures Max Allowable Attempts to a
81. leaving the factory Updates to current PV automatically when powered at user site after valid initial measurement NVM Update after every 8 hours SV High Method Description Maximum PV that the device has experienced in user Value selected units Set up None Value initialized to Min PV Limit value prior to leaving the factory Updates to current PV automatically when powered at user site after valid initial measurement NVM Update after every 8 hours Low Alarm Parameter Description SV specified lower operating limit in user selected units Limit Set up None NVM Updated every 8 hours Low Parameter Description Number of times SV Low Alarm Limit has occurred Alarm Set up None Counter NVM Updated after every 8 hours High Method Description SV specified upper operating limit in user selected units Alarm Set up None Sul NVM Updated after every 8 hours High Parameter Description Number of times SV High Alarm Limit has occurred Alarm Set up None Counter NVM Updated every 8 hours Change Method Description Changes alarm limits Alarm Set up None emits NVM Alarm limits are stored in NVM after successful configuration Reset SV Parameter Description Resets alarm counters to 0 Sets SV Low and High limit Tracking values to current measured SV value Set up None NVM Updated after 8 hours Revision 2 0 SLG 700 Series HART Option User s Manual Page 63 Table 11 ET Diagnostics
82. ls the loop output whereas the SV TV and QV are monitored only Vapor Volume Lower Product Volume For more details on abbreviations used please Upper Product Volume refer to DD help files PV is PV s assigned variable SV is SV s assigned variable TV is TV s assigned variable QV is QV s assigned variable Page 20 SLG 700 Series HART Option User s Manual Revision 1 0 Table 4 Basic Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph 4 20mA Outputs PV Levels Image PV Ranges Limits Upper Transducer Limit UTL PV Upper Limit for Stress Condition Upper Range Limit URL Upper Range Value URV Lower Range Value LRV Lower Range Limit LRL PV Lower Limit for Stress Condition Lower Transducer Limit LTL A User Range B Calibration Range C Device in Stress PV URV Enter the measured PV upper range value for which the analog output will be scaled to 20 mA PV LRV Enter the measured PV lower range value for which the analog output will be scaled to 4 mA PV Damp Enter number of seconds damping time applied to the analog output PV rnge PV s value expressed as of range PV Loop current PV s loop current 4 20mA PV Alrm typ Defines the loop current value when device detects critical fault Hi Loop current is s
83. m No valid Product Surface found gt Connected QB device Non critical Alarms Imerface Lemel 1500 m Of Range 100 000 Loop te Pactwarecompwa Administrator Revision 2 0 SLG 700 Series HART Option User s Manual Page 97 8 HART DD binary file format compatibility matrix Host SLG 700 HART DD binary file format compatibility matrix DD file format to be used Experion R410 Fm8 Experion R400 to Fm6 R300 Experion below R300 FDM R410 R302 FDM Below R302 FDM R430 H Refer the respective Tools User Manual for details on loading the DD file on these Tools Page 98 SLG 700 Series HART Option User s Manual Revision 1 0 9 1 Revision 2 0 SLG 700 Series HART Option User s Manual Page 1 9 Security How to report a security vulnerability For the purpose of submission a security vulnerability is defined as a software defect or weakness that can be exploited to reduce the operational or security capabilities of the software or device Honeywell investigates all reports of security vulnerabilities affecting Honeywell products and services To report potential security vulnerability against any Honeywell product please follow the instructions at https honeywell com pages vulnerabilityreporting aspx Submit the requested information to Honeywell using one of the following methods e Send an email to security honeywell com or e Contact your local Hone
84. m either strapping table or Linearization table check the tables for valid entries Fixed Current Mode Output current is fixed and not varying as per input Loop current mode is disabled or Loop Test is active This is information to user Enable loop current mode if it is disabled or exit the Loop Test mode if active Low Supply Voltage DAC Incorrect supply voltage at the transmitter terminals Fault can occur If the terminal voltage is less than 13 5V Check the power supply and loop resistance are within specification or not If they are correct then replace the terminal block assembly Device Variable Out Of Range User can notice this alarm if Distance to interface is bad but device variable selected as PV is derived from distance to product which is valid Read the Echo curve and verify valid stem markers for distance to interface and configure the correlation algorithm parameters for interface peak reflections Tamper Alarm The Tamper Alarm is set if more than See page 35 for Tamper Alarm a specified number of attempted or configuration actual configuration changes are made when Tamper Alarm is Enabled Device can be either Write Protected or not The warning stays active until the specified latency period has elapsed Sensor in Sleep Mode Sensor in Sleep Mode due to Configuration Change Sensor module adjusting model parameters and waiting for sufficient power to mea
