™ 705 software V3.x Installation and Operating Manual Guided Wave Radar Level Transmitter ® UNPACKING Unpack the instrument carefully. Make sure all components have been removed from the foam protection. Inspect all components for damage. Report any concealed damage to the carrier within 24 hours. Check the contents of the carton/crates against the packing slip and report any discrepancies to Magnetrol. Check the nameplate model number to be sure it agrees with the packing slip and purchase order. Check and record the serial number for future reference when ordering parts. To avoid moisture ingress in the housing, covers should be fully tightened at all times. For the same reason, plugs should remain properly installed in the cable entries until replaced with a cable gland. These units are in conformity with the provisions of: 1. The EMC Directive: 2014/30/EU. 0038 The units have been tested to EN 0344 61326: 1997 + A1 + A2. 2. Directive 2014/34/EU for Equipment or protective system for use in potentially explosive atmospheres. ECtype examination certificate number KEMA99ATEX0518X (intrinsic safe units) or BKI 12 ATEX 0017 (Ex d units) or KEMA99ATEX5014 (Non sparking units). 3. The PED directive 2014/68/EU (pressure equipment directive). Safety accessories per category IV module H1. SPECIAL CONDITIONS FOR ATEX INTRINSICALLY SAFE USE Amplifier nameplate: - partnumber - amplifier - serial n° - temperature/pressure - approval data Probe nameplate - partnumber - serial number Because the enclosure of the Guided Wave Radar Level Transmitter Eclipse Model 705-5xxx-x1x and 705-5xxx-x7x and/or Probe Eclipse Model 7xx-xxx-xxx is made of aluminium, if it is mounted in an area where the use of category 1G apparatus is required, it must be installed such, that, even in the event of rare incidents, ignition sources due to impact and friction sparks are excluded. For applications in explosive atmospheres caused by combustible dust, gases, vapours or mists and where category 1G or 1D apparatus is required, electrostatic charges on the non-metallic parts of the Probe Eclipse Model 7M5-xxx-xxx, Model 7M7-xxxxxx and Model 7xF-xxx-xxx shall be avoided. 2 MOUNTING IMPORTANT: To avoid damaging during transportation, Eclipse® 7MD/7ML large coax probes are shipped with 3 transport screws, securing the inner antenna. The 3 screws have to be removed prior to installation. They are located nearby the process connection. A separate label is attached to draw the attention to remove the screws. To avoid moisture ingress in the housing, covers should be fully tightened at all times. For the same reason, cable gland and plugs should be properly installed in the cable entries. The unit is preconfigured from factory, based on given application details (when available). Therefore transmitter and GWR probe have the same serial n°. Please make sure that corresponding serial numbers are mounted together. Coaxial type GWR probes: Flushing connection (7ML - 7MM - 7MN) Coaxial type GWR probes (7MD - 7MQ - 7MR - 7MS - 7MT) Size: 38 mm (1 1/2") or adjustable wrench 1/4" NPT plugged flushing connection Size: 38 mm (1 1/2") or adjustable wrench Not important min 25 mm (1") from tank bottom Customer supplied brackets are recommended per each 3 m length. (Required for WGH § 19 installations.) 1/4" NPT plugged flushing connection Not important min 25 mm (1") from tank bottom Customer supplied brackets are recommended per each 3 m length. (Required for WGH § 19 installations.) Note: The flushing connection allows to purge the inside of the coaxial probe without dismantling. Re-assure the use of compatible purging liquid/gas to avoid unwanted chemical reaction. Overfill safe and Overfill proof Eclipse 7MD/7ML, 7MR/7MM and 7MT/7MN coaxial GWR probes are “Overfill safe” in use and “Overfill proof” certified. Overfill safe means that the unit is capable to measure up to the process connection. Overfill proof protection (such as WHG or VLAREM) certifies reliable operation when the transmitter is used as overfill alarm but assumes that the installation is designed in such way that the vessel/ cage cannot overfill. Eclipse 7MQ/7MS has a transitioning zone (zone in which the unit does not measure accurately) at the top. Maximum level should not be higher than 25 mm (1") up to 200 mm (8") (depending dielectrics - see probe specifications) below the process connection. This may include utilizing a nozzle or spool piece. Note: When using the 7MQ or 7MS probe, keep transmitter and probe matched as a set. Metallic (or any conductive) obstructions in the tanks Metallic obstructions have no influence on the measuring performance of coaxial GWR probes. Turbulence Customer supplied mounting brackets are recommended per each 3 m (10’) length and have no influence on the measuring performance of coaxial GWR probes. Stillwell /cages Coaxial GWR probes are ideally suited for use in stillwells or cages. There is no min. clearance allowance to be taken into consideration. Shortening of probe length Coaxial GWR probes can be easily shortened on site when a procedure for this is strictly followed. This procedure can be separately obtained from factory. 3 MOUNTING Twin rod (7MB) / Twin cable (7M5 - 7M7) GWR probes Mounting considerations for 7MB Nozzle should be DN80 (3") diameter or larger. Mounting considerations for 7M5/7M7 For nozzles < DN80 (3") diameter, the bottom of the inactive section of the probe should be flush with the bottom of the nozzle or extend into the vessel. Size: 47 mm (1 7/8") or adjustable wrench min. 25 mm (1") from any metal object min 25 mm (1") from tank bottom Use half open brackets for twin rod probes. Overfill safe and Overfill proof Eclipse twin rod GWR probes use software to ignore level readings in the transitioning zone at the top of the GWR probe. The maximum level is a minimum of 150 mm (6") below the process connection. This may include utilizing a nozzle or spool piece to raise the probe. Twin rod probes are overfill proof certified but not overfill safe in use. Eclipse twin cable GWR probes, used in media with low dielectrics (hydrocarbons, powders) may require the setting of a blocking distance (zone in which the unit will not measure) of 300 mm up to 500 mm (12" to 20") depending probe length. The longer the probe, the longer the blocking distance will be. Eclipse twin cable GWR probes are not overfill proof certified and not overfill safe in use. Metallic (or any conductive) obstructions in the tanks Objects in the proximity within 25 mm (1") or closer such as pipes, support beams, metal ladders etc… may cause erroneous readings. min 25 (1) Off center rod Tank or cage wall 4 For twin cable: min 25 mm (1") from any metal object Turbulence 7MB: Customer supplied brackets are recommended per each 3 m (10') length and have no influence on the measuring performance of 7MB GWR probes. Use the “off center” rod to fasten the brackets (see above drawings). 7M5/7M7: It is recommended to secure the probe if significant turbulence exists. Optional weights are available to keep the probe taught. The probe should not make any contact with the metal tank wall. The 7M7 (liquids) probe can be attached to the bottom of the tank – it is not recommended to attach the 7M5 (solids) probe at the bottom of the tank. Stillwell/cages Min. 3" / DN 80 size nozzles, stillwells or by-pass cages are required for a good operation. Twin rod/cable probes should be min 25 mm (1") away from any metal tank wall. 7M5/7M7 have a 76 mm (3") inactive section. For nozzles < 3"/ DN 80, this section should be flush with the bottom of the nozzle or extend into the vessel. IMPORTANT: Twin rod/cable probes should be installed into a metal tank, stillwell or by-pass cage to meet CE requirements (EN 61326: 1997 + A1 + A2) electromagnetic compatibility. MOUNTING Twin rod (7MB) / Twin cable (7M5 - 7M7) GWR probes Shortening of probe length 7MB probes can be shortened safely in the field. Make sure to re-install the bottom spacer for proper alignment and to adapt the probe length/ 4-20 mA settings in the menu. Twin cable probes can be safely shortened in the field using below procedure. Make sure to adapt the probe length / 4-20 mA settings in the menu. 7M7/7M5 probe can be shortened in field. a. raise the weight (1) to expose the two 1 securing devices (2) b. loosen the two #10-32 set screws (3) on both securing devices using a 2.5 mm (3/32") hex wrench and slide the securing devices off of the probe c. slide the TFE weight off of the probe. d. cut and remove the required cable (4) length e. remove 90 mm (3 1/2") of the rib between the two cables f. strip 16 mm (5/8") of coating from the two cables. 2 g. slide the TFE weight back on to the probe. h. enter new probe length (cm or inches) in software (See page 12, Item 9) 13 mm Ø (0.50") Note: Probe can be attached to the tank bottom using the noose or the 13 mm Ø (0.50") hole provided in the TFE weight. 7M7 GWR probes: cable tension should not exceed 89 N 7M5 GWR probes: pull down force should not exceed 1360 kg (3000 lbs) 3 4 Cage GWR probe (7MG) For cage/still well: 2": Ø 13 mm (0.50") rod Vent Venting holes For cage/still wells: 3": Ø 19 mm (0.75") tubing 4": Ø 25 mm (1.00") tubing Bottom spacer Bottom spacer Customer or magnetrol supplied cage/bridle or still well. Drain Overfill safe All 7MG GWR probes are overfill safe. Overfill safe means that the impedance match of the waveguide (probe) is aligned from electronics down to the bottom of the GWR probe. This allows the Eclipse 705 to measure up to the process flange without any dead zone at the top of the GWR probe. Metallic (or any conductive) obstructions in the tanks Metallic obstructions have no influence on the measuring performance of cage GWR probes. Stillwell/cages The cage GWR probe is a single rod GWR probe which uses an existing or new cage, bridle or schedule pipe stillwell to re-create the same propagation of signal of a coaxial GWR probe. Cage GWR probes are suited for 2", 3" or 4" size diam. and use an impedance matching part that aligns in the same way with the characteristic impedance of a standard coaxial style GWR probe. Shortening of probe length Cage GWR probes can be easily shortened on site. Always re-install the bottom spacer and adapt the new probe length in the menu of the amplifier. 