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SLG 700 SmartLine Level Transmitter Guided Wave Radar User`s

1. Menu item Choices Description Action NAMUR Output Enable Enable Sets the loop output and HART only Disable burnout levels to the NAMUR levels Disable Sets the loop output and burnout levels to the Honeywell levels Damping Applies digital filtering to suppress noise Press to enter HART only effects on the PV Range is from 0 0 to menu selection t 60 0 seconds and 4 to select number to enter and shift to next digit Measure Prod Single Liquid Select the type of product to be Press J to enter 2 Liq Flooded measured menu selection 2 Liq NonFlood and 4 to select from list to enter Vapor DC HHH HAE Applicable for All measured products except 2 Liq Flooded If its value greater than UP LP DC Warning message will be displayed Product DC HHH HHH Applicable only for Single Liquid measured products If its value is less than Vapor DC Warning message will be displayed UP DC HHH HHH Applicable only for Two Liquid measured products If its value is less than Vapor DC or greater than LP DC a warning message will be displayed LP DC HHH HAE Applicable only for Two Liquid measured products If LP DC UP DC lt 10 a Warning message will be displayed Sensor Height HHH HHH In the below figure Press J to enter Max Prod Level d A is for Sensor Height menu selection t Level Offset HHH HHH B is for Max Prod Level and J to select C is for Level Offset number to enter and shift to Va
2. AGENCY Ure Meun Ags icles Vt Option Parameters Temp Ta Flameproof with IS output Il 1 2 G Ex dfia IIC T4 Ga Gb 50 C to Dust Ignition Proof All hoten 85 C Il 2 D Ex tb IIIC T 95 C IP 66 4 20 mA 50 C to HART Mote e 70 C Intrinsically Safe II 1 G Ex ia IIC T4 Ga FOUNDATI 50 C to ATEX ON Fieldbus Note 2 70 C FISCO 4 20 mA Note 1 50 C to HART 2S 85 C Nonincendive with IS output II 1 3 G Ex nAlia IIC T4 Ga Gc FOUNDATI 50 2C to ON Fieldbus Note 1 85 C FISCO Enclosure IP66 IP67 All All Flameproof with IS output Ex d ia IIC T4 Ga Gb 50 C to All Note 1 85 C Dust Ignition Proof Ex tb IIIC T 95 C IP 66 4 20 mA 50 C to IEC Ex HART meee 70 C World Intrinsically Safe Ex ia IIC T4 Ga FOUNDATI 50 C to ON Fieldbus Note 2 70 C CCoE FISCO India Nonincendive with IS output 4 20 mA Note 1 50 C to Ex nAfia IIC T4 Gc Ga HART 85 C FOUNDATI d ON Fieldbus Note 1 Ae FISCO Enclosure IP66 IP67 All All Note 1 Operating Parameters Voltage 11 to 42V DC HART 9 to 32V FF Current 4 20mA Normal 3 8 23mA Faults HART Note 2 25mA Max FF See the Control Drawing for Intrinsically Safe Entity Parameters of 4 20mA HART Foundation Fieldbus FISCO devices Page 128 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 9 4 Marking ATEX Directive 9 4 1 General The following information is provided as part of t
3. Install the Transmitters in accordance with national and local code requirements Conduit entry plugs and adapters must be suitable for the environment and be certified for the hazardous location when required and acceptable to the authority having jurisdiction for the plant Table 3 13 Conduit entry plug installation Step Action 1 Remove the protective plastic cap from the threaded conduit entry 2 To ensure the environmental ingress protection rating on tapered NPT a non hardening thread sealant may be used Thread the appropriate size conduit plug M20 or 1 2 NPT into the 3 conduit entry opening Do not install conduit entry plugs in conduit entry openings if adapters or reducers will be used 4 Using a 10mm hex wrench tighten adapters to 32Nm 24lb ft Table 3 14 Conduit adapter installation Step Action 1 Remove the protective plastic cap from the threaded conduit entry 2 To ensure the environmental ingress rating on tapered threads NPT a non hardening thread sealant may be used 3 Thread the appropriate size adapter M20 or 1 2 NPT into the conduit entry opening 4 Using a 1 1 4 wrench tighten adapters to torque 32Nm 24lb ft Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 41 3 3 Electrical 3 3 1 Wiring a transmitter 3 3 1 1 Overview The transmitter is designed to operate in a two wire power current loop with loo
4. Advanced e 360 rotation in 90 increments Display e Three configurable screen formats with configurable rotation timing Large process variable PV PV with bar graph PYV with trend 1 999hrs configurable e Echo stem plot for checking measurement accuracy e Eight Screens with 3 30 sec rotation timing and the use of 3 buttons for configuration e Standard and custom engineering units e Diagnostic alerts and diagnostic messaging e Multiple language support EN GE FR SP RU EN CH Kanji IT future release e Supports 3 button configuration and calibration e Supports transmitter messaging and maintenance mode indications 1 3 4 To make changes to the transmitter setup or configuration without the use of an external device such as a handheld or PC an optional 3 Button Assembly is available Use the buttons and menus to e Configure transmitter e Configure and navigate displays e Set zero and span parameters 1 3 3 Sensor Housing The sensor housing contains the pulse generation and analysis hardware These electronics are potted to provide flame path resistance The sensor housing is replaceable in the field as a complete unit Process connector The process connector has the following functions e Separates the process environment from the external environment e Provides a threaded insert to the tank which removes the need for brackets to mount the transmitter Various mounting types are available
5. 0 000 0 000 Status Product Level 4 20MA Monitor OK 0 53 m 8 2 mA Volume Calculation Method Strapping Table Calibration Timestamp 2015 Jul 02 14 26 Wet Volume Calibration Measured Level 0 53 m Volume 0 00 m Add Row Insert Row Volume Offset 0 000 B Connected B Device OK Planning Engineer Figure 5 17 Advanced Configuration Volume Calculation Strapping Table The Level Transmitter measures only distance and related quantities level percent of range etc The calculation of volume by the transmitter is based on measured level and additional tank geometry measurements Level measurements can be converted into volume measurements based on either a tank shape or a strapping table The volume conversion functionality is not supported by the basic display The advanced display supports data entry only for the volume calculation based on Page 90 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 tank shape The PC based DTM FDT and maybe DD support the volume conversion based on either an ideal tank shape or a strapping table 5 3 3 1 Wet Volume Calibration When the measured level for the tank reaches a level where the corresponding volume is known select a row in the strapping table enter the corresponding volume in the textbox below and press the arrow button This will immediately set the values into the selected row in the str
6. 4 6 Changing the Default Failsafe Direction and Write Protect Jumpers Including Simulation mode Transmitters are shipped with a default failsafe direction of upscale This means that the Transmitter output will set the current output to upscale failsafe maximum output upon detection of a critical status You can change the direction from upscale failsafe to downscale failsafe minimum output by moving the top jumper located in the Electronics module Analog operation Upscale failsafe drives the Transmitter output to above 21mA Downscale failsafe drives the Transmitter output to below 3 6mA WARNING If the transmitter enters a downscale burnout status the transmitter enters a low power mode The transmitter must be reset to recover from this condition The Transmitter electronics module interprets either signal as not a number and initiates its own configured failsafe action for the control system 4 6 1 Procedure to Establish Failsafe Operation The failsafe direction display accessible via the Toolkit shows only the state of the jumper as it correlates to analog Transmitter operation A The integrated circuits in the Transmitter PWA are vunerable to damage by stray static discharges when removed from the Electronics Housing Minimize the possibility of static discharge damage when handling the PWA as follows Do not touch terminals connectors component leads or circuits when handling the PWA When removing or
7. Amplitude Width mm 150 penran a Janee at 87 886R Attenuation 0 100 Gain 14000 200 800 1000 Ol Distance cm Start cm 85 cho Curve Type Full End cm 325 Decimation 5 Obj Func Threshold Objective Function 1 Objective Function 7 Obj Function Threshold besa Objective Function L a l a L a L 3 200 1000 1200 1400 1600 1800 Distance cm Distance 1314cm Obj Function 0 178 Figure 5 18 Advanced configuration Correlation algorithm screen Different captured echo curves can be selected for analysis from the list in the upper right corner The upper graph displays the echo curve with the found reflections as well as the reflection model of interest e g surface reflection model The bottom graph shows the objective Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 91 function and its threshold Algorithm parameters are entered in the menu section to the right of the graphs 5 3 4 1 The Radar Impulse Response Model The radar impulse surface reflection model is a damped sine function that takes seven parameters listed in Table 5 3 under the Model tab The model and its gain and width parameters are illustrated in Figure 5 19 The attenuation parameter governs how fast the sine wave dies off Increased attenuation results in smaller side lobes The Start parameter allows the user to help the algorithm to find the level in case
8. AN N End weight A RON 3 Centering disk x Cotter pin Washer Centering disk Figure 3 6 Centering disks for rope and rod probes Page 26 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 3 8 Centering disk pipe schedule application Pipe Pipe schedule size 5s 5 10s 10 40s 40 80s 80 120 160 2 2 2 2 2 NA NA 3 3 3 3 3 NA NA 4 4 4 4 4 4 3 5 4 4 4 4 4 4 6 6 6 6 6 4 4 7 NA NA 6 6 NA NA 8 8 8 8 8 6 6 Table 3 9 Centering disk dimensions Centering disk size Actual disc diameter 2 1 8 45mm 3 2 7 68mm 4 3 6 92mm 6 5 5 141mm 8 7 4 188mm Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 27 Page 28 3 2 5 Mount the transmitter 3 2 5 1 SLG 720 Transmitter dimensions 110 0 4 33 in 55 0 2x CONDUIT CONNECTION 2 17 in OPTIONALLY 1 2 NPT or M20 Y 20 2 45 8 OPTIONAL 80 in 1 80 in EXTERNAL GROUND 356 4 14 03 in 310 6 12 23 in Os Figure 3 7 Flanged SLG720 Transmitter mm SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 NPT 3 4 1 1 1 2 2 110 0 55 0 2x CONDUIT CONNECTION 2 17 in OPTIONALLY 1 2 NPT
9. G Ex rA a IIC T4 Ge Ga J Tamb 50 C TO 85 C j i 0344 i WARNING T OPEN WHEN AN EXPLOSIVE ATMOSPHERE MAY BE PRESENT H vaada PONOT OPEN HEN AA EPL OSIE AT SEIN MAY De ETE f CAUTION READ INSTRUCTION MANUAL BEFORE INSTALLING OPERATING OR SERVICING pa A LEA WARNING FOR CONNECTION IN AMBIENTS ABOVE 60 C USE WIRE RATED 105 C f 50095527 001 ISS A eta th ald adi Ee Figure 1 7 Safety certification example 1 7 1 Safety Integrity Level SIL The SLG 700 is intended to achieve sufficient integrity against systematic errors by the manufacturer s design A Safety Instrumented Function SIF designed with this product must not be used at a SIL level higher than the statement without prior use justification by the end user or diverse technology redundancy in the design Refer to the SLG 700 Safety Manual 34 SL 25 05 for additional information Only transmitters ordered with the SIL Option will have the SIL certification The SIL level will be indicated on the SLG 700 nameplate See SLG 700 Transmitter nameplate for additional information Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 11 1 8 Security Considerations The SLG 700 provides several features designed to prevent accidental changes to the device configuration or calibration data These features include a local display password HART option a communication password HART option a Hardware Write Protect Jumper and a Software Write P
10. Prod Refle Start Prod Refle End Prod Refle Decimation Prod Refle Width Prod Refle Gain Prod Refle Attenuation Prod Refle Threshold 2 4 Interface Reflection Intef Refle Start Intef Refle End Intef Refle Decimation Intef Refle Width Intef Refle Gain Intef Refle Attenuation Intef Refle Threshold 2 5 Config Calib Offset 2 6 Calibration Offset 2 7 Reference Plane offset 2 8 Config Attenuation 2 9 Vapor Attenuation 2 10 2 11 Upper Prod Attenuation Lower Prod Attenuation Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 97 Standard Mode Gain Definition Point cm Surface Point cm Interface Point cm Use Measured Points 1 4 DCs Vapor DC Upper Product DC Lower Product DC Page 98 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 4 Monitor 5 4 1 Dashboard Basic Advanced Monitor Status Product Level 4 20mA SmartLine Guided Wave Radar Configuration Configuration site Non critical Alarms 1 03 m 20 5 mA Device Status amp Alarms Device Info Echo Curve Measurement Distance to Product Level Product Level Product Volume Product 100 Primary Variable Secondary Variabie Tertiary Vanable Quatemary Variable 1 03 m 85 98 7 53 m 0 58 m Vapor 4 20mA Output Thickness 2 905ft 20 54 mA l Level 1 032ft j Product Volume a 7 54 US gal Alarms gt Advanced Diagnostics W Signal Quali Signal Stre Int
11. The SLG 700 uses many very low power pulses with a technique called Equivalent Time Sampling ETS to efficiently extract level information Table 3 5 is an example of a waveform acquired with the ETS method The levels can be extracted from waveforms knowing the expected positions and shapes of the flange surface or interface and end of probe reflections In some situations it is also important to know the properties of the material being measured If an interface level is being measured the pulses pass through the upper medium before reaching the interface The pulse speed will be less than the speed of light in air by an amount which can be calculated knowing the dielectric constant of the material The standard dielectric constants for the interface measurements Where Vapor 1 nominal Upper Product Dielectric Constant where the upper product DC is less than 8 and the DC difference between the upper and lower product is greater than 10 The minimum thickness of the interface layer is 400mm The distance as shown in Figure 2 1 can be calculated as the time multiplied by the speed of light in the medium Ad c At VDC Where Ad distance At time for the pulse to travel distance Ad c speed of light in a vacuum DC dielectric constant of the product Reference oF 4 _ reflection Surface i E reflection f _ aad N a aii OO _ Flange End of probe reflection reflections a L a L
12. isis eaii iadaaa io ai iid e a ieena e iaia diaa Ea 3 1 3 4 Process Connettore riaren iat ee VAA Ei EAE EEEE AEE KUE ENOT 3 1 3 5 PROD orae aaea aa ae dee i e eee iei a eia eee eii va nea 4 1 4 Communicating with the Transmitter 0 c cccecececeeececeneeeeeeeeeeeeeceaeeesaaeeseeeeseaeeesaeeeeaeseeeeeeeas 6 Ad 2420 MA HAR Tacar a a a a E E E asc aO E A EEN e 6 1 4 2 Foundation Fieldbus FF jeena E T ANG 8 1 4 3 DTM based tools and Experion sssesssreessrnesssnnesrrnnssrnnnesnnnnentnnnentnnnesnnanennnnnennennannnnnnnnna 8 1 5 SLG 700 Transmitter nameplate ccccccccesceeeeeceeeeecaeeeeeee scenes caeeeeeaesseaeeseeeescaeeseaeeeeeeeeaas 9 1 6 Transmitter Model Number Description asssseessssesssrneseernesrnnnesrnnnesrnnnnsnnnnennnnnnnnnnnannnnnnnnnnnnnnna 11 1 7 Safety Certification Information c cccecceeceeceeneeeeeeeeeeaeeeeaeeseeeeeseaeeesaaeseeeeeseeeesaeeteeeseeeees 11 1 7 1 Safety Integrity Level SIL cecc cece eeeeeeeeeeeeceeeeeeeaeeeeeeeeeeeeceaeeeeaaeseeeeseaeeesaaeseeaeeeeeeeess 11 1 8 Security Considerations eceeeseceecee cece eeeeeeeeeeeceeeeeceaeeeeaeeseneeesaeeeeaaeseeeeeseeeesaeeeeeeseeneess 12 2 Radar Level Measurement cccccceeeeeeeeeeecceeeeeeeeeeeseenaeeeeeeeeeeeeeeeseneeaeeeeeees 13 2 1 OVGIVIOW isp Zaraan Ri Sete a a a Hie te dg eine hele eee ai ee 13 2 2 Theory of Operation iire ates als aii ata Aan ie eat ida 13 221 interface Measurementinnc ites take ein ais R
13. 2 4 d JECEx Requirements of IEC 60079 14 12 3 See also 5 2 4 ENTITY approved equipment shall be installed in accordance with the manufacturer s Intrinsic Safety Control Drawing The Intrinsic Safety ENTITY concept allows the interconnection of two ENTITY Approved Intrinsically safe devices with ENTITY parameters not specifically examined in combination as a system when Uo Voc or Vt Ui or Vmax lo Isc or It li or Imax Ca or Co gt Ci Ccable La or Lo gt Li Leable Po Pi Where two separate barrier channels are required one dual channel or two single channel barriers may be used where in either case both channels have been Certified for use together with combined entity Parameters that meet the above equations System Entity Parameters SLG Transmitter Vmax Voc or Uo Imax lsc or lo SLG Transmitter Ci Ccable Control Apparatus Ca SLG Transmitter Li Lcable Control Apparatus La When the electrical parameters of the cable are unknown the following values may be used Capacitance 197pF m 60 pF ft Inductance 0 66uH m 0 020uH ft Control equipment that is connected to Associated Equipment must not use or generate more than 250V 47 63Hz AC or 250V DC Associated equipment must be FM CSA ATEX or IECEx depending on location listed Associated equipment may be installed in a Class l Division 2 or Zone 2 Hazardous Classified location if so approved Non Galvanically isolated equipment grounded
14. 3 10 Mounting position Table 3 10 Minimum distance to container wall and obstacles mm Waveguide Minimum Minimum distance to Minimum distance distance to metallic container to non metallic obstacle wall container wall Single wire 300 300 300 Single rod 300 300 300 Coax NA NA NA Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 31 3 2 5 3 Temperature requirements Thermal loading from the process and ambient environment affect the temperatures of the electronics as well as the seals inside the level transmitter Figure 3 11 defines the limits of ambient and process temperatures as they pertain to specific seal materials in the transmitter Ambient Temperature Process Temperature KALREZ VITON EPDM BUNA N Figure 3 11 SLG 720 temperature limits Page 32 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 5 4 Flange mount To mount a flange mounted transmitter bolt the transmitter s flange to the flange pipe on the wall of the tank Step Action On insulated tanks remove enough insulation to accommodate the flange extension 1 Note It is the End User s responsibility to provide a flange gasket and mounting hardware that are suitable for the transmitter s service condition Ensure correct functionality 2 To ensure a reliable electrical contact between the tank and transmitter use unpainted metal bolts
15. Electronic Housing is grounded before lowering a rope probe into a tank Step Action The rope probe is attached to the process connector at the central connector with a nut and lock washer Attach the process connector to the rope probe stud using a nut and lock washer Thread on the rope probe stud and use the nut to apply torque to secure the 2 connection Note For the SLG 720 tighten the rope stud and nut to 6 0Nm 4 4ft lIbs Process Connector Ym Goss J Nut A Lock Washer an Rope Probe ee Y Set Screws a End Weight Central Connector Figure 3 4 Rope probe assembly 3 2 3 3 Coaxial probe assembly The coaxial probe has an inner and outer conductor that is assembled separately Each is supplied in segments Refer to Figure 3 5 and perform the following steps Step Action 1 Attach the inner conductor rod segments with a stud and lock washer Attach the rod probe at the process connector to the central conductor 2 with a nut and lock washer See Figure 3 3 or Figure 3 4 for the central conductor Fully thread the nut onto the central conductor and then use the nut to apply torque to secure the connection 3 Note For the SLG 720 tighten each rod connection point to 6 0Nm 4 4ft Ibs 4 When the inner rod is assembled insert the PTFE spacers into the Page 24 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 machined notches along the
16. PC based DTM FDT tab for 4 20 mA Outputs allows to read the value of the Loop Current and Loop Current of Range When accessing the Basic Configuration group and 4 20 mA Outputs tab using the handheld devices based on DDs and PC based DTM FDT outside of Guided Setup mode the tab offers options to adjust the following parameters e Echo Lost Timeout This parameter allows adjusting the time when the GWR Transmitter waits with reaction to echo los Page 120 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 e Action This parameter allows the user to select the action to be taken by the Transmitter when the Echo Lost Timeout time elapses e Latching Mode This parameter allows selecting the behavior of the GWR transmitter in case of a critical error If the Latching option is selected the GWR transmitter will stay in the critical error state until a user performs a hardware or software reset Operating Range The range of measurement values within which the instrument will provide a measurement but the error is not well defined PACTWare A free software application for instruments that are based on FDT technology It can be used to load and run a manufacturer s DTM for a specific instrument Precision The closeness of agreement between the results obtained by applying a measurement procedure several times on identical materials and under prescribed measurement conditions The smaller the random part of experiment
17. Process HHH HAH be displayed ince oeclack Applicable only for from list to enter Two Liquid measured products powerhtod De If LP DC UP DC lt 10 a Warning message will be displayed lt Return gt Sensor Height Range 0 to 100m Press J to enter Measurement Max Product Level AHH HHH menu selection T Level Offset Range 100 to 100m and to select from list to enter lt Return gt Measured Prod Single Liquid Read Only 2 Liq Flooded 2 Liq NonFlood PV Product Level PV Primary SV Prod Level Variable Dist To Prod SV Secondary Dynm TV Prod Lvl Rate Variable l Variables QV Product Volume TV Tertiary HART onl Vapor Thick Variable only Vapor Thick QV Quaternary Press to T Variable menu selection ean a and 4 to select from Intt Level Configure the list J to enter Dist To Intf dynamic variables Intf Lvl R for monitoring ona ntf Lv ate host such as DTM or Upr Prod Thick handheld device Lower Prod Vol Upper Prod Vol lt Return gt LRV Press J to enter URV EE SHH menu selection Damping HHH and 4 to select from list J to enter and shift to next digit Disabled Sets loop Press J to enter 4 20 mA output and burnout menu selection t Outputs levels to Honeywell and L to select from HART only levels list J to enter NAMUR Output Disabled Enabled Sets loop Enabled output and burnout levels to the NAMUR levels Disabled for Multi Loop Curr Mode drop Latching Mode Latching Mode FA hi This parameter on Latchi
18. Terminals Black W Honeywell MC Toolkit Figure 6 1 Current Loop Test Connections Refer to Figure 6 1 for test connections Verify the integrity of electrical components in the output current loop Establish communication with the Transmitter For these procedures the values of components in the current loop are not critical if they support reliable communication between the Transmitter and the Toolkit On the Toolkit display the Output Calibration box In the Output Calibration box select the Loop Test button the LOOP TEST box will be displayed Select the desired constant level Output 0 100 or Other any between 0 100 Select the Set button A box will be displayed asking Are you sure you want to place the transmitter in output mode Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 113 With the Transmitter in Analog mode you can observe the output on an externally connected meter or on a local meter Select the Yes button Observe the output current at the percentage you selected in Step 5 To view the monitor display navigate back from the LOOP TEST display and select the MONITOR display A Confirm popup will be displayed Select Yes to continue This concludes the Startup procedure Page 114 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Communication Module Retaining Screws 2 Places Electronics Sensor Housing
19. a screen with the text Available for Maintenance will be inserted into the normal screen rotation to make it easy to identify transmitters that are available for maintenance Y Product Level 3 1 Good Meter PV Value User Configurable This field has 7 characters Maximum allowable numeric value of 9999999 or 999999 If fractional decimals are configured the fractional positions will be dropped as required If the PV exceeds the values above limits the PV is divided by 1000 and K is appended to the result allowing a maximum value with multiplier of 999999K or 99999K Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 71 Display Indicator Description PV Status Good The transmitter is operating normally Bad The transmitter has detected a critical fault condition The PV Status field will flash when this condition is present and the PV Value will be displayed on a black background as follows D Critical Diag Warning When the status field indicates a Bad status the displayed PV value will represent the last known good value or will be set to 0 if the last known good value does not exist A Bad status indicates that the displayed value may not represent the current process measurement and should not be used for process monitor or control Unc Uncertain this status is only available for FF transmitters The PV Value is outside of normal limits Unknown The le