85. n Trim Value 20mA read at multimeter This will automatically put transmitter into Loop Current Mode where current follows PV value Page 60 SLG 700 Series HART Option User s Manual Revision 1 0 5 HART Advanced Diagnostics 5 1 About This Section This section provides information about the Advanced Diagnostic features in the SLG 700 SmartLine Level Transmitter 5 2 Advanced Diagnostics Table 8 Viewing Advanced Diagnostics What you want to view What to do PV Primary Variable Tracking SV Secondary Variable Tracking ET Electronics Temperature Tracking Operating Voltage Tracking Configuration History Error Log Select Start gt FDC to Launch the FDC application on the MC Toolkit On the Home page select Online and establish connection with the device Select My Device gt Monitor gt Adv Diagnostics Revision 2 0 SLG 700 Series HART Option User s Manual Page 61 Table 9 PV Tracking Diagnostics PV Low Method Description Minimum PV that the device has experienced since power Value up in user selected units Set up None Value initialized to Min PV Limit value prior to leaving the factory Updates to current PV automatically when powered at user site after valid initial measurement NVM Update after every 8 hours PV High Method Description Maximum PV that the device has experienced since power Value u
86. nction 1 Objective Function Apply Objective Function o L a 4 4 1 L 1 L 1 it o 200 400 600 800 1000 1200 2400 1600 180 Distance cm Distance 917cm Obj Function 1 015 5 Zoom view Use mouse to draw a zoom box around the model then click and drag the model position for best match to the curve Notice by dragging the model over the similarly shaped blue curve at 1334 cm the Objective Function value has decreased from 1 015 to 0 304 indicating a higher correlation between the shapes Tip By slowly dragging the model back and forth over the curve the user can home in on the position with the lowest Objective Function value Revision 2 0 SLG 700 Series HART Option User s Manual Page 91 Amplitude Objective Function 10000 5000 5000 10000 Available Echo J eivas More 2015 Mar 19 15 35 52 Global Model Attenuation DCs Surface 7 Width mm 150 Attenuation 0 100 g Gain 9000 a Start cm 220 End cm 460 Decimation 5 a EEE 1 E A E ee Sera a a 1220 1240 1260 1280 1200 1220 1240 1260 1280 1400 1420 1440 1460 1480 1500 ho Curve Type Processed Full Distance cm Unzoom Obj Function 0 000 7 Threshold T T Obj Func Threshold ObdjectiveFunctin 7 1 Objective Function Apply Page 92 1240 1260 12 L 80 1200 1220 1340 1260 1280 1400 1420 1440 1460 1480 1500 Distance f
87. new generation SLG 700 SmartLine Level Transmitters by using the optional three button assembly located at the top of the Electronic Housing However certain capabilities are limited in the following configurations e Without a display Zero and Span setting only for HART devices e With a display Display supports configuration of basic parameters Complete transmitter configuration is possible only with DD and DTM You can also use the Honeywell MCT404 Configuration Tool to make any adjustments to an SLG 700 Transmitter The MCT404 tool has two applications MC Toolkit and FDC Using the Field Device Configurator FDC application you can adjust the SLG 700 HART model configuration Certain adjustments can also be made through the Experion Station if the Transmitter is digitally integrated with a Honeywell Experion System SLG 700 HART models can be configured using Honeywell tools such as Experion in conjunction with FDM using DTMs running in FDM or PACT ware or Emerson 375 or 475 Page 2 SLG 700 Series HART Option User s Manual Revision 1 0 1 4 Local Display Options The SLG 700 Level Transmitter offers two display options Basic and Advanced see Table 1 Table 1 Available Display Characteristics Suitable for basic process needs 360 rotation in 90 Increments Basic 2 lines 16 characters Display Standard engineering units Diagnostic messaging Supports optional 3 Button configuration and HART c
88. onfigured Width to 180mm to match the observed curve Refer Refle Start The Start parameter Reference response model allows the user to help the algorithm to find the Reference peak in case it has never found by defining the start position cm of a 240 cm wide search window This parameter is not used under normal operation as the search window positions are automatically updated by a level tracking algorithm Refer Refle End Read only this value is fixed at Start 240 cm Refer Refle Decimation Determines the step size in the search for reflections in a coarse search A decimation of 5 means that the coarse search will look for a reflection at every 5th raw data sample Once the coarse search has found the Reference reflection a fine search determines the precise location of the reflection Refer Refle Width Determines the width of the Reference Pulse where it crosses the x axis one half wavelength Refer Refle Gain Amplitude height of the Reference Pulse wave shape Refer Refle Attenuation The attenuation parameter governs how fast the sine wave dies off Increased attenuation results in smaller side lobes Refer Refle If changing the gain does not help try increasing Threshold threshold Revision 2 0 SLG 700 Series HART Option User s Manual Page 27 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurabl
89. ons 7 Probe End Reflection 34 Prod Surface Reflection 32 Reference Plane offset 34 Reference Reflection 31 References iii Release Information iii S SLG 700 Physical and Functional Characteristics Transmitter Adjustments 6 Support and Contact Information iv SLG 700 Series HART Option User s Manual Page 3 Tamper Alarm 38 tank shape 28 Transmitter Adjustments 6 Trim Analog Output 59 Troubleshooting and Maintenance 68 U Upper Prod Attenuation 35 Using DTMs 81 Downloads 81 Online Parameterization 83 Procedure to Install and Run the DTM 82 Vv Vapor Attenuation 35 volume calculation method 28 Page 110 SLG 700 Series HART Option User s Manual Revision 2 0 Sales and Service For application assistance current specifications pricing or name of the nearest Authorized Distributor contact one of the offices below ASIA PACIFIC Honeywell Process Solutions TAC hfs tac support honeywell com Australia Honeywell Limited Phone 61 7 3846 1255 FAX 61 7 3840 6481 Toll Free 1300 36 39 36 Toll Free Fax 1300 36 04 70 China PRC Shanghai Honeywell China Inc Phone 86 21 5257 4568 Fax 86 21 6237 2826 Singapore Honeywell Pte Ltd Phone 65 6580 3278 Fax 65 6445 3033 South Korea Honeywell Korea Co Ltd Phone 822 799 6114 Fax 822 792 9015 EMEA Honeywell Process Solutions Phone 80012026455 or 44 0 1344 656000 Email S
