Honeywell SLG 700 Quick Start Manual

Smartline level guided wave radar

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Page 1 Document Title Document # SLG 700 SmartLine Guided Wave Radar Level Transmitter 34-SL-25-11 User’s Guide SLG 700 SmartLine Level Guided Wave Radar, HART option 34-SL-25-06 Manual SLG Pocket Configuration Guide, SmartLine Level Guided 34-SL-00-01 Wave Radar...
Page 2: Table Of Contents
Table of Contents INSTALLATION ........................... 4 Required tools ........................4 Operating conditions ......................5 Process connector ......................5 See the WIRING section for more information on grounding..........5 Rod probe assembly ......................6 Wire probe assembly ....................... 7 Coaxial probe assembly ....................8 SLG720 .........................
Page 3 Tables Table 1: Tools required ........................4 Table 2: Operating Conditions ......................5 Table 3: SLG720 bypass and stillwell recommended diameters ........... 22 Table 4: SLG726 bypass and stillwell recommended diameters ........... 22 Table 5: SLG720 recommended nozzle dimensions ..............25 Table 6: Probe Diameters ......................
Page 4: Installation
INSTALLATION Evaluate the site selected for the SmartLine Level Guided Wave Radar (GWR) installation with respect to the process system design specifications and Honeywell’s published performance characteristics. Required tools Note: The following tools are not supplied with the Transmitter. Table 1: Tools required...
Page 5: Operating Conditions
Operating conditions Table 2: Operating Conditions Transportation and Storage Operative Limits Parameter °C °F °C °F -40 to 85 -40 to 185 -55 to 120 -67 to 248 Ambient Temperature 0 to 100 0 to 100 Humidity LCD Display operating temperature -20°C to +70°C. Storage temperature -30°C to 80°C.
Page 6: Rod Probe Assembly
Rod probe assembly Rod probes are shipped in segments. The segments are attached with a stud and a lock washer. Step Action Fully thread the nut onto the central conductor. Using a lock washer, thread the first rod segment on to the central conductor. Torque the nut against rod probe and lock washer to secure the connection.
Page 7: Wire Probe Assembly
Wire probe assembly Step Action Fully thread the nut onto the central conductor. Using a lock washer, thread the wire swage on to the central conductor. Torque the nut against probe and lock washer to secure the connection. Note: Tighten the wire stud and nut to the following torque: ...
Page 8: Coaxial Probe Assembly
Coaxial probe assembly Coaxial probes are constructed out of an inner rod and an outer tube. Depending on the length of the coaxial probe it may be constructed out of several segments. Note: For the flanged HTHP, when constructing the probe, the nut should not intrude into the body of the process connector.
Page 9 Probe Length 1.0m to 2.0m Step Action Fully thread the nut onto the central conductor of the process connector. Place a lock washer between the locknut and the rod segment and torque the nut against the rod segment and lock washer to secure the connection.
Page 10 Probe Length ˃ 2.0m Probes over 2m in length will always have a starter tube segment and an end tube segment. They may have 0 to 2 extension tube segments. It is advisable to build the probe up 2m at a time. The assembly procedure starts as follows: Step Action Fully thread the nut onto the central conductor of the process...
Page 11 Install the rod end segment by repeating Step 2 and 3. Then use a tube coupler to attach the tube end segment. Insert 2 M3 set screws into each coupler. Note: Tighten M3 set screws to the 1.0Nm (8.8in-lb). It is recommended that a process compatible thread locking compound (i.e.
Page 12: Figure 5: Slg720 Coaxial Probe Assembly
Figure 5: SLG720 Coaxial Probe Assembly Quick Start Installation Guide December 2017...
Page 13: Slg726
SLG726 Depending on the length of the probe there may be 0 to 3 2.0m rod segments. Coaxial probes ≤ 2.0m are shipped with a single outer tube.  Coaxial probes ˃ 2.0m are shipped with the outer tube in segments. ...
Page 14 Prior to securing the next rod segment, place a “star shaped” spacer over the rod segment end. The wrench flats on the rod end will index the spacer. Depending on the probe length there could be 0 to 2 more rod segments and 1 rod "end"...