20. alert against unsafe practices CAUTION symbol on the equipment refers the user to the product manual for additional information The symbol appears next to required information in the manual gt WARNING Indicates a potentially hazardous situation which if not avoided could result in serious injury or death WARNING symbol on the equipment refers the user to the product manual for additional information The symbol appears next to required information in the manual WARNING Risk of electrical shock Potential shock hazard where HAZARDOUS LIVE voltages greater than 30 Vrms 42 4 Vpeak or 60 VDC may be accessible ESD HAZARD Danger of an electro static discharge to which equipment may be sensitive Observe precautions for handling electrostatic sensitive devices Protective Earth PE terminal Provided for connection of the protective earth green or green yellow supply system conductor Functional earth terminal Used for non safety purposes such as noise immunity improvement Note This connection shall be bonded to Protective Earth at the source of supply in accordance with national local electrical code requirements Earth Ground Functional earth connection Note This connection shall be bonded to Protective Earth at the source of supply in accordance with national and local electrical code requirements B HE FAK p gt gt Chassis Ground Identifies a connection to the chassis or fr
21. and check that your probe is within tensile or bending load limits 18 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 JdOdd TWIXVOOD GaINSWO3S uz 09 Old WRVOD 3JgO d GOd 3JgO d JdO a JL uzg u 16 s wes Z OOS Ow wort 08D luoez dAL0 09 luz 09 _ ut 2e ur e 071 08 Eo u91 or LMS Figure 3 1 SLG720 probe dimensions mm in Page 19 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 1 1 Tensile load Motion of the medium inside of the tank will impart load onto the probe of the transmitter Flexible rope probes will experience tensile loading that will be transferred to the roof of the tank Ensure that the maximum probe tensile load does not exceed maximum tank roof load Depending on position forces on anchored flexible probes can be two to ten times greater than that of flexible probes with end weights Table 3 3 Tensile load limits for flexible probe Probe Tensile Load Limit Model Selection Probe description KN SLG720 SWA SWB Wire single 4mm 5 3 2 1 2 Bending torque A vertically mounted rigid probe bends due to fluid motion force An angle mounted probe also bends from gravity The mounting angle and total torque from these forces must not exceed the limits in Table 3 4 Table 3 5 and Table 3 6 For excessive torque conditions consider
22. calibrate the loop zero output to 4 000 mA Connect a current meter to the transmitter to monitor the loop output Press Enter to set the loop output to 4mA When the prompt Enter reading appears enter the value shown on the current meter in milliamps and press Enter again The transmitter adjusts the DAC output to 4mA Note Loop must be removed from Automatic Control Trim Span This selection will calibrate the loop span output to 20 000mA Connect a current meter to the transmitter to monitor the loop output Press Enter to set the loop output to 20mA When the prompt Enter reading appears enter the value shown on the current meter in milliamps and press Enter again The transmitter will adjust the DAC output to 20mA Press to enter menu selection t and 4 to select number to enter and shift to next digit Set DAC Normal This selection allows the loop to be returned to its Normal mode Automatic Control after performing the Trim operation Press J to enter menu selection Scroll to Set DAC Normal Press to initiate Loop Test lt Return gt Page 62 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 HART Set DAC Output This selection allows you to force the DAC output to Press to enter menu only any value between 3 8 and 20 8mA selection Scroll to Set DAC Normal Note This sel
23. can be selected from a corresponding Table in the Model Selection Guide MSG The basic model number structure is shown in Figure 1 6 eS A D Ra cal Oe S o v 2 Soe L ts S C e Sg ae a Ra os P a amp S Ses Sk oo S ES S Ff S od As SER P Ss SNO F 2 F g g S 2 g ge 2 oe S c oe amp Key Number Table Table II Table III Table IV Table V Table VI Table VII LEDENE Table IX Optional Lel e LIL LA LALA Le Lee I Le J Figure 1 6 Standard SLG 700 Nameplate For a more complete description of the various configuration items and options refer to the appropriate Product Specification and Model Selection Guide 1 7 Safety Certification Information SLG transmitter models are available for use in hazardous locations CSA IECEx ATEX and FM approvals are available See Section 9 Appendix Certifications for details The transmitter will include an approvals nameplate mounted on the electronics housing with the necessary compliance information SIRA 15ATEX2004X 1 G Ex la IIC T4 Ga PER CONTROL DRAWING 50098941 Tamb 50 C TO 70 C MODEL SLG SERIES J H a SANDET T C A WARNING SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR USE IN HAZARDOUS LOCATIONS ENCLOSURE TYPE IPOGIPE 4 SIRA 1SATEX2004X 2i1 G Ex d fia IC T4 Gb Gal Il 20 Ex tb IIIC T 95 C Tamb 50 C TO 88 C i H WARNING DO NOT OPEN WHEN AN EXPLOSIVE ATMOSPHERE MAY BE PRESENT I ll 1 j SIRA 15ATEX4005X 3 1
24. contructed of STAINLESS STEEL PER ASTM A 276 TYPE 316L CONDITION A AND the flexible rope is constructed of ANSI T316 Stainless Steel Flexible wire probes must be a MAXIMUM of 6mm diameter AND a MAXIMUM of 75m long Attaching Probe To attach probe to transmitter insert supplied M5 washer thread on probe torque supplied M5 nut to 4 6 Nm 3 4 ft Ibs Loctite Activator 7649 primer and Loctite 545 thread sealant may be used and is recommended on the threads prior to installation SCALE None REV A DATE 02 03 15 SH 4of4 Page 134 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 10 Security 10 1 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 e Send an email to security honeywell com or e Contact your local Honeywell Process Solutions Customer Contact Centre CCC or Honeywell Technical Assistance Centre TAC listed in the Support and Contact infor
25. field may be present near the probe Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 123 C Honeywell 50099165 Revision B EC DECLARATION OF CONFORMITY Honeywell International Inc Honeywell Field Solutions 512 Virginia Drive Fort Washington PA 19034 USA declare under our sole responsibility that the following products SLG720 Smartline Series Guided Wave Radar Level Transmitters to which this declaration relates is in conformity with the provisions of the European Community Directives including the latest amendments as shown in the attached schedule Assumption of conformity is based on the application of the harmonized standards and when applicable or required a European Community notified body certification as shown in the attached schedule The authorized signatory to this declaration on behalf of the manufacturer and the Responsible Person is identified below MMos Michael Williams Principal Engineer Issue Date 27 March 2015 Page 124 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Honeywell SCHEDULE 50099165 Revision B EMC Directive 2004 108 EC IEC 61326 1 2012 Electrical Equipment for Measurement Control and Laboratory Use EMC Applicable to all transmitters Requirements IEC 61326 3 1 2008 Electrical Equipment for Measurement Control and Laboratory Use EMC I to HART 4 20mA Requirements Part 3 1 Immunity Requirements for safety related
26. including popular threads and flanges e Provides electrical feed through to the probe In order to work properly the construction materials of the probe must be properly specified to avoid chemical incompatibilities as well as to withstand the expected temperature and pressure range Each of the SLG 720 722 future release 724 future release and 726 future release models have different process connector designs Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 3 1 3 5 Page 4 Probe The purpose of a Guided Wave Radar probe is to guide radar pulses produced by the radar transmitter towards the measured material It also guides the reflected pulse back to the transmitter for measurement and evaluation The probe can be made of a single conductor such as for single rope or rod probes or two conductors for coaxial probes For rigid probes rod and coaxial multiple segments each up to 2 m long can be connected together Probes are also known as waveguides Honeywell provides different probe designs to enhance the performance of the instrument in various applications A single wire probe is the most common design other designs are provided based on application needs Refer to Figure 3 1 SLG720 probe dimensions mm in for more information SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 The construction of the waveguide dictates specific characteristics Table 1 3 Waveguide sel
27. is OVER TEMP greater than 125C Product Sgnl Str R Good Applicable for Single Liquid and Solid Bad Product Bad Signal Strength is bad Prod Sgnl Qlty R Good Applicable for Single Liquid and Solid Bad Product Bad Signal Quality is bad UP Signal Strength R Good Applicable for Two Liquid Products Bad Bad Signal Strength is bad UP Signal Quality R Good Applicable for Two Liquid Products Bad Bad Signal Quality is bad LP Signal Strength R Good Applicable for Two Liquid Products Bad Bad Signal Strength is bad LP Signal Quality R Good Applicable for Two Liquid Products Bad Bad Signal Quality is bad This is a roll up status that is set when any of the following non critical status conditions are present OK e Sensor Over Temperature Sensing Section R Fault e Distance in blocking higher zone e Distance in blocking lower zone e Sensor Not Characterized Does not display on the DTM Check Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 65 the local display e Sensor Not Calibrated Does not display in the DTM Check the local display If either of the above two conditions exist a local display is needed to view the statuses From the main menu select Monitor Non Crit Diag and scroll Non Critical down to the Characterized and Snsr Calibrated options Blk Dist Hi Zone R These 2 parameters mark regions Yes outside accurate measures Blk Dist Lo Zone R No If
28. it has never found level by defining the start position cm of a 240cm wide search window This parameter is not used under normal operation as the search window positions are automatically updated by a level tracking algorithm The Decimation parameter 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 5 raw data sample When the coarse search has found the reflection a fine search determines the precise location of the reflection The process gain is exponentially decayed based on the linear attenuation coefficient This accounts for radar pulse energy dissipation to the vapour and mediums surrounding the wave guide This is modeled as Isurface x Isurface O e Where x is the distance from the reference plane flange and a is the linear attenuation coefficient The linear attenuation of the gain is plotted in red in the upper graph in Figure 5 19 There is one linear attenuation coefficient for each possible medium in the tank vapour upper product and lower product These are available on the Attenuation tab see Table 5 3 under the Attenuation tab Under the Attenuation tab the Reference Plane Surface and Interface positions are automatically copied from the measured positions indicated by the stem plots In case the algorithm has not found the reflections and hence was not able to find the positions for the Referenc
29. network to a multiplexed receiver device The major difference between the two modes is that in Point to Point mode the average value of the loop current represents the current value of an analog signal representing the process inside the tank In Multi Drop mode the average value of the loop current is fixed usually at 4mA Therefore in Point to Point mode an external control system can read the Primary Variable PV through an analog input without HART messaging whereas in Multi Drop mode the PV can only be read as a digital value using HART messaging Note Only the HART system refers to PV as the Primary Variable 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 SLG 700 supports HART version 7 and its associated backward compatibility Figure 1 2 is an example of a HART connection to the transmitter The communication resistor RL may be inserted anywhere in the 4 20 mA loop but it is recommended to be installed close to the positive supply The MC Toolkit is a dedicated Honeywell communication tool Also o
30. of the painted surface should only be done with a damp cloth Flame proof Installations The Transmitter can installed in the boundary wall between an area of EPL Ga Class I Zone 0 Category 1 and the less hazardous area EPL Gb Class I Zone 1 Category 2 In this configuration the process connection is installed in EPL Ga Class I Zone 0 Category 1 while the transmitter housing is located in EPL Gb Class I Zone 1 Category 2 Intrinsically Safe Must be installed per drawing 50098941 See page 131 Division 2 This equipment is suitable for use in a Class I Division 2 Groups A B C D T4 or Non Hazardous Locations Only The enclosure is manufactured from low copper aluminum alloy In rare cases ignition sources due to impact and friction sparks could occur This shall be considered during Installation particularly if equipment is installed a Zone 0 location If a charge generating mechanism is present the exposed metallic part on the enclosure is capable of storing a level of electrostatic that could become incendive for IIC gases Therefore the user installer shall implement precautions to prevent the buildup of electrostatic charge i e earthing the metallic part This is particularly important if equipment is installed a Zone 0 location 9 5 1 Maximum Power Supply Source Voltage Um The maximum voltage Um for the non intrinsically safe circuits is 250VAC 47Hz 63Hz or 250VDC 9 5 2 Warnings and cautions
31. or M20 KA izes T 202 458 OPTIONAL 80 in 1 80 in EXTERNAL GROUND 356 4 310 6 nl 12 23 in 3 4 in 1 in SW40 1 1 2 in SW50 p 7 2 in SW60 e L S Lo i a _ LU i 3 4in 1 in 47 0 1 85 in 1 1 2in 2in 520 2 05 in Figure 3 8 Threaded NPT SLG720 Transmitter mm Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 29 G 3 4 1 1 1 2 1259 110 0 Ha 626 4 33 in 2 46 in 2x CONDUIT CONNECTION pin OPTIONALLY 1 2 NPT or M20 VAAN 4 02 458 OPTIONAL 80 in 1 80in EXTERNAL GROUND 356 4 14 03 in 310 6 12 23 in G3 4 in G1 in SW40 LI F G1 1 2 in SW50 ATT kanono ns 1 G3 4 in G1 in 47 0 1 85 in Gl 1 2 in 54 2 2 13 in Figure 3 9 Threaded BSP G SL 720 Transmitter mm 3 2 5 2 Suitable mounting position To minimize signal interference observe the minimum distances in Table 3 10 Examples of obstacles to avoid are protruding welds internal installations agitators pipes and nozzles extending into the container heating coils inlet streams ladders etc Metallic objects are a source of bigger interferences than non metallic objects Turbulent applications may require the probe to be anchored to prevent it from contacting or getting too close to container walls or obstacles Page 30 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Inlet pipe Figure
32. platforms group the parameters for Basic Configuration into five groups General Process Measurement Dynamic Variables and 4 20 mA Outputs The Basic display lists all available parameters in a simple menu Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 77 Basic Status Product Level Configuration OK 1 47 m eG Wave Radar artLine Guided Wave Rada General Short Tag Long Tag Default Units Metric Imperial The Guided Setup provides navigation buttons Planning Engineer BE Connected B Device ja OK Figure 5 2 Basic Configuration General screen 5 2 1 General e Short Tag A tag used to identify or characterize the transmitter with a maximum of 8 characters packed ASCII character set Note Characters not included in the ASCII character set will not display e Long Tag Allows the entry of a longer tag with a maximum of 32 characters ISO Latin 1 character set e Units This menu item allows selection of the units for variables used by the instrument Note Individual default units can be modified to alternate measurement types m X Distance Temperature F Velocity mis Volume US gal a Figure 5 3 Basic Configuration Default Units Page 78 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 2 2 Process Distance to Honeywell Basic us Product 4 20mA SmartLine Guided Wave Radar Configur
33. r 4 a L a n 4 a 4 n 8 3 tn Distance fom Figure 2 2 Sample Waveform The above example displays two overlaid waveforms the green is separate Note from the blue Page 14 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 2 2 2 2 2 3 The Time Domain Reflectometer TDR principle can also be used to measure a level interface as well as the upper level The position of the level interface has to be calculated with knowledge of the dielectric constant DC of the upper layer The SLG 700 can measure levels of different materials in the same tank In specific conditions and can detect the echo from the boundary between Vapor and the Upper Product UP and between the Upper Product and the Lower Product LP This allows calculating the level for each material and the interface thickness as in Figure 2 3 Vapor Product Level Upper Product Interface Level Lower Product Figure 2 3 Interface measurement Advanced signal processing SLG 700 series level transmitters employ advanced signal processing techniques in order to get the most accurate measurements possible Bi polar radar pulse is used in order to generate the maximum signal amplitude with the low voltages available Complete pulse shape information is used for level detection in order to minimize the influence of signal interferences Signal Interferences Interfering reflections can occur near the top and bottom of
34. systems and ran ers for equipment intended to perform safety related functions Functional safety General industrial applications Summary of EMC Compliance CRITERIA CRITERIA STANDARD IEC 61326 1 IEC 61326 3 1 RESULT ALL TRANSMITTERS HART 4 20MA Group Class A Group1 Class A Radiated Emission 30 230 MHz 40 dB 30 230 MHz 40 dB 230 1000 MHz 47 dB 230 1000 MHz 47 dB o AKV Contact 6KV Contact soimmnity is Hv my t adina Pss PASS 10 V m 80 MHz to 1GHz 20 V m 80MHz to 1GHz Enclosure EM Field RF Radiated Susceptibility IEC61000 4 3 3 v m 1 4 GHz to 2 0 GHz 10 V m 1 4GHz to 2 0 GHz PASS 1 V m 2 0 GHz to 2 7 GHz 3 V m 2 0GHz to 2 7GHz PASS Field Immunity 3 V Except the following 10V 3 37 to 3 410MHz 1EC61000 4 6 o 10V 6 765 to 6 795MHz 203 RF Conducted Susceptibility 10 V 13 553 to 13 567MHz 10 V 26 957 to 27 283MHz 10 V 40 66 to 40 70MHz OC Power amp 1 0 Signal Control 1 5 kHz to 15 kHz 1V to 10 V 20 dB Dec 15 kHz to 150 kHz 10 V DC 16 2 3 Hz 50 60 Hz 10 V continuous 100 V short duration 1 s 150 180 Hz 10 V continuous Conducted Common Mode Voltage Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 125 Honeywell SCHEDULE 50099165 Revision B ATEX Directive 94 9 EC EC Type Examination Certificate No SIRA 15
35. the communications module N A Sensor Comm Displays a status for the sensor communications N A Detail Diag This is a read write parameter which can be changed if you know the Display Password when enabled N A Sensor Int RAM Displays a status of the internal RAM on the sensor Sensor Ext RAM Displays a status of the external RAM on the sensor Sensor Flash CRC Cyclic Redundancy Check Runs a background check on bits in the database Error messages communicate differences in encountered bits in the database Sensor Pwr Vosc Failure encountered in sensing sector Sensor Pwr2 5V Failure encountered in sensing sector Sensor Pwr 3 3V Failure encountered in sensing sector Electronics fault Repower the unit to clear the fault If error reoccurs replace the sensor electronics Probe Missing No probe is detected The probe or process connector is damaged Inspect the transmitter Perform and available repairs or replace the unit Sensor Pwr Accum Displays a status of the power accumulator Sensor Execution Displays a status of sensor performance Sensor Oscillator Failure encountered in sensing sector Electronics fault Repower the unit to clear the fault If error reoccurs replace the sensor electronics Factory Mode Indicates the mode in which the transmitter is currently running Factory mode allow
36. the corrected level in the textbox below and press the arrow button This will immediately set the current measured level and the corrected level into the selected row in the table i e immediately set in the transmitter This feature is disabled when a user makes other changes on Note this screen Apply or discard any other changes before configuring Wet Linearization 5 3 3 Volume Honeywell Basic Advanced Manion Status Product Level 4 20mA SmartLine Guided Wave Radar Configuration Kee Mee OK 0 53m 8 2 mA Probe Linearization Correlation Algorithm Services Local Display Volume Calculation Method Connected Q Device OK Planning Engineer Figure 5 15 Advanced Configuration Volume Calculation None Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 89 Basic Advanced Status Product Level 4 20mA SmartLine Guided Wave Radar Configuration Keski lettre Monas OK 0 53m 8 2 mA Probe Linearization Correlation Algorithm Services Local Display a a Ideal Tank Shape d Tank Shape Vertical Cylinder Tank Diameter A Tank Height B Volume Offset 0 000 Mconnected Q Device a OK Planning Engineer Figure 5 16 Advanced Configuration Volume Calculation Ideal Tank Shape Advanced SmartLine Guided Wave Radar Configuration Rui Mete Probe Linearization Correlation Algorithm Services Local Display Level m Volume m
37. the level enters either of these parameters the Status Unknown Snsr Calibrated R Yes Yes Sensor is calibrated No No Sensor is not calibrated Calibration Type R Standard Standard Device is calibrated for standard points Custom Custom Device is calibrated for user defined points lt Return gt Measurd Prod Lvl R Non linearized HART only product level If linearization is disabled then Product Level and Measurd Prod Lvl will be same Product Sgnl Str R Product Signal Signal strength depends on a function Strength of distance and the medium Where the signal Signal strength improves as distance displays the decreases amplitude of Normal range 500 15000 surface reflection UP Sgnl Strength R Upper Product Signal Strength For 2 liquid cases Device Vars LP Sgnl Strength R Lower Product Signal Strength For 2 liquid cases Prod Sgnl Qlty R Product Signal Quality UP Sgnl Qlty R Upper Product Signal Quality For 2 liquid cases LP Sgnl Qlty R Lower Product Signal Quality For 2 liquid cases Quality measurements range 0 1 0 Bad Less than 0 5 Good 1 Perfect Int Elec Temp R Internal Electronics Temperature Internal temperature measurement of the sensing module Page 66 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 lt Return gt
38. the probe These interfering echoes occur when the pulse encounters a transition such as from nozzle to tank or when the pulse exits the process connector for a rod or rope probe Unwanted reflections can also occur near the probe end such as probe deposits The top and bottom zones in which these interferences occur can be configured as blocking distances within which no measurement will occur Coaxial probes are better at ignoring these interferences therefore their blocking distances are smaller Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 15 2 3 Process Applications The SLG 700 level transmitter is designed to work with a wide range of process conditions Single fluids or interface measurements can be made Measurements can be made in turbulent conditions or foaming conditions However in some situations special precautions must be taken 2 3 1 Turbulence Turbulence can result in the following measurement issues The height of the surface reflection appears smaller The level measurements display higher variability 2 4 Container Considerations 2 4 1 Shapes The SLG 700 transmitter may be used in any shape of container In general it is designed to be mounted vertically on top of the container although angled mounting is also possible as needed oy Figure 2 4 Top vertical and angled mounting Materials plastic vs metal The transmitter may be successfully used in containers mad
39. this document are subject to change without notice Honeywell TDC3000 SFC SmartLine PlantScape Experion PKS and TotalPlant are registered trademarks of Honeywell International Inc Other brand or product names are trademarks of their respective owners Honeywell Process Solutions 1250 W Sam Houston Pkwy S Houston TX 77042 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page iii About This Manual This manual is a detailed how to reference for installing wiring configuring starting up operating maintaining calibrating and servicing Honeywell s family of SLG 700 SmartLine Guided Wave Radar Level Transmitters Users who have a Honeywell SLG 700 SmartLine Guided Wave Radar Level Transmitter configured for HART protocol are referred to the SLG 700 Series HART Option User s Manual Document 34 SL 25 06 Users who have a Honeywell SLG 700 SmartLine Guided Wave Radar Level Transmitter configured for Fieldbus operation are referred to the SLG 700 Series Fieldbus Option User s Manual Document 34 SL 25 07 The configuration of your Transmitter depends on the mode of operation and the options selected for it with respect to operating controls displays and mechanical installation This manual provides detailed procedures to assist first time users and it further includes keystroke summaries where appropriate as quick reference or refreshers for experienced personnel To digitally integrate a Transmitter with o