90. ont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Local Display con d Screen Info Read Display Method used to read selected screen configuration Screen details Configure Display Method used to configure specific screen Screen Screen Number Provides details of last configured screen using method Configure Display Screen Possible Screen numbers are 1 8 Custom Tag Custom tag name for the screen title up to 14 alphanumeric characters Disp High Limit Upper limit shown on the Bar Graph or Trend screen Disp Low Limit Lower limit shown on the Bar Graph or Trend screen Screen Format Provides details of last configured screen using method Configure Display Screen Possible Screen formats are PV only PV amp bar graph PV amp trend PV Selection Product Level Select Process Variable PV to be displayed Choices depend on product being measured Product Level p p g Distance To Product Product Level Rate Vapor Thickness Vapor Thickness Interface Level Interface Level Distance To Interface Interface Level Rate Upper Product Thickness Product Volume Vapor Volume Lower Product Volume Upper Product Volume Loop Output Percent OutputmA Page 38 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Con
91. orresponding device in FDM e The Audit Trail entry for such a record identifies it as being imported through the MC Toolkit handheld e If the device is not part of any of the FDM configured networks it would appear under Disconnected Devices in FDM network view e All operations allowed on Device History Record in FDM will be allowed for the record imported through the MC Toolkit handheld Note For more details on using FDM Import Export feature refer to section Importing and Exporting Device History in FDM User s Guide Page 52 SLG 700 Series HART Option User s Manual Revision 1 0 3 2 13 Exporting device history records to Documint To export device history from FDC and import it in FDM perform the following steps 1 Connect the MC Toolkit handheld to the computer as described earlier 2 Browse to the folder on the computer SD Card gt FDC gt Resources gt History 3 The FDC history records are named as per the following convention for the primary name DeviceTag_ManufacturerIDDeviceTypeDeviceRevisionDDRevision_DeviceID 4 Copy the desired Device History Record files with xml extension from the above mentioned location to a temporary location on the DocuMint system 5 For Importing in DocuMint Select Procedures gt Import or the Import option in the tool bar Note For more details on using DocuMint Import feature refer to section Importing from XML File in Document Help 3 2 14 Custom Views F
92. p in user selected units Set up None Value initialized to Min PV Limit value prior to leaving the factory Updates to current PV automatically when powered at user site after valid initial measurement NVM Update after every 8 hours Low Alarm Parameter Description PV specified lower operating limit in user selected units Limit Set up None NVM Updated every 8 hours Low Alarm Parameter Description Number of times PV Low Alarm Limit has occurred Counter Set up None NVM Updated after every 8 hours High Alarm Parameter Description PV specified upper operating limit in user selected units Limit Set up None NVM Updated after every 8 hours High Alarm Parameter Description Number of times PV High Alarm Limit has occurred Counter Set up None NVM Updated every 8 hours Change Method Description Changes alarm limits Alarm Limits Set up None NVM Alarm limits are stored in NVM after successful configuration Reset PV Parameter Description Resets alarm counters to 0 Sets PV Low and High limit Tracking values to current measured PV value Set up None NVM Updated after 8 hours Page 62 SLG 700 Series HART Option User s Manual Revision 1 0 Table 10 SV Tracking Diagnostics SV Low Method Description Minimum PV that the device has experienced in user Value selected units Set up None Value initialized to Min PV Limit value prior to
93. r FDC application is used and not the MC Toolkit application When you use the MC Toolkit application the MCT202 is set for DE communications where the current amplitude can bump process variables in either point to point or in the multi drop mode in HART Furthermore we assume that the reader is intimately familiar with the SLG 700 family of SmartLine Level Transmitters and thoroughly experienced in the type of process application targeted for Transmitter deployment Therefore detailed procedures are supplied only in so far as necessary to ensure satisfactory completion of configuration tasks 2 3 MC Toolkit B Before using the MC Toolkit be sure that you are aware of the potential consequences of each procedure and that you use appropriate safeguards to avoid possible problems For example if the Transmitter is an element in a control loop the loop needs to be put in manual mode and alarms and interlocks i e trips need to be disabled as appropriate before starting a procedure 2 3 1 MC Toolkit Software Applications The MC Toolkit has two software applications to work with SLG 700 SmartLine Level Transmitters Field Device Configurator FDC This application is used for configuring calibrating monitoring and diagnosing HART devices FDC conforms to the IEC 61804 3 EDDL Electronic Data Description Language standard specification The FDC application is an open solution that supports devices with a registered device desc
94. radar pulse reflection and the physical reference plane flange in the factory Page 30 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Correlation Algorithm contd Config Attenuation Vapor Attenuation This sets the linear attenuation coefficient Radar Pulse energy dissipation of Vapor Upper Prod This sets the linear attenuation coefficient Radar Pulse Attenuation energy dissipation of Upper Product For Two Liquids otherwise this is just Product Surface attenuation Lower Prod This sets the linear attenuation coefficient Radar Pulse Attenuation energy dissipation of Lower Product For Two Liquids only Revision 2 0 SLG 700 Series HART Option User s Manual Page 31 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Services Install Date One time editable Transmitter installation date in MM DD YYYY format Note If install date is not configured default date is shown as 01 01 1972 NAMUR Output Enabled Enable or disable the NAMUR output Disabled Enable High Saturation current is set to 20 5 Disable High Saturation current is set to 20 8 NAMR Level Image 4 20 mA dc Output amp