5 MOUNTING Single rod (7MF - 7MH - 7MJ) / Single cable (7M1 - 7M2) GWR probes Size: 38 mm (1 1/2") or adjustable wrench Size: 38 mm (1 1/2") or adjustable wrench High Level shutdown and Overfill protection Special consideration is necessary in any high level shutdown / overfill protection application where single rod GWR probes are used. To ensure proper measurement, the guided wave radar probe should be installed so the maximum overfill level is at a minimum of 120 mm (4.8") up to 910 mm (36") – blocking distance depending application below the process connection. Consult factory for further information. Metallic (or any conductive) obstructions in the tanks Objects in the proximity of the probe may cause erroneous readings. Distance to probe < 150 mm (6") > 150 mm (6") > 300 mm (12") > 450 mm (18") Acceptable objects Continuous, smooth, parallel, conductive surface (e.g. metal tank wall); probe should not touch tank wall < 1"/DN25 diameter pipe and beams, ladder rungs < 3"/DN80 diameter pipe and beams, concrete walls All remaining objects Turbulence The bottom of the probe should be stabilized if turbulence will cause a deflection of more than 75 mm at 3 m (3" at 10') of length. Optional bottom spacers in TFE (for 7MF) or PEEK (for 7MJ) should be used to stabilize the probe, in case turbulence exists. It is recommended to secure the probe (7M1/7M2) if significant turbulence exists (see above drawing at right side). Optional weights are available to keep the probe taught. The 7M1 (liquids) probe can be attached to the bottom of the tank – it is not recommended to attach the 7M2 (solids) probe at the bottom of the tank. The probe should not make any contact with the metal tank wall. 6 Stillwell/cages Max. 6” / DN 150 size stillwells or by-pass cages or a metal tank wall within 150 mm (6”) of the probe, will allow the unit to measure accurately in media with dielectrics down to εr 1,9. Nozzles do not restrict the performance by ensuring the following: 1. Nozzle must be 50 mm (2") or larger diameter. 2. Nozzle inside diameter (A) should be ≥ to nozzle height (B). If this is not the case, it is recommended to adjust BLOCKING DISTANCE and/or SENSITIVITY settings. A B Correct installation Pipe reducers should not be used IMPORTANT: Single rod/cable probes should be installed into a metal tank, stillwell or by-pass cage to meet CE requirements (EN 61326: 1997 + A1 + A2) electromagnetic compatibility. When used in a non-metallic vessel flange (metal) mounting is recommended for optimal performance. MOUNTING Single rod (7MF - 7MH - 7MJ) / Single cable GWR probes Shortening of probe length Single rod/cable probes can be shortened safely in the field. Make sure to adapt the probe length/ 4-20 mA settings in the menu and the re-install of a bottom spacer when applicable. Single cable probes can be safely shortened in the field using below procedure. Make sure to adapt the probe length/ 4-20 mA settings in the menu. 7M1/7M2 probe can be shortened in field. a. raise TFE weight (1) exposing securing device (2) b. loosen both #10-32 set screws (3) using 2.5 mm (3/32") hex wrench and remove securing device c. cut and remove needed cable length (4) d. re-attach securing device (2) and tighten screws e. enter new probe length (cm or inches) in software (See page 12, Item 9) 1 2 13 mm mm flØ 13 (0.50") (0.50") Note: Probe can be attached to the tank bottom using the noose or the 13 mm Ø (0.50") hole provided in the TFE weight. 7M1 GWR probes: cable tension should not exceed 89 N (20 lbs). 7M2 GWR probes: pull down force should not exceed 1360 kg (3000 lbs) 3 4 Top/Bottom GWR probes (7EK) 1 1/2" or 2" Flanged 1 1/2" or 2" socket weld or NPT Overfill safe and Overfill proof Eclipse 7EK GWR probes are “Overfill safe” in use and “Overfill proof” certified. Overfill safe means that the unit is capable to measure up to the process connection. Units with “non overfill safe” probes use software to ignore level readings in the blocking distance or transitioning zone. When level rises too high in this zone, the unit may consider the end of probe reflection as the real level and may report an empty vessel instead of an overfilling vessel. Overfill proof protection (such as WHG or VLAREM) certifies reliable operation when the transmitter is used as overfill alarm but assumes that the installation is designed in such way that the vessel/cage cannot overfill. The 7EK probe is designed to replace without modification top/bottom mounted displacer transmitters. The unit will measure over the entire probe length and indicate for 20.5 mA above the highest measurable point and 3.8 below the lowest measurable point. 7 MOUNTING Transmitter Integral (a) (b) Remote Max. rotation 270° 360° rotatable: Position for optimum wiring/viewing Size: 38 mm (1 1/2") or adjustable wrench Recommended torque 60 Nm (45 ft-lbs) Remove protection Remove protection CAUTION: be careful not to bend or dirty the gold, high frequency male connector (a) and its female connector (b). Clean with isopropyl alcohol and cotton swabs, if necessary Insulation Do not insulate the high frequency connector in case of high temperature applications WRONG 8 Max +150 °C (+300 °F) Max +100 °C (+212 °F) for Ex d unit GOOD On high or low temperature applications, install a vented protection around the probe/housing. WIRING CAUTION: power must be switched OFF before wiring the unit. Positive supply to (+) terminal Negative supply to (-) terminal Current loop test point (HART® only) – – LOOP CURRENT + ® IS IS Shield wire to green grounding screw (resistance to ground must be < 1 Ω). Use certified flameproof cable gland(s) and cable for Explosion proof area. Standard shielded twisted pair cable (recommended but not needed when wired as per NAMUR NE 21 for field strenghts up to 10 V/m). 100 % 0% Ex Ex Non Ex Ex Non Ex Galvanic Barrier (only needed for intrinsically safe units): HART®: max. 28,4 V DC @ 124 mA Foundation Fieldbus™ / Profibus PA™: max. 17,5 V DC @ 380 mA ANALOG I/O or DIGITAL I/O (only for units with HART) Customer supplied local current meter Non Ex Do not connect shield IMPORTANT: The shield wire should only be grounded at ONE side only. It is recommended to connect the shield to ground in the field (at the transmitter side - as shown above) but connecting in the control room is also allowed. LOOP RESISTANCE 1200 20,5 mA 1000 800 Ω 630 600 400 200 0 0 10 11 20 24 Vdc 30 40 Vdc 9 CONFIGURATION NOTE: When connected to an approved barrier, the intrinsically safe electronics of the Eclipse allow to remove the covers with power switched on – even if the area is known to be hazardous 2 line – 8 characters LCD Default display cycles every 5 s through Status «STATUS» / Level «LEVEL» / % output «% OUTPUT» / Loop «LOOP». Up/Down and Enter pushbuttons IMPORTANT: The Eclipse amplifier can be bench configured without GWR probe connected. Ignore the start up message «No Level Signal» / «STATUS» / «WeakSgnl» in this case. Display Units! cm Action Press Units! cm Press Units cm Press PASSWORD DISPLAY Ent Pass 0 Ent Pass! 1 New Pass 4096 : Comment The last character on the first line of the display changes to «!». This sign confirms that the values/choices of the second line can be modified via the and push buttons. * Scroll through the choices or increase/decrease the values on the second line of the display by and pushbuttons. pushbutton. * Accept values/choices as selected by Scroll through the menu. ACTION COMMENT Display shows «0» Factory default setting Data is not protected Press and last character changes into «!» Enter your personal password with and (any value between 1 and 255) Press to confirm Setting password Display shows an encrypted value, enter your password or call Magnetrol for assistance to recoop your password if necessary Data is protected by a valid Password Press and enter old password Press and last character changes into «!» Enter your new password with and (any value between 1 and 255) Press to confirm Changing password NOTE: Password protection is activated when after 5 minutes no keystrokes are sensed. 