Page 15: Figure 6: Slg726 Coaxial Probe Assembly
Slip the coaxial end segment over the rod end segment and secure to coaxial coupler. Note: Tighten rod connection point to the following torque: SLG726 30 Nm (22 ft-lbs)  It is recommended that a process compatible thread  locking compound (i.e. Loctite 242) be used on the outer conductor threaded joints.
Page 16: Saturated Steam Application Probe Assembly
Saturated Steam Application Probe Assembly Saturated steam application is available with SLG726 rod and coax probes. The nut and first inner rod segment have a larger diameter. The remaining hardware is identical. Refer Figure 7 for saturated steam hardware. To assemble the probes, thread the saturated steam application nut to the central conductor, tapered end towards the process connector.
Page 17: Trimming The Probe
Trimming the probe WARNING: Trimming the probe requires that the probe length configured in the transmitter is changed accordingly. Device Action Rod probe Where clearance to the bottom of the tank is less than 0.4″ (10 mm), the rod must be shortened. Rod probes are supplied in segments.
Page 18: Mounting The Transmitter
Figure 8: Drill hole position on outer tube MOUNTING THE TRANSMITTER Flange mount Step Action To mount a flange mounted transmitter, bolt the transmitter’s flange to the flange on the roof of the tank. On insulated tanks, remove enough insulation to accommodate the flange extension.
Page 19: Threaded Mount
Recommended nozzle diameter (D) Recommended nozzle height (H) Figure 9: Flange mounting Threaded mount Figure 10: Tank roof mounting using a Threaded Mounting December 2017 Quick Start Installation Guide...
Page 20: Figure 11: Rotate The Transmitter
Step Action 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. The transmitter must be tightened to the appropriate torque setting.
Page 21: Mounting On A Bypass, Bridle, Or Still Well
Mounting on a bypass, bridle, or still well The SLG 700 transmitter can be mounted in a new or existing bypass pipe, bridle, or a side pipe, see Figure This type of installation is often simpler and allows the addition of radar level measurement to an otherwise busy installation.
Page 22: Table 3: Slg720 Bypass And Stillwell Recommended Diameters
Table 3: SLG720 bypass and stillwell recommended diameters Probe type Recommended diameter Minimum diameter Rod probe 3” or 4” (75 mm or 100 mm) 2” (50 mm) Wire probe 4” (100 mm) 2” (50 mm) Coaxial probe 1.5” (37.5 mm) Table 4: SLG726 bypass and stillwell recommended diameters Probe type Recommended diameter...
Page 23: Mounting On A Non-Metallic Container
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 (>2″/DN50) or if a threaded process connection is in use, the probe must be screwed into a metal sheet (diameter > 8″/200 mm). Figure 13: Mounting on a non-metallic vessel Figure 14 depicts an example of mounting in concrete silos, the placement of the concrete...
Page 24: Remote Mount
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 limited. To assemble the remote mount, attach the process connector first, followed by securing the mounting bracket to a pipe or wall.
Page 25: Nozzle Mount
Nozzle mount The transmitter can be mounted to a tank nozzle using the appropriate flange. Figure 9 for an example. Table 5 shows recommended nozzle dimensions based on probe type. Table 5: SLG720 recommended nozzle dimensions Single probe Coaxial probe (rod/wire) Recommended nozzle 6”...
Page 26: Conduit Entry Plugs And Adaptors
Conduit Entry Plugs and Adaptors Procedures It is the User/Installer’s responsibility to install the Transmitters in accordance with national and local code requirements. Conduit entry plugs and adapters shall be suitable for the environment, shall be certified for the hazardous location when required and acceptable to the authority having jurisdiction for the plant.
Page 27: Conduit Adapters
= + + For all HART installations, Honeywell recommends the HART resistor to be placed on the positive side. Voltage should not exceed 42 VDC. See the process design system documentation for specifics.
Page 28: Figure 17: Hart / 4-20Ma Operating Voltage (Vdc)
Figure 17: HART / 4-20 mA Operating Voltage (VDC) See the SLG 700 User’s Manual, Document #34-SL-25-11 for details on the voltage calculation, and guidance when considering the resistance of intrinsic safety barriers. Loop wiring is connected to the Transmitter by simply attaching the positive (+) and negative (–) loop wires to the first two...