95. rate This is a condition that can occur during normal operation and does not generally require corrective action If this condition is triggered when it is not expected verify that the Blocking Distance High parameter is set correctly for the current conditions If distance to product is in Higher zone then status associated with device variables derived from distance to product will be shown as unknown in local display and on HART host the status would be poor accuracy If distance to interface is in Higher zone then status associated with device variables derived from distance to interface will be shown as unknown in local display and on HART host the status would be poor accuracy Distance in Blocking Lower Zone This indicates that either the surface or interface reflection has been tracked into the lower zone near the End of Probe where measurements are not accurate This is a condition that can occur during normal operation and does not generally require corrective action If this condition is triggered when it is not expected verify that the Blocking Distance Low parameter is set correctly for the current conditions If distance to product is in Lower zone then status associated with device variables derived from distance to product will be shown as unknown in local display and on HART host the status would be poor accuracy If distance to interface is in Lower zone then status associated with device vari
96. re Display view3 Display View4 corrupt Display View4 database block found Power cycle the device User will need corrupt to reconfigure Display view4 Display View5 corrupt Display View5 database block found Power cycle the device User will need corrupt to reconfigure Display view5 Display View6 corrupt Display View6 database block found Power cycle the device User will need corrupt to reconfigure Display view6 Display View7 corrupt Display View7 database block found Power cycle the device User will need corrupt to reconfigure Display view7 Display View8 corrupt Display View8 database block found Power cycle the device User will need corrupt to reconfigure Display view8 Device Variable Not Supported This condition indicates that one of the Dynamic Variables is mapped to a Device Variable that is not supported by the current Measured Product This condition is considered non critical for the SV TV and QV Dynamic Variables However if this condition is true for the PV Dynamic Variable then the critical Measurement Failure condition will also be set Reconfigure the dynamic variables PV SV TV QV correctly for the configured measured product type See page 20 Volume Calculation Failure This condition indicates that one of the Dynamic Variables is mapped to a Device Variable that calculates a volume and the volume calculation failed This condition is considered non critical for
97. ription DD file compatible with HART Communication Foundation HCF requirements Page 4 SLG 700 Series HART Option User s Manual Revision 1 0 2 3 2 2 3 3 2 3 4 MC Toolkit This application is used for configuring calibrating monitoring and diagnosing Honeywell Digitally Enhanced DE devices Honeywell SmartLine Level transmitters do not support the DE protocol Details for working with the MC Toolkit are provided in the MC Tookit User Manual document 34 ST 25 50 In subsequent sections of this manual explicit operating instructions are provided only in so far as necessary to complete required tasks and procedures Configuration Databases The MC Toolkit is used to establish and or change selected operating parameters in a Transmitter database Configuration Configuration can be accomplished both online and offline with the Transmitter powered up and connected to the MC Toolkit Online configuration immediately changes the Transmitter operating parameters For offline configuration Transmitter operating characteristics are entered into Toolkit memory for subsequent downloading to a Transmitter BB wien you set up or configure a Transmitter it can take up to 30 seconds for the value to be stored in it If you change a value and Transmitter power is interrupted before the change is copied to nonvolatile memory the changed value will not be moved to nonvolatile memory MC Toolkit Transmitter Electrical Signal Connect
98. rror Log Flag If error log is enabled all critical errors triggered will be logged with a time stamp elapsed time since power up Show Error Log f See Table 14 Error Log Diagnostics page 66 Reset Error Log Table 7 Tamper Reporting Logic Implementation with Write Protect Write Protect Configuration POE Software Change p Status Allowed ON or missing or missing Ooo S Ooo T Tamper Tamper Alerted Reporting Posted Status Page 48 SLG 700 Series HART Option User s Manual Revision 1 0 ON YES OFF PNo Note that Tamper Reporting is independent of Write Protect status Revision 2 0 SLG 700 Series HART Option User s Manual Page 49 3 2 10 DN JON Bs en NS 3 2 11 The sections below give some examples as to how to edit the configuration parameters and execute Methods Procedure to Enter the Transmitter Tag From the My Device menu make the following menu selections Shortcuts gt Device Setup gt Basic Configuration gt General gt Tag Click Edit The Tag screen will be displayed Key in the tag name for example SLG 700 which can be a maximum of eight characters Click OK The Send to Device screen will be displayed Select the Tag check box Click Send to download the change to the Transmitter or Click Return to continue making changes Saving device history FDC provides the user with a feature wherein they can save the device configuration snapshot as history