10 CONFIGURATION TERMINOLOGY 20 mA Level (100%-point) Probe Type Offset Blocking distance 4 mA Level Inch or cm εr = 2.0: 150 mm (6") + Offset εr = 80: 25 mm (1") + Offset Safety Zone 20 mA Level = cm or inches or 100 % level point, is measured from the reference point. The unit has a transition zone at the top of the probe. Transition zone varies depending on probe type and media: see probe specifications page 34 and continuing. cm or inches, record the exact probe length as Probe length = printed on the nameplate: 705-xxxx-xxx / 7Mx-xxx-xxx Dielectric Select the dielectric scale of the media to measure: 1.4– 1.7 or 1.7–3 or 3–10 or 10–100. When the dielectric is known, it will enhance the overall accuracy of the unit but select the dielectric scale ALWAYS to the lowest expected dielectricum. Probe Length Dielectric of medium 4 mA Level (0%-point) Offset Reference point Positive offset No offset (Offset at 0 cm) (Offset at 10 cm) 75 cm 15 cm 100 % 20 mA = 75 cm 0% 4 mA = 15 cm 10 cm = cm or inches The offset is the distance between reference point (e.g. bottom of tank) and end of probe. From the reference point both 4 mA and 20 mA levels are calibrated. When offset is set at zero, the end of the probe is the reference point. = cm or inches or zero level point, is measured from the reference point. The unit has a transition zone at the bottom of the probe. Min. level to enter for media with: Negative offset (Offset at -15 cm) 20 mA = 85 cm 20 mA = 60 cm 4 mA = 25 cm 4 mA = 0 cm Safety zone: In addition to the blocking distance, the user can introduce a safety zone to warn for liquid level entering this zone beneath the blocking distance. The loop signal will shift in this zone to a selectable fault signal. The unit will go to normal read out, when level drops lower than the safety zone, unless a latched fault signal is used. The safety zone is disabled from factory. Safety zone related settings include: «SZ Fault»: to select the preferred error signal «SZ Height»: to define the safety zone area «SZ Alarm Reset»: to manually reset a latched «SZ Fault» BEFORE STARTING Start from run mode: 1. Select the desired language for configuration: English, French, German or Spanish in the language screen (32) «language». Scroll up for quickly reaching the language selection screen. 2. Define type of measurement: a. Level only (pages 12 & 13) b. Level and Volume (pages 14 & 15) c. Interface only (pages 16 & 17) d. Interface and Volume (pages 18 & 19) Scroll down until the screen reads «MeasType». The unit will now show only the applicable screens for the selected type of measurement. 3. Scroll one screen down and select the applicable engineering unit in «LvlUnits», all configuration values will be entered in that engineering unit. 4. Move to the loop control screen «LoopCtrl», select the loop control in function of the type of measurement «MeasType» selected. 5. Refer to the configuration procedure of the selected type of measurement. 6. Refer to page 20 for all hidden diagnostic screens and advanced configuration parameters. These screens allow the advanced user to configure the unit for special applications or to troubleshoot the unit in the field. It is NOT recommended to access this toolset without proper guidance or having followed proper training. 11 MENU: STEP BY STEP PROCEDURE – Eclipse 705: Level only Screen Run mode 1 Transmitter Display Level xx.x Transmitter Display 4 Loop xx.xx mA Transmitter Display 6 PrbMount (select) 8 LvlUnits (select) 2 3 5 7 Configuration *Status* *Level* *%Output* *Loop* Action %Output xx.x% PrbModel (select) MeasType (select) Transmitter default values cycle every 5 seconds. Status «Status», Level «Level», % Output «% Output», and Loop «Loop». Transmitter displays level value in selected engineering units. Transmitter Display Transmitter displays % Output measurement derived from 20 mA span. Select the type of probe Select as per the 3 first digits of the probe partnumber. The partnumber is shown on the nameplate: e.g. 705-510A-A11/7MT-A230-218, select 7xT-x from the list. Transmitter displays Loop measurement (mA). Select NPT «NPT», BSP «BSP» or Flange «Flange». (consult facto- Select the type of probe mounting. ry when a «7xK» GWR probe is used) Select units for level cm «cm», m «m», inches «inches» or feet «feet». Select the type of measurement Select level «Levl Only». 9 Probe Ln xxx.x Enter the exact length of probe. 10 Lvl Ofst xxx.x Enter the offset value. 11 Dielctrc (Select) Enter the dielectric range value of the media Select: «1.4–1.7»; «1.7–3»; «3–10» or «10–100» «1.7–3» is recommended for dielectrics ≥ 1,7 13 Loop Ctrl (Select) Select primary variable (PV) Primary variable is the loop controlling parameter. Select level Set 4mA xxx.x Enter the level value for the 4 mA point. A transition zone may exist at the bottom of the probe. See Functional Specifications Probe, see page 34 and continuing. Damping xx sec Enter the damping factor. 12 14 15 16 17 Senstvty xxx Set 20mA xxx.x Fault (Select) Enter sensitivity value Enter as per the 3 last digits of the probe partnumber on the nameplate: - rigid probes, enter value cm or inches, - flexible probes, enter value in meters or feet e.g. 705-510A-A11/7MR-A230-218, enter «218» cm probe length. When entering configuration values from the end of the probe is cumbersome, an offset can be introduced to determine a new reference point. This reference point can be either below the probe (positive offset) or at the probe (negative offset). See page 11 “Terminology”. Allows fine adjustment of internal gain. «Lvl only» Enter the level value for the 20 mA point. A transition zone / blocking distance may exist at the top of the probe. See Functional Specifications Probe, see page 34 and continuing. Enter the value for error. Select «3.6 mA», «22 mA» or hold last value «HOLD». In case of loop failure, error signal will follow the failing trend; meaning the unit will show 3.6 mA when the reviewed loop current by the device is found too low. The unit will show 22 mA in case the reviewed loop current is found too high. = Quick Start up 12 Comment A Damping factor (1-10 seconds) may be added to smooth a noisy display and/or output due to turbulence. MENU: STEP BY STEP PROCEDURE – Eclipse 705: Level only Screen Comment Enter distance in selected level units 18 BlockDis xx.x 19 SZ Fault (select) Select the safety zone fault. 20 SZHeight xx.x Select the safety zone value 21 SZ Alarm Reset Reset safety zone latch fault Threshld (select) Select the type of threshold 23 Poll Adr xx Enter HART ID number. Trim Lvl xx.x Enter value to adjust level reading. 22 Diagnostics Action 24 25 26 27 Loop Mode Trim 4 xxxx Trim 20 xxxx Enable/Disable Determines whether the loop is fixed at 4.0 mA or controlled by the PV. Allows to compensate for a fixed level deviation. Set mA Output to any given value to perform loop test . New Pass xxx Enter new password. Mdl705HT Ver xx.xx None, do not adjust. 33 «Fixed» = the first reflection from the top will be considered as level (default setting) «CFD» = the strongest reflection from the top will be considered as level. Only change to «CFD», in case the unit is reading incorrect level. Adjustment of trim level «Trim Lvl» may be necessary when threshold is changed. Select a HART poll address (0-15). Enter 0 for a single transmitter installation. Enter a mA output value. Fine tune the 20 mA point. 30 32 Clear a latched safety zone alarm «SZFault». Attach a mA meter to the output. If the output does not equal 4.0 mA, adjust the value on the display to equal 4.00 mA. Loop Tst xx.x mA 31 Enter safety zone in cm or inches (see Terminology - page 11). Fine tune the 4 mA point. 28 29 Allows to ignore level measurements near the top of the probe, caused by e.g. condensation, crystalization. Make sure that the liquid level does NOT enter this zone. Consult factory or the ‘Troubleshooting’ section before entering any value. Normaly to be used with single rod probe. Select «None» (None), «3.6mA», «22mA», «Latch 3.6mA» or «Latch 22mA». When either «Latch 3.6 / 22mA» signals is selected, the loop current remains in alarm until it is manually cleared with the «SZAlarm» screen ( for safety zone explanation see Terminology - page 11). Attach a mA meter to the output. If the output does not equal 20.0 mA, adjust the value on the display to equal 20.00 mA. LvlTicks xxxxx Diagnostic display. Shows time of flight from fiducial pulse to reflected signal from level. Language Select language Select «English», «Français», «Deutsch» or «Espagnol». DispFact (select) Advanced diagnostics. See page 20. OFFSET Use arrows to select desired value. Values between 0 and 255. No offset (Offset at 0 cm) 75 cm 15 cm 100 % 20 mA = 75 cm 0% 4 mA = 15 cm Factory setting. «Ver» refers to software version. Positive offset (Offset at 10 cm) Negative offset (Offset at -15 cm) 20 mA = 85 cm 20 mA = 60 cm 4 mA = 25 cm 4 mA = 0 cm 10 cm 13 MENU: STEP BY STEP PROCEDURE – Eclipse 705: Level & Volume Screen Run mode 1 Transmitter Display Volume xxx Transmitter Display 4 Loop xx.xx mA Transmitter Display 6 PrbModel (select) Select the type of probe 7 PrbMount (select) Select the type of probe mounting. 9 LvlUnits (select) Select units for level 2 3 5 8 Configuration *Status* *Volume* *%Output* *Loop* Action Transmitter default values cycle every 5 seconds. Status «Status», Volume «Volume», % Output «% Output», and Loop «Loop». Transmitter displays Volume Value in selected engineering units. %Output xx.x% Transmitter Display Transmitter displays % Output measurement derived from 20 mA span. Level xxx Transmitter Display Transmitter displays level in selected volume units «LvlUnits». MeasType (select) Select the type of measurement Transmitter displays Loop measurement (mA). Select as per the 3 first digits of the probe partnumber. The partnumber is shown on the nameplate: e.g. 705-510A-A11/7MT-A230-218, select 7xT-x from the list. Select NPT «NPT», BSP «BSP» or Flange «Flange». (consult factory when a «7xK» GWR probe is used) Select level and volume «Lvl&Vol». cm «cm», m «m», inches «inches» or feet «feet». 10 Probe Ln xxx.x Enter the exact length of probe. 11 Lvl Ofst xxx.x Enter the offset value. 