Page 29: Figure 18: Hart 3-Screw Terminal Board And Grounding Screw
Figure 18: HART 3-Screw Terminal Board and Grounding Screw Note: The rightmost terminal as shown in Figure 18 is for a loop test and is not available in the Fieldbus option. December 2017 Quick Start Installation Guide...
Page 30: Wiring Procedure
FOUNDATION Fieldbus Operating Ranges The FOUNDATION Fieldbus SLG 700 transmitter requires a terminal voltage in the range 9Vdc to 32Vdc. WIRING PROCEDURE Step Action Ensure the loop power supply is off. Remove the end cap cover from the terminal block end of the Electronics Housing Insert the power leads through each conduit entrance.
Page 31: Hazardous Location Installations
HAZARDOUS LOCATION INSTALLATIONS For hazardous location installations, refer to the SmartLine Guided Wave Radar Level Transmitter User’s Guide, Document #34-SL-23-11 for further information and warnings. Explosion-proof conduit seal When installed as explosion-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.
Page 32: Figure 19: Hart Jumper Location
ATTENTION: Electrostatic Discharge (ESD) hazards. Observe precautions for handling electrostatic sensitive devices. Step Action Turn OFF Transmitter power. Loosen the end-cap lock, and unscrew the end cap from the Electronics side of t-he Transmitter housing. If applicable, carefully depress the tabs on the sides of the Display Module and pull it off.
Page 33: Table 8: Hart Jumper Settings
Table 8: HART Jumper Settings Image 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) December 2017 Quick Start Installation Guide...
Page 34: Set The Jumpers For Foundation Fieldbus (Ff)
Set the Jumpers for FOUNDATION Fieldbus (FF) There is no Failsafe jumper on the FOUNDATION Fieldbus transmitters, but there is a Write Protect jumper and a simulation-mode jumper (see manual 34-SL-25- 07). ATTENTION: Electrostatic Discharge (ESD) hazards. Observe precautions for handling electrostatic sensitive devices. Step Action Turn OFF Transmitter power.
Page 35: Configuration Guide
Advanced LED Display: Multi-line display. No Display: Configuration is not available.  Use Table 10 to configure Advanced Display transmitters. See the SLG 700 SmartLine Level User’s Manual, Document #34-SL-25-11 for more information. (R) = Read only Table 10: Advanced Display Configuration...
Page 36 SmartLine Level Guided Wave Radar Basic Configuration sub-menu (continued) 4-20 mA Damping Output (HART NAMUR Output only) Loop Curr Mode Latching Mode BDH/BDL Loop Set LRV Set LRV (HART only) Set URV Year Month Install Date Install Date Write Date Advanced Configuration sub-menu Transmtr Model (R) Sensor Conn Type (R)
Page 37 Start Cal (calibration process is inactive) Steam Ref Cal Stop Cal (calibration process is active) (Saturated Steam Measured Prod only) Vol Calc Type Volume Tank Shape Tank Diameter Tank Length Tank Width Volume (continued) Tank Height Volume Offset (Vol Calc Type is Tank Shape only) Ampl Tracking Location Width...
Page 38 SmartLine Level Guided Wave Radar Unlic Intf Meas (R) Unlic Sat Steam (R) Unlic Low DC App (R) ModelNumMismatch (R) Critical Diag (R) Sensr DB Corrupt (R) Reset Sensr DB (Sensor DB corrupt only) Comm DB Corrupt (R) Reset Comm DB (Comm DB corrupt only) Active Diags (R) Supply Voltage (R) Elec Module Temp (R)
Page 39 Firmware Version (R) Sensor Info Model Key (R) Device ID (R) Duration Echo Stem Plot Show Stem Plot Model Number Model Number (R) (no mismatch only) Comm Model Num (R) (mismatch only) Sensor Model Num (R) (no mismatch only) Matching Source (mismatch only) Do Match (mismatch only) Interface Meas (R) Options...
Page 40 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 Honeywell Process Solutions 1250 West Sam Houston Pkwy S 34-SL-25-04 Rev. 7.0...

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