99. rupt Power cycle the device and if problem still persists replace the Communication module Page 80 SLG 700 Series HART Option User s Manual Revision 1 0 7 1 7 2 7 3 7 Using DTMs Introduction SLG 700 HART and Fieldbus models support DTMs running on PACTware or FDM Experion To set up the DTM network on the FDM Experion refer to the FDM Experion User Guide In this manual the procedure is given to run the SLG 700 HART DTM on PACTware Version 4 1 or above Components In order to be able to use the HART DTM the user needs the following PACTware or some other Container application Microsoft NET Framework Latest HART Communication DTM Free version of HART Communication DTM available for download from CodeWrights website Honeywell HART DTM Library Viator modem from MacTek RS 232 interface for HART Networks Downloads Download 1 PACTware 4 x and NET 2 0 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 web site Revision 2 0 SLG 700 Series HART Option User s Manual Page 81 7 4 Oi ea E os a ON 10 11 12 Procedure to Install and Run the DTM Install the Download 1 2 or 3 above Connect the Transmitter to the 30 V DC power supply with a 250 ohm loop resistor Connect the Viator modem terminals to the Transmitter power terminals Connect the V
100. s HART Option User s Manual Revision 1 0 Table 6 Monitor parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Device Information Manufacturer Self explanatory Model Self explanatory Dev id Self explanatory Universal rev Self explanatory Fld dev rev Self explanatory Software rev Self explanatory Sensor SW Rev Self explanatory Dev SW Rev Self explanatory Database SW Rev Self explanatory Display SW Rev Self explanatory Install Date Self explanatory Cfg chng count Number of times any configuration parameter was changed Final asmbly num Self explanatory Num req preams Number of request preambles Poll addr Self explanatory Service Life Percent of expected Service Life that device has been in service Value is based on electronics temperature Service life accumulates faster at higher temperatures with an exponential relationship Stress Life Percent of service life spent in stressful conditions Indicates the of service life where electronics temperature is within 10 of respective range limits of Service life spent either in 10 of lower limit range or 10 of upper limit range Refer to Table 11 Power Cycles Number of power cycles Model Number Provides details of device Model key and Model Part information Revision 2 0 SLG
101. s of a HART device Typically these operations could be realized through various constructs exposed by the DD file of the device In addition FDC also provides some additional application functions for the user to perform these functions more conveniently Online configuration includes a set of functions to perform various operations on a Transmitter with active communication link These operations primarily include e Identifying a Transmitter e Reading and reviewing Transmitter variable values e Editing Transmitter variable values e Downloading the selected edited variable set to the Transmitter Detecting and loading a device Tap the Online Configuration button on the Application Home page The device detection and loading process automatically gets started Depending upon the Device Detection and DD Selection settings the user may have chosen the user may be prompted for certain inputs as described in the Settings section Overview of Device Homepage Once the device is detected and loaded successfully the user can view the device homepage for the identified device The workspace area on the device homepage consists of 4 tabs on the left hand side Selecting a tab displays functions information associated with that tab on the right hand side by 7x Return Figure 4 Device Homepage Table 3 lists the device health status and their indications Revision 2 0 SLG 700 Series HART Option User s Manual Page 11 Table 3
102. s within the 140 C operating specification of GWR transmitter If it is then replace the Communication module DAC Control Word Write Control Word Write Fault DAC or Power cycle the device If problem Fault microcontroller chip may be persist replace the Communication damaged module Revision 2 0 SLG 700 Series HART Option User s Manual Page 73 6 2 2 Non Critical Diagnostics Table 16 lists and describes the HART non critical diagnostics Table 16 HART Non Critical Diagnostic Messages Name DTM DD Description Cause Resolution Steps to take Sensor Failure This is a roll up status bit that is set when any of the following non critical status conditions are present e Sensor Electronic Over Temperature e Distance in blocking higher zone e Distance in blocking lower zone Refer to each condition later in this table Sensor ET Over Temperature Sensor moduletemperature exceeded the operating temperature range specification which is 40 to 85 Degrees Celsius Ensure that the process temperature is within the operating temperature range of the transmitter 40 to 85 Degrees Celsius If it is certain that the reading is in error the Sensor housing may need to be replaced Distance in Blocking Higher Zone This indicates that either the surface or interface reflection has been tracked into the upper zone near the Reference Plane where measurements are not accu