12 VolUnits (select) Select units for volume Dielctrc (Select) Enter the dielectric range value of the media Select: «1.4–1.7»; «1.7–3»; «3–10» or «10–100» «1.7–3» is recommended for dielectrics ≥ 1,7 Loop Ctrl (Select) Select primary variable (PV) Primary variable is the loop controlling parameter. Select level «Lvl only» or volume «volume» 13 14 15 16 17 18 19 20 StrapTbl xx pnts Senstvty xxx Enter level/volume pairs in max 20 steps Enter sensitivity value Set 4mA xxx.x Enter the level value for the 4 mA point. Damping xx sec Enter the damping factor. Set 20mA xxx.x Fault (Select) Enter as per the 3 last digits of the probe partnumber on the nameplate: - rigid probes, enter value cm or inches, - flexible probes, enter value in meters or feet e.g. 705-510A-A11/7MR-A230-218, enter «218» cm probe length. When entering configuration values from the end of the probe is cumbersome, an offset can be introduced to determine a new reference point. This reference point can be either below the probe (positive offset) or at the probe (negative offset). See page 11 “Terminology”. Liters «l» or gallons «g». Liters «l» or gallons «g». Allows fine adjustment of internal gain. A transition zone may exist at the bottom of the probe. See Functional Specifications Probe, see page 34 and continuing. Enter the level value for the 20 mA point. A transition zone / blocking distance may exist at the top of the probe. See Functional Specifications Probe, see page 34 and continuing. Enter the value for error. Select «3.6 mA», «22 mA» or hold last value «HOLD». In case of loop failure, error signal will follow the failing trend; meaning the unit will show 3.6 mA when the reviewed loop current by the device is found too low. The unit will show 22 mA in case the reviewed loop current is found too high. = Quick Start up 14 Comment A damping factor (1-10 seconds) may be added to smooth a noisy display and/or output due to turbulence. MENU: STEP BY STEP PROCEDURE – Eclipse 705: Level & Volume Advanced configuration Screen Comment Enter distance in selected level units 21 BlockDis x.x 22 SZ Fault (select) Select the safety zone fault. 23 SZHeight xx.x Select the safety zone value 24 SZ Alarm Reset Reset safety zone latch fault Threshld (select) Select the type of threshold 26 Poll Adr xx Enter HART ID number. Loop Mode Enable/Disable Trim Lvl xx.x Enter value to adjust level reading. 25 27 28 29 30 Diagnostics Action Trim 4 xxxx Trim 20 xxxx 31 Loop Tst xx.x mA 33 New Pass xxx 32 34 35 36 Allows to ignore level measurements near the top of the probe, caused by e.g. condensation, crystalization. Make sure that the liquid level does NOT enter this zone. Consult factory or the ‘Troubleshooting’ section before entering any value. Normaly to be used with single rod probe. Select «None» (None), «3.6mA», «22mA», «Latch 3.6mA» or «Latch 22mA». When either «Latch 3.6 / 22mA» signals is selected, the loop current remains in alarm until it is manually reset with the «SZAlarm» reset screen ( for safety zone explanation see Terminology - page 11). Enter safety zone in cm or inches (see Terminology - page 11). Select «Reset» «No» or «Yes» to reset alam when either «Latch 3.6mA» or «Latch 22mA» was selected in «SZFault». «Fixed» = the first reflection from the top will be considered as level (default setting) «CFD» = the strongest reflection from the top will be considered as level. Only change to «CFD», in case the unit is reading incorrect level. Adjustment of trim level «Trim Lvl» may be necessary when threshold is changed. Select a HART poll address (0-15). Enter 0 for a single transmitter installation. Determines whether the loop is fixed at 4.0 mA or controlled by the PV. Allows to compensate for a fixed level deviation. Fine tune the 4 mA point. Attach a mA meter to the output. If the output does not equal 4.0 mA, adjust the value on the display to equal 4.00 mA. Enter a mA output value. Set mA Output to any given value to perform loop test. Fine tune the 20 mA point. Attach a mA meter to the output. If the output does not equal 20.0 mA, adjust the value on the display to equal 20.00 mA. LvlTicks xxxxx Diagnostic display. Shows time of flight from fiducial pulse to reflected signal from level. Language Select language Select «English», «Français», «Deutsch» or «Espagnol». Advanced diagnostics. See page 20. Mdl705HT Ver xx.xx DispFact (select) Enter new password. Use arrows to select desired value. Values between 0 and 255. None, do not adjust. Factory setting. «Ver» refers to software version. Strapping table max. Pt 20 Vol = ...... l Pt 4 Vol = 3000 l Pt 3 Vol = 2000 l Pt 2 Vol = 1000 l Pt 1 Vol = 0 l max. Pt 20 Lvl = ...... cm Pt 4 Lvl = 200 cm Pt 3 Lvl = 120 cm Pt 2 Lvl = 50 cm Pt 1 Lvl = 0 cm NOTE: Consult page 13 for level offset «Lvl Ofst» details. 15 MENU: STEP BY STEP PROCEDURE – Eclipse 705: Interface Screen Run mode 1 Transmitter Display Transmitter default values cycle every 5 seconds. Status «Status», Interface level «Ifclevel», % Output «% Output», and Loop «Loop». IfcLevel xx.x Transmitter Display 4 Loop xx.xx mA Transmitter Display 6 PrbModel (select) Select the type of probe 7 PrbMount (select) Select the type of probe mounting. ry when a «7xK» GWR probe is used) 9 Select units for level Probe Ln xxx.x Enter the exact length of probe. cm «cm», m «m», inches «inches» or feet «feet». 10 LvlUnits (select) 11 Lvl Ofst xxx.x Enter the offset value. 12 Upr Diel (Select) Enter the dielectric range value of the upper media. 3 8 13 14 15 16 17 18 19 Transmitter displays interface level in selected engineering units. %Output xx.x% Transmitter Display Transmitter displays % Output measurement derived from 20 mA span. Level xxx Transmitter Display Transmitter displays interface level in selected level units «LvlUnits». MeasType (select) Select the type of measurement Dielctrc (Select) Select the dielectric range value of the lower media Loop Ctrl (Select) Select primary variable (PV) Senstvty xxx Enter sensitivity value Set 4mA xxx.x Enter the level value for the 4 mA point. Damping xx sec Enter the damping factor. Set 20mA xxx.x Fault (Select) Transmitter displays Loop measurement (mA). Select as per the 3 first digits of the probe partnumber. The partnumber is shown on the nameplate: e.g. 705-510A-A11/7MT-A230-218, select 7xT-x from the list. Select NPT «NPT», BSP «BSP» or Flange «Flange». (consult factoSelect interface «Interface». Enter as per the 3 last digits of the probe partnumber on the nameplate: - rigid probes, enter value cm or inches, - flexible probes, enter value in meters or feet e.g. 705-510A-A11/7MR-A230-218, enter «218» cm probe length. When entering configuration values from the end of the probe is cumbersome, an offset can be introduced to determine a new reference point. This reference point can be either below the probe (positive offset) or at the probe (negative offset). See page 11 “Terminology”. Enter the dielectrics of the upper layer liquid (between 1,4 and 5,0) – only upper layer dielectrics need to be entered. Select: «10–100» Allows fine adjustment of internal gain. Primary variable is the loop controlling parameter. Select interface level «Ifc Level» or top level «Lvl Only» A transition zone may exist at the bottom of the probe. See Functional Specifications Probe, see page 34 and continuing. Enter the level value for the 20 mA point. A transition zone / blocking distance may exist at the top of the probe. See Functional Specifications Probe, see page 34 and continuing. Enter the value for error. Select «3.6 mA», «22 mA» or hold last value «HOLD». In case of loop failure, error signal will follow the failing trend; meaning the unit will show 3.6 mA when the reviewed loop current by the device is found too low. The unit will show 22 mA in case the reviewed loop current is found too high. = Quick Start up 16 Comment 2 5 Configuration *Status* *IfcLevel* *%Output* *Loop* Action A damping factor (1-10 seconds) may be added to smooth a noisy display and/or output due to turbulence. MENU: STEP BY STEP PROCEDURE – Eclipse 705: Interface Advanced configuration Screen Comment Enter distance in selected level units 20 BlockDis x.x 21 SZ Fault (select) Select the safety zone fault. 22 SZHeight xx.x Select the safety zone value 23 SZ Alarm Reset Reset safety zone latch fault Threshld Select top level threshold. 25 IfcThrs (select) Select interface threshold. 24 26 27 Poll Adr xx Loop Mode 28 Trim Lvl xx.x 30 Trim 20 xxxx 29 Trim 4 xxxx Fine tune the 4 mA point. Attach a mA meter to the output. If the output does not equal 4.0 mA, adjust the value on the display to equal 4.00 mA. Set mA Output to any given value to perform loop test . Allows to compensate for a fixed level deviation. Fine tune the 20 mA point. IfcTicks xxxx Diagnostic display. 35 New Pass xxx Enter new password. Mdl705HT Ver xx.xx None, do not adjust. 38 Default selection for most common applications is «Fixed». Select a HART poll address (0-15). Enter 0 for a single transmitter installation. Enter value to adjust level reading. 33 37 Clear a latched safety zone alarm «SZFault». Determines whether the loop is fixed at 4.0 mA or controlled by the PV. Enter a mA output value. 36 Enter safety zone in cm or inches (see Terminology - page 11). Enable/Disable Loop Tst xx.x mA 34 Allows to ignore level measurements near the top of the probe, caused by e.g. condensation, crystalization. Make sure that the liquid level does NOT enter this zone. Consult factory or the ‘Troubleshooting’ section before entering any value. Normaly to be used with single rod probe. Select «None» (None), «3.6mA», «22mA», «Latch 3.6mA» or «Latch 22mA». When either «Latch 3.6 / 22mA» signals is selected, the loop current remains in alarm until it is manually reset with the «SZAlarm» reset screen ( for safety zone explanation see Terminology - page 11). Default selection for all applications is «CFD». In case the unit does not track the correct interface layer, select «Fixed». Enter HART ID number. 31 32 Diagnostics Action LvlTicks xxxxx Diagnostic display. Medium Diagnostic display. Attach a mA meter to the output. If the output does not equal 20.0 mA, adjust the value on the display to equal 20.00 mA. Shows time of flight from fiducial pulse to reflected signal from level. Shows time of flight through the upper liquid layer. Shows type of detected upper liquid; unknown «Unknown» oil only «Oil Only», thin oil layer «Thin Oil», thick oil layer «Thick Oil», or no level «Dry Probe». Use arrows to select desired value. Values between 0 and 255. Language Select language Select «English», «Français», «Deutsch» or «Espagnol». DispFact (select) Advanced diagnostics. See page 20. OFFSET Factory setting. «Ver» refers to software version. No offset (Offset at 0 cm) 75 cm 15 cm 100 % 20 mA = 75 cm 0% 4 mA = 15 cm Positive offset (Offset at 10 cm) Negative offset (Offset at -15 cm) 20 mA = 85 cm 20 mA = 60 cm 4 mA = 25 cm 4 mA = 0 cm 10 cm 17 MENU: STEP BY STEP PROCEDURE – Eclipse 705: Interface & Volume Screen Run mode 1 Transmitter Display 2 IfcLevel or Ifc Vol Transmitter Display 4 Loop xx.xx mA Transmitter Display 3 5 6 7 Transmitter default values cycle every 5 seconds. Status «Status», Interface volume «IfcVolume», % Output «% Output», and Loop «Loop». Transmitter displays Interface volume or Interface level in selected engineering units (depending selection in Loop control «Loop Ctrl» Transmitter Display Transmitter displays % Output measurement derived from 20 mA span. IfcLvl xxxx Transmitter Display Transmitter displays interface level in selected level units «LvlUnits». Transmitter Display Transmitter displays volume in selected volume units «VollUnits». Select as per the 3 first digits of the probe partnumber. The partnumber is shown on the nameplate: e.g. 705-510A-A11/7MT-A230-218, select 7xT-x from the list. Volume xx.x Level xxxx Transmitter Display PrbModel (select) Select the type of probe 9 PrbMount (select) Select the type of probe mounting. 11 LvlUnits (select) Select units for level MeasType (select) Select the type of measurement Transmitter displays Loop measurement (mA). Transmitter displays level in selected level units «LvlUnits». Select NPT «NPT», BSP «BSP» or Flange «Flange». (consult factory when a «7xK» GWR probe is used) Select interface - volume «IfcVol». cm «cm», m «m», inches «inches» or feet «feet». 12 Probe Ln xxx.x Enter the exact length of probe. 13 Lvl Ofst xxx.x Enter the offset value. 14 VolUnits Select units for volume. 16 Upr Diel (Select) Enter the dielectric range value of the upper media. Enter the dielectrics of the upper layer liquid (between 1,4 and 5,0) – only upper layer dielectrics need to be entered. 18 Senstvty xxx Enter sensitivity value Allows fine adjustment of internal gain. 15 17 19 20 StrapTbl xx pnts Enter level/volume pairs in max 20 steps Dielctrc (Select) Select the dielectric range value of the lower media Loop Ctrl (Select) Select primary variable (PV) Set 4mA xxx.x Enter the level value for the 4 mA point. Enter as per the 3 last digits of the probe partnumber on the nameplate: - rigid probes, enter value cm or inches, - flexible probes, enter value in meters or feet e.g. 705-510A-A11/7MR-A230-218, enter «218» cm probe length. When entering configuration values from the end of the probe is cumbersome, an offset can be introduced to determine a new reference point. This reference point can be either below the probe (positive offset) or at the probe (negative offset). See page 11 “Terminology”. Liters «l» or gallons «g». Liters «l» or gallons «g». Select: «10–100» Primary variable is the loop controlling parameter. Select interface level «IfcLevel» or interface volume «Ifc Vol» A transition zone may exist at the bottom of the probe. See Functional Specifications Probe, see page 34 and continuing. 21 Set 20mA xxx.x Enter the level value for the 20 mA point. A transition zone / blocking distance may exist at the top of the probe. See Functional Specifications Probe, page 34 and continuing. 23 Fault (Select) Enter the value for error. Select «3.6 mA», «22 mA» or hold last value «HOLD». In case of loop failure, error signal will follow the failing trend; meaning the unit will show 3.6 mA when the reviewed loop current by the device is found too low. The unit will show 22 mA in case the reviewed loop current is found too high. 22 Damping xx s Enter the damping factor. = Quick Start up 18 Comment %Output xx.x% 8 10 Configuration *Status* *IfcVol* *%Output* *Loop* Action A damping factor (1-10 seconds) may be added to smooth a noisy display and/or output due to turbulence. MENU: STEP BY STEP PROCEDURE – Eclipse 705: Interface & Volume Advanced configuration Screen Comment Enter distance in selected level units 24 BlockDis x.x 25 SZ Fault (select) Select the safety zone fault. 26 SZHeight xx.x Select the safety zone value Threshld Select top level threshold. 27 SZ Alarm Reset Reset safety zone latch fault 29 IfcThrsh (select) Select interface threshold. 28 Allows to ignore level measurements near the top of the probe, caused by e.g. condensation, crystalization. Make sure that the liquid level does NOT enter this zone. Consult factory or the ‘Troubleshooting’ section before entering any value. Normaly to be used with single rod probe. Select «None» (None), «3.6mA», «22mA», «Latch 3.6mA» or «Latch 22mA». When either «Latch 3.6 / 22mA» signals is selected, the loop current remains in alarm until it is manually reset with the «SZAlarm» reset screen ( for safety zone explanation see Terminology - page 11). Enter safety zone in cm or inches (see Terminology - page 11). Clear a latched safety zone alarm «SZFault». Default selection for most common applications is «Fixed». Default selection for all applications is «CFD». In case the unit does not track the correct interface layer, select «Fixed». Poll Adr xx Enter HART ID number. 32 Trim Lvl xx.x Enter value to adjust level reading. 34 Trim 20 xxxx Fine tune the 20 mA point. LvlTicks xxxxx Diagnostic display. Shows time of flight from fiducial pulse to reflected signal from level. Medium Diagnostic display. Shows type of detected upper liquid; unknown «Unknown» oil only «Oil Only», thin oil layer «Thin Oil», thick oil layer «Thick Oil» or no level «Dry Probe». 30 31 33 Loop Mode Trim 4 xxxx Select a HART poll address (0-15). Enter 0 for a single transmitter installation. Enable/Disable Determines whether the loop is fixed at 4.0 mA or controlled by the PV. Fine tune the 4 mA point. Attach a mA meter to the output. If the output does not equal 4.0 mA, adjust the value on the display to equal 4.00 mA. Set mA Output to any given value to perform loop test . Allows to compensate for a fixed level deviation. Attach a mA meter to the output. If the output does not equal 20.0 mA, adjust the value on the display to equal 20.00 mA. 35 Loop Tst xx.x mA Enter a mA output value. 37 IfcTicks xxxx Diagnostic display. 39 New Pass xxx Enter new password. 40 Language Select language Select «English», «Français», «Deutsch» or «Espagnol». DispFact (select) Advanced diagnostics. See page 20. 36 Diagnostics Action 38 41 42 Mdl705HT Ver xx.xx Shows time of flight through the upper liquid layer. Use arrows to select desired value. Values between 0 and 255. None, do not adjust. Factory setting. «Ver» refers to software version. Strapping table max. Pt 20 Vol = ...... l Pt 4 Vol = 3000 l Pt 3 Vol = 2000 l Pt 2 Vol = 1000 l Pt 1 Vol = 0 l max. Pt 20 Lvl = ...... cm Pt 4 Lvl = 200 cm Pt 3 Lvl = 120 cm Pt 2 Lvl = 50 cm Pt 1 Lvl = 0 cm NOTE: Consult page 17 for level offset «Lvl Ofst» details. 19 MENU: STEP BY STEP PROCEDURE: ADVANCED CONFIGURATION Hidden diagnostic screens. Do not acces without assistance or having followed advanced training. Screen 1 2 Review Diagnostic messages. Display mode. 5 HF cable (select) Superuser parameter 7 FidSprd X 4 6 8 History Reset Diagnostic display. FidTicks xxxx Diagnostic display. Fid Type (select) Comment Select «YES» to reveal Factory parameters; «NO» to hide. A cumulative review of all diagnostic messages. Press the enter button twice to clear. Shows time in hours that unit is in operation since last power on. Select «YES» to clear «History». Select from 1 m (3') or 3,6 m (12') remote. Shows time of flight from electronics to fiducial pulse. Value should remain stable within ± 10 ticks. Diagnostic display. Value represents the variation of fiducial ticks – a value indicates that unit is OK, a problematic spread results into an error message. Change gain. Value represents the # of gain applied to the fiducial signal. Select fiducial pulse type. Requires superuser password. «positive» or «negative» (selection only allowed for some probes). Consult factory before changing status. 9 Fid Gain xxx 11 Conv Fct xxxx 13 Neg Ampl xxx Enter new value. Requires superuser password. 15 Pos Ampl xxx Enter new value. Requires superuser password. 17 Compensate (select) Access compensation screens. Requires superuser password. «None» default. The selection of «Manual» or «Auto» activates the screens 16 through 20 for 7MS/7MQ probes. 19 Targ Ampl Xxxx None, do not adjust. Diagnostic display if «Compsate» is on «Auto». Shows amplitude of steam reference target. 20 Targ Tks Xxxx 22 OperMode (select) 10 12 Diagnostics History (current status) Review factory parameters Run time xx h 3 14 16 18 21 23 Window xxx None, do not adjust. Scl Ofst xxx None, do not adjust. Ifc Ampl xxx Enter new value. Requires superuser password. Signal xxx DrateFct Xxxx Targ Cal Xxxx 7xKCorr xxx None, do not adjust. Diagnostic display. None, do not adjust. None, do not adjust. Select operating mode. Factory setting. Factory setting. Factory setting. Negative amplitude threshold. Interface amplitude threshold. Positive amplitude threshold. Indication of signal strength. Diagnostic display if «Compsate» is on «Auto». Shows velocity derating factor. Diagnostic display if «Compsate» is on «Auto». Shows # of ticks from fiducial to steam reference target. Diagnostic display if «Compsate» is on «Auto». Shows the calibrated # of ticks at ambient temperature. Selection screen if «Compsate» is on «Auto». Select run automatically «Run», calibrate «Cal», deactivate «Off». Enter a value. Requires additional password. Distance in mm (regardless .