40. to allow editing of the value No action is taken against a menu item until the user presses the J button If you want to abort a data entry operation simply refrain from pushing any buttons for 10 seconds the data entry operation will time out and the original value of the selected item will be preserved Page 50 Table 4 3 The Basic Display Menu Menu item Choices Description Action LCD Contrast gt gt gt gt gt gt gt gt Adjust the LCD contrast level Press J to enter Range from 1 to 9 menu selection Default 7 T and 4 to select level to enter Rotation Time Time duration in seconds that each Press J to enter configured screen is shown before menu selection moving to the next screen and J to select Range 3 to 30 seconds number Default 10 seconds to enter and shift to next digit Screen Rotate Enabled Activate rotation between up to 8 Disabled screens Press to enter Select Screen Enabled Select a specific screen to view based menu selection HART only Disabled on the configurable screens 1 8 T and 4 to select Screen Screens 1 8 available in the Display Config menu number HART only to enter SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Menu item Choices Description Action Screen PV HART only Product Level Prod Level Dist To Prod Prod Lvl Rate Product Volume Vapor Thick
41. to connect power to a Transmitter For wiring transmitters in hazardous area locations refer to sections 9 5 and 9 6 for more specific information 3 3 1 3 Wiring Procedure Ensure the loop power supply is off 2 See Figure 3 25 for parts locations Loosen the end cap lock using a 1 5mm Allen wrench 3 Remove the end cap cover from the terminal block end of the Electronics Housing 4 Feed loop power leads through one end of the conduit entrances on either side of the Electronics Housing The Transmitter accepts up to 16AWG wire 5 Plug the unused conduit entrance with a conduit plug appropriate for the environment 6 Connect the positive loop power lead to the loop positive terminal and the negative loop power lead to the negative terminal The Transmitter is polarity insensitive 7 Replace the end cap and secure it in place 3 3 2 Lightning Protection If your Transmitter includes the optional lightning protection connect a wire from the Earth Ground Clamp see Figure 3 25 to Earth Ground as short as possible to make the protection effective Use a size 8AWG or 8 37mm bare or green covered wire for this connection 3 3 3 Supply Voltage Limiting Requirements If your Transmitter complies with the ATEX 4 directive for self declared approval per 94 9EC the power supply must include a voltage limiting device Voltage must be limited such that it does not exceed 42V DC Consult the process design system documentatio
42. well as the specified length unit Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 81 e Minimum and the maximum level of the product in the tank This value is used to convert the level of the product in the tank to a percent value e Probe Length The distance from the reference plane to the end of the probe is normally entered by the factory based on the order parameters and does not need to be changed See page 22 for trimming probes Figure 5 8 Parameters from Basic Configuration Measurement screen e Figure 5 9 shows the reference plane R for flanged and threaded transmitters Also known as the zero point or the flange Flanged Threaded Figure 5 9 Reference plane R for flanged and threaded connections Page 82 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 2 4 Dynamic Variables Status OK Dynamic Variables Honeywell Product Leve SmartLine Guided Wave Radar 0 53 m Basic Configuration Process General Measurement Measured Products Single Liquid Primary Variable PV and Product Level Loop Current Secondary Variable SV Distance to Product Tertiary Variable TV Product Level Quaternary Variable QV Product Level Rate lt Previous Ki Connected Q Device BOK Planning Engineer Figure 5 10 Basic Configuration Dymanic Variables screen The SLG 700 transmitter supports 15 device variables listed in the followi
43. 1 Page 132 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 FOUNDATION FIELDBUS PROFIBUS aara Pierrmax sw Sid OOO ICEN eo Ta oF Lo Las Ls FIELDBUS INTRINSICALLY SAFE CONCEPT FISCO wetessew Cw NON HAZARDOUS LOCATION HAZARDOUS CLASSIFIED LOCATION CLASS I CLASS II DIVISION 1 GROUPS A B C D E F amp G ZONE 0 lIC amp ZONE 2 IIC CLASS DIVISION 2 GROUPS A B C D EQUIPMENT EQUIPMENT See Note 7 and Note 8 CONTROL ri ASSOCIATED O ASSOCIATED EQUIPMENT NOT REQUIRED WHEN SHIELD IS FOR DIV 2 ZONE 2 INSTALLATIONS USED GROUND AT THIS END ONLY SCALE None REV A DATE 02 03 15 SH 3 of 4 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 133 CUSTOMER SUPPLIED PROBES SLG transmitter models SLG7xx 000 and SLG8xx 000 are not supplied with a measurement probe These transmitters must be installed using a probe as per the following information Attaching any other probe or device may impair suitability for use in hazardous locations A solid metal probe or a flexible wire probe may be used Solid Metal Probes A solid metal probe may be installed if it is constructed of STAINLESS STEEL PER ASTM A 276 TYPE 316L CONDITION A OR ASTM B574 ALLOY UNS N10276 SOLUTION ANNEALED Solid metal probes must be a MAXIMUM of 16mm diameter AND a MAXIMUM of 6 3m long Flexible Wire Probes A fiexible wire probe may be installed if it is constructed of A swage stud
44. 58 Measurement Dynm Variables 4 20 mA Outputs Set LRV Set URV Dev Install Date Advance Config Probe For details see Table 4 7 Advanced Config sub Volume menu page 61 DAC Trim Advanced Display supports the configuration of up to Loop Test 8 different screens HART Params Monitor Critical For details see Nom Cmiical Table 4 8 Monitor sub menu page 64 Device Vars Display Info Comm Info Sensor Info Echo Stem Plot Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 55 Table 4 5 Display Config sub menu This table describes the Advanced Display menu s Display Config sub menu lt Return gt Return to the Level 1 menu Level 2 Level 3 Description Action lt Return gt Set Adjust the LCD contrast Press to enter menu Contrast level selection LCD Range from 0 to 9 T and J to select number Contrast Default 5 J to enter and shift to Select 0 for minimum next digit contrast and 9 for maximum contrast lt Return gt Set HHH The user can set a 4 digit Password numeric 0 9 password HART Default 0000 only If password is set to a value other than 0000 display would prompt for valid password if user tries to change device configuration Press J to enter menu User needs to provide selection password only one time T and 4 to select from list when entering menu mode to enter Language English Select the language for the FF read French Disp
45. 6 1 COV SVVIGW Sa52c5 505 Seves bata s duteacg oectes auahecdeed Gocvacteaiuceged pactevasuaateaeabaaas seduuceees teeta aaatnceauabaceeatnutat 106 6 2 Preventive Maintenance Practices and SChedUuIeS cccccccceeeeeeeeeeeeeeeseeeeeeaeeeeeeteeeees 106 6 3 Error Messages na cae ite Aine ae ie ee iam a ete ole ee ea te Ria 106 ei IDIagGnOStCS ta centennial eaten ia 106 6 4 Troubleshooting 2 2cc cadcg davidii ie ction ila tered 109 6 5 POCO CUI OO ie feces Neste essen tel NaS chat a Fhe attic ged N a eet aa eel ae ieee ea 112 6 5 1 Output Check Procedures cccccccccesneeceeeeeeeaeeeeaaeseeeeeceaeeesaaeeeeaaeseeeeeseaeeesaesneneeseeeees 112 6 5 2 Constant Current Source Mode Procedure ccccceesceceeeeeeeeeeeeneeseeeeeseeeeseaeeseeeseenees 113 6 5 3 Changing the Terminal Block 0 c ccecsceceeeeeeeee cesses eeeeeeeeeeeesaaeeeeaaeseeeeeseaeeeseaeeseaeeseeeeess 115 6 5 4 Changing the Display Assembly cceecceceeeeeeeeeeeeeeeceeeeeceaeeeeaaeseeeeeseaeeesaeeneaeeteneeess 115 6 5 5 Changing the Communication Module cccccceeeceeseeeeeeeeceeeeeeeseeeeeseeeeseaeeteneeseeneess 115 6 5 6 How to replace the Sensor HOUSING cccceceeeceeeeeeeeeeeceeeeeceaeeeeaaeseeeeeseaeeesaeeseeeseeeeess 115 PS HP AUS LENS E E cies celuze ts cee E TA 118 7 1 OVE anaa tte eaad etna Se cieetdab Meda cetinad E TE S 118 Be GOSS ANY Baer pears ia sor pone AY Cahn SR oo Sos Cad Soon A oa ats 119 9 Appendix C
46. 6 5 1 Output Check Procedures The Output Check has the following procedures Page 112 The Loop Test procedure checks for continuity and the condition of components in the output current loop The Trim DAC Current procedure calibrates the output of the Digital to Analog converter for minimum 0 and maximum 100 values of 4 mA and 20 mA respectively This procedure is used for Transmitters operating online in analog mode to ensure proper operation with associated circuit components for example wiring power supply and control equipment Precision test equipment an ammeter or a voltmeter in parallel with precision resistor is required for the Trim DAC Current procedure The Apply Values procedure uses actual Process Variable PV input levels for calibrating the range of a Transmitter To measure a liquid level for example a sight glass can be used to determine the minimum 0 and maximum 100 level in a vessel The PV is carefully adjusted to stable minimum and maximum levels and the Lower Range Limit Value LRV and Upper Range Limit Value URV are then set by commands from the MC Toolkit The Transmitter does not measure the given PV input or update the PV output while it operates in the Output mode SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 6 5 2 Constant Current Source Mode Procedure Precision Milliammeter a Receiver Voltmeter O 250 ohm A Power Supply gt Field
47. ATEX2004X Flameproof d Certificate EN 60079 0 2012 A11 2013 EN 60079 1 2007 EN 60079 26 2006 EN 60079 31 2009 EC Type Examination Certificate No SIRA LSATEX2004X Intrinsically Safe ia Certificate EN 60079 0 2012 A11 2013 EN 60079 11 2012 EN 60079 26 2006 Type Examination Certificate No SIRA 1SATEX4005X Non Sparking n Certificate EN 60079 0 2012 A11 2013 EN 60079 15 2010 EN 60079 11 2012 ATEX Notified Body for EC Type Certificates Sira Certifcation Service Notified Body Number 0518 Rake Lane Eccleston Chester CH4 9JN England ATEX Notified Body for Quality Assurance DEKRA Certification 8 V Notified Body Number 0344 Meander 1051 6825 MJ Arnhem The Netherlands Pressure Equipment Directive PED 97 23 EC In compliance with the Sound Engineering Practice according to Article 3 3 of the Directive Page 126 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 9 3 Hazardous Locations Certifications Comm Field Ambient AGENCY Upe o raco Option Parameters Temp Ta Explosion Proof with intrinsically safe output Class l Division 1 Groups A B C D Class Zone 0 1 AEx d ia IIC T4 Ga Gb 50 C t Ex dlia IIC T4 Ga Gb All Note 1 en e Dust Ignition Proof Class l Division 1 Groups E F G T4 Class 1 Zone 21 AEx tb IIIC T95 oC DIP A21 Il III 1 EFG Ex tb IIIC T95 oC Canadian Standards Intrinsicall
48. An error detecting code commonly used in digital networks and storage devices to detect accidental changes to raw data Damping Applies digital filtering to suppress noise effects on the PV The range is from 0 0 to 60 0 seconds Digital to Analog Convertor DAC A function that converts digital data usually binary into an analog signal current voltage Device Description DD Files describing the configuration of a transmitter for use by handheld or PC applications Device Type Manager DTM A Device Type Manager is part of the Field Device Tool FDT standard and is a software component for a device that contains the device specific data functions and logic elements Dielectric constant DC The ratio of the conductivity of a material to that of a vacuum In level measurement a high DC indicates a non conductive or insulating material Equivalent Time Sampling ETS Is a method of increasing the effective sampling rate ETS constructs a repetitive signal by capturing small parts of the waveform from successive triggered acquisitions This enables the accurate capture of signals whose frequency components are much higher than the maximum sample rate Factory Mutual FM Provides third party certification and approval of commercial and industrial products including Hazardous Location Electrical Equipment Field Device Tool FDT A general purpose application tool that allows users to manage many DTMs running their individu
49. Cable Figure 6 2 Electronic Housing Components Note The example diagram refers to a HART transmitter the following process is the same for FF 6 5 3 Changing the Terminal Block Refer to Installing the Terminal Block Module Document 34 ST 33 64 6 5 4 Changing the Display Assembly Refer to Installing the Display Module Document 34 ST 33 65 6 5 5 Changing the Communication Module Refer to Installing the Communication Module Document 34 ST 33 69 6 5 6 How to replace the Sensor Housing The Sensor Housing contains the ribbon cable that allows the Electronic Housing to gather data from the probe Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 115 a Sensor Hous ing Figure 6 3 Sensor Housing WARNING The Sensor Housing is attached to the Electronic Housing using a threaded connection The Sensor Housing contains a ribbon cable it is crucial to ensure this ribbon cable is not damaged in the A process The ribbon must be manually guided when removing the Sensor Housing from the transmitter Refer to Figure Figure 6 2 Electronic Housing Componentsfor more information 1 Turn OFF transmitter power Unscrew the end cap of the Display module On the Display module remove the two setscrews Depress the two tabs on the Display module and remove it 2 Unplug the ribbon cable from the Communication module Do not discard any of the parts 3 Carefully unscrew the Sensor Hou
50. Display inig Firmware Version Firmware version of display module lt Return gt Firmware Version Firmware version of communications module Protocol HART Communications protocol of transmitter FF Universal Rev R Applicable only for Hart device HART only Revision of Hart specification Field Dev Rev R Applicable only for Hart device HART only N A Hart HCF hardware revision For DD DTM compatibility Software Rev R Applicable only for Hart device mm Info HART only Hart HCF software revision Burnout Status R HIGH Applicable only for Hart device HART only LOW Loop current behavior during critical fault HIGH 21 5 mA LOW 3 5 mA Phy Sgnl Type R N A Applicable only for Hart device HART only Displays the protocol used for serial data exchange For example Bell202 LRV R FF only N A Displays the analog output will be scaled to 4mA URV R FF only N A Displays the measuring value for which the analog output will be scaled to 20mA lt Return gt Firmware Version Firmware version of sensor module Model Key Type and range of transmitter Device ID Unique for each device considered as serial number Sensor Info Sensor Tech Displays the technology used by the N A sensing module Process Connect Displays the type of process connector LRL Lower range limit corresponding to PV selected URL Upper range limit corresponding to PV selected lt Return gt Show True Dist No No Distances in the stem plot are Yes observed distanc
51. GWR transmitter is available as a family of SLG72x models for liquid applications The pressure and temperature application ranges for each model are summarized in Table 1 1 Table 1 1 Features and Options 450 C 1 to 400 bar Range Model Standard Temperature Liquid Level Measurement 40 to 200 C 1 to 40 bar p a SLG720 Standard Temperature Liquid Level Measurement 40 to 200 C 1 to SLG722 40 bar High Probe Loads High Temperature Liquid Level Measurement 60 to 200 C 1 to 400 bar SLG724 Note This product is rated for Standard Temperature High Temperature High Pressure Liquid Level Measurement 60 to SLG726 1 For future release Each model is available with a range of probes wetted materials and accessories to suit most applications 1 3 Transmitter Components 1 3 1 Overview of components As shown in Figure 1 1 the transmitter consists of e electronics housing containing display module optional buttons module optional communications module electrical terminal block assembly e sensor housing e process connector e probe also known as a waveguide Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 1 1 3 2 Page 2 These components are described below Additional mounting and optional accessories are available such as centering discs for the waveguide For list of all options and accessories please refer to purchasing sp
52. Honeywell SLG 700 SmartLine Level Transmitter Guided Wave Radar User s Manual 34 SL 25 11 Revision 3 0 July 2015 Honeywell Process Solutions Page ii SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Copyrights Notices and Trademarks Copyright 2015 by Honeywell International Revision 3 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 TDC3000 SFC SmartLine PlantScape Experion PKS and TotalPlant are registered trademarks of Honeywell International Inc Other brand or product names are trademarks of their respective owners 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
53. Intrinsically Safe and Non WARNING SUBSTITUTION OF COMPONENTS Incendive Equipment MAY IMPAIR SUITABILITY FOR USE IN HAZARDOUS LOCATIONS Explosion Proof Flameproof WARNING DO NOT OPEN WHEN AN EXPLOSIVE ATMOSPHERE MAY BE PRESENT Non Incendive Equipment WARNING DO NOT OPEN WHEN AN EXPLOSIVE ATMOSPHERE MAYBE PRESENT All Protective Measures WARNING FOR CONNECTION IN AMBIENTS ABOVE 60 C USE WIRE RATED 105 C Page 130 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 9 6 Control Drawing COPYRIGHT 2015 HONEYWELL INTERNATIONAL INC NEITHER THIS DOCUMENT NOR prereL THE INFORMATION CONTAINED HEREIN SHALL BE REPRODUCED USED OR DISCLOSED TO OTHERS WITHOUT THE WRITTEN AUTHORIZATION OF HONEYWELL USE iss REVISION amp DATE DUPLICATION OR DISCLOSURE OF THIS DOCUMENT IS SUBJECT TO THE RESTRICTIONS SET FORTH IN A WRITTEN AGREEMENT NOTHING CONTAINED HEREIN SHALL BE CONSTRUED AS CONFERRING BY IMPLICATION ESTOPPEL OR OTHERWISE ANY 02 03 2015 LICENSE TO ANY PATENT TRADEMARK COPYRIGHT OR OTHER INTELLECTUAL ECO 0117771 PROPERTY RIGHT OF HONEYWELL OR ANY THIRD PARTY SLG Series Guided Wave Radar GWR Level Transmitter ANALOG HART FF PROFIBUS Communications intrinsically safe installation shall be in accordance with a FM USA ANSI NFPA 70 NEC Articles 504 and 505 b CSA Canada Canadian Electrical Code CEC part section 18 c ATEX Requirements of EN 60079 14 12 3 See also 5
54. Language EDDL interpreter The DTM files host container can be any Field Device Technology FDT 1 2 1 compliant frame application such as PACTware FieldCare and so forth The type of external user interface either DD or DTM is independent of the electrical interface to the transmitter HART or FF Honeywell supplies user interfaces for both HART and FF See the SLG 700 HART Option User s Manual 34 SL 25 06 Honeywell provides DD and DTM files for the SLG 700 transmitters The files may be downloaded from Honeywell s website https www honeywellprocess com en US explore products instrumentation process level sensors Pages smartline level transmitter aspx Click the Documentation tab and then navigate to Public Support Documentation For FF see SLG 700 Foundation Fieldbus Option User manual 34 SL 25 07 Page 46 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 4 1 3 Handheld device through HART DD files are provided for handheld devices such as the Honeywell MC Toolkit See SLG 700 HART Option User s Manual Document 34 SL 25 06 Honeywell provides DD and DTM files for the SLG 700 transmitters The files may be downloaded from Honeywell s website https www honeywellprocess com en US explore products instrumentation process level sensors Pages smartline level transmitter aspx Click the Documentation tab and then navigate to Public Support Documentation In preparation for post instal
55. Output selection Display Units Level Interface Select the Display Units for the 1 and 4 to select from list FF read amp Distance selected PV only ft in m cm mm Volume ft in US gal Imp gal barrels liqud barrels ya m liters Level Rate Screens 1 8 Sa UMTS in min m h Internal temp a ae Cc Custom 000000000000 Enter Custom Units using any Read only Units only alphanumeric value up to 14 available for characters long FF units read only Decimals None Select the decimal resolution Press J to enter menu FF read X X for the PV selection only X XX t and 4 to select from list X XXX to enter Disp High HAHAHA Enter the upper limit shown on Press to enter menu Limit FF the Bar Graph or Trend selection read only screen T and 4 to select number Disp Low HAHAHA Enter the lower limit shown on u to enter and shift to next Limit FF the Bar Graph or Trend screen digit read only Custom Tag 000000000000 Enter Custom Tag using any Press to enter menu FF read alphanumeric value up to 14 selection only characters long t and 4 to select Alphanumeric 4 to enter and shift to next char Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 57 Table 4 6 Basic Config sub menu lt Return gt Return to the Level 1 menu Level 2 Level 3 Description Action lt Return gt CLINT Enter Tag ID name Press J to up to 8 charact
56. SEMBLED IN MEXICO 50098724 ISS A Design Control Fort Washington PA 19034 USA Figure 1 5 Transmitter nameplate example The nameplate contains the following information MODEL NO The transmitter model number per the model selection guide SERIAL NO The unique model serial number CRN The CSA Registration number SUPPLY The DC power supply range MAWP Maximum Allowable Working Pressure PROCESS TEMPERATURE The Process temperature range CUST CAL Specifies any custom calibration if ordered otherwise blank PROBE LG Length of the probe as defined in the model number WETTED MATERIAL A list of the wetted materials CUSTOMER ID User defined identifier if ordered otherwise blank HOUSING CONNECTION TYPE Conduit fitting size 1 2 NPT or M20 ASSEMBLED IN MADE BY HONEYWELL The country where the transmitter was assembled and tested SIL INFORMATION SIL level 2 3 if ordered Page 10 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 COMMUNICATION INTERFACE A symbol indicating the supplied communications interface HART or Foundation Fieldbus HART E REGISTERED si Fieldbus 1 6 Transmitter Model Number Description The model number is comprised from a number of selections and options that can be specified when ordering the transmitter It includes a basic transmitter type such as SLG720 standard temperature standard pressure followed by a maximum of nine additional character strings that
57. Transmitter Bolts Flange Gasnet oS Tank flange gt cn cD LJ Figure 3 12 Flanged tank connection The transmitter can be mounted to a tank nozzle using the appropriate flange Table 3 11 shows recommended nozzle dimensions based on probe type Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 33 in Dead zone Nozzles v th a reducer should only be used with coaxial probes Figure 3 13 Flange mounting Table 3 11 SLG720 Recommended nozzle dimensions Single probe rod wire Coaxial probe Recommended nozzle diameter D 6 150mm gt probe diameter Minimum nozzle diameter D 2 50mm gt probe diameter 4 100mm nozzle Recommended nozzle height H diameter N A When using a flexible probe in nozzles taller than 6 150mm the SWB wire probe with extension stud is recommended Note The Dead Zone is an area on the transmitter where no measurements are performed Page 34 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 5 5 Threaded mount Once the probe has been attached to the transmitter the unit can be installed on the tank Transmitters with threaded process connectors can be screwed to tanks or nozzles with threaded bosses For tanks with BSP G threads place a gasket on top of the tank or use a sealant on the threads of the tank connection Revision 3 0 Ta
58. Value LRV This parameter allows entering the measuring value for which the analog output will be scaled to 4mA e Upper Range Value URV This parameter allows entering the measuring value for which the analog output will be scaled to 20mA e Damping PV Damping Value Allows damping the analog current output The range of the damping value is from 0 to 60 seconds Where applicable in addition to the above parameters the handheld devices based on DDs and PC based DTM FDT tab for 4 20 mA Outputs allows users to read the value of the Loop Current and Loop Current of Range When accessing the Basic Configuration group and 4 20mA Outputs tab using the handheld devices based on DDs and PC based DTM FDT outside of the Guided Setup mode the tab offers options to adjust the following parameters Echo Lost Timeout this parameter allows adjusting the time when the GWR Transmitter waits with reaction to echo los e Latching Mode this parameter allows selecting the behavior of the GWR transmitter in case of a critical error If the Latching option is selected the GWR transmitter will stay in the critical error state until a user performs a hardware or software reset If the Non latching option is selected the GWR transmitter will leave the critical error state automatically after the circumstances leading to the critical state cease to exist Summary Figure 5 12 Basic Configuration Summary Screen The Summary
59. Vapor Thick Vapor Volume Intf Level Intf Level Dist To Intf Intf Lvl Rate Upr Prod Thick Lower Prod Vol Upper Prod Vol Loop Output Percent Output Select Process Variable PV to be displayed Choices depend on product being measured Press to enter menu selection t and J to select Screen None Decimal X X HART only X XX X XXX Select the PV decimal resolution from list to enter Screen Units HART only Level Interface amp Distance ft in m cm mm Volume ft in US gal Imp gal barrels yd m liters Level Rate ft s m s in min m h Internal temp oF C Select the appropriate engineering units from list Note The following items also appear on the Advanced Display menus and are des section 5 Configur ing the Transmitter cribed in detail in Short Tag 00000000 Enter Tag ID name up to 8 characters Press J to enter HART only long menu selection 0 any Alphanumeric value and J to select number to enter and shift to next digit Length Unit m Select the Length Unit for all distance Press J to enter cm related parameters menu selection t mm and 4 to select In from list J to ft enter Volume Unit L Select the Volume unit for all Volume ft related parameters in gallon ImpGal bbl bblLiq ya m Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 51
60. Zener Barriers must be connected to a suitable ground electrode per a FM USA NFPA 70 Article 504 and 505 The resistance of the ground path must be less than 1 0 ohm b CSA Canada Canadian Electrical Code CEC part section 10 c ATEX Requirements of EN 60079 14 12 2 4 d IECEx Requirements of IEC 60079 14 12 2 4 9 intrinsically Safe DIVISION 1 Zone 0 WARNING SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR USE IN HAZARDOUS LOCATIONS 10 Division 2 Zone 2 WARNING DO NOT OPEN WHEN AN EXPLOSIVE GAS ATMOSPHERE IS PRESENT 11 NO REVISION OF THIS CONTROL DRAWING IS PERMITTED WITHOUT AUTHORIZATION FROM THE AGENCIES listed 12 For release approvals see ECO 0117771 oman vm ease oneal econo ww oats 15 CONTROL DRAWING evens SLG SERIES LEVEL TRANSMITTER mecene J DIVISIONS 1 amp 2 ZONE 0 amp 2 A 50098941 MASTER FILE TYPE e MS WORD ANGULAR DIMENSION SCALE None USED ON SH 10F4 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 131 HART DE NON HAZARDOUS LOCATION HAZARDOUS CLASSIFIED LOCATION CLASS I DIVISION 1 GROUPS A B C D E F amp G ZONE 0 IIC amp ZONE 2 IIC CLASS I DIVISION 2 GROUPS A B C D ASSOCIATED EQUIPMENT See Note 7 and Note 8 O O A WHEN SHIELD IS USED GROUND AT THIS END ONLY ASSOCIATED EQUIPMENT NOT REQUIRED FOR DIV 2 ZONE 2 INSTALLATIONS SCALE None REV A DATE 02 03 15 SH 2 of 4 Honeywell 5009894
61. al Diag and beneath it a description of the condition These screens will be inserted into the normal screen rotation and displayed between the user defined operator screens The Basic Display will display the message CRITICAL FAULT on the top line and the appropriate diagnostic text on the lower line The standard diagnostics are reported in the two basic categories listed in Table 6 1 Problems detected as critical diagnostics drive the analog output to the programmed burnout level for HART protocols only Problems detected as non critical diagnostics may affect performance without driving the analog output to the programmed burnout level Informational messages not listed in Table 6 1 report various Transmitter status or setting conditions The messages listed in Table 6 1 is specific to the Transmitter exclusive of those associated with the HART protocol HART diagnostic messages are listed and described in the SLG 700 SmartLine HART Option User Manual Document 34 SL 25 06 Page 106 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 6 1 SLG 700 Standard Diagnostics Messages Critical Diagnostics Failure Conditions Description Resolution Active Diags Read only field Displays the number of status flags in the given category which are currently in the Active or Alarm Warning state N A Sensor Module Displays a status for the sensor N A Comm Module Displays a status for
62. al error the more precise the measurement procedure Printed Wiring Assembly PWA Also known as a printed circuit assembly It is a populated electronics board Process Variable PV A dynamic feature of the process which may change rapidly and is measured The PV is the only dynamic variable sent via analog signal to the control system Quaternary Variable QV The fourth dynamic feature of the process which may change rapidly and is measured Random Access Memory RAM A type of computer data storage Data is accessed randomly where any byte of memory can be accessed without touching the preceding byte Reproducibility The closeness of agreement between independent results obtained in the normal and correct operation of the same method on identical test material in a short space of time and under the same test conditions such as the same operator same apparatus same laboratory Safe Failure Fraction SFF The fraction of the overall failure rate of a device that results in either a safe fault or a diagnosed unsafe fault Safety Instrumented Function SIF A set of equipment intended to reduce the risk due to a specific hazard a safety loop Safety Integrity Level SIL A discrete level one out of a possible four for specifying the safety integrity requirements of the safety functions to be allocated to the E E PE safety related systems where Safety Integrity Level 4 has the highest level of safety integrity and Safet
63. al transmitters Flooded Interface measurement There is no air layer in the tank there is only fluid from the flange to the interface Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 119 Foundation Fieldbus FF An all digital serial bi directional communications network in a plant or factory automation environment It is an open architecture developed and administered by the Fieldbus Foundation Guided Wave Radar GWR A method commonly used to measure levels of liquid and solid materials Low frequency microwave pulses are guided by a metal waveguide and reflected off a surface to determine levels in tanks HART Communications Protocol Highway Addressable Remote Transducer HART is a digital industrial automation protocol that is modulated over legacy 4 20 mA analog instrumentation wiring Honeywell Experion An advanced distributed control system DCS and innovative software applications to improve users business performance and ensures reliable performance Honeywell Field Device Manager FDM A centralized asset management system for remote configuration and maintenance of smart field devices based on HART PROFIBUS and Fieldbus Foundation protocols Interface Measurement Level measurements where to two liquids meet For example an oil layer on top of water Where the two meet is referred to as the interface level International Electrotechnical Commission Explosive Scheme IECEx IECEx certifi
64. ame of the equipment shall be bonded to Protective Earth at the source of supply in accordance with national and local electrical code requirements Page vi SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Symbol Definition The Factory Mutual Approval mark means the equipment has been rigorously tested and certified to be reliable APPROVED The Canadian Standards mark means the equipment has been tested S p and meets applicable standards for safety and or performance The Ex mark means the equipment complies with the requirements of the European standards that are harmonised with the 94 9 EC Directive ATEX Directive named after the French ATmosphere EXplosible Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page vii Contents CS OVE AE E A T cee cae oe 0s crac tas crosses enc cat E E dat crea owners viii LAST OM FIJUrE Siiani iiia ianiai ian E aiaa a aaia xii list of FADES sca nna a a a a aa E a eae xiv ils troduction anena a a A a a E A nes aes aes a 1 1 4 OVGIVIGW O E EEEE EET TT A T A ETE 1 1 2 Transmiter Models oo erres aeeai ANAA Re ih cee KUVAR E ERE EPERE EUNE tE 1 1 3 Transmitter ComM ONON S a a a a a a e AE A a e aa aa aiani ae iaaii 1 1 3 1 Overview of COMPONENNS c ccceecceceteeeeeeeeeeeeeceeeeeceaeeeeaaeseeeeeseaeeeeaaeseeeeeseaeeesaeeseaaeeseneeeaas 1 13 2 Electronics HOUSING erais eraa A EENES ETE OOR E AA IEA 2 13 3 Sensor HOUSING
65. and to provide a means to detect if an attempt was made to change the configuration and calibration Page 12 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 2 1 2 2 2 Radar Level Measurement Overview This chapter describes the theory of operation of the transmitter and discusses how measurements are affected by tank and process conditions Theory of Operation Guided wave radar provides level measurement based on the Time Domain Reflectometry TDR principle Electromagnetic measurement pulses are guided to the measured material by a metallic probe When the pulses reach a product surface or interface a portion of the pulse will propagate through the surface and the rest will be reflected backwards The same probe transports the reflected pulses from the measured material back to the transmitter The electromagnetic measuring signal travels at the speed of light for the medium in which it is propagating in The transmitter measures the time of travel of the reflected signal and calculates distance to the reflection point The level of the material can be calculated based on the distance from the transmitter to the material and the dimensions of the container as illustrated in Figure 2 1 Distance to surface Level gt Tank height Distance to surface Interface Figure 2 1 GWR measurement Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 13 2 2 1 Interface Measurement
66. apping table i e immediately set in the transmitter This feature is disabled when a user makes other changes on Note this screen Apply or discard any other changes before configuring Wet Linearization 5 3 4 Correlation Algorithm The method by which the distance to product surface and distance to interface is found is based on correlation between the measured echo curve and reflection models The algorithm slides the models across the echo curve and at each step calculates the difference between the model and the echo curve This difference is referred to as the Objective Function and is minimized In order for a local Objective Function minimum to be considered as a product or interface reflection it has to be below a user defined threshold In case of multiple local minima there is additional logic to select the best candidate The best candidate corresponds to the distance to the product surface or distance to interface Figure 5 18 shows the DTM display used for configuration and troubleshooting of the algorithm Distance to Honeywell Advanced Monitor Status oduct 4 20mA SmartLine Guided Wave Radar Configuration Kesi Meten OK 15 6 mA Probe Linearization Volume Correlation Algorithm Services Local Display Available Echo Curves 2015 Mar 17 13 23 46 2015 Mar 17 16 09 02 Q Surface at 1313 16cm Giobal Model Attenuation DCs Surface X More
67. atches 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 Page 94 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 na em f samen D pe Processed Fui pn L On 000 om Fone Te 5 f recto Paxton 2 at 4 Apply A f Yeron Distance 217 cm Oei Functon 1 015 Figure 5 22 Adjusting the Correlation Algorithm tance jem 9 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 that 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 you can home in on the position with the lowest Objective Function value Distance 1336cm Obj Function 9 304 Figure 5 23 Zoom View 10 Notice at previous step the brown model line 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
68. ation 4 47 m 19 7 mA Measured Products Single Liquid Vapor Dielectric Constant 1 000 Vapor Product Dielectric Constant 80 400 Select from fst Product lt Previous K Connected Q Device OK Planning Engineer Figure 5 4 Basic Configuration Process screen Vapor Dielectric Constants The dielectric constant of a medium affects radar measurements in two ways 1 Pulses travelling through a medium the pulses are slowed by an amount related to the dielectric constant 2 Reflections from interfaces the size of the reflection can be calculated from the dielectric constants of the media on each side of the interface Common dielectric constants can be found from the pull down lists If a material is not present on the list or if the dielectric constant is not correct the correct value can be input in the box 5 2 2 1 Measured Products This menu item allows selecting type of measuring application The available options are e Single Liquid The SLG 700 measures level of one liquid product in the tank e Two Liquids and Flooded Flooded Interface measurement The SLG 700 measures level of an interface boundary between two liquid products in the tank In this flooded application the Upper Product always fills the whole upper part of the tank and there is no gas above the Upper Product or the thickness of the gas phase is smaller than the upper blocking distance of the SLG 700 for informati
69. ations are disabled when the Note jumpers are set in the write protect positions Write protect includes disabling password access Page 76 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 Configuring the Transmitter 5 1 Overview The transmitters are shipped with preset parameters If the sensor was ordered with the Application and Validation Tool AVT the parameters for a particular application will be preloaded If that information is not applicable due to changes in the tank geometry or process conditions some user configuration will be required Adjustments to parameters can be made using the three buttons and display a handheld device or a PC In the start screen the Proceed to Guided Setup opens the Guided Basic Configuration configurations Configuration The transmitter is currently set to Unknown settings It is recommended that you proceed to the interactive guided setup to complete the configuration task and validate your settings Proceed to Guided Setup gt If you are an expert user and prefer to skip Guided Setup Proceed to Advanced Setup gt Proceed to Dashboard Figure 5 1 Configuration screen 5 2 Guided Setup Basic Configuration Completion of the Basic Configuration is a quick way to start operating the SLG 700 transmitter in most applications This configuration consists of only few steps The Advanced display handheld devices based on DDs and PC based DTM FDT
70. ave Radar User s Manual Revision 3 0 Revision 3 0 5 4 3 Device Information Advanced Status Product Level Model Number ModelNumP1 ModelNumP2 Installation Date Characterization Date 1972 Jan 01 12 00 00 1972 Jan 01 12 00 00 Basic Monitor 4 20MA SmartLine Guided Wave Radar Configuration Configuration A Non critical Alarms 1 03 m 20 5 mA Dashboard Device Status amp Alarms Echo Curve HART Protocol Revision Software Revision 7 1 Device Revision Hardware Revision 1 1 Comm Firmware Revision DTM Revision 1 0005jt 1 00000z Display Firmware Revision 1 0000aj Sensor Firmware Revision 1 00001v R Connected amp Device Non critical Alarms Product Level 1 031m Loop Current 20 504mA 103 149 Planning Engineer Figure 5 28 Device Info screen The Device Info screen displays the current revision numbers of the software hardware install date and so forth 5 4 4 Echo Curve ge SLG700 HART Parameter SmartLine Guided Wave Radar Non critical Alarms 1 03 m 20 5 mA Dashboard Device Status A Alarms Device int Edoo Echo Curve Type Start Distance End Distance Units Resolution Units Read Satire Wiedowod Echo Curve ii 0 002 200 00 5 cm 1 00 cm Clear Open File 1800 a Ten 3 z c c g 20 Echo CuveType Windowed Connected B Dewce Non cntical Alarms Product Level 1 031
71. c discharge An optional lightning terminal block can be installed in place of the non lightning terminal block for Transmitters that will be installed in an area that is highly susceptible to lightning strikes Wiring must comply with local codes regulations and ordinances Grounding A may be required to meet various approval body certification for example CE conformity Refer to Appendix of this document for details The right hand terminal is for loop test and not applicable for a FOUNDATION Mole Fieldbus option Consideration is required when selecting intrinsic safety barriers to ensure that they will supply at least minimum Transmitter voltage Vxmrr mm including the required 250ohms of resistance typically within the barriers needed for digital communications Transmitter loop parameters are as follows Ryoop max Maximum loop resistance barriers plus wiring that will allow proper Transmitter operation and is calculated as Rioop max Vsuppty min Vxmrrmin 21 8 mA Where VxmTr MIN 13 5V Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 43 The positive and negative loop wires are connected to the positive and negative terminals on the terminal block in the Transmitter Electronics Housing Barriers can be installed per Honeywell s instructions for Transmitters to be used in intrinsically safe applications 3 3 1 2 Wiring Variations The above procedures are used
72. cation Module in the Electronic Housing Screw in to the Electronic Housing 12 Plug the Display Module into the Communication Module 13 Screw the end cap into the Electron Housing 14 Re insert the transmitter to the mounting Angle as required 15 Turn power ON Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 117 7 Parts List 7 1 Overview Individually saleable parts for the various Transmitter models are listed in this section Some parts are illustrated for identification Table 7 1 Parts Part number Description 50096657 501 Integrally Mounted Basic Indicator Kit Programmed for Level Integrally Mounted Advanced Indicator Kit Programmed for 50096657 502 Level 50095191 502 Terminal Module w Lightning Protection Kit for HART Terminal Module w Lightning Protection Kit for Foundation 50095191 510 Fieldbus 50095191 501 Terminal Module w o Lightning Protection for HART Terminal Module w o Lightning Protection for Foundation 50095191 509 Fieldbus 50096656 501 HART Electronics Module Kit Programmed for Level HART Electronics Module Kit w connection for external 50096656 502 configuration buttons Programmed for Level Foundation Fieldbus Electronics Module Kit Programmed for 50096656 503 Level Foundation Fieldbus Electronics Module Kit w connection for 50096656 504 external configuration buttons Programmed for Level Page 118 SLG 700 SmartLin
73. cation provides assurance that the strictest safety requirements of IEC International Standards are met Designed to facilitate the international trade of electrical equipment used in explosive hazardous environments Latching Mode A parameter in the Level transmitter Advanced Display which allows for the selection of the behavior of the Level transmitter in the event of a critical error In this mode the transmitter wills stay in the critical error state until a user performs a hardware or software reset Lower Range Value LRV A Basic Display parameter which allows users to enter the measuring value for which the analog output will be scaled to 4 mA Lower Product The heavier liquid when two liquids exist in a vessel e g water in an oil water measurement application Maintenance Mode A mode that the transmitter supports to communicate to external systems that it is not available for process measurement NAMUR NE 43 NAMUR is an international association of process instrumentation user companies NE 43 is a NAMUR recommendation to promote a standardization of the 4 20mA signal level for failure information Normal 2 wire transmitters use the 3 8 to 20 5 mA signal range for measurement information with gt 21 mA or lt 3 6 mA to indicate diagnostic failures National Pipe Thread NPT A U S standard for tapered threads used on threaded pipes and fittings In addition to the above parameters the handheld devices based on DDs and
74. cular to probe V L d m Diameter of probe Lf m Level of medium L m Probe length f k Example torque calculation for 8mm rod probe Friction factor ca 0 9 turbulent flow High Reynolds number Density p 1000 kg m water Probe diameter d 0 008 m Lf L worst case These values yield the torque curves in Figure 3 2 For example if the 8mm rod probe is a total length of 4m two 2m segments then by checking Table 3 5 you find probes with 2m segments have a torque limit of 4 0Nm limit which will be exceeded if fluid velocity is 0 4m s therefore you would need to use a coaxial or rope probe instead If the same 8mm rod probe is angle mounted then the limit is half of 4 0Nm or 2 0Nm therefore fluid velocity of 0 3m s exceeds this limit Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 21 Bending Torque M on 8mm rod probe v 0 2m s v 0 3m s v 0 4m s v 3 fezi b e eT c o a Probe length L in meters Figure 3 2 Example bending torque values 3 2 2 Trim the probe length 3 2 2 1 Shortening a rod probe Where clearance to the bottom of the tank is less than 0 4 10mm the rod must be shortened Rod probes are supplied in segments Cut on the terminating rod segment the one with the unthreaded end 3 2 2 2 Shortening a rope probe Rope probes are provided with an end weight attached 1 Loosen the 3 set screws holding the end we
75. d segment 2 XEX OOo S 7 AN Rod end S gt Ka By WO Vv N N SA N NA M z Figure 3 5 Coaxial probe assembly Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 25 3 2 3 4 No probe option For those users who wish to supply their own probe the SLG 700 transmitter is available with a no probe option SLGXXX 000 When this option is selected the transmitter will be supplied with a nut and lock washer but no probe Recommended probe diameter and material of construction are shown in Table 3 7 When the no probe option is selected transmitter performance is not guaranteed Table 3 7 Recommended probe diameter and material of construction Probe Recommended Recommended probe Model Thread type probe diameter material ASTM A 276 Type 316L nee 8 dition A SLG720 M5x0 8 mm GONOIOIN Rope 4mm ANSI T316 3 2 4 Attach Centering Disks Centering disks are used to prevent the probe from contacting the wall in bypass or pipe installations Centering disks are mounted directly to the end weight on rope probes Rod probes use a bushing and cotter pin to secure the centering disk to the shaft A 3 5mm hole must be drilled into the end of the rod probe using a supplied drilling jig once the probe has been cut to length if required Secure the cotter pin by bending the leads back once installed See Table 3 8 and Table 3 9 for details YA Rope AN
76. ded to be 1 25mm Probe selection is dependent on length For lengths less than 20 8 6 3m Rod probe is recommended For lengths more than 20 8 6 3m Rope probe with weight and centering disk is recommended A centering disc is recommended for rigid probes over 1m length to prevent excessive movement caused by strong currents inside the pipe Page 36 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 6 Mounting on a non metallic container To install a single lead probe into a non metallic plastic vessel the probe must be mounted with a metal flange gt 2 DNS50 or if a threaded process connection is in use the probe must be screwed into a metal sheet diameter gt 8 200mm raam ES 3 ra Metal sheet pa cea T Metal flange NCB i Figure 3 17 Mounting on a non metallic vessel Figure 3 18 depicts an example of mounting in concrete silos the placement of the concrete versus the metal sheet used to secure the transmitter Both Figure 3 17and Figure 3 18are considered non metallic mounts Both types of mountings are subject to the same specifications as described in section 3 2 6 Figure 3 18 Mounting in concrete silos 3 2 6 1 Remote mount In applications where a remotely mounted display is required the remote mount allows the electronics housing to be mounted 3m away from the process connector This can be useful when access to the mounting location is lim
77. e 60 Revision 3 0 Day Enter the numeric value Press to enter of the current date menu selection Day will only be visible T and J to select if no Install Date has number to been written to the enter and shift to transmitter next digit Install Date dd mmm yyyy This displays a preview ATTENTION of the user configured the Install Date date can only be Install Date If no Install Date has written once HART only been written to the throughout the transmitter 1 Jan 1972 life of the is displayed transmitter You cannot delete or overwrite the Install Date when written to the transmitter Write Date Configures the date as provided by user Table 4 7 Advanced Config sub menu This table describes the Advanced Display menu s Advance Config sub menu Advanced configuration is described in detail in section 5 lt Return gt Return to the Level 1 menu Level 2 Level 3 Description Action lt Return gt Probe Type Custom Select the Probe Type Press to enter menu Rod from the Probe List selection Wire T and J to select from Coax list J to enter Probe Length HH HHH Length of the wave Guide in the tank Value entered is considered in length units Block DistHigh Configures region near the flange where measurements are not Probe possible and inaccurate Press to enter menu Value entered is Fanci lect b considered in lengt
78. e Guided Wave Radar User s Manual Revision 3 0 8 Glossary Accuracy The closeness of the agreement between the result of the measurement and the conventional true value of the quantity Accuracy should not be confused with precision The quoted accuracy depends on the initial characterization the reproducibility of the standard and the stability of the measurement between calibrations The actual accuracy also depends on the equipment performing and being operated to specification Application and Validation Tool AVT The online tool which allows users to input technical data about a specific process tank and to validate that the correct level transmitter application is delivered to the site ready to install ATEX Directive Consists of two European Union directives which describe the acceptable equipment and work environment permitted in an environment with an explosive atmosphere Blocking Distance A zone where measurements are not performed Burnout Transmitter burnout status indicates a critical sensor failure has occurred In a HART transmitter burnout status can be configured to set the analog output to lt 3 6mA downscale or gt 21 0mA upscale Canadian Standards Association CSA A not for profit standards organization which develops standards The CSA registered mark shows that a product has been independently tested and certified to meet recognized standards for safety or performance Cyclic Redundancy Check CRC
79. e Plane and Interface The positions may also be changed manually at any time to see the effect live on the graph Pressing the Use Measured Points button will re copy the found positions back into the respective edit boxes Under the DCs tab the user may enter the dielectric constants for the Vapor Upper Product and Lower Product if applicable The user can then change the DCs to see the effect on the derived gains automatically calculated There are two algorithm offsets for the distance to surface measurement The first is the Reference Plane Offset m which is determined in the factory This corresponds to the distance between the reference radar pulse reflection and the physical reference plane flange in the factory In case the geometry at the process connector is change in the field in such a way that it affects the measurement a second offset can be entered in the field This is the Calibration Offset m The only parameter that may require adjustment in the field under normal circumstances is the Gain parameter under the Model tab Page 92 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 5 3 Algorithm parameters Global Global Model Attenuation DCs Attenuation DCs Model Attenuation DCs Model Attenuation DCs Global Surface X Linear Attenuations a Vapor DC 1 0000 Width mm 150 z Vapor m 0 0540 4 p enera 0 340 Upper Produc
80. e a ine in aie Bae ety 48 Aea DATEN vocs geis eesti aad ce es Seana AE Ee Me a ete tue EAE Me eee y 48 4 2 3 Eding a Numeric Valu 2i3 22 0s esen ieee ide ieee vee eee eee 49 4 2 4 Selecting a new setting from a list Of CNOICES 0 ccccceccceceeeeeeeeeeeeeeeceeeeeseaeeesaeeeeneetsaees 49 4 3 The Basic Display M Nnu ccecccceeeeeeeeeeeeeeeeeeeeeeeeeeeeaeeeeeseaeeeeeseaeeeeesaeeeeeseeeeeeeseeeaeeeeeeaaees 50 4 4 The Advanced Display M nu cccceeecceeeeeeeeeeeeeeeeeeeeeeeeeesaeeeeetaeeeeeeeeeeeeseeeeeeseeeaeereeenaes 55 4 5 Monitoring the Basic and Advanced Displays ceeeesceeeeeeeneeeeeeeaeeeeeeaaeeeeeeaeeeeeeaeeeeeeaas 69 AST Basic DIS Play oaae tess ceneaecdcnseachsceduedetepieebe LAE R OAA RE KAAT ARTEKA ES CIAA RAN ERAKETA EARRAN iets 69 452 A vanced Displays serrare e EAEE ENTES RAA E AATE a 70 4 5 3 Button operation during monitoring s esssssssssssssrrssssrrssrirnssttrnsstinnnntinnantennnntnnnnnnnn nanntu naat 72 4 6 Changing the Default Failsafe Direction and Write Protect Jumpers Including Simulation mode 73 4 6 1 Procedure to Establish Failsafe Operation ccccccseeeeeeeeeeeeeeeeeeeeeeseeeeeseaeeesaeeeeeeeenaees 73 5 Configuring the Transmitter setesstscczaicttietat atisitasttieteleiieleettutate etal st elatc tee oats 77 5 1 WONG W a tiie Gin nin ein in eee eet 77 5 2 Guided Setup Basic Configuration cccccceceeeeeeseeeeeeeseeeeeceaeeeeaaeeeeeeeceeeeesaeeeeaae
81. e cesceseceeeceseeeeeeeeeeeeneeeaeeeseeenaeenaees 2 Figure 1 2 Example of HART cComnection cece cescesecsseceseeeseeeeeeeeaeeeseecseecsaecaecsaeceaeeaeen 7 Figure 1 3 Example of FF connection 00 ee eeceeseeseeescecssecsecssecaecesecsseceseeeseeseneeeaeeeneeeaaeenaes 8 Figure 1 4 Example of a FF network network eee esecsseceseceeceseceseceseeeeeeeeeeeeneeeneeeaaeenaes 9 Figure 1 5 Transmitter nameplate example 00 eee eeeeseeseeeseecnseceseceseceseceseeeeeeseeeneeeseeeees 10 Figure 1 6 Standard SLG 700 Nameplate eee eeseeseeeseeeseecneecaecesecsseessecseesseesseeeseeeees 11 Figure 1 7 Safety certification example eeeeceeseeeseeeseeeseecsaecssecsseceseesseesseesseeeseeseeeeees 11 Fig re 2 1 GWR Measurement nenssas en hore ne ei REE E A E EERENS 13 Figure 2 2 Sample Waveform ie c sc0hlec etic aicciei sce ei idee Laie seeds etic 14 Figure 2 3 Interface measurement eee eecceeceeeeeeeeeeeseeeseecseecsaecsaecsaecsaeesseesseeeeeeseeeeeneeees 15 Figure 2 4 Top vertical and angled MOUNTING eee eseeseeeneeensecesecaeceseceseceseesseeeseeeeeeeees 16 Figure 3 1 SLG720 probe dimensions mm iN eee eeeeseencecesecsseceseceseceseeeseeeseeeseeeees 19 Figure 3 2 Example bending torque Values 00 eee eeeeseeeseeeseeceecaecseceaecsseeeseeeseeeseeeneeees 22 Figure 3 3 Rod probe assembly dersane oe aee E a E E Eneee 23 Figure 3 4 Rope probe assembly 0 cee ceeceeeeeseeseeeeseeeeseeeseecseecaaecsaecsa
82. e of any materials When planning the installation of the transmitter be aware that metal walls of the container reflect the measuring signal and in some circumstances may help amplify the useful signal Polymer walls of the container are transparent to the measuring signal If the transmitter is installed close to a polymer wall the measuring signal may reflect from metallic elements that are outside of the container In this case an additional false echo cancelation may be required To mount a transmitter with threaded or small flange connection in a non metallic container an additional signal reflector is required Page 16 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 Transmitter Installation 3 1 Preparation 3 1 1 Installation sequence Table 3 1 lists the overall installation steps Details are provided in the indicated sections Table 3 1 Installation sequence Step Action See Section 1 Perform mechanical installation of transmitter and 32 probe j 2 Connect transmitter wiring and power 3 3 Check the transmitter s configuration and tune if 3 necessary Most transmitters will come with 5 parameters pre loaded so that the transmitter will give accurate level measurements out of the box Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 17 3 1 2 Tools Required tools depend on options ordered For this item Use this tool M3 set screw f
83. ecaecsseesseeeseeeseeeseeeees 24 Figure 3 5 Coaxial probe assembly 00 ceeeeceeceeeceeeeeeseeeseecseecsaeceaecaecaecsseesseeeseeeeeeeseeeees 25 Figure 3 6 Centering disks for rope and rod probes 00 0 0 eee eeeeessecsseceseceseceseeeseeeseeeseeesneeses 26 Figure 3 7 Flanged SLG720 Transmitter mm cece eeeeeseeeseeceseceseceseceseceeeeseeeseeeseeeees 28 Figure 3 8 Threaded NPT SLG720 Transmitter mm cecccessceeseeceeeceeeteceeneeeeeneeees 29 Figure 3 9 Threaded BSP G SL 720 Transmitter mm ccescceeeeeceeeeeeeeeeeeeeeeeeeeees 30 Figure 3 10 Mounting position ceeceecesceseeseeeesseeeseeeseecseecaaecsaecsaecaecsseesseeseesseeeseeeees 31 Figure 3 11 SLG 720 temperature limits 0 0 0 ee eee eeeeseeereeeseeceeceaecaecssecsseesseeeseeeseeesneeees 32 Figure 3 12 Flanged tank connection 2 0 0 lee ceeceseceseeeseeeeeeeeaeeeseecsaecssecaecaecsaeeseeeseeeneeenes 33 Figure 3 13 Flange Mounting sessioni iieiea ie i aa 34 Figure 3 14 Threaded tank connection ssssseeeesssreesesreesesresserrrssesstssresrrsresesressesrisseestesrese 35 Figure 3 15 Tank roof mounting using threaded connection seessereeseereesreereerrerereerere 35 Figure 3 16 Bypass installation seisi eitri eeni aaae E E E E rS 36 Figure 3 17 Mounting on a non metallic Vessel cee eeeeseesecnsecesecsseceseceseesseeeseeeseeeseeeees 37 Figure 3 18 Mounting in concrete silos eeeeceeseeeseeeseeeeecseecaaecaecaecsaec
84. ecifications Process Connector lt Probe Waveguide Figure 1 1 Components of the Level transmitter Electronics Housing The Electronics Housing contains these components All components are replaceable in the field Terminal Assembly Provides connection points for the measurement signal and power as well as for optional digital inputs and outputs in future releases Different terminal modules are required for HART and FOUNDATION Fieldbus versions of the transmitters The terminal is polarity insensitive Lightning protection is optional Communications module The platform provides separate electronics modules for HART and Foundation Fieldbus versions of the transmitters The communication board for a certain communication protocol always requires terminal assembly for the same type of communication Descriptions of the communications protocols are in the Glossary Optional Display Table 1 2 lists features of the two available display modules Optional Buttons Refer to Figure 4 1 Three Button Option for more information SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 1 2 Available SmartLine GWR display characteristics Basic Display e Suitable for basic process needs e 360 rotation in 90 increments e Two lines 16 characters e Eight Screens with 3 30 sec rotation timing and the use of 3 buttons for configuration e Standard units of measurement e Diagnostic messaging
85. ection summarizes advantages and disadvantages of different waveguide constructions Installation details of each probe are in Chapter 3 Transmitter Installation Table 1 3 Waveguide selection Waveguide Advantages Disadvantages construction saa e Recommended for most applications Wire may be displaced by moving e Easy transport and installation due to ae eee which flexibility of the wire 9 9 can decrease accuracy or cause false e Long measurement range wire up to echoes when getting close or touching 50m 164 obstacles or container wall Rope e Cost effective probes need to be tensioned in some gf way to keep the rope as straight as e Best for viscous or fibrous liquids possible This can be done with an end weight or an eyebolt or loop which is attached to the bottom of the tank In some installations such as in stillwells or narrow tanks it will be required to keep the rope away from the tank walls in that case a centering disk can be used Single rod Similar applications to single wire but May be difficult to transport and install shorter length Special advantage for at longer lengths Probe segment e Bubbling or boiling surfaces length is 2m 6 maximum with total length restriction 6 3m 20 e Turbulence waves and currents in liquids e Can be angle mounted Coaxial Special advantage for May be difficult to transport and install e Mechanical avoidance foam at longer lengths bubbling su
86. ection will put the DAC into Fixed Press Enter to initiate Note Loop Output Mode t and J to select number must be to enter and shift to next removed digit from Set DAC Normal This selection allows the loop to be returned to its Press to enter menu Automatic Normal mode Automatic Control after performing selection Scroll to Set Control the Trim operation DAC Normal Press 4 to initiate lt Return gt Poll Address 0 default to 63 Press to enter menu selection tT and J to select number to enter and shift to next digit Final Assy Num Asset tracking number Press J to enter menu HART selection tT and J to select Params number HART to enter and shift to next only digit Show Date Yes If Yes selected HART Date No Options will be visible and can be configurable Press to enter menu Year HHHH Enter the current year A T and 4 to select Month January December Select the current month OMSL ae eel Day Enter the day of the month Write Date Press Enter to write the HART Date to the transmitter Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 63 Table 4 8 Monitor sub menu This table describes the Advanced Display menu s Monitor sub menu All items are Read Only Refer to troubleshooting for resolutions lt Return gt Return to the Level 1 menu Level 2 Level 3 Status Description lt Return gt Active D
87. ee a i eee ea 14 2 2 2 Advanced Signal processing eseas a e E a SE A a EO S aS 15 22 3 Signal Interferences cianvee aaa ia Ga dei ana een ia 15 2 3 Process Application ies suze fusion eter rie eet a eat ee et en ete eee en 16 2361 UPOUIONCE tac cet anda ata eae eda ia een aide nda eee 16 2 4 Container Considerations cccccccecceceeeeeeeeeeeeeeeceeeecaaeeeeaeeseneeecaeeeeaaeseeeeeseeessaeeseeeseeneess 16 2 41 Shape Sieniniai ent al ee ees een eee 16 Page viii SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 Transmitter Installation 0 ccccecccccceeccecceeceeececceeeceececeaeeceecaeeceeceeeaeeeeeeneeaeeeaees 17 3 1 gd ke of Ue L118 Beer r A Er E ee rercererrrererr iret er areecerrr ree erat echarte 17 3 1 1 Installation SCQUONCE en Ee A ERT EEA TEER AE 17 ENE S o A EN A ATES AA E E A A aes ANS ty OU 18 3 2 Mechanicalimstallation nnn a aT Aa REA 18 3 2 1 Check for correct probe dimensions and strength s sesssssessessessesrissrissriesrresrreerne 18 3 2 2 Trim the probe Bng ee A A A AA 22 3 2 3 Attach assemble the probe eee ceceeeeeceeeeeseeceeeeeeeeeeeeeaeeeeeeeaeeeeeeaaeeeseeeaneeeeeseneeeeesenaees 23 3 2 4 Attach Centering Disks cceccececseeeeeeeeeeeeeeeeeeceaeeeeaae sence caeeeeaaesseaeeseaeeeseaeeseaaesseneessaees 26 32 5 Mount me tramsmithe tise ccssseccascaess pcsceceepices a A a 28 3 2 6 Mounting on a non metallic container ssssseessssesssrresssrness
88. eeeceneeeeeeee 91 Figure 5 19 Radar Impulse Reflection Model cesceeccesceseeeseeeeeeeeseeeseeeaeecaaecaesnaeenseen 93 Figure 5 20 DTM screen showing Advanced Configuration tab and sub menus 94 Figure 5 21 Example echo curve showing Flange and surface reflections ceeeeeeeeees 94 Figure 5 22 Adjusting the Correlation Algorithm cece eeeeeseeeneeeneeeeeceecnaeceaesnaeenaeens 95 Pipure 52232 ZOOM Vie Wis ois oe eet sees sete tabs a eA i a A a aa 95 Figure 5 24 Echo Reading Troubleshooting 0 0 ceecescesceeeeeeeeeeceeeaeeeaeecaeecaaecsaecnaeenaeens 96 Figure 5 25 Echo Curve Example displaying Width and Attenuation ese eeeeceeeee 96 Figure 5 26 HART DTM Dashboard 0 eee eeceseceseceseceseceseeeseeeseeeeaeeeseecaeeeaaecaaecsaesaeeaeen 99 Figure 5 27 Device Status amp Alarms Screen ee eeeeceseceseceseceseceeceseeeseesseeseneeeaeeeaeeenaeenaes 100 Figure 5 28 Device Into serech eoaid dre aaen eta asst tagoiseneReascees 101 Figure 5 29 Echo Curve screen Windowed Echo Curve cc cccsscceesseceeeeeeeeeeeenaeceeaeeeees 101 Figure 5 30 Windowed Echo Curve ssssseseeseeessesresresresresresserrisstestesrenrestesesresseerensreer 103 Figure 5 31 Full Echo Curve citra ionene eiee dre eee tsivdeacty Heat anes ierd atoae 103 Figure 5 32 Processed Full Echo Curve sssssssesssssssesseessressesssrrsseesstesseesseesseesseesseesseessee 104 Figure 5 33 Flange Mounting 0 ee eee ee
89. eeseeeseeeseecnsecsecsseceseceaeesseeeeesseesseeseneeeaeeeaeeeaaeenaes 105 Figure 6 1 Current Loop Test Connections cs cesceseceseceseceseceseceseeeseeeeneeseeeeaeeeseeenaeenaes 113 Figure 6 2 Electronic Housing Components csc ssseseceseceseceseceseceseceseeeeeeeeeeeeseeeseeenaeenaes 115 Figure 6 3 Sensor Housing onesna pe a a E e EE E E n i 116 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page xiii List of Tables Table I 1 Features and Options 0 2s 4 c0c cesses eies ee irea E eai aa a aa riai 1 Table 1 2 Available SmartLine GWR display characteristics esseeeeeseeeeeseeeeeseeereereeresreee 3 Table 1 3 Waveguide Selection meince nno ariii erei i i E Ei ai 5 Table 3 1 Installation segen es nenna aa E i R R Ea 17 Table 3 2 Mechanical installation sequence s eeeeseeeeseseeeseeseseesesresresresresressesrrsseeeresrest 18 Table 3 3 Tensile load limits for flexible probe eseeseeeeseeeseessseseessesresrrsresresrrssrsrreseerresrese 20 Table 3 4 Probe mounting angle limits seeeseeeeeseereeseeressesressessissessrssresresressesresstsrrnseeresrese 20 Table 3 5 Rod probe bending torque limits all lengths ee eeeeeseceseceseceeeeeeeeeseeeeeeees 20 Table 3 6 Coaxial probe bending load limits all lengths eee ceeeceneceseeeeeeeeeeeeneeees 21 Table 3 7 Recommended probe diameter and material of construction cee eeeeeeeeeeeeeeee 26 Table 3 8 Centering disk pipe sched
90. em Table 5 2 lists available device variables for each application selected through the measured product parameter The measured product parameter measures the number of products in a tank container SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 5 2 Device variables according to measured product type Single Liquid Two Liq Flooded Two Liquid Non Flooded E Osten Maporvoune The highlighted Volume measuring values are available only after activating the Volume calculation the method for Volume calculation has been selected and relevant tank data entered by the user This can be done through the Advanced Configuration menu These are HART specific variables see the SLG 700 SmartLine HART Option User Manual Document 34 SL 25 06 for more information 5 2 5 4 20 mA Outputs Basic Status roduct Level 4 20mA Configuration OK 0 53 m 8 3mA tLine Guided Wave Rada General Process Measurement Dynamic Variables 4 20mA Outputs Upper Range Value 20 mA PV Loop Current Product Level Loop Current Lower Range Value 4 mA 8 25 mA PV of Range PV Damping Value 26 58 NAMUR Setting Disabled lt Previous K Connected Device E OK Planning Engineer Figure 5 11 Basic Configuration 4 20mA Outputs screen Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 85 Note 4 20 mA outputs are not applicable to FF a Lower Range
91. em 4 2 1 Menu Navigation 4 2 2 Page 48 The behavior of the buttons is the same for both the Basic and Advanced Displays Press button to call up the Main Menu To exit the Main Menu and return to the PV display screen select lt EXIT gt When on a lower level menu return to the menu above by selecting lt Return gt Alternately the up and down buttons can be pressed simultaneously to return to the menu above When on the highest level menu or when using the basic display menu pressing the up and down buttons simultaneously will exit the menu and return to the PV display Use the f and buttons to scroll through the list of menu items Use the button to select an item for data entry or activation When an item is selected for data entry or activation the cursor will jump to the lower line Basic Display or call up a pop up window Advanced Display to allow editing No action is taken against a menu item until the button is pressed If you press button to begin data entry you must press another button within 10 seconds or the data entry will time out and the original value of the parameter will be preserved If no button presses occur within 60 seconds menu access will time out and the transmitter will exit the menu and return to the PV display Data Entry Data entry is performed from left to right Select a character digit by pressing f or buttons and then press to advance to the next character
92. ensor Oscilator R OK FAULT Sensor Oscillator Control FAULT Status is Bad Factory Mode R Yes Yes Sensor is in Factory Mode No No Sensor in User Mode Page 64 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 lt Return gt Active Diags R Shows the number of Non Critical Diagnostics that are currently active Supply Voltage R OK LOW Supply voltage is below the low LOW specification limit HIGH HIGH Supply voltage is above the high specification limit Elec Module Temp R OK OVERTEMP Electronics temperature is OVER TEMP greater than 85C DAC Temp Comp R OK The DAC has not been compensated HART only for temperature effects This is a factory NO operation COMPENSATION Sensor Comm R SUSPECT The interface between the OK Temperature Sensor Module and the SUSPECT Electronics Module is experiencing intermittent communication failures Display Setup R OK NVM Corrupt The Display memory is HART only NVM Corrupt PO Characterize R Yes Yes Sensor is Characterized No No Sensor is not Characterized Charact Status R OK OK Characterization table CRC is OK FAULT FAULT Sensor Characterization data is corrupted When this fault occurred Sensor Module fault of Critical Diagnostic will Non Critical be set PV Range R OK Out Of Range PV is not within the Out Of Range range limits Sensor Over Temp R OK OVERTEMP Sensor temperature
93. entially all three formats provide the same information but with the following differences e Bar Graph User Configurable 126 segment Bar Graph with range settings The Bar Graph displays the current value of the configured PV e PV Trend User configurable display period from 1 to 999 hours The chart displays minimum maximum and average of the configured PV over the selected trend period Process Bar Graph Trend Product Level Product Level Product Level Good 115 60 cm 112 63 4 400 Figure 4 3 Advanced Display Formats with the Process Variable Page 70 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 4 9 Advanced Displays with PV Format Display Indications Display Indicator Description Diagnostic D Diagnostic condition present This indicator is displayed any time a diagnostic is present in the transmitter either Critical or Non Critical 3 Product Level To determine which Non Critical diagnostics are active use the local buttons to call up the Non Critical diagnostics menu Refer to Table 4 8 Monitor sub menu for details If a Critical Diagnostic is present the message Critical Diag will flash in the top of the screen and the appropriate Diagnostic screen will be inserted into the normal screen rotation D Critical Diag Sensor Comm Fault Maintenance MI Maintenance Mode is active This indicator is set by the Experion DCS When this Mode is active
94. ernal Electronic Critical Be ny ig nm Temperature None Surface Surface Gae 2 05 9094 0 Non Critical 2 Non critical Alarms gt 25 1 F 40 0 F Figure 5 26 HART DTM Dashboard The dashboard displays the current state of the system including the state of the transmitter and the associated readings Revision 3 0 and number of active alarms SLG 700 SmartLine Guided Wave Radar User s Manual Page 99 5 4 2 Device Status amp Alarms Advanced Montor Status Product Leve 4 20MA Configuration sanais Non critical Alarms 1 03 m 20 5 mA Dashboard Device Status amp Alarms Device Info Echo Curve Honeywell SmartLine Guided Wave Radar Basic Configuration I critical status Alarms Active Alarms Description Cause Resolution Steps to take a Non Critical Status Alarms Active Alarms Description Cause Resolution Steps to take Sensor Non Critical Failure Primary Variable Out of Range onnecte evice lon critical Alarms Product Level m Loop Current 20 4 1 lanning Engineer Ec d Bod AN l Prodi 1 1 030m Loop C 20 459mA 102 870 PI Figure 5 27 Device Status amp Alarms screen The Device Status amp Alarms screen displays all active critical and non critical alarms The blanker the screen the better the health of the system For any active alarm follow the instructions in the Resolution column to clear the alarm Page 100 SLG 700 SmartLine Guided W
95. ers enter menu Short Tag long ion t HART only Cl any and to select Alphanumeric value number to enter and shift to next digit m Select the length unit cm for all level related Length Unit mm parameters in ft C Select the f F Temperature unit for General Temp Unit all TAES related parameters ft s Select the Velocity Press J to m s unit for all Velocity enter menu Velocity Unit in min related parameters selection t m h and 4 to select ft min from list to in s enter L Select the Volume it unit for all Volume in related parameters gallon Volume Unit ImpGal Bbl bblLiq ya m lt Return gt Single Liquid Select the Measured Measured Prod 2 Liq Flooded Product from the List 2 Liq NonFlood Applicable for All measured products except 2 Liq Flooded Vapor DC If its value greater Press to than UP LP DC enter menu Process Warning message will selection t be displayed and J to select HHH HHH Applicable only for from list to Solid and Single enter Liquid measured Product DC products If its value is less than Vapor DC Warning message will be displayed Page 58 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Upper Prod DC Applicable only for Two Liquid measured products If its value is less than Vapor DC or greater than LP DC a warning message will Press to enter menu selection T
96. ertifications ensins a a leslie ac sential AA E EAAS 123 9 1 Safety Instrumented Systems SIS Installations 0 ccccceeeeeeeeeeeeeeeeeeeeeeeeeeeseaeeeeeeesees 123 9 2 European Directive Information CE Mark ccccccsceeeeeseceeeeeeeeeeseeeseeeeeseeeeesaeeneeeeeneees 123 9 3 Hazardous Locations Certifications ccccccececcceeeeeceeneeeeeeeeeeaeeeeeaeeeeneeseeeesaeeesaeeeeeeenaees 127 9 4 Marking ATEX Directive carrara nde nde aidan E AAEREN ARINKI AAR IA 129 SE NE E i ETEENI EEA EEE E EILE A O EA T EE AA E EETA 129 9 4 2 Apparatus Marked with Multiple Types of Protection seseessssessssrsseerrssesrrssrrrrnsrernsns 129 Page x SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 9 5 Conditions of Use for Ex Equipment Hazardous Location Equipment or Schedule of LMIANONE n aici ccs eens cote ate cove eniee AA A evel A cud E teh Denese ee nett teats 130 9 5 1 Maximum Power Supply Source Voltage UM 0 cccccscceeeeeeceeeeeeeeeseeeeeseeeeeeaeeseneeeeaees 130 9 5 2 Warnings and taulons ss aea e E A E E R e ie 130 9 6 C ntrol Drawing eniai a aaraa a a aaa ets ad a a aN 131 LO e SECCU teianei cues tox i cues ened AA E ENE EA AA 135 10 1 Howto report a security vulnerability cece e cece cece eee ee teens eset teases eeeaaeeeeetaeeeeeeaeeeene 135 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page xi List of Figures Figure 1 1 Components of the Level transmitter cec
97. es Default No Yes Distances in the stem plot are True distances Duration 0 to 3600 sec Duration of echo stem plot Echo Stem Plot Show Stem Plot Displays the echo stem plot for the selected Duration Use this display to check that the radar pulse is measuring accurately The user can observe either the Observed distance or the True distance based on Show True Dist parameter data Example Echo stem plot for 2 liquid interface Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 67 Echo Stem Plot Show Stem Plot L 25 0001 45 000 X axis The Reference plane is at 0 Distance is in Length Unit The above image the distance is measured in meters Resolution 1 pixel 1 meter as in the above image Y axis Echo amplitude is in terms of counts The Range is 40 000 tO 40 000 which is represented as 4C to 4C Where C Counts Resolution 1 pixel 2000 counts L Distance to product Distance to interface Resolution 1 pixel 2000 counts Display Error Handling In the distance field indicates the respective distance product or interface status is Bad 22222 In the distance field indicates the respective distance product or interface status is Unknown In the above example the distances measured by the echo are Top liquid 25m Interface bottom liquid 45m The display updates periodically R Read Only parame
98. eseeeeeeeeneeeneeeaeeeaaecsaees 79 Figure 5 5 Example of a flooded application cee eesceseceseceseceseceseceseeeeeeeeeeeeneeeaeeeaaecsaees 80 Figure 5 6 Two liquids non flooded application eee eee cesecsseceseceseceseceeeeeeeeeeneeeseeeneeenaes 80 Figure 5 7 Basic Configuration Measurement screen ee eeeeeeeeseeeseeeeeeeecnseceseseaeenseees 81 Figure 5 8 Parameters from Basic Configuration Measurement sereen eeeeeseeeseeeeeee 82 Figure 5 9 Reference plane R for flanged and threaded connections cseesseeeseceneeeeeees 82 Figure 5 10 Basic Configuration Dymanic Variables screen es eeseeesceeseeenseceeeeeseeeseens 83 Figure 5 11 Basic Configuration 4 20mA Outputs screen occ eeeeeseeseeeneeeneecneeenaeeneeens 85 Figure 5 12 Basic Configuration Summary Screen cee eeeeseeseseeereeeneeeeecnsecsseenaeenaeens 86 Figure 5 13 Advanced Configuration Probe ceecesceseeseeeeeeeeeeeseesseeesaecnaecsaesnaeenaeen 87 Figure 5 14 Advanced Configuration Linearization 0 0 0 eeeeeeeeseeeseeeneeeeecneecnsecnaeenaeens 88 Figure 5 15 Advanced Configuration Volume Calculation None cseseesseceseeeneeeeeees 89 Figure 5 16 Advanced Configuration Volume Calculation Ideal Tank Shape 90 Figure 5 17 Advanced Configuration Volume Calculation Strapping Table 0 0 00 90 Figure 5 18 Advanced configuration Correlation algorithm Screen se eeeeesee
99. eseeseeeseeeseeeseeeees 37 Fisure 3 19 Remote mount ici ssh es netic dese eats Teter a ee ES 38 Figure 3 20 Rotate transmitter housing 0 0 0 0 eeeeeeeseeeseeeeeceecsaecaecaecsseessecsseeeseeeseeeseeeees 39 Figure 3 21 Anchoring rope probes Aserite aeee onetaeo ne ae AEEA E E Eent 39 Fig re 3 22 Rope prob slacK ssri oie i ea E aa E E E ding ein 40 Figure 3 23 Anchoring coaxial probes eessseeessseereesesressesrrsserrisseestssrestesresrestessesrisseereesreet 40 Figure 3 24 Transmitter operating ranges eeeseereesesrtesesresersesetsesteetesresrestessesrtsseersseeet 42 Figure 3 25 HART 3 Screw Terminal Board and Grounding Screw s es 43 Figure 4 1 Three Button Optl Nisss ieten ieii a a e aia 47 Page xii SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Figure 4 2 Basic Display with Process Variable Format eesceesseeseesseeeseeceseceseceseenseeees 69 Figure 4 3 Advanced Display Formats with the Process Variable 70 Figure 4 4 Locating the Failsafe and Write Protect Jumpers 0 cee eeeeeseesseeeeeereeeeeeesees 75 Figure 5 1 gt Contipuration Sereen dette Sikes idles ch Sateen tte ete 77 Figure 5 3 Basic Configuration Default Units 0 0 ieee ceseceeeceseceseeeeeeeeneeeaeeeneeenaeenaees 78 Figure 5 2 Basic Configuration General SCre D eee eeeeeseceseceeeceseceseeeeeeeeneeeseeeseecnaeenaees 78 Figure 5 4 Basic Configuration Process SCLeON sscesecesecesecesecesec
100. gt 4 00 gt cm X Open File Set Flange Position as Zero Position pent P v LE T T T amp 2014 Nov 26 16 30 00 om Reference st 143 11cm 2014 Nov 26 16 31 15 Amplitude l i i Reference at 140 760m 600 700 800 900 Distance cm onnected Device Non critical Alarms Product Level 4 659 m Of Range 46 651 Loop Current 11 464 mA Planning Engineer monitor ax Figure 5 21 Example echo curve showing Flange and surface reflections 5 3 5 How to configure the algorithm 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 factory 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 Capture an echo curve Go to the Correlation Algorithm page and load the captured echo curve Select model wave shape Reference Surface Interface ye The selected model appears on graph in brown line to distinguish it from the blue echo curve 7 Click and drag cursor to move model over relevant part of the curve In this example the Surface model is being configured therefore drag it to the part of the curve where you expect the Surface reflection would be to the right of the Reference 8 The closer the model shape m
101. h units ald alo Sele Sum er Block Dist HHHH Configures region near the ee pire and shitt ts Low Probe end where 9 measurements are not possible and inaccurate Value entered is considered in length units Mounting HH HHH 0 to 90 degrees Angle Volume lt Return gt Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 61 Volume Calc None Select the Volume Calc Type Tank Shape Type from the List Strapping Table Tank Shape Sphere Will be visible only if Volume Cube Calc Type chosen by the Horz Bullet user is Tank Shape Vert Cylinder Horz Cylinder Rectangle Vert Bullet Press to enter menu selection T and 4 to select from list J to enter Tank Diameter HHH HHH Will be converted and will be visible only if Tank Shape is not Cube and Rectangle Value entered is considered in length units Tank Length HHH HAH Will be visible only if Tank Shape is Cube Rectangle Horizontal Bullet and Horizontal Cylinder Value entered is considered in length units Tank Width HHH HHH Will be converted and will be visible only if Tank Shape is Rectangle Tank Height HHH HHH Will be converted and visible only if the Tank Shape is Vertical Bullet Value entered is considered in length units Press to enter menu selection tT and 4 to select number to enter and shift to next digit lt Return gt DAC Trim HART only Trim Zero This selection will
102. he labeling of the transmitter 9 4 2 Name and Address of the manufacturer Notified Body identification SIRA For complete model number see the Model Selection Guide for the particular model of pressure transmitter The serial number of the transmitter is located on the Meter Body data plate The first two digits of the serial number identify the year 02 and the second two digits identify the week of the year 23 for example 0223xxxxxxxx indicates that the product was manufactured in 2002 in the 23 rd week Apparatus Marked with Multiple Types of Protection The user must determine the type of protection required for installation of the equipment The user shall then check the box O adjacent to the type of protection used on the equipment certification nameplate Once a type of protection has been checked on the nameplate the equipment will not be reinstalled using any of the other certification types Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 129 9 5 Conditions of Use for Ex Equipment Hazardous Location Equipment or Schedule of Limitations Consult the manufacturer for dimensional information on the flameproof joints for repair Painted surface of the SLG transmitter may store electrostatic charge and become a source of ignition in applications with relative humidity less than 30 where the painted surface is relatively free of surface contamination such as dirt dust or oil Cleaning
103. he signal Upper Product Signal Strength Displays the status of the strength of the signal monitoring the upper product Upper Product Signal Quality Displays the status of the quality of the signal monitoring the upper product Lower Product Signal Strength Displays the status of the strength of the signal monitoring the lower product Lower Product Signal Quality Displays the status of the quality of the signal monitoring the upper product Read the echo curve and configure the algorithm and the dielectric constant Blk Dist Hi Zone Bulk Distance High Zone The distance within the upper blocking range Blk Dist Lo Zone Bulk Distance Low Zone The distance within the lower blocking range Theses parameters display physical locations within the container where measurements are not accurate Page 108 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 6 4 Troubleshooting All troubleshooting should be performed by trained and qualified personnel Troubleshooting of hardware failures should be performed by replacement of corresponding modules Measurement troubleshooting should be performed based on reference measurements and internal diagnostics The following components may be replaced for troubleshooting in the field e Probe and or end weight e Centering disk e Process connector e Locking elements for probe mounting for example nuts lock was
104. hers and set screws e Display module e Terminal module e Communication module ESD HAZARD Danger of an electro static discharge to which equipment AN may be sensitive Observe precautions for handling electrostatic sensitive devices ESD Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 109 Z 40 L33HS ASSY d O ON NOILVNINYSL 9741 qald 40 JAISNI JHL OL 030A0 d 133HS UA 3AYYIdN HIdOYd 3H1 3JX3JHAY ANY 19313S dY o AN3 NOILWNINYSL TWAOWAY ASSV Y90189 TWNIWHAL YOd AVL AIa Wassy 49018 IWNINYAL NMOHS ATGN3SSV 49018 TyNINYSL LYYH NMOHS SY 138V 1090108d alviddOddd 3H1 3Y3JHAY AUNW1D YO4 G3LLINO AGOS YILIN XTENSSSV ONISNOH NMOHS NOILVYSO1 SLVWIXOddY NI 7aavl GaIsIGOW 3930 3Y3aH Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 110 Z 40 Z JHS JINGOW 49018 WNINNAL 4O MIIA YYY a MJA 9 NIIA NI Zu 33VA4NS_SY OILYIIONI asson Z NO IV3S O NISNOH NI YOLD3NNOO SLOVLNOD SNIGNNOYD TYM YILNI OLNI SOMd S3JVAYNS Z 3S3HL ONISNOH NO S508 HIM NISNOH NI YOLIINNOI NOON ACTO TAL NO DA TIVM X31N39_ OINI SOMd OLOANNOD A901 TVNIN IL YOLOSNNOD 49018 TWNINYSL S3SSO ONILNNOW Z dAl aa JOWAYNS INISNOH 8 MaA 33S S33YAYNS_ NILYIS LFINGOW 49018 TWNINYIL Page 111 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 6 5 Procedures
105. iags R Sensor Module R OK FAULT There is a problem with the FAULT Sensor Comm Module R OK FAULT There is a problem with the FAULT Communications Module HARTor FF There are one of the following failures RAM Failure Restart the device If error continues replace the HART communication board ROM Failure Reflash reload the HART firmware If error continues replace the HART communication board Vcc Failure If the power accumulator PA fault is not detected change the HART communication board Sensor Comm R OK FAULT There is a problem with the FAULT interface between the Sensor and the Electronics Module Detail Diag Yes Yes All menu items to Factory Mode No are available No The menu options end with Detail a Diag Critical Sensor Int RAM R OK FAULT Sensor Internal RAM is Bad FAULT Sensor Ext RAM R OK FAULT Sensor Internal RAM is Bad FAULT Sensor Flash CRC R OK FAULT Sensor Flash CRC is Bad FAULT Sensor Pwr Vosc R OK FAULT The Vosc measurements are FAULT out of range resetting the device if the problem persists replace the Sensor Housing Sensor Pwr 2 5V R OK FAULT Sensor Power Supply 2 5v is FAULT Bad Sensor Pwr 3 3V R OK FAULT Sensor Power Supply 3 3v is FAULT Bad Probe Missing R Yes Yes Probe Missing No No Probe Present Sensor Pwr Accum R OK FAULT Power Accumulator Board is FAULT Bad Sensor Execution R OK FAULT Sensor Execution is not FAULT working as intended S
106. ight to the rope 2 Remove the end weight from the rope Measure the required rope length and wrap some adhesive tape around the rope at the cut location to help hold the rope strands together when cutting 4 Use a hacksaw and make the cut Insert the rope back into the end weight and tighten the 3 set screws 3 2 2 3 Shortening a coaxial probe Due to numerous spacers along the length of a coaxial probe it is not recommended to shorten coaxial probes Page 22 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 3 Attach assemble the probe 3 2 3 1 Rod probe assembly Rod probes are shipped in segments The segments are attached to each other with a stud and a lock washer Step Action The rod probe is attached to the process connector at the 1 central connector with a nut and lock washer Attach the process connector to the first rod segment using a nut and lock washer Thread on the next segment and use the nut to apply torque to 5 secure the connection Note For the SLG 720 tighten each rod connection point to 6 0Nm 4 4ft Ibs Central Connector Revision 3 0 i a2 Process Connector Nut otk Washer 2 Rod Segment Lock Washer SS Stud lt Rod End Figure 3 3 Rod probe assembly SLG 700 SmartLine Guided Wave Radar User s Manual Page 23 3 2 3 2 Rope probe assembly Rope probes can be supplied with an optional end weight attached Ensure the
107. illwell activate additional fields to enter the height and diameter of the Nozzle Standpipe or Stillwell 5 3 2 Linearization nth metas E Y TETT gt am Linearization Disabled Linearization Enabled Figure 5 14 Advanced Configuration Linearization This option allows users to adjust the level measurement to agree with a customer measurement It is available only through the use of a PC based DTM DD e Enable Linearization If enabled linearization will convert the level as measured by the sensor to a corrected level value as defined by the user in the linearization table on this page max 32 points This may be used to correct for any non linearities that may occur For example a tank that bulges during filling Linearization will not affect the values reported for the Distance to Product and Distance to Interface device variables If Linearization is enabled the distance and associated level are no longer described solely by 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 Level if it is being calculated Page 88 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 3 2 1 Wet Linearization When the measured level for the tank reaches a level where the corresponding corrected level is known select a row in the linearization table enter
108. installing the PWA handle it by its edges or bracket section only If you need to touch the PWA circuits be sure you are grounded by staying in contact with a grounded surface or by wearing a grounded wrist strap When the PWA is removed from the Transmitter put it in an electrically conductive bag or wrap it in aluminum foil to protect it The following procedure outlines the steps for positioning the write protect and failsafe jumpers on the electronics module See Figure 4 4 for the locations of the failsafe and write protect jumpers 1 Turn OFF Transmitter power Power removal is only required in accordance with area safety approvals Power removal is only required in Class 1 Div 1 Explosion proof and Class 1 Div 2 environments 2 Loosen the end cap lock and unscrew the end cap from the electronics side of the Transmitter housing 3 If equipped with a Display module carefully depress the two tabs on the sides of the Display Module and pull it off 4 If necessary unplug the interface connector from the Communication module Do not discard the connector Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 73 5 Set each jumper to the desired position UP OFF or DOWN ON See Table 4 10 and Table 4 11 8 If applicable re install the Display module as follows e Orient the display as required e Install the Interface Connector in the Display module such that it will mate with the socket for the displa
109. ited To assemble the remote mount attach the process connector first followed by securing the mounting bracket to a pipe or wall Secure the electronics module to the bracket with the 3 supplied M6 screws Connect the cable and check bends for minimum radius see Figure 3 19 to prevent damage Torque the 2 nuts to 6Nm 4 4ft lbs Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 37 110 0 125 9 4 33 in I 4 96 in vai i ear 2 5 2 242 7 9 56 in J l J My L 42 9 ee 11 69 in Ae 5 19 in 3m 9 8 ff q sk ay _ 165 1 MIN k 6 50 in 14 99 in eo t ees Figure 3 19 Remote mount Page 38 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 7 Rotate transmitter housing Once installed the transmitter housing can be rotated into the desired position 0 180 by loosening the two set setscrews on the sensor housing and not on the electrical housing a Rook gt H Figure 3 20 Rotate transmitter housing 3 2 8 Secure the probe In tanks with turbulence it may be necessary to secure the probe to the tank to prevent probe damage or contact with the tank wall Depending on probe type different methods can be used For rope probes with end weights the end weight has an internal M10x1 5 thread This thread can be used to attach various mounting hardware customer supplied Alternatively the weight can be removed and a clamp can be u
110. l show the current value of the item in a pop up window in the middle of the screen 3 Press the f or buttons to select the desired digit and then press J to advance to the next digit to the right 4 After the last digit has been entered press J to write the new value to the transmitter 4 2 4 Selecting a new setting from a list of choices To select a new setting for parameters that presents a list of choices for example Screen Format or Display Units Revision 3 0 Press to begin The Basic Display will show the current setting of the item on the lower line left justified The Advanced Display will show the current setting of the item in a pop up window Press f or to scroll through the list of choices Press J to make your selection The new selection will be stored in the transmitter and will be displayed on the lower line right justified SLG 700 SmartLine Guided Wave Radar User s Manual Page 49 4 3 The Basic Display Menu The Basic Display s menu is implemented as one long single level menu and will wrap around when it reaches the start or end of the menu Press the 4 button to call up the Menu Select lt Exit Menu gt and press to exit the Menu Use the f and buttons to scroll through the list of menu items Press the button to select an item for data entry or activation When an item is selected for data entry or activation the cursor will jump to the lower line of the LCD
111. lation processes refer to the MC Toolkit 404 User Manual Document 34 ST 25 50 for battery conditioning and device operation and maintenance information Also refer to the SLG 700 SmartLine Level Transmitter Guided Wave Radar HART Option User s Manual Document 34 SL 25 06 4 2 Three Button Operation The SLG 700 optional three button interface provides a user interface and operation capability without opening the transmitter Figure 4 1 shows the location of the three button option and the labels for each button Figure 4 1 Three Button Option Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 47 Table 4 1 Three Button Option Functions Left Previous Menu Item Move cursor Up Physical a TSF Advanced Basic Displ Action Button Ae pistes Display cue increment Scroll to previous menu item in an active list Increment Scroll through alphanumeric list to desired character ex for entering Tag names or numeric values Scroll to next menu item in an active list Decrement Decrement Center 4 Scroll through alphanumeric list to desired Next Menu Item Move cursor Down character ex for entering Tag names or numeric values Call up the Main Menu Call up a lower level menu f Select displayed Select an item for data entry Right menu item for Enter 4 activation or editing Confirm a data entry operation Activate the service associated with a selected menu it
112. lay c only German Se Italian Default English Spanish Russian Turkish Rotation Time duration in seconds Press to enter menu Time that each configured screen selection is shown before moving to T and J to select number the next screen J to enter and shift to Range 3 to 30 seconds next digit Default 10 seconds Screen Yes Activate rotation between up Press to enter menu Rotate No to 8 screens selection If user selects Yes T and 4 to select number screens would rotate to enter automatically based on configured Rotation Time lt Return gt Screen None Select the Screen format from Format PV the list FF read PV amp Bar Graph only PV amp Trend Screens 1 8 Trend Hours Select the amount of historic Press 1 to enter menu FF read data visible on the Trend selection only eee T and J to select from list Range 1 to 999 hours Applies to the PV amp Trend format only Page 56 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 PV Selection Product Level Select the Process Variable FF read Prod Level PV to be shown on screen only Dist To Prod Choices based on Measure Prod Lvl Rate Product and Volume Calc Product Volume Type Vapor Thick Vapor Thick Vapor Volume Intf Level Intf Level Dist To Intf Intf Lvl Rate Upr Prod Thick Lower Prod Vol Upper Prod Vol Loop Output Press J to enter menu Percent
113. length of the inner conductor Assemble the coaxial outer conductor The outer conductor is comprised of three segments a starter segment a segment and an end segment The starter segment has an internal M20x1 thread at one end and an external M22x1 5 thread at the other end 5 The middle segment has two external M22x1 5 threads at both ends The end segment has an external M22x1 5 thread on one end and an unthreaded end Note Depending on the type of coaxial probe ordered a coaxial probe can have more than one middle section Attach the starter segment to the nipple on the process connector Each segment is coupled together with coaxial couplers Use the threaded end to screw the starter segment into the coupler Note Tighten the couplers to 30Nm 22ft Ibs 7 Insert 2 M3 set screws into the coupler and tighten to 1 0 Nm 8 8in Ib When the outer conductor is assembled slip the outer conductor over 8 the inner rod and spacers Thread the assembly onto the process connecior Attach the outer conductor to the process connector and tighten to 30Nm 22ft lbs oe APREN Coaxial outer conductor Y ye 3 Starter aN Ln N et q gt N ne SEN per Coaxial coupler ps a z aa Ng gt Coaxial outer conductor A 2 Spacer PTFE a gt pa RS a Segment Stud pee A i he we gt Ns N x Lock washer Nie Coaxial outer cond uctor Pe AE ae KRN ee End Ro
114. licable to the Press J to enter HART only PV selected and corresponds to 20 mA menu selection ft of loop current and 4 to select number to enter and shift to next digit Set LRV ATTENTION Executing this service will HART onl set the Lower Range Value LRV equal Y to the input Udka ware aa has Press to enten Set URV ATTENTION Executing this service wil nU selection to execute HART only set the Upper Range Value URV equal to the input Guided Wave Radar Level Install Date One time configurable parameter which remains at January 1 1972 until a user HART only configures it through one of the user interfaces Probe Type e Cust Select the Probe Type from the Probe Press to enter om List menu selection e Rod T and 4 to select e Wire from list J to e Coa enter x Probe Length HH HHH Length of the wave Guide in the tank Press J to enter Value entered is considered in length menu selection units t and J to select Mounting Angle HH HHH 0 90 number Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 53 Menu item Choices Description Action Block Dist High HHHH Configures region near the flange where to enter and measurements are not possible and shift to next digit inaccurate Value entered is considered in length units Block Dist Low HHHH Configures region near the Probe end where measurements are not possible and inaccurate Value entered is considered in length
115. lues of A B and C are considered in next digit length units Range of A is 0 to 100m Range of B is 0 to 100m Range of C is 100 to 100m SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Page 52 Menu item Choices Description Action DAC Zero Trim DAC Zero Trim Allows the loop zero output 4mA value HART only to be trimmed Note Loop Note You must connect a current meter must be to the transmitter to monitor the loop removed from output Automatic Press to enter Control menu selection DAC Span Trim DAC Span Trim Allows the loop span output 20mA value HART only to be trimmed t and J to select number Note Loop Note You must connect a current meter to enter and must be to the transmitter to monitor the loop shift to the next removed from output digit to the right Automatic Control Loop Test Loop Test Allows the user to force the DAC output HART only to any value between 3 8 and 20 8 mA Note Loop Note This selection will put the DAC must be into Fixed Output Mode as indicated by removed from the flashing output value Navigation Automatic away from this menu item will return the Control loop to Normal Automatic Mode LRV HHHHH HHH Lower Range Value Applicable to the Press J to enter HART only PV selected and corresponds to 4 mA of menu selection T loop current and J to select number to enter and shift to next digit URV HHRHH HHH Upper Range Value App
116. m Loop Current 20 494mA 103 088 Planning Engineer Figure 5 29 Echo Curve screen Windowed Echo Curve SLG 700 SmartLine Guided Wave Radar User s Manual Page 101 The Echo Curves allow users to capture echo curves for install troubleshooting purposes The Honeywell SLG 700 captures three types of echo curves e Windowed e Full e Processed 5 4 4 1 Echo Curve Menu Open File DTM DD 1 Echo Curve 3 Echo Curve 1 1 Echo Curve Type e Configure Echo Curve 1 2 Start Distance e Observed Echo Curve 1 3 End Distance e Echo capture Type 1 4 Distance Units e Echo Distance Unit 1 5 Resolution e Reference Amplitude 1 6 Resolution Units e Reference at 1 7 Show behind flange e Prod Surface Amplitude 1 7 1 Show true distances on e Product Surface At stem plots e Interface Amplitude 1 7 2 Read e Interface Amplitude At 1 7 3 Clear e Probe End Amplitude 1 7 4 Save to File e Probe End Amplitude At Page 102 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 4 4 2 Echo Curve Types Windowed Echo Curve Only the areas around the reflection positions as determined by the algorithm are captured Subtraction of background reflection near the reference plane is applied when required This type of echo curve is useful for troubleshooting the Correlation Algorithm settings m 516700 HART Parameter Figure 5 30 Windowed Echo Curve Full Echo Curve The full
117. mation section of this document Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 135 A About This Manual cee ceeeeeeeeeeeeereeeeee iv Advanced Display Memnus ceeeeeeeees 55 Display Setup Menus 1ccccccsse0 56 64 Display Setup Menus 1 ccccccsseseeeerr 61 B Basic Display Menus cesceseceseeeseeees 50 C Changing the Default Failsafe Direction 73 Failsafe Operation sssscccccccssseeseeeees 73 Copyrights Notices and Trademarks lil D Display Setup Menus eee 56 61 64 H Honeywell MC Toolkit eeeeeeeeeeeees 47 I Introductions ronie eene arie na ai 1 M Monitoring the Basic and Advanced Displays P P E ET E T 69 Advanced DiISPIlAayS 11 ccccccccssssesereeees 70 Basic Display ssssssssnnnnnnnnnnnnnnnnnnnnnnnnnnn 69 Page 136 SLG 700 SmartLine Guided Wave Radar User s Manual Index O Operation Changing the Default Failsafe Direction sddudeubauduuwstediuerodadaseuusvasarvopadeussusvesuarecsbaea 73 Three Button Operation 47 S Safety Safety Integrity L VEl 11100ceeee 11 Safety Certification 0 ee eeeeseeseeseeeees 11 Startup Output Check Procedures cccc00 112 Symbol Descriptions and Definitions vi T Telephone and Email Contacts 0 ee v Three Button Operation cece eeeeeeeeeees 47 Advanced Display EntrieS 00008 55 Basic Display M NU 100ceses
118. mory for subsequent downloading to transmitter Handheld Figure 1 3 Example of FF connection DTM based tools and Experion HART and Fieldbus models support Device Type Managers DTMs running on Pactware or Field Device Manager FDM Experion To set up the DTM on the FDM Experion refer to the FDM Experion User Guide Figure 1 4 shows an example of a FF network setup SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 i n Ds 4 Operator Experion Stations Server Fault Tolerant Ethernet C200 p Series C Controller FIM amp CIOM A FIM Fieldbus Devices Figure 1 4 Example of a FF network network 1 5 SLG 700 Transmitter nameplate The Transmitter nameplate is mounted on the top of the electronics housing see Figure 1 5 and lists the following properties e Model number e Physical configuration e Power supply voltage e Maximum working pressure rating e Certification if ordered SIL and CRN Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 9 SUPPLY 11 TO 42 VDC SLG 700 sn2ecapasie MODEL NO SLG720 SWAWOOVM06000 NS5A A AHD 1001S A OA0 FG FX F1 F5 FE TP WG 01 00000 SERIAL NO 13W08 C4000000370964 CRN CSA 0F17065 56149870YTN 0F14815 2 MAWP 40 BAR 580 PSI PROCESS TEMP 40 TO 200 DEG C Product ID CUSTOM CAL 1 0 m TO 6 0 PROBE LG 6 0 WETTED MAT 316L DUPLEX PTFE 316 FKM j Nameplate CUSTOMER ID 1 2 NPT 8 1 2 NPT AS
119. n for specifics 3 3 4 Process Sealing The SLG 700 SmartLine Guided Wave Radar Level Transmitter is CSA certified as a Dual Seal device in accordance with ANSI ISA 12 27 01 2003 Requirements for Process Sealing Between Electrical Systems and Flammable or Combustible Process Fluids Page 44 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 3 5 Explosion Proof Conduit Seal A When installed as explosion proof or flame proof in a hazardous location keep covers tight while the transmitter is energized Disconnect power to the transmitter in the non hazardous area prior to removing end caps for service When installed as non incendive or non sparking equipment in a hazardous location disconnect power to the transmitter in the non hazardous area or determine that the location is non hazardous before disconnecting or connecting the transmitter wires Transmitters installed as explosion proof in Class I Division 1 Group A Hazardous classified locations in accordance with ANSI NFPA 70 the US National Electrical Code with 1 2 conduit do not require an explosion proof seal for installation If 34 conduit is used a LISTED explosion proof seal is to be installed in the conduit within 18 457 2mm of the transmitter Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 45 4 Operating the Transmitter 4 1 Interface options Described below are the available interfaces Of these inte
120. n procedure and system requirements 9 2 European Directive Information CE Mark The SLG 700 Transmitter complies with the following directives Directive Description 2006 95 EC Low Voltage Directive 2004 108 EC Electromagnetic Compatibility EMC ATEX 94 9 EC Explosion Protection Regulation where applicable 97 23 EC Pressure Equipment Directive PED The SLG Transmitter complies with the following EMC standards Directive Description General EMC requirements for Electrical EN 61326 1 equipment for measurement control and laboratory use EN 61326 3 1 Functional Safety EMC requirements for Electrical equipment for measurement control and laboratory use EN 55011 CISPR 16 1 and CISPR 16 2 Emissions of radio frequencies NAMUR NE21 Electromagnetic compatibility of industrial HART 4 20mA only process and laboratory control equipment ABS part 4 chapter 9 American Bureau of Shipping ABS Guide for section 8 building and classing steel vessels 2014 pending Tests for Control Monitoring and Safety Equipment EMC Tests The SLG 700 transmitter complies with the immunity requirements when a coax probe is used OR when the device is installed in a metallic vessel or stillwell When the device is installed on an open air tank or non metallic tank the emissions levels will remain compliant with any probe however a coax probe is recommended if a strong electromagnetic
121. ne of the following systems e For the Experion PKS you will need to supplement the information in this document with the data and procedures in the Experion Knowledge Builder e For Honeywell s TotalPlant Solutions TPS you will need to supplement the information in this document with the data in the PM APM SmartLine Transmitter Integration Manual which is supplied with the TDC 3000 book set TPS is the evolution of the TDC 3000 Revision History SLG 700 SmartLine Level Guided Wave Radar Transmitter User s Manual Document 34 SL 25 11 Rev 1 0 March 2015 First release Rev 2 0 April 2015 Updates to troubleshooting and Display menus Rev 3 0 June 2015 Security Considerations and Vulnerability note added Page iv SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 References The following list identifies publications that may contain information relevant to the information in this document SLG 700 SmartLine Guided Wave Radar Level Transmitter Quick Start Guide Document 34 SL 25 04 SLG 700 SmartLine Guided Wave Radar Level Transmitter Safety Manual Document 34 SL 25 05 SLG 700 SmartLine Guided Wave Radar Level Transmitter HART Option Manual Document 34 SL 25 06 SLG 700 SmartLine Level Transmitter Guided Wave Radar FOUNDATION Fieldbus Option Manual Document 34 SL 25 07 Patent Notice The Honeywell SLG 700 SmartLine Guided Wave Radar Level Transmitter family is covered by the following U S Pate
122. ng allows selection of Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 59 transmitter critical error behavior Latching The transmitter will remain in a critical error state until a user performs a hardware software reset Non Latching The transmitter exits critical error state automatically when causes of the critical error have been Press to enter menu selection T and 4 to select from list J to enter and shift to next digit month Month will only be visible if no Install Date has been written to the transmitter resolved lt Return gt Set LRV Set LRV ATTENTION Executing this service will set Press J to enter HART only the Lower Range Value LRV equal to the menu selection input Guided Wave Radar Level to execute lt Return gt Set URV Set URV ATTENTION Executing this service will set Press to enter HART only the Upper Range Value URV equal to the menu selection input Guided Wave Radar Level to execute lt Return gt Year HHH H Enter the current Press to enter year menu selection T Year will only be and 4 to select visible if no Install number to enter Date has been and shift to next Install Date written to the digit HART only transmitter Month January to December Select the current Press J to enter menu selection T and 4 to select month to enter SLG 700 SmartLine Guided Wave Radar User s Manual Pag
123. ng table A device variable represents a monitored calculation Table 5 1 Device variables Sr Device Variables Device Supported Units No Variable code 1 Product Level 0 ft in m cm mm 2 Product Level 1 3 Distance to Product 2 ft in m cm mm 4 Product Level rate 3 ft s m s in min m h ft min in sec 5 Product Volume 4 ft in US gal Imp gal barrels yd m liters bbl lig 6 Vapor Thickness 5 ft in m cm mm 7 Vapor Thickness 6 8 Vapor Volume 7 ft in US gal Imp gal barrels yd m liters bbl liq 9 Interface Level 8 ft in m cm mm 10 Interface Level 9 11 Distance To Interface 10 ft in m cm mm 12 Interface Level Rate 11 ft s m s in min m h ft min in sec 13 Upper Product 12 ft in m cm mm Thickness 14 Lower Product Volume 13 ft in US gal Imp gal barrels yd m liters bbl liq 15 Upper Product Volume 14 ft in US gal Imp gal barrels yd m liters bbl lig Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 83 Page 84 The advanced display handheld devices based on DDs and PC based DTM FDT platforms allow users to select up to four device variables and allocating them to be process variables e Process Variable PV e Secondary Variable SV e Tertiary Variable TV e Quaternary Variable QV Only the PV is sent as analog output to the control syst
124. nitor SUb MeNu Aisnen tieien deedee ieir ae ii eaa 64 Table 4 9 Advanced Displays with PV Format Display Indications 0 0 0 lees eeeeeeeeeeeeeees 71 Table 4 10 HART Failsafe and Write Protect Jumpers ee eeeeeseeeseeeseeeseecaeceaecsseesseeees 75 Table 4 11 Foundation Fieldbus Simulation and Write Protect Jumpers 0 0 0 0 ce eeeeeeeeeee 76 Table 5 1 Device variables st s243 cnecsitien ents heel ce eee ie 83 Table 5 2 Device variables according to measured product type cece ceeceseeeseeeseeeeeeeees 85 Table 5 3 Algorithm parameters ceecescceseeeeeeeseeeseeeseecseecsaecsaecsaecacensecsseeeseeeseeeseeeees 93 Table 6 1 SLG 700 Standard Diagnostics Messages sscesceseceseceseceseeeeeeeeneeeseeeneeenaes 107 Table 7 12 Paisu aaa E E soe iloeu bon E E TNE EE 118 Page xiv SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 1 Introduction 1 1 Overview The SLG 700 Guided Wave Radar SmartLine transmitter is an electronic instrument designed to measure levels of liquid and solid materials Guided Wave Radar GWR transmitters use time domain reflectometry with radar pulses guided by a metal waveguide and reflected off a product surface to determine levels in tanks In comparison to other level measurement technologies GWR provides a highly accurate cost effective reliable measurement over a wide range of process conditions 1 2 Transmitter Models The SmartLine Guided Wave Radar
125. nk connection Oe Sealant on threads aa or gasket for BSP G threads Figure 3 14 Threaded tank connection Figure 3 15 Tank roof mounting using threaded connection SLG 700 SmartLine Guided Wave Radar User s Manual Page 35 3 2 5 6 Mounting ona bypass bridle SLG 700 transmitter can be successfully installed in a new or existing bypass pipe bridle or a side pipe as shown in Figure 3 16 This type of installation is often simpler and allows the addition of radar level measurement to an otherwise busy installation A similar installation is also possible inside the main container when installing the SLG 700 transmitter on a stilling well a od Fon pra lok N Inlet diameter L Effective measurement range 2 12 300mm D Bypass diameter N lt D Figure 3 16 Bypass installation Table 3 12 SLG720 bypass still pipe recommended diameters Probe type Recommended diameter Minimum diameter Rod probe 3 or 4 75mm or 100mm 2 50mm Rope probe 4 100mm 2 50mm Coaxial probe N A 1 5 37 5mm Chambers with smaller diameter can lead to problems with build up Chambers larger than 6 150mm can be used but offer little advantage for radar measurement The probe must extend the full length of the chamber and not contact the bottom of the chamber or make contact with the chamber wall Clearance from the bottom of the chamber is recommen
126. nts 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 www honeywellprocess com Honeywell Process Solutions https www honeywellprocess com smartline level Training Classes http www honeywellprocess com en US training Telephone and Email Contacts Telephone and Email Contacts Area Organization Phone Number United States and H T 1 800 343 0228 Customer Service oneywell Inc Canada ii 1 800 423 9883 Global Technical Support Global Email Honeywell Process ask ssc honeywell com Support Solutions Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page v Symbols Descriptions and Definitions Symbol Descriptions and Definitions The following symbols may appear in this document log e Symbol ATTENTION Identifies information that requires special consideration OS TIP Identifies advice or hints for the user often in terms of performing a task CAUTION Indicates a situation which if not avoided may result in equipment or work data on the system being damaged or lost or may result in the inability to properly operate the process gt CAUTION Indicates a potentially hazardous situation which if not avoided may result in minor or moderate injury It may also be used to
127. on on blocking distance refer to section 5 3 1 Probe Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 79 Upper Product Lower Product Figure 5 5 Example of a flooded application e Two Liquids Non Flooded Standard Interface measurement The SLG 700 measures level of an interface boundary between the lower product and the upper product Additionally the SLG 700 measures level of the upper product See Figure 5 6 Vapor Product Level Upper Product Interface Level Lower Product Figure 5 6 Two liquids non flooded application Depending on the selection above the user interface allows users to enter values for e Dielectric Constant DC of Vapor for selections Single Liquid Two Liquids Non Flooded The value of the DC of Vapor is very close to 1 for most gasses and can be edited if significantly varies from 1 e Dielectric Constant of the Product for selections Single Liquid Page 80 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 e Dielectric Constant of the Upper Product for selections Two Liquids Flooded Two Liquids Non Flooded Entering of the correct value for the DC of the Upper Products ensures accurate measurement of the Interface because the speed of the measuring signal varies with the DC of the Upper Product e Dielectric Constant of the Lower Product for selections Two Liquids Flooded Two Liquids Non Flooded 5 2 3 Measurement eywell Basic ma
128. or Coaxial coupler SCA SCC SCD AF 1 5mm Allen key M4 set screw for Electronics Housing rotation AF 2 0mm Allen key M5 set screw for rope probe end weight SWA SWB AF 2 5mm Allen key Rod probe 8mm SRA SRH SRu AF 7mm wrench Probe nut 8mm AF 8mm wrench Rod probe and nut 12mm SRB SRM SRN AF 10mm wrench Centering disk bolt rope probe AF 17mm wrench Mounting thread 3 4 and 1 AF 40mm wrench Mounting thread 1 1 AF 50mm wrench Mounting thread 2 AF 60mm wrench Rod probe cut to length Metal saw Rope probe cut to length Saw or bolt cutter Remote mounting transmitter to bracket Phillips screwdriver 3 2 Mechanical installation Follow the steps in Table 3 2 See Section 3 3 1 for wiring and configuration steps Table 3 2 Mechanical installation sequence Step Action See Section 1 Check probe dimensions and strength 3 2 1 2 Trim probe to correct length 3 2 2 3 Attach assemble the probe to the process connector 3 2 3 4 Attach centering disk to probe if applicable 3 2 4 5 Mount the transmitter 3 2 5 Rotate electronic housing to desired view angle on 6 3 2 7 models with optional display 7 Secure the probe 3 2 8 Install conduit entry plugs and adapters 3 2 9 3 2 1 Page Check for correct probe dimensions and strength Measure for correct probe length
129. p resistance and power supply voltage within the operating range shown in Figure 3 24 Transmitter operating ranges Note A minimum of 250 ohms of loop resistance is required to eR T support communications Loop resistance barrier resistance wire resistance receiver resistance ohms i i i i 34 8 Operating Area 42 0 13 5 18 9 24 Operating Voltage Vdc Figure 3 24 Transmitter operating ranges Loop wiring is connected to the Transmitter by simply attaching the positive and negative loop wires to the positive and negative terminals on the Transmitter terminal block in the Electronics Housing shown in Figure 3 25 Page 42 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 TERMINAL BLOCK _ INTERNAL GROUND 7 CONNECTION 2X FIELD WIRING ENTRIES ZX TB MOUNTING SCREWS ELECTRONICS HOUSING EARTH GROUND CLAMP Figure 3 25 HART 3 Screw Terminal Board and Grounding Screw A A FOUNDATION Fieldbus terminal block have a 2 screw terminal board As shown in Figure 3 25 each Transmitter has an internal terminal to connect it to earth ground A ground terminal can be added to the outside of the Electronics Housing Grounding the transmitter is recommended for safety to minimize the possible effects of noise and affords protection against lightning and stati
130. position to the right Select the cross hatch character to terminate the entry or if the final character is already a space character just press J again SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 All numeric entries are clamped at the low or high limit if needed To show the low and high limit for a parameter put the cursor over the left most digit select either the A or V character and press button Table 4 2 Three Button Data Entry sae Numeric data entry Text entry Display the high limit for this parameter A This symbol only appears in the left most Not Available position of the data entry field Display the low limit for this parameter v This symbol only appears in the left most Not Available position of the data entry field Terminate the numeric entry Terminate the text entry symbols thru 9 special 0 thru 9 These characters are used to enter These characters can be Minus numeric values The minus sign only used to create custom Decimal appears in the left most digit tags and unit labels A thru Z 0 These characters can be Not Available used to create custom tags and unit labels 4 2 3 Editing a Numeric Value Editing a numeric value is a digit by digit process starting with the left most digit Press J to begin 2 The Basic Display will show the current value of the item on the lower line left justified The Advanced Display wil
131. raw echo curve for example not windowed and no background removal or other processing performed This type of echo curve is useful for troubleshooting the process m SLG700 HART Parameter Figure 5 31 Full Echo Curve Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 103 Note A Full Echo Curve will likely take much longer to capture than a Windowed Echo Curve Processed Full Echo Curve Similar to the Full Echo Curve but with background removal This type of echo curve is useful for process and or algorithm troubleshooting ow SLG700 HART Parameter connect ed Device A Non critical Alarms Product Level 1030m Loop Current 20 474mA 102 963 Planning Engineer Figure 5 32 Processed Full Echo Curve Page 104 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 5 Nozzles Nozzles which are too big can cause measurement problems Nozzles are only used with flange connections gt MM Dead zone om Avoid nozzles with reducer D unless using coaxial probes Figure 5 33 Flange Mounting Single probe rod wire Coaxial probe Recommended nozzle diameter 6 150mm gt Probe diameter D Minimum nozzle diameter D 2 50mm gt Probe diameter Recommended nozzle height H 4 100mm nozzle diameter When using a flexible probe in nozzle
132. rface inlet stream near Length restriction to 6 3m 20 the probe Viscous or sticky material may cause e Proximity to tank wall or obstacles bridging of the coax construction and e Probe touching nozzle tank wall or lead to measurement errors obstacle May be used only for liquids e Turbulence waves Small space between the inner rod e Tall narrow nozzles and the coax shield of the waveguide j ont is difficult to clean As a result the e Disturbing electromagnetic fields coax waveguide is not suitable for e Can be angle mounted dirty or highly viscous materials Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 5 1 4 Communicating with the Transmitter It is possible to monitor and configure a transmitter using either the HART or FOUNDATION Fieldbus FF protocols The protocols are not interchangeable Each protocol uses significantly Note different terminal and communication boards that are installed before shipping 1 4 1 4 20 mA HART 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 20mA current loop to one receiver In Point to Point mode the value of the Primary Variable PV is represented by a 4 20 mA current loop almost identical to that of a Transmitter operating in analog mode e Multi Drop Mode in which several Transmitters are connected through a two conductor
133. rfaces only the transmitter s displays and buttons are described in this manual the other interfaces have separate manuals While the transmitter will come preconfigured for a specific application it can also be reconfigured Whichever interface is selected the parameters available from each are similar and arranged in similar ways Some parameters will only pertain to the interface being used such as screen display parameters some will only pertain to the communications protocol being used such as PV selection with HART 4 1 1 Transmitter basic or advanced displays with buttons For simple operations the basic or advanced display and buttons interface is preferable For more involved operations or configuration use one of the following interfaces 4 1 2 PC and HART DTM or FF There are two ways an external user interface can be connected to a Honeywell transmitter e Device Description DD files e Device Terminal Manager DTM files collection of dlls Each of the mechanisms requires an external container for hosting purposes as neither can function individually The DD files host container is frequently an application running on a hand held device such as the Honeywell Field Device Configurator FDC running on the Honeywell MC Toolkit 404 or the Emerson 475 The host container can also be a PC based application such as the ProComSol DevCom2000 application Or the Honeywell FDM server which also has an Enhanced Device Description
134. rotect configuration parameter These features can be used in combination to provide multiple layers of change protection For both the local display and communication passwords the initial user passwords are defined as 0000 A 0000 password indicates that the user has not set a user defined password and the password protection is disabled The password used on the local keyboard display is separate from the password provided for communication Password protection from the local keyboard display does not inhibit changes by way of communication over the current loop A master password is available that allows recovery if the set user password is unknown A hardware write protect locks out changes regardless of the entry of a password The hardware jumper requires physical access to the device as well as partial disassembly and should not be modified where the electronics are exposed to harsh conditions or where unsafe conditions exist For configuration or calibration changes without changing the hardware jumper position the user may choose to rely on the password and software lockout features A tamper detection feature see SLG 700 SmartLine Guided Wave Radar Level Transmitter HART Option Manual Document 34 SL 25 06 is available that can indicate that an attempt was made to change either the configuration or calibration of the device whether or not a change was actually made These security features are designed to avoid accidental changes
135. rtLine Guided Wave Radar Configuration Sensor Height A Level Offset C Maximum Product Level B Probe Length Connected Device OK Planning Engineer g Engi Figure 5 7 Basic Configuration Measurement screen The GWR transmitter measures distance between the reference plane of the transmitter and the surface of the medium In order to convert the distance to the level of the product in the tank and percent of range the GWR transmitter needs the following information e Sensor Height A The distance between the bottom of the tank and the reference plane of the GWR transmitter e Level Offset C The distance measured between the bottom of the tank and a point where level should be considered as zero This value can be zero It is an optional way to shift the beginning of the measuring range to a point different than the bottom of the tank All of the measurements are defined in Figure 5 8 Based on the information defined above the level can be calculated as Sensor Height minus Distance measured by the transmitter minus Level Offset entered by the user e Maximum Product Level B The distance between the 0 product level empty and the 100 product level full This value may be positive upward negative downward or zero if a 0 product level was selected as the Bottom Reference Plane This value is used to convert the level of the product in the tank to a percent value as
136. s perfectly vertical Blocking Distance High Blocking distances are areas of the sensor reading range where it is not desirable to search for reflections possibly due to poor signal to noise ratios The Blocking Distance High is the distance value measured starting from the Sensor Reference Point The transmitter will not attempt to make a reading in this area A minimum value is predefined by the factory e Blocking Distance Low Blocking distances are areas of the sensor reading range where it is not desirable to search for reflections possibly due to poor signal to noise ratios The Blocking Distance Low is the distance value measured starting from the Probe End The transmitter will not attempt to make a reading in this area A minimum value is predefined by the factory Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 87 e When in Blocking Distance set Loop Current to This is the action to take regards to loop current when the sensor reading enters Blocking Distance Low or Blocking Distance High Default Behaviour means that when in Blocking Distance Low set to Low Saturation and when in Blocking Distance High set to High Saturation e Mounting Type This parameter allows users to select the type of mounting that is used to place the GWR Transmitter on the tank The available selections are Direct Bracket Nozzle Standpipe Stillwell Unknown Selection of options the following options Nozzle Standpipe and St
137. s taller than 6 150mm Honeywell recommends the SWB wire probe with an extension stud SWB is an option in the model selection guide It offers a 300mm rod extension to keep the section of the wire probe that is within the nozzle from moving around Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 105 6 Maintenance and Troubleshooting 6 1 Overview The design of the transmitter uses electromagnetic impulses guided along a metallic waveguide and time domain reflectometry to measure distance to measured material and convert it into level indication Because there are no moving parts the maintenance of the transmitter is greatly reduced in comparison with historic level measurement devices 6 2 Preventive Maintenance Practices and Schedules If the transmitter is installed with contact with a sticky or viscous medium a periodic cleaning may be required The frequency of cleaning should be adjusted based on application needs and visual inspection See the SLG 700 SmartLine Level Transmitter Guided Wave Radar HART Option Safety Manual 34 SL 25 05 for more information 6 3 Error Messages Self explanatory error descriptions not only error code in an end user selected language can be accessed using the local display handheld device or provided software tools DD DTM 6 3 1 Diagnostics When a Critical Diagnostic is present in the Transmitter the Advanced Display will show a screen with heading Critic
138. s users to run HART commands Execute HART commands to exit factory mode Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 107 Non Critical Diagnostics Warning Conditions Description Resolution Active Diags Displays a numeric value of the N A current count of non critical status bits that have been set Supply Voltage Displays a status of the power Ensure the voltage on the voltage terminals are within operational specifications Elec Module Temp Displays a status of the sensor electronics Bring the sensor within range and reset the power PV Range Displays a status of the Loop PV is within or outside the configured URV and LRV PV Out of Range Any of the following conditions can cause this failure 1 Sensor Overload or Fault or Redundant Characterization Calculation Error 2 Check range and where required replace transmitter with one that has a wider range Sensor may have been damaged 3 Check the transmitter for accuracy and linearity 4 Replace the sensor and recalibrate where required Sensor Over Temp Displays a status of the temperature of the sensor electronics If the temperature is outside the configured range bring the temperature within the range and reset or repower Prod Sgnl Str Displays a status of the quality of the signal strength Prod Sgnl Qlty Displays a status of the quality of t
139. screen displays an overview all the basic configurations When the Advanced Configuration is completed click Show Advanced Settings to expand the table to include the addition advanced settings Page 86 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 3 Advanced Configuration The Advanced Configuration menu items generally do not need to be adjusted But may have to be adjusted in demanding application or if the process or mounting configuration changes from what was ordered 5 3 1 Probe m SLG700 HART Parameter Honeywell Advanced SmartLine Guided Wave Radar Configuration Lie ME Distance to Product 1 47 m Linearization Volume Correlation Algorithm Services Probe Type Probe Length A Mounting Angle Status OK Monitor Blocking Distance High B Blocking Distance Low C 0 000 When in Blocking Distance Default Behavior set Loop Current to Figure 5 13 Advanced Configuration Probe e Probe Type Only adjust this if you are changing the type of probe Adjustments to the calibration offset may be necessary if the probe is changed The available options are Custom Rod Wire and Coax e Probe Length This is a factory setting based on the purchase order Adjustments to this parameter is only required if the probe has been replaced or cut shorter e Mounting Angle The physical angle at which the probe is mounted relative to the ground 0 degrees means the probe i
140. sed See Figure 3 21 _f 4 L PEE ene 4y y Clam Magn Figure 3 21 Anchoring rope probes When anchoring a rope probe it is recommended that the rope be slack to prevent excessive tensile loading from motion of medium and or thermal expansion The sag should be 1cm m 1 5 10 of the probe length See Figure 3 22 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 39 Figure 3 22 Rope probe slack Coaxial probes can be anchored along their length Ensure that the probe can move freely along its length to allow for thermal expansion Thermal coefficient of expansion 16 x 10 m m K Coaxial probes can be guided by a tube welded to the bottom of a tank Make sure that the coaxial probe can move freely to allow for thermal expansion acc Ltr re Drain Figure 3 23 Anchoring coaxial probes Page 40 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 3 2 9 Install conduit entry plugs and adapters CONDUIT ENTRY PRECAUTIONARY NOTICE THE CONDUIT CABLE GLAND ENTRIES OF THIS PRODUCT ARE SUPPLIED WITH PLASTIC DUST CAPS WHICH ARE NOT TO BE USED IN SERVICE IT IS THE USER S RESPONSIBILITY TO REPLACE THE DUST CAPS WITH CABLE GLANDS ADAPTORS AND OR BLANKING PLUGS WHICH ARE SUITABLE FOR THE ENVIRONMENT INTO WHICH THIS PRODUCT WILL BE INSTALLED THIS INCLUDES ENSURING COMPLIANCE WITH HAZARDOUS LOCATION REQUIREMENTS AND REQUIREMENTS OF OTHER GOVERNING AUTHORITIES AS APPLICABLE
141. seeeeeeaas 77 RAT General eenen cstheg adit a N A E neha Gute g dean ei deed 78 5 22 1 Processa ef ieee etnies Sesh ele len eee 79 5 2 3 Measurement vies techfit hi eee ee ee le ee ee 81 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page ix 524 Dynamic Variables sirere eaa e EAA A end Meds eed Riad are it ees 83 5 2 5 A 20 MA OQUIDUIS be ecteceect eis de apaan anpe aeaaea aae Maca aa a a a an iaaa aeni 85 SA E DAO AETA A E A A E T 86 5 3 Advanced Configuration s seseante aaraa aie Geaa Aare da aeara ai a 87 STe PO MAN 210 o1 er EA A A cer EA A E ETAN tinea eeccerr cere 87 Saz LINGANIZALIONS enas a a a ciate E E s 88 Saa NOUMER a 89 5 3 4 Correlation Algorithm i aeaaaee aana tet a aaae a aa aea araa aaa Aaea aa aa aaa aana iaa 91 5 3 5 How to configure the algorihii eesoessroi iaaa a AA r SAE 94 5 3 6 Correlation Algorithm Menu ccccecceeececeeeeeceeeeeeaeeeeneeceeeeeceaeeeeaaeeeeeeeseaeeesaeeeeaeseeneesaas 97 5 4 OIE sixteen A EA Mai caste E A E O ET A TA 99 SAt Baspboar eai an a aca eet date ta E A 99 54 2 Device Status amp Alar S i een addict sedan et aae Aaaa aed aa aaea aa aa Aa aaa 100 5437 Device MOnato esa ea A a E ha al i eed een 101 E e E 0 ORENT aN vats hatin ae en ed ee E ne aha eee 101 5 5 NOZZIGS sacesciisfe a en pate is adie Meniaal ead dae adus aa aa i aaaea vs Ge enata 105 6 Maintenance and Troubleshooting cccceeeeeeeeeeeeeeeeeeeeeeeeeeeeeseneeeeeeeeees 106
142. seees 50 Data Entry sscescsetcccsccdi evsiecietens obec vsezeces 48 Menu NaviQatiOn 11 ccccccssssseeeeereeeees 48 Transmitter Components cee eeeeeeeeeeee 1 Troubleshooting Critical Diagnostics Screens 106 W Wiring a Transmitter Wiring PrOCCCUIC cccccccssseseserreeenees 42 Wiring VariatiONS 11 cccccccssseeeeeerreeees 44 Revision 3 0 Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 137 Sales and Service For application assistance current specifications pricing or name of the nearest Authorized Distributor contact one of the offices below EMEA Honeywell Process Solutions ASIA PACIFIC Honeywell Process Solutions TAC hfs tac support honeywell com Phone 80012026455 or 44 0 1344 656000 Australia Email Sales Honeywell Limited FP Sales Apps Honeywell com Phone 61 7 3846 1255 or FAX 61 7 3840 6481 TAC Toll Free 1300 36 39 36 hfs tac support honeywell com 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 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 Ho
143. side of the middle wave see inside dotted boxes Available Echo Curves 2015 Mar 19 15 35 52 More Global Model Attenuation D Surface Amplitude Width mm 200 Attenuation 0 100 Gain 7300 Start cm 220 End cm 450 Decimation 5 1 1 750 760 Echo Curve Type Processed Full Unzoom Obj Function 5 999 Threshold Figure 5 25 Echo Curve Example displaying Width and Attenuation Page 96 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 5 3 6 Correlation Algorithm Menu DD DTM 1 Correlation Algorithm 1 1 Global Reference Plane Offset Calibration Offset 1 2 Model e Reference Reflection o Width mm o Attenuation o Gain o Start cm o End cm o Decimation o Obj Function Threshold e Surface Reflection o Width mm Attenuation Gain Start cm End cm Decimation o Obj Function Threshold e Interface Reflection o Width mm Attenuation oO O 0 0 O Gain Start cm End cm Decimation o Obj Function Threshold e End cm Decimation Obj Function Threshold O On 2Or OF O 1 3 Attenuation Vapor m Upper Product m Lower Product m 2 Correlation Algorithm 2 1 Config Corr Algorithm 2 2 Reference Reflection Refer Refle Start Refer Refle End Refer Refle Decimation Refer Refle Width Refer Refle Gain Refer Refle Attenuation Refer Refle Threshold 2 3 Prod Surface Reflection
144. sing from the Electronics Housing Manually keep turning the ribbon cable to ensure the ribbon cable is not damaged or pinched Page 116 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 There is an O ring on the top of the Sensor Housing Ensure this is retained for Note the new Sensor Housing 4 Unscrew the two set screws from the base of the Sensor Housing 5 Gently pull apart the Sensor Housing from the Process Connector where the two housings attach If the new Sensor Housing was shipped WARNING The Sensor Housing has a small female to female adapter with a new female to female adapter use the new adapter Ensure the new female to female adapter is installed in the Sensor Housing Attach the Process Connector to the new Sensor Housing Ensure the second smaller O ring is on the Process Connector 8 Replace the O ring on the Sensor Housing 9 Carefully thread the new ribbon cable into the Electronics Housing 10 Ensure the O ring is fitted around the top of the Sensor Housing and start to slowly screw the Sensor Housing into the Electronic Housing WARNING Do not tightly screw together the Sensor Housing into the Electronics Housing The two parts only need to be moderately screwed together The connection should be to the point where the O ring is not visible Ensure the O ring is not pinched 11 Plug the ribbon cable into the Communication Module and return the Communi
145. snnesrnnnesnnnnetennennnnnnnnnnnennnnnna 37 3 2 7 Rotate transmitter housing esisin E T 39 32 8 SECUIE the pro DE k r a a aa aaa a A a A aaa aa AaS PEDA ATERRAR 39 3 2 9 Install conduit entry plugs and adapters eee ee eeeeee ee eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeteeeaeeeeeeeaees 41 3 3 EleCtriCall ET EETAS A EEN TEET A FA fade aa E A EE Seta 42 gaT Winga tans mierea rarkia a naai AAEE ATARIRA IR eTA RAN ARRERA ALTE kART AARS 42 Sae EIGHINING PROTECHOM reaa Es rE EEAS EET A EEE E T 44 3 3 3 Supply Voltage Limiting Requirements c ccccccceeeeeceeeeeceeeeeeaeeeeaeeseeeeeceaeeesaeeeeneeesaees 44 3 8 4 PROCESS SS alii a aa E aa a chuich Guegt sat le statis A bbe Gbastaaneers 44 3 3 5 Explosion Proof Conduit Seal ecccccccceeesceceeeeeeeeeeeeaeeeeeeeceaeeeeeaesseaeeseeeeeseaeeeeaeeseeeeesaees 45 4 Operating the Transmitter cccccceeeeeeeesseeeceeeeeeeeeseeseaaeeeeeeeeeeeesseseeaeeeeeeeees 46 4 1 iterace options sos etic What Gethevteeietiatewdt MiMi teal 46 4 1 1 Transmitter basic or advanced displays with DUttONS cc eeeeeeeeeeeeeeteeeeeeeeeeeeeeeeeeeaees 46 4 1 2 PC and HART DTM Of FF eeccccecccceeseceeeeeceeeeeceaeeeenaeseeneeceaeeeeaaeseeaaesseneeseaeeseaeeseneeenaees 46 4 1 3 Handheld device through HART cceececeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseaeeeeeseneeeeeeeeeaeeeseeaaees 47 4 2 Three Button Operation ngies dint acai G Ae heated 47 421 Menu Navigatio essan a a ives ete AeA ea
146. t Upper Product s0 4000 4 Attenuation 9 100 im 0 0540 pc z Gain14000 Lower Products 9540 Jg Lower Prodi e 60 0000 E Calibration 5 999 E Offset m X aae i V Standard Mode These are the DC a End cm 325 Gain Def Point g3 59 2 values read from cm transmitter at the time of Decimation 5 echo curve capture m Surface Point 1349 4414 cm These may be edited to Obj Function 9 6992 Interface Point g 99 see the effects but the Threshold z cm DCs will not be written to Use Measured Points E x 10 Radar Impulse Reflection Model Amplitude counts 30 20 10 0 10 20 30 Distance cm Figure 5 19 Radar Impulse Reflection Model Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 93 m SLG700 HART Parameterization Honeywell Basic Advanced Monitor Status Product Level 4 20mA SmartLine Guided Wave Radar Configuration Keue Me Offline 0 00 m 0 0 mA Linearization Volume Correlation Algo Select Algorithm Figure 5 20 DTM screen showing Advanced Configuration tab and sub menus e Select Algorithm the most important parameter here is Sensor Offset Correlation This may be adjusted to match a particular offset Increasing the offset will increase the level reading Start Distance End Distance Units Resolution Units Save to File 100 00 1600 00 cm
147. ter Page 68 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 4 5 Monitoring the Basic and Advanced Displays This section describes the information shown on the operator screens of the Advanced and Basic Displays 4 5 1 Basic Display Figure 4 2 illustrates the Basic Display format with Process Variable PV Revision 3 0 The PV value representation is user configurable This field has 7 characters The maximum allowable numeric value is 9999999 or 999999 If fractional decimals are configured the fractional positions will be dropped as required If the PV value exceeds the above limits it is divided by 1000 and K is appended to the result allowing a maximum value with multiplier of 999999K or 99999K If PV Status is bad then the PV value will be replaced by a flashing BAD on bottom line Process Variable Tag Is user configurable from a HART Host This field has 14 characters Engineering Units This field is user configurable and has 8 characters Critical Diagnostics Indicated by CRITICAL FAULT on the top line and a description of the problem on the bottom line Product Level 345 67 m Figure 4 2 Basic Display with Process Variable Format SLG 700 SmartLine Guided Wave Radar User s Manual Page 69 4 5 2 Advanced Displays As shown in Figure 4 3 the Advanced Display provides three formats Table 4 9 lists and describes the fields in each of the three Advanced Display formats Ess
148. the up and down arrows to increase and decrease Gain you can home in on the lowest Objective Function value 11 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 Note that there should be only one dip that falls below the Threshold line on the graph If there are more than one then the transmitter may report incorrect position for the reflection Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 95 12 In most cases changing the position Gain and occasionally Threshold should fix any problems with the echo reading Click Apply to save your changes J ea Modei stenustion OCs Decimation ros Obi Funcsion j 355 J Thresnoia P Figure 5 24 Echo Reading Troubleshooting 13 Next go to Monitor and read a full echo curve Check that the correct Reference Surface and Interface measurements were found 14 Ifthe 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 Width This setting determines the width of one half of the wavelength see dotted bracket In the example below the Width is 200mm Attenuation This setting determines the size of the waves to either
149. ther equivalent tools or a HART to USB converter may be used Device Description files are available from the HART Foundation http en hartcomm org Device Descriptions DD are HART data files which are gathered from field Not device manufacturers which describes the features and functions of a device HART provides a detailed definition here http en hartcomm org hcp tech faq fag htm Page 6 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Handheld device MCT 404 Figure 1 2 Example of HART connection Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 7 1 4 2 1 4 3 Page 8 Foundation Fieldbus FF Figure 1 3 graphically represents the connection of the transmitter to a FF handheld device A similar connection may be realized using PC configuration software Each transmitter includes a configuration database that stores its operating characteristics in a non volatile memory The handheld or PC software is used to establish and or change selected operating parameters in a transmitter database The process of viewing and or changing database parameters is called configuration Configuration can be accomplished both online and offline with the transmitter powered up and connected to the handheld Online configuration immediately changes the transmitter operating parameters For offline configuration transmitter operating characteristics are entered into the handheld me
150. ule application eee essecssecsseceeceeceeeeeseeeseeeneeeees 27 Table 3 9 Centering disk dimensions 0 00 0 ee eee eeeeeeeeeseeeseecseecsaecssecsaecaeceseesseeseeeeseeeseeeses 27 Table 3 10 Minimum distance to container wall and obstacles MM cccsccecesseeeeeees 31 Table 3 11 SLG720 Recommended nozzle dimensions 0 0 0 0 eceseceseceseceseceeeeeseeeseeeeeeeees 34 Table 3 12 SLG720 bypass still pipe recommended diameters cc ceeceeceseeeeeeeseeeeeeeees 36 Table 3 13 Conduit entry plug installation 0 0 eee eee eseeseeeseecnsecseceseceseesseesseesseeeseeeseeeees 41 Table 3 14 Conduit adapter installation 0 ee eeeeeseeeseeeseeeseecceceseceaecnseceseesseeeseeeseeseeeeees 41 Table 4 1 Three Button Option FunctionSs eessseeeeesesseesessisstssiesessrssresrrsresesressesrenseenresreet 48 Table 4 2 Three Button Data Entry 00 cece eee eeceeeseeeseeeseeeseecseecsaecaecsaecsseeaeesseesseesseeeseeeees 49 Table 4 3 The Basic Display Ment rcti ceerde iieri eei i a aiee eiaa ET 50 Table 4 4 Advanced Display Main Menu Structure sseseeseeeeeeeeesresreerrsreeresreesrerresresresrese 55 Table 4 5 Display Config sub menu ssesseseeseeseesesserssstssrssresresresestesserreesessesseesresresresreses 56 Table 4 6 Basic Config SUD MeNU s oeae eerie eriein oiie aiae eiA aei aiea 58 Table 4 7 Advanced Config sub menu eseeseeseeseesseseeersseesrssresresresestesserrrsseestssressesresseseeees 61 Table 4 8 Mo
151. units Device ID Unique identifier for each device Firmware Display Shows the current Firmware versions of Comm the Basic Display Communications Sensor board and Sensor Modules Read Only Protocol HART Shows the communications protocol Parameter FF Model Key SLG 72X Identifies the type and range of the transmitter lt Exit Menu gt This option is visible when the measured product type is two liquids flooded or non flooded Changes to the Mounting Angle parameter have an immediate impact on Distance to Product and Distance to Interface if in use and Product Interface Levels If this change in Level exceeds the specified Maximum Filling Rate then it can appear that the surface interface is moving faster than the Maximum Filling Rate and the transmitter enters into a burnout status To recover a soft reset must be performed Page 54 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 4 4 The Advanced Display Menu Table 4 4 shows the top 3 levels of the Advanced Display menus At each level is a lt Return gt that lets you return to the previous level Table 4 4 Advanced Display Main Menu Structure Level 1 Level 2 Level 3 lt Exit gt N A N A Display Config LCD Contrast For details see Table 4 5 Display Config sub menu Common Setup page 56 Screen 1 8 Basic Config General For details see Table 4 6 Basic Config sub menu Process page
152. using a flexible rope probe instead Table 3 4 Probe mounting angle limits Total probe length Maximum angle 1m 3 30 2m 6 8 4m 13 2 6m 19 1 Table 3 5 Rod probe bending torque limits all lengths Probe Maximum Bending Model Selection Probe description Torque Nm SRA Rod 8mm 2m segments 4 0 SRJ Rod 8mm 1m segments 3 8 SRH Rod 8mm 0 5m segments 3 5 SLG720 SRB Rod 12mm 2m segments 4 0 SRN Rod 12mm 1m segments 3 8 SRM Rod 12mm 0 5m segments 3 5 For an angle mounted probe reduce these limits by 50 to allow for bending from gravity Page 20 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Table 3 6 Coaxial probe bending load limits all lengths Probe Maximum Bending Model Selection Probe description Torque Nm Coax 22mm 2m 6 SCA segments 50 Coax 22mm 1m 3 Share SCD segments 50 Coax 22mm 0 5m 1 5 SCC segments 50 For an angle mounted probe reduce these limits by 50 to allow for bending from gravity To calculate your probe s torque due to fluid motion use the following formula and check it against the torque limits in Table 3 5 and Table 3 6 N a iE im Para T NS M cg v r e ae Where M Moment or torque ey ca Friction factor p kg m Density of medium v m s Velocity of medium E perpendi
153. uston TX 77042 Honeywell Control Systems Ltd Honeywell House Skimped Hill Lane Bracknell England RG12 1EB Shanghai City Centre 100 Jungi Road Shanghai China 20061 34 SL 25 11 Rev 3 0 July 2015 www honeywellprocess com AMERICA S 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 su ort honeywell com Honeywell 2015 Honeywell International Inc
154. vel cannot be found within the valid measuring range The transmitter will keep searching for a valid level and the current is set to high saturation PV Function Block Mode The Function Block Mode is only displayed for Foundation Fieldbus transmitters The eight possible Modes are shown below OOS Out Of Service RCas Remote Cascade Auto Automatic Rout Remote Output Man Manual IMan Initialization Manual Cas Cascade LO Local Override Process Variable Tag User Configurable This field has 14 characters Engineering Units User Configurable This field has 8 characters Guided Wave Guided Wave Temp Other Radar Level Radar Volume C Percent F milliamp mA ft in m cm ft in US gal Custom Text mm Imp gal barrels m liters ft s m s in min m h Bar Graph The limits of the bar graph are user configurable for each screen Trend graph The limits of the trend graph are user configurable for each screen The amount of time visible on the Trend graph is also configurable 4 5 3 Button operation during monitoring When the operator screens are active on the Advanced Display the Increment and Decrement buttons f and can be used to move to the next or previous operator screen without waiting for the rotation time to expire Pressing the Enter button J will call up the Main Menu Page 72 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0
155. y Integrity Level 1 has the lowest Safety Instrumented System SIS The implementation of one or more Safety Instrumented Functions and is composed of any combination of sensor s logic solver s and final element s Secondary Variable SV A secondary dynamic feature of the process which may change rapidly and is measured Stillwell Stilling well A chamber that enables level measurement in turbulent conditions Tertiary Variable TV A tertiary dynamic feature of the process which may change rapidly and is measured Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 121 Time Domain Reflectometry TDR For Level measurement it is a measurement technique used to determine distance by measuring the time if takes to send electromagnetic measurement pulses along a waveguide for example a metallic probe reflect off a surface liquid or solid and travel back to the source Upper Product The lighter liquid when two liquids exist in a vessel e g oil in an oil water measurement application Upper Range Value URV A Basic Display parameter which allows users to enter the measuring value for which the analog output will be scaled to 20 mA Page 122 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 9 Appendix Certifications 9 1 Safety Instrumented Systems SIS Installations For Safety Certified Installations please refer to SLG 700 Safety Manual document 34 SL 25 05 for installatio
156. y Safe 4 20 mA Note 2 50 C to Association Class Il Ill Division 1 Groups A B C HART 70 C CSA D E F G T4 Canadaand Class 1 Zone 0 AEx ia IIC T4 Ga FOUNDATI 50 C to USA Ex ia IIC T4 Ga ON Fieldbus Note 2 70 C FISCO Nonincendive with intrinsically safe 4 20 mA 50 C to output HART Note 1 85 C Class l Division 2 Groups A B C D T4 Class I Zone 0 2 AEx nA ia IIC T4 FOUNDATI 7 Ga Gc ON Fieldbus Note 1 oe Ex nAlia IIC T4 Ga Gc I FISCO z Enclosure Type 4X IP66 IP67 All All Canadian Registration Number CRN CRN 0F14815 2 CSA 0F 17065 56 Explosion proof with intrinsically safe output Class I Division 1 Groups A B C D 50 C t Class 1 Zone 0 1 AEx d ia T4 Ga Gb All Note 1 9 85 C Dust Ignition Proof Class I Division 1 Groups E F G T4 Zone 21 AEx tb IIIC T95 C 4 20 mA 50 C to Intrinsically Safe HART Note 2 70 C FM Class I Il Ill Division 1 Groups A B C Approvals D E F G 14 FOUNDATIO 50 C to pending Class Zone 0 AEx ia IIC T4 Ga N Fieldbus Note 2 70 C FISCO Nonincendive with intrinsically safe EN o output e Note 1 a 9 Class l Division 2 Groups A B C D FOUNDATIO A Class I Zone 0 2 AEx nAfia IIC T4 N Fieldbus Note 4 50 C to Ga Gc FISCO 85 C Enclosure Type 4X IP66 IP67 All All Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 127 Comm Field Ambient
157. y in the Communication module e Carefully line up the display and snap it into place Verify that the two tabs on the sides of the display latch Installing a Display Module into a powered transmitter may cause a temporary Mote upset to the loop output value Orient the Display for proper viewing through the end cap window You can rotate the mounting orientation in 90 increments Page 74 SLG 700 SmartLine Guided Wave Radar User s Manual Revision 3 0 Restore transmitter power if removed See Table 4 10 amp Table 4 11 for jumper settings Display Module Connector Figure 4 4 Locating the Failsafe and Write Protect Jumpers Table 4 10 HART Failsafe and Write Protect Jumpers Jumper Arrangements Description Failsafe UP High Write Protect OFF Not Protected Failsafe DOWN Low Write Protect OFF Not Protected Failsafe UP High Write Protect ON Protected Failsafe DOWN Low Write Protect On Protected Revision 3 0 SLG 700 SmartLine Guided Wave Radar User s Manual Page 75 Table 4 11 Foundation Fieldbus Simulation and Write Protect Jumpers Image Description Fieldbus Simulation Mode OFF Write Protect OFF Not Protected Fieldbus Simulation Mode OFF Write Protect ON Protected Fieldbus SIM Mode ON Write Protect OFF Not Protected Changes to configurations and calibr

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