103. solution Steps to take Sensor Critical This is a roll up status bit that is set Refer to each condition later in this Failure when any of the following critical status table conditions are present e Power Accumulator Fault e Primary Variable Bad e Sensor Board Oscillator Failure e Sensor Code Flow Fault e Sensor External RAM Failure e Sensor Internal RAM Failure e Sensor Flash CRC Failure e Sensor in Factory Mode e Sensor in Low Power Mode e Sensor Power Supply 2 5V Fault e Sensor Power Supply 2 5V OSC Fault e Sensor Power Supply 3 3V status Fault Page 68 SLG 700 Series HART Option User s Manual Revision 1 0 Table 15 HART Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take Power Accumulator Fault Power Accumulator board is damaged or malfunctions Power cycle the device and if problem persists replace sensing housing If problem still persists replace the terminal block assembly Primary Variable Bad The distance to interface or distance to product used to derive the Primary variable is in critical status the reason may be loss of echo peak Read the Echo curve and check if valid peaks are detected by device and stem markers show valid peak positions If not configure the correlation algorithm parameters for each peak reflections Ensure the Dielectric constants configured are valid for the vapor and products in
104. son accomplishing configuration tasks is fully qualified and knowledgeable on the use of the MC Toolkit and is intimately familiar with the SLG 700 family of SmartLine Level Transmitters Therefore detailed procedures are supplied only in so far as necessary to ensure satisfactory configuration The other HART configuration Tools are Honeywell Experion in conjunction with FDM iDTMs running on FDM or PACTware and Emerson 375 475 The organization of Device Configuration and Parameter Descriptions is on page 16 Page 6 SLG 700 Series HART Option User s Manual Revision 1 0 3 2 Overview of FDC Homepage The FDC homepage consists of links for Online Configuration Offline Configuration Manage DDs and Settings See below 1 A Field Device Configurator Field Device Configurator a Online Offline Configuration Configuration Cee a L g EF Manage DDs Settings g E gt Figure 3 FDC Homepage Table 2 lists the items that appear on the FDC homepage and its descriptions Table 2 FDC homepage elements 3 D Description Screen title Tap to quit FDC Tap to view the application information Tap to navigate to Online Configuration screen Tap to navigate to Offline configuration screen Tap to navigate to Manage DDs screen Tap to navigate to Settings screen Tap to select the highlighted menu option DEOX ot ol ae it Tap to quit
105. sure level Power cycle the device and if problem persist for more than 4 minutes replace the Sensor housing Loop Current Noise DAC Not able to regulate loop current If this condition is observed frequently it could be an early indication of critical under or over current failure Try to find the source of the noise It could be bad loop wires a hardware problem inside the transmitter loop wires running close to a noise source etc If the environment is ok replace the Electronics Module AO Saturated Calculated analog output is either above or below the specified loop current limits LRV and URV Verify that the LRV and URV values are in specified range or not Check if distance to product or distance to interface is in blocking zones Page 78 SLG 700 Series HART Option User s Manual Revision 1 0 Table 16 HART Non Critical Diagnostic Messages cont d Name DTM DD Description Cause Resolution Steps to take URV Set Error Span Config Button Set operation using external Span button was rejected Please check whether the inputs are valid for the intended operation LRV Set Error Zero Config Button Set operation using external Zero button was rejected Please check whether the inputs are valid for the intended operation Surface signal quality bad Surface signal quality is bad Read the Echo curve and configure algorithm and DC param
106. t This value is intended to be used for informational purposes only and should not be used for control Min Loop Parameter Description Minimum operating voltage experienced by device at Voltage terminals since last reset of operating voltage Minimum parameters Operating Set up User can reset as desired using method described in Voltage item below NVM Backup once each 8 hour period Voltage Tracking Method Description Displays time since last minimum operating voltage Time Since Last event in minutes Voltage Low Set up User can reset as desired using method described in item below NVM Update every 8 hour Reset Vol Method Description Causes Min Op Voltage to be set to 32 volts and Tracking Operati Time Since Last Event to be reset to zero Within a ng Voltage short period of time Min Op Voltage will assume Parameters operating voltage value Set up User actuates as desired MCU Supply Parameter Description Sensor MCU Supply voltage in volts Voltage Power Cycles Parameter Description Total number of power ups experienced by the device Set up None initialized to zero prior to leaving factory NVM The count is stored in NVM Time Since Last Method Description Displays time since last power cycle event happened in Power Cycle minutes Set up None NVM The information is stored in NVM at every 8 hours of continuous device operation Revision 2 0 SLG 700 Series HART Option User s Manual Page 65 Table 13 Con
107. talled 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 the user can install it using the Add DD feature Similarly the user can uninstall a DD file or a set of DD files using Delete DD feature The user can also directly copy the DD files in appropriate hierarchy using a card reader or Active Sync Mobile Device Center mechanisms In such a case the user should validate the library view using the Refresh feature 3 2 2 1 Overview Using Manage DDs the user can view add or delete DD files for devices A list of already available DD files is maintained in the DD Library FDC lists the installed DD files in a hierarchy as below Manufacturer Device Type DevRev xx DDRev yy DevRev pp DDRev qq 3 2 2 2 Add a DD file To add a DD file for a device perform the following steps 1 From the FDC homepage tap Manage DDs gt Select The Manage DDs dialog box appears 2 Tap Options gt Add DD Or Tap F The ADD DD files dialog box appears 3 Browse to the location in which the DD file fm8 is located and tap OK 4 Ifthe DD file already exists then the following message appears DD Library File already exists Do you want to overwrite the existing DD file 5 Tap Yes to overwrite the existing DD files 6 Ifthe DD file is added successfully a succ
108. the tank Sensor Board Oscillator Failure If no power accumulator faults are detected then most likely the sensor board is damaged defective Power cycle the device if problem persists replace the Sensor housing Sensor Code Flow Fault The sensor is detecting that the time between measurements has exceeded the allowed limit Ensure configuration is correct and restart the sensor If problem persists replacement of the Sensor housing may be necessary Sensor External Ram Failure Sensor board external RAM corruption detected Power cycle the device and see if the condition re occurs If so replacement of the Sensor housing is required Sensor Internal Ram Failure Sensor board internal RAM corruption detected Power cycle the device and see if the condition re occurs If so replacement of the Sensor housing is required Sensor Flash CRC Failure Sensor board firmware has been corrupted Attempt to reload the sensor firmware If problem persists after flashing sensor firmware replacement of the Sensor housing is required Sensor in Factory Mode Unit is in factory test mode Power cycle the device and check if problem re occurs Sensor in Low Power Mode The sensor is in Low Power Mode designed to handle low range burnout The fault is set if any critical faults are set and device burnout direction Fail safe is low scale 3 5 mA Please perform a hard or soft res
109. tive Function Surface Width mm 150 Attenuation 0 100 mme 6 Joan 7300 7 Start cm 220 1400 1420 T End cm 460 Decimation 5 Obj Function Threshold p 350 1220 1240 Distance cm 1400 1420 Distance 1335cm Obj Function 0 239 Next go to Monitor and read a full echo curve Check that the correct Reference Surface and Interface measurements were found If the algorithm is still not finding a match then the model s other parameters can be adjusted to get an even closer match between the model and the curve 9 Width This setting determines the width of one half of the model wavelength see dotted bracket In the example below the Width is 200 mm 10 Attenuation This setting determines the size of the waves to either side of the middle wave see inside dotted boxes 8000 6000 4000 2000 o 2000 4000 6000 8000 Echo Curve Type Processed Full 4 Revision 2 0 790 800 Distance cm SLG 700 Series HART Option User s Manual Available Echo More Curves 2015 Mar 19 15 35 Global 52 a Surface Width mm 20 End cm 46 Decimation 5 Threshold Obj Function 9 999 z Model Attenuation DCs 9 0 Attenuation 0 100 Gain 7300 Start cm 220 0 Page 93 7 8 5 Services Click on an item s down arrow V to access its parameters V Device Lockin
110. tory If the observed echo curve page 45 is not correctly indicating reference surface or interface then try the following 1 Step through the basic configuration and make sure that all entries are correct 2 Review the Probe Parameters under Advanced Configuration and make sure that all entries are correct Accurate basic and advanced configuration settings help ensure accurately defined reflection models Capture an echo curve 4 If needed adjust the radar pulse reflection model parameters for the Reference Surface and Interface if applicable to match the radar pulse reflections in the echo curve wo Page 26 SLG 700 Series HART Option User s Manual Revision 1 0 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Correlation Algorithm cont d Reference Reflection If the transmitter is not finding the Reference point then adjust the Reference parameters to match what is seen on the observed echo at the Reference point location For example suppose by zooming in on the observed echo curve at the Reference point position user can see the observed Reference Pulse greatest amplitude is 13000 and its width is 180mm at the x axis whereas the configured Reference Gain is 15000 and configured Reference Width is 200mm This means user needs to change the configured Gain to 13000 and c
111. uct Measured Products Single Liquid Two Liquids Flooded Two Liquids Non Flooded Meas Prod Ref Image Provides the image based on configured measured product Vapor Vapor Product Upper Product Upper Product Lower Product Lower Product Single liquid Two Liquid flooded Two Liquid Nonflooded Config DC Param Vapor DC Product DC Upper Prod DC Lower Prod DC Select dielectric constant DC values for measured product A drop down list of typical products and their DCs is provided Lower Prod DC Upper Prod DC For single liquid this is Product DC Vapor DC Config Max Fill Enter Maximum filling emptying speed Rate Max Filling Rate Revision 1 0 SLG 700 Series HART Option User s Manual Page 18 Table 4 Basic Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Measurement Sensor Height See A in image Max Product Level See B in image Level Offset See C in image Config Probe Length Probe Length Configured probe length Level Details Image Revision 2 0 SLG 700 Series HART Option User s Manual Page 19 Table 4 Basic Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Dynamic Var
112. ule User may require to configure Linearization table again for his application Linearization Table 2 Config DB corrupt NVM copy of Level linearization table 2 database block found corrupt This non critical alarm can occur even linearization is disabled Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module If problem does not re occur device parameters part of this block are re stored to default values User may require to configure Linearization table again for his application Volume Strapping Table 1 Config DB corrupt NVM copy of Volume strapping table 1 database block found corrupt This non critical alarm can occur irrespective of Volume calculation type Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module If problem does not re occur device parameters part of this block are re stored to default values User may require to configure Strapping table again for his application Volume Strapping Table 2 Config DB corrupt NVM copy of Volume strapping table 2 database found corrupt This non critical alarm can occur irrespective of Volume calculation type Power cycle the device If the problem still persists then NVM might be damaged so need to replace Communication module If problem does not re occur device parameters part of this block are re stored to de
113. uration template in FDM e Save the configuration in FDM in FDM format e Import the offline configuration in FDC e Download the offline configuration to the device Note For details on creating and using offline configuration refer to section Offline configuration in FDM User s Guide 3 2 15 2 Importing offline configuration Using this feature the user can import offline configuration template The offline configuration template has to be created in FDM and saved in FDM format Copy the fdm files into the storage location of the FDC To import an offline configuration perform the following steps 1 On the FDC homepage tap Offline Configuration gt Select The Offline Configurations page appears 2 Tap Options gt Import The Select a File dialog box appears 3 Navigate to the location where the offline configuration template is stored 4 Select the required offline configuration template from the list 5 Double tap and the offline configuration template is imported A success message appears Note In case if the offline configuration template is already imported an overwrite message appears 6 Tap OK to return to the Offline Configurations page The device details appear on the bottom of the page Revision 2 0 SLG 700 Series HART Option User s Manual Page 55 3 2 15 3 Deleting offline configuration Using this feature the user can delete an offline configuration template To delete an offline configuration perform t
114. value less than the current Attempt Counter then Attempt Counter is clamped to Max Allowable Attempts Tamper Latency 0 60 seconds Tamper latency is the time period for which the tamper alarm remains set in response of command 48 and reflected as Tamper Alarm Device Status condition Max Allowable Attempts Maximum number of tamper attempts to be permitted before the Tamper Alarm is generated Reset Tamper Counter Reset the Attempt Counter to zero Revision 2 0 SLG 700 Series HART Option User s Manual Page 35 Table 5 Advanced Configuration parameters cont d Key Plain Read only Bold Configurable Bold underline Method Bold italic Table or graph Services cont d Master Reset Selecting this option will cause a Master Reset of the transmitter which is the equivalent to power cycling the device Lock Unlock Device Select the Lock state for access by HART configuration tools If Yes is selected to lock the device also select Yes or No to choose whether or not the lock is permanent If the lock is not permanent it will be cleared on power cycle or Master Reset of the device If Yes is selected to unlock the device the lock state will be cleared Factory Reset Resets all device configuration parameters to their factory defaults and triggers a soft reset The User will be prompted to confirm they want to take th
115. vious device revision Use this option to automatically communicate using a DD file having device revision lower than that of the device Use generic DD file Use this option to automatically communicate to the device using an appropriate generic DD file Always ask user Use this option to always prompt the user with a choice for communicating to the device either using the previous device revision or using a generic DD file Always Use Generic Use this option to always communicate to the device using generic DD files even if a DD file with matching device revision as the device is present Note A generic DD file is a DD file that provides access and interface to the universal data and features of a HART device 3 2 1 3 Other settings Low storage notification Use this option to set a percentage value and to notify the user with a warning message when the available storage card space is less than the percentage set Application diagnostics Use this option to enable or disable the logging infrastructure for application diagnostics With this option enabled FDC creates necessary log files for troubleshooting and diagnostics These files are stored in SD Card FDC folder Note The user must not enable this option unless suggested by Honeywell TAC because this may impact the application performance Page 8 SLG 700 Series HART Option User s Manual Revision 1 0 3 2 2 Manage DDs Using this feature the user can manage the DD files ins
116. ywell Process Solutions Customer Contact Centre CCC or Honeywell Technical Assistance Centre TAC listed in the Support and Contact information section of this document AWG dl DD EDDL DTM EMI FTA Hz LRL LRV mAdc mV Nm NPT NVM PM PV PWA RFI RTD SFC STIM STIMV IOP URL URV US Vac Vdc HART HCF EEPROM Page 2 Glossary American Wire Gauge Inside diameter of pipe Device Description Electronic Data Description Language Device Type Manager Electromagnetic Interference Field Termination Assembly Hertz Lower Range Limit Lower Range Value Milliamperes Direct Current Millivolts Newton meters National Pipe Thread Non Volatile Memory Process Manager Process Variable Printed Wiring Assembly Radio Frequency Interference Resistance Temperature Detector Smart Field Communicator Level Transmitter Interface Module Level Transmitter Interface Multivariable Input Output Processor Upper Range Limit Upper Range Value Universal Station Volts Alternating Current Volts Direct Current Highway Addressable Remote Transmitter HART Communication Foundation Electrically Erasable Programmable Read Only Memory SLG 700 Series HART Option User s Manual Revision 1 0 Index About This Manual iii Analog Output Trim 59 Attenuation Correlation Algorithm 93 Lower Product 35 Upper Product 35 vapor 35 Blocking Distance 26 Calibration 59 Calibration Offset 34 Communication Mo

SLG 700 SmartLine Level Transmitter Guided Wave Radar HART

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