«LvlUnits») from fiducial to user reference point. Only for 7EK (top/bottom) probe. None, do not adjust. Shows internal housing temperature. 24 ElecTemp xxx C 25 Max Temp xxx C None, do not adjust. Diagnostic display, shows maximum internal housing temperature recorded. 27 SZ Hyst xx.x None, do not adjust. Safety zone Hysterisis, diagnostic factory setting 26 20 DispFact Select Action Min Temp xxx C None, do not adjust. Diagnostic display, shows minimum internal housing temperature recorded. PACTware™ – Configuration and Troubleshooting For more details about the use of PACTware™ and FDT technology, refer to instruction manual 59-601 WHAT IS FDT, PACTware AND DTM • FDT (Field Device Tool) is a new interface code that describes the standardization between frame programs (e.g, PACTware) and DTMs (Device Type Manager). • PACTware (Process Automation Configuration Tool) is a frame program. It is a device-independent software program that communicates with all approved DTMs. • DTM (Device Type Manager) is a device-specific software driver designed to operate within a FDT compatible frame program such as PACTware. It includes all special information needed to communicate with a specific device (e.g, Pulsar RX5). There are two basic categories of DTM’s—Communication (HART, Fieldbus®, Profibus®, etc.) and Field Device (e.g. Pulsar RX5 Radar transmitter). CONNECTIONS The following diagram shows a typical hardware configuration. Observe all safety codes when attaching to instrument loops in hazardous areas or when measuring flammable media. Computers are not intrinsically safe devices. 24 V DC HART connections Power Transmitter PC with HART Serial Interface Magnetrol recommends the VIATOR® USB HART® Interface from MACTek® Corporation. QUICK START 1. Start a project Open Pactware and add the Hart modem key and then the Magnetrol instrument to your project. Select: «Device» – «add device» – select device (repeat for each device in your project) Important: Make sure that the COM port settings for your Hart modem key are correct; 2. Connect the devices Select in the left window the Magnetrol instrument. Select: «Device» – «connect» (both modem and Magnetrol instrument are getting connected) 3. Configure the instrument Select: «Device» – «parameter» – «Online parameterization» Open «+ Main Menu» and select «+ Device set up» – «Calibration» Parameters can be changed in the window at right, via the drop down boxes. ENTER confirms the change online. 4. Troubleshoot / Monitior the instrument Process trend: Select: «Device» – «Additional functions» – «Process Trend» Process trend: all key data (level % Output, Loop, Signal strength) can be trended and saved, time scales can be adapted. Echo Curve: Select: «Device» – «Additional functions» – «Echo Curve» Echo Curve: shows the actual waveform. The echo curve is an efficient tool for advanced calibration and troubleshooting. Present Status: Open Main Menu and select «+ Device set up» – «Diagnostics» – «Present status» Present status: shows the entire overview of all detectable faults and warnings. Blank boxes indicate the healthy condition of the instrument. Ticked off boxes indicate for a possible fault or warning. 21 PACTware™ – Configuration and Troubleshooting Echo Curve patterns Below screens are examples of the most typical echo curves that occur in normal operation / error condition. Normal oil/water interface Level with Blocking Distance correction Normal signal pulses from oil over water Signal pulse from level. Unit suffered from build up on top of the probe. The introduced blocking distance (see area in frame) solves the problem. Dry Probe EOP High or Low Signal pulse from an empty vessel/ cage – displayed message on the unit is «DryProbe» Dry Probe Signal pulse from an empty vessel or cage but with wrongly entered probe length – displayed message is «EOP High» or «EOP Low» (as shown in graph). Correct the probe length in either case. Weak Signal Threshold Fixed or CFD Signal pulse of a weak signal. Displayed message is «WeakSgnl». Solve this by either to: - change dielectric setting to a lower range or - increase the sensitivity Signal pulse of oil over water level. Always select «Threshld Fixed» (as shown in the graph). «Threshld CFD» will track the stronger reflection pulse. In case of level measurement, the unit will not compensate for the signal velocity in the upper oil layer and show an erroneous level reading. 22 CONFIGURATION USING HART® - Connection of your Hart communicator: • at power terminals (+) and (-) in wiring compartment • at first junction box between unit and control room. + Junction 250 Ω < RL < 450 Ω + Control Room Display Power Supply Current Meter CONNECTIONS IMPORTANT: The digital HART® communication is superimposed on the 4-20 mA loop and requires a min. load resistance of 250 Ω and a max load resistance of 450 Ω. CHECK HART® Before starting the HART® configuration procedure – check if your HART® communicator is equipped with the proper Eclipse Device Descriptors (DD’s). I/O Select NO: Select 4: Select 5: Check manufacturer: HCF Release Date September 2008 February 2013 start up the communicator go offline utility simulation Magnetrol HART Version Dev V1 DD V2 Dev V2 DD V2 Model 705 3.x Compatible with software Version 3.0A and later Version 3.2A and later When the proper software version is not found, consult your local HART® Service Center to load the correct Eclipse DD’s. HART MENU I/O Start up the device 1 Enter Device Set Up «DEVICE SET UP» Press one of the following alphanumeric keys (if no key is sensed after 5 s, the unit will automatically jump to RUN mode and alternatively show Level/% Output and Loop signal 1 for entering Calibration «CALIBRATION» (see page 24 for additional information) 2 for entering Basic Set Up «BASIC SET UP» – general HART 3 for Advanced Set Up «ADVANCED SET UP» (see page 24 for additional information) 4 for entering Diagnostics «DIAGNOSTICS» (see page 24 for additional information) 5 for entering Review «REVIEW» to review all settings. 23 CONFIGURATION USING HART® 1 Device Setup 2 Level 3 % Range 4 Loop 5 Device Variables 1 2 3 4 1 Calibration 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Probe Model Probe Mount Measurement Type Level Units Probe Length Level Offset Volume Parameters Dielectric Range Sensitivity PV is Variable Selection 4 mA Set Point 20 mA Set Point Damping System Fault State Blocking Distance SZ Fault State SZ Height SZ Alarm Reset Threshold Interace Params Trim Level Date/Time/Initials 1 Upper Dielectric 2 Interface Threshold 3 Ifc Threshold Ampl 1 SV IS 2 TV IS 3 QV IS 1 Volume Units 2 Strapping Table 3 Table Length 24 2 Basic Setup 1 2 3 4 5 6 Tag Descriptor Date Message Poll Address Final Asmbly Num Level Volume IfcLvl IfcVol 3 Advanced Setup 1 2 3 4 5 6 7 8 9 10 11 12 13 Trim Loop Current Enter Password Fiducial Type Fiducial Gain Neg Threshold Ampl Pos Threshold Ampl Compensation Factory Settings SZ Hystersis Max Temperature Min Temperature Reset Temperatures New User Password 1 2 3 4 Compensation Mode Upper Dielectric Target Calibration 7xK Correction 1 Target Oper Mode 2 Target Calib Value 3 Auto Target Calib 1 2 3 4 5 6 7 8 Magnetrol S/N Device ID HF Cable Window Conversion Factor Scale Offset Waveform Selection Factory Param 2 5 Review 4 Diagnostics 1 2 3 4 5 6 7 8 9 10 11 12 13 Loop Test Present Status Status History Level Ticks Fiducial Ticks Fiducial Spread Signal Strength Elec Temperature Interface Ticks Interface Medium Derating Factor Target Amplitude Target Ticks 1 Faults 2 Warnings 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Seal Leak Fiducial Spread Hi Temperature Lo Temperature Calib Required EOP Too Low Trim Required Initializing May Be Flooded Dry Probe Weak Signal System Warning Warning 1 Warning 2 No Steam Target Warning 4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Software Failure CPU Failure EEPROM Failure Default Params No End of Ramp Loop Failure Fiducial Shift Slope Error No Probe No Fiducial Safety Zone Alrm No Signal EOP High Hi Volume Alrm Lvl < Probe Length EOP < Probe Length 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 Model Manufacturer Magnetrol S/N Firmware Version Tag Descriptor Date Message Poll Address Final asmbly num Device ID Probe Model Probe Mount Measurement Type Level Units Probe Length Level Offset Volume Units Dielectric Range Sensitivity PV is SV is TV is QV is 4mA Set Point 20mA Set Point Damping System Fault State Blocking Distance SZ Fault State SZ Height Trim Level 4 mA Trim Value 20 mA Trim Value Threshold Interface Threshold Fiducial Type Fiducial Gain Neg Threshold Ampl Pos Threshold Ampl Ifc Threshold Ampl Compensation Mode Upper Dielectric 7xK Correction SZ Hysteresis Universal rev Field dev rev Software rev Num req preams MAINTENANCE TROUBLESHOOTING Symptom LEVEL, % OUTPUT and LOOP values are all inaccurate. LEVEL readings are repeatable but consistently high or low from actual by a fixed amount. Problem Basic configuration data is questionable. Configuration data does not accurately match probe length or tank height. Turbulence. LEVEL, % OUTPUT and LOOP values all reading low vs. actual (level or volume applications). Lower dielectric material over higher dielectric material, e.g. oil over water. HART device only: handheld will only read Universal Commands. Reconfigure the Probe Length «Prb Ln» and Offset «Offset». Check also the Probe Model «Prb Model» / Probe Mount «Prb Mount» 1) Ensure the Level is accurate. 2) Reconfigure Loop values. Interface level has significant emulsion. Examine process to reduce/eliminate emulsion layer. LEVEL, % OUTPUT and LOOP values fluctuate. LEVEL reading on Display is correct but LOOP is stuck on 4 mA Solution High frequency connection. Coating, clumping or buildup on probe. Dense, water based foam. Basic configuration data is questionable. Most current Device Descriptors (DDs) are not installed in handheld. (see page 20) LEVEL reading on display is stuck Software believes probe is flooded at full scale, LOOP is stuck at 20,5 mA. (level near very top of probe). Ensure proper probe length «Prb Ln» & probe Model «Prb Model». Adjust trim level value by the amount of noted inaccuracy. Increase the Damping «Damping» factor until the readings stabilize. Check Fiducial Spread «FidSprd» (should be stable within ± 10 counts.) Select Fixed Threshold option «Fixed» and/or select dielectric range from top layer. Expected inaccuracies due to affect on pulse propagation. Expected inaccuracies due to affect on pulse propagation. Set Hart poll address «POLL ADR» to «0». If not using HART® multi drop Contact local HART service center for the latest DD’s. Check actual level. If probe is not flooded, check for build up or obstructions near top of probe. Select higher dielectric range. Check for condensation in probe connection. Add Blocking Distance. LEVEL, % OUTPUT and LOOP values all at maximum level. Possible configuration issue with single rod probe 1) Increase Blocking Distance 2) Increase Dielectric Range LEVEL value reading high when should be zero. Transmitter loose or disconnected from probe. Ensure transmitter connected securely to probe. LEVEL, % OUTPUT and LOOP values all reading high vs. actual. HART ERROR MESSAGES Error Possible obstruction in tank affecting single rod probe. Screen 1) Increase Dielectric Range until obstruction is ignored. 2) Relocate probe away from obstruction. Displayed status Faults Enlists possible error messages. OFF: safe status ON: highlighted error is occurring – see page 27 Warnings Enlists warning messages. History Built in log of the last 26 error messages. See page 20. OFF: safe status ON: highlighted warning is occurring – see page 26 PACTware™ PC Program The Eclipse Model 705 offers the ability to do Trending and Echo Curve analysis using a PACTware DTM. This is a powerful troubleshooting tool that can aid in the resolution of some of the Error Messages shown above. Refer to Bulletins 59-101 and 59-601 for more information. 25 MAINTENANCE WARNING MESSAGES A warning message identifies the status of the instrument. A warning message does not necessarily require immediate action but may require close attention and/or follow up. The warning message will be displayed on the unit and/or selected on the Pactware screen while the output signal will remain normal. Display Message Action Comment None Normal operating mode None Program is Initializing, level reading held at 4 mA set point. This is a transient condition. None Normal message for a dry probe. End of probe signal is being detected. 1) Set transmitter to lower dielectric range 2) Increase sensitivity Signal amplitude is lower than desired. 1) Decrease level in vessel 2) Set transmitter to lower dielectric range 3) Replace with Model 7MR Overfill probe Loss of level signal possibly due to flooding, twin rod probes only 1) Check connection between probe and transmitter 2) Check for moisture on top of probe 3) Consult factory Fiducial Ticks variation is excessive. 1) Transmitter may need to be moved to ensure ambient temperature is within specification 2) Change to remote mount transmitter 3) Use sunshade Present temperature in electronics compartment is above +80° C 1) Transmitter may need to be moved to ensure ambient temperature is within specification 2) Change to remote mount transmitter Present temperature in electronics compartment is below -40° C. Consult factory TrimReqd Unexpected but non-fatal software event Consult factory Cal Reqd Factory set Loop values are defaults, loop output may be inaccurate Consult factory Factory set default calibration parameters are in use, level reading may be inaccurate OK Initial DryProbe WeakSgnl Flooded? Fid Sprd* Hi Temp Lo Temp Sys Warn 26 MAINTENANCE ERROR MESSAGES An error message identifies a possible instrument failure and requires an action. The error message will be displayed on the unit and/or selected on the Pactware screen while the output signal will shift to the selected error output (3.6mA, 22mA or HOLD). Display Message HiVolAlm SlopeErr LoopFail No Ramp DfltParm EE Fail CPU Fail SfwrFail Action Comment Verify strapping table is entered correctly. Level more than 5% above highest point in strapping table. Consult factory Ramp circuit generating improper voltage Consult factory Note: In case of loop failure, error signal will follow the failing trend; meaning the unit will show 3.6 mA when the reviewed loop current by the device is found too low. The unit will show 22 mA in case the reviewed loop current is found too high. Loop current differs from expected value Consult factory No End-of-Ramp signal detected Consult factory Internal non-volatile parameters have been defaulted Consult factory EEPROM error allowing watchdog timer to expire Consult factory A-D converter time out allowing watchdog timer to expire Consult factory A fatal software error allowing watchdog timer to expire EOP < Probe 1) Ensure probe length is entered correctly Length 2) Set transmitter to a lower dielectric range 3) Set threshold to «fixed» 4) Consult factory Lvl < Probe 1) Verify entered probe length Length 2) Change threshold to «fixed» EOP High NoSignal No Fid FidShift No Probe SZ Alarm End of Probe signal is out of range Apparent position of the upper level pulse is lower than the end of probe 1) Ensure probe length is entered correctly 2) Increase blocking distance (only for single or twin GWR probes) 3) Consult factory End of Probe signal is out of range 1) 2) 3) 4) Ensure dielectric setting is correct for measured medium Increase sensitivity Confirm that the probe type is proper for the dielectric of the medium Consult factory No level signal being detected. 1) 2) 3) 4) Check connection between probe and transmitter Check for moisture on top of probe Check for damaged gold pin on the high frequency connector Consult factory Fiducial signal is not being detected 1) 2) 3) 4) Check connection between probe and transmitter Check for moisture on top of probe Check for damaged gold pin on the high frequency connector Consult factory FidTicks shifted from expected value 1) Ensure proper connection between probe and transmitter 2) Check for damaged gold pin on the high frequency connector Decrease level in tank When in «SZ Fault», «Latch 3.6 mA» or «Latch 22 mA» was selected, reset with «SZ Alarm Reset» Electronics does not sense that a probe is attached Safety Zone alarm has been tripped, loop current fixed at SZ Fault 27 MAINTENANCE TROUBLESHOOTING APPLICATIONS: Level Most frequent application problems that may occur, media buildup on the probe and stratification, are covered here. Media buildup on the probe is not a problem in most cases–Eclipse circuitry typically works very effectively. Media buildup should be viewed as two types – Film Coating and Bridging. Recommended guidelines to select the right GWR probe: - Relatively clean liquids: use the standard coax GWR probes - Possible build up: use the enlarged coax or twin rod GWR probe - Extreme build up: use the single rod GWR probe • Continuous Film Coating The most typical of coating problems where the media forms a continuous coating on the probe. Eclipse will continue to measure effectively with some small degradation in performance. A problem can develop if the product begins to buildup on the spacers that separate the probe elements. High dielectric media (e.g, waterbased) will cause the greatest error. • Bridging Media that is viscous or solid enough to form a clog, or bridge, between the elements causes the greatest degradation in performance. High dielectric media (eg. water-based) will show as level at the location of the bridging. • Stratification/Interface The Eclipse transmitter is designed to measure the first air/media interface it detects, when configured for level measurement only. It will not measure further liquid/ liquid interfaces. However, a low dielectric over a high dielectric application can cause a measurement problem if the level of the low dielectric medium becomes small enough (a few cm) to cause the electronics to trigger on the high dielectric medium that lies beneath it. Select the Fixed Threshold option to read the upper medium. Example: oil over water. Bridging Bridging Film Coating Film Coating Threshold «Fixed» GOOD Air/gas Threshold «CFD» WRONG Outer tube < ε > ε r r Inner rod Continuous film coating / Bridging Stratification/Interface TROUBLESHOOTING APPLICATIONS: Interface It is not uncommon for interface applications to have an emulsion layer form between the two media. This emulsion layer may pose problems for Guided Wave Radar as it may decrease the strength of the reflected signal. Since the properties of this emulsion layer are difficult to quantify, applications with emulsion layer should be avoided with Eclipse. Oil ε 2.0 r Emulsion Layer Water r 80 ε 28 MAINTENANCE TROUBLESHOOTING APPLICATIONS: Single Rod type GWR probe Most frequent application problems that may occur, media buildup on the probe and stratification, are covered here. Significant buildup on the probe is not a problem in most cases–Eclipse circuitry typically works very effectively. Nozzles • 2" diameter minimum • Nozzles (only for 7MF/7MH/7MJ/7M1/7M2) Nozzles can create false echoes that can cause diagnostic messages and/or errors in measurement. If end of probe high «Eop High» is displayed when first configuring the instrument: 1. Ensure the probe length «Prb Ln» as entered in the software is equal to the actual probe length (see page 12, item 9). This value must be changed if the probe is cut shorter from the original length. 2. Increase the blocking distance «BlockDis» value until the message is eliminated; 20 mA point may need to be lowered. 3. Increase the dielectric range a small amount or decrease the sensitivity to aid in reducing echoes in nozzle. Increasing the dielectric settings may cause instrument to lose level of lower dielectric media; consult factory. • Obstructions (only for 7MF/7MH/7MJ/7M1/7M2) If the level reading repeatedly locks on to a specific level higher than the current level, it may be caused by a metallic obstruction. Obstructions in the vessel (e.g. pipes, ladders) that are located close to the probe may cause the instrument to show them as level. 1. Refer to the Probe Clearance Table 2. Increase the dielectric range a small amount or decrease the sensitivity to aid in reducing disturbing echoes in nozzle. Increasing the dielectric settings may cause instrument to lose level of lower dielectric media; consult factory. • Coating/build-up (only for 7MF/7MH/7MJ/7M1/7M2) The Eclipse® 705 wih Single Rod Probe was designed to operate effectively in the presence of media building up. Some expected error may be generated based upon the following factors: ¨ Dielectric of the media that created the coating ≠ Thickness of the coating Æ Length of the coating above the present level In case build up is picked up as level, increase the dielectric range a small amount or decrease the sensitivity. • Coating/build-up (only for 7M5/7M7) Continuous film coating is where the media forms a thin continuous coating on the probe. Eclipse® will continue to measure effectively with some degradation in performance. The degradation is proportional to the dielectric of the media and the thickness of the coating up to a degree that the unit will see coating as a level. Higher dielectric media (eg. water based) will show sooner as a level at the location of the build up. • Ratio of diameter: length should be > 1:1 If not, set blocking distance at 2 x nozzle height • Do not use pipe reducers (restriction) Obstruction Probe clearance table Distance to probe < 150 mm (6") > 150 mm (6") > 300 mm (12") > 450 mm (18") Acceptable objects Continuous, smooth, parallel, conductive surface (e.g. metal tank wall); probe should not touch tank wall < 1"/DN25 diameter pipe and beams, ladder rungs < 3"/DN80 diameter pipe and beams, concrete walls All remaining objects ≠ Æ Coating Build-up ¨ 29 REPLACEMENT PARTS 4 5 3 5 2 3 3 1 Hygienic Industrial CAUTION: the electronic module connects to the antenna via the “High frequency connector”. This part is extremely sensitive and brittle and requires to be handled very careful. It is recommended to exchange complete amplifier heads instead of electronic modules in the field. Partn°: 7 0 5 Digit in partn°: 5 1 2 3 5 1 30 2 or 3 Digits 6&7 X 1 2 3 00 0A 00 or 0A Digits 8 all 4 5 6 7 8 9 10 Serial n°: See nameplate, always provide complete partn° and serial n° when ordering spares. X = product with a specific customer requirement Electronic Module (1) Replacement part 9 Hart 00 0A A0 AA 00 or 0A A0 or AA 00 0A 00 or 0A 5 1, 2, 7 or 8 3 or 9 1, 2, 7 or 8 3 or 9 1, 2, 7 or 8 3 or 9 Z31-2835-002 Z31-2835-001 Z31-2835-004 Z31-2835-003 089-7254-001 089-7254-003 Several parts are available for quick shipment, within max. 1 week after factory receipt of purchase order, through the Expedite Ship Plan (ESP). Parts covered by ESP service are conveniently grey coded in the selection tables. Housing “O” ring (3) Digit 9 Replacement part 1, 2, 7 or 8 3 or 9 FF Z31-2841-002 Z31-2841-001 089-7254-002 Digit 9 Profibus PA Z31-2846-002 Z31-2846-001 089-7254-004 Wiring board (2) Replacement part 9 Hart 1, 2, 1, 2, A or B 7 or 8 3, 4, C, D, E, or F EXPEDITE SHIP PLAN (ESP) 1 or 7 2 or 8 7 0 Z30-9151-001 A Z30-9151-003 0 A FF - Profibus PA Z30-9151-004 Digits 8 all all 1, 2, A, B, E or F 3 or 4 C or D all all 012-2201-237 012-2201-155 Housing cover (4) Replacement part 004-9225-002 004-9225-003 Housing cover (5) 9 1 or 7 2 or 8 1 or 7 2 or 8 3 or 9 Replacement part 004-9225-002 004-9225-003 036-4413-005 036-4413-001 036-4410-003 036-4413-012 032-3934-001 036-5702-002 REPLACEMENT PARTS 6 7 11 Bottom spacer - 7MF/7MJ single rod GWR probe - 7MG cage GWR probe (2"/DN50) 10 9 8 6 Bottom spacer - 7MG cage GWR probe (other than 2"/DN50) Description 6&7 7MF-B 6&7 N° 7MF-A 7MF-C 7MJ-A 7MJ-B 7MJ-C 9 8 9 089-9114-002 10 089-9114-001 089-9114-003 PEEK spacer & set pin 089-9114-005 089-9114-006 089-9114-007 Replacement part 7MG-C (2"/DN50) 089-9114-003 7MG (other than 2"/DN50) Spacer 7MB Twin rod N° TFE spacer & set pin 089-9114-001 10 Cable weight 7M5 dual flexible cable for solids 13 Replacement part Description 7MG-A (2"/DN50) Cable weight 7M2 Single flexible cable for solids Cable weight 7M1 Single flexible cable 7M7 Dual flexible cable Spacer and set pin - cage probes 6 & 7 7MG-B (2"/DN50) 6 9 8 Spacer and set pin - rigid probes N° 12 8 9 11 12 N° 13 Cable weights - flexible probes Description Replacement part 7M1 7M7 7M2/7M5 cable rope clip 7M2-316 (1.4401) 7M5-316 (1.4401) 089-9120-001 089-9121-001 010-1731-001 (Qty 2 required) 004-8778-001 004-8778-002 Spacer - twin rod probe Description Replacement part 7MB probe spacer consult factory kit 089-9114-002 consult factory 31 TRANSMITTER SPECIFICATIONS FUNCTIONAL/PHYSICAL Description Power (at terminals) HART®: - Weatherproof / ATEX flameproof enclosure / ATEX non sparking: 11 to 36 V DC - ATEX Intrinsically Safe: 11 to 28,4 V DC Foundation Fieldbus™ / Profibus PA™: - Weatherproof / ATEX flameproof enclosure / ATEX FNICO: 9 to 32 V DC - ATEX FISCO: 9 to 17,5 V DC 4-20 mA with HART®, 3,8 mA to 20,5 mA useable (meets NAMUR NE 43) – HART 6, Foundation Fieldbus™ H1 or Profibus PA™ H1 15 cm to 22 m (6" to 72.18') depending on selected probe Analog: 0,01 mA Display: 0,1 (cm or inch) Output Span Resolution Loop Resistance Damping Diagnostic Alarm User Interface 630 Ω @ 20,5 mA - 24 V DC Adjustable 0-10 s Adjustable 3,6 mA, 22 mA, HOLD last output HART® communicator, AMS® or PACTware™, Foundation Fieldbus™, Profibus PA™ and/or 3-button keypad Display Menu Language Housing Material Approvals SIL¬ (Safety Integrity Level) Electrical Data Standard electronics Enhanced electronics Equivalent Data Shock/Vibration Class Surge protection Net weight Overall Dimensions Foundation Fieldbus™ specifications Cast aluminium Stainless steel ITK Version H1 Device Class Function Blocks Execution time Profibus PA specifications Specification Quiescent current draw DD/CFF files Device revision Digital communication protocols Function Blocks Execution time Quiescent current draw GSD files 2-line x 8-character LCD English/Spanish/French/German (Foundation Fieldbus™, Profibus PA™: English) IP 66/Aluminium A356T6 (< 0.20 % copper) or stainless steel ATEX II 3 (1) G EEx nA [ia] IIC T6, non sparking (probe can be used in flammable liquids) ATEX II 3 (1) G EEx nA [nL][ia] IIC T6, FNICO – non incendive¿ (probe can be used in flammable liquids) ATEX II 1 G Ex ia IIC T4 Ga, intrinsically safe ATEX II 1 G Ex ia IIC T4 Ga, FISCO – intrinsically safe¿ ATEX II 1/2 G Ex d[ia Ga] IIC T6 Gb¡ ATEX II 1/2 D Ex t[ia Da] IIIC T85°C Db IP66¡ IEC Ex d[ia Ga] IIC T6 Gb IEC Ex t[ia Da] IIIC T85°C Db IP66 IEC Ex ia IIC T4 Ga, intrinsically safe IEC Ex ia IIC T4 Ga, FISCO – intrinsically safe¿ IEC Ex ic[ia Ga] IIC T4 Gc EN 12952-11 and EN 12953-9 CE approved for steam drums as primary level safety device TÜV – WHG § 63, VLAREM II 5.17-7 LRS – Lloyds Register of Shipping (marine applications) Other approvals are available, consult factory for more details Functional safety to SIL 1 as 1oo1 / SIL 2 as 1oo2 in accordance to IEC 61508 – SFF of 84,5 % Functional safety to SIL 2 as 1oo1 in accordance to IEC 61508 – SFF of 91 % Certified for use in SIL 3 loops. Ui = 28,4 V, li = 124 mA, Pi = 0,84 W (HART®) Ui = 17,5 V, li = 380 mA, Pi = 5,32 W (Foundation Fieldbus™ / Profibus PA™) Ci = 2,2 nF, Li = 3 µH (HART®) Ci = 3 nF, Li = 3 µH (Foundation Fieldbus™ / Profibus PA™) ANSI/ISA-S71.03 Class SA1 (Shock), ANSI/ISA-S71.03 Class VC2 (Vibration) Meets CE EN 61326 (1000V) 2,7 kg (6.0 lbs) – transmitter head / electronics only 5,7 kg (12.6 lbs) – transmitter head / electronics only H 214 mm (8.43") x W 111 mm (4.38") x D 188 mm (7.40") 5.0 Link Master (LAS) – selectable ON/OFF 1 x RB, 4 x AI, 1 x TB and 1 x PID AI = 15 ms, PID = 40 ms 15 mA Available at www.fieldbus.org 0x01 Version 3.0 MBP (31.25 kbits/sec) 1 x PB, 4 x Al blocks, 1 x TB 15 ms 15 mA Available at www.profibus.com ¿ Foundation Fieldbus™ and Profibus PA™ units. ¡ For ATEX flameproof enclosure units use Ex d bushing material STYCAST 2057 FR. ¬ Not applicable for Foundation Fieldbus™ and Profibus PA™ units. 32 TRANSMITTER SPECIFICATIONS PERFORMANCE Description Reference Conditions with a 1,8 m (72") coaxial type GWR probe Coaxial/twin lead probes Linearity¡ Single lead probes Coaxial/twin lead probes Accuracy¡ Single lead probes 7MT/7ML interface Resolution Repeatability Hysteresis Response Time Warm-up Time Ambient Temp. Process Dielectric Effect Operating Temp. Effect Humidity Electromagnetic Compatibility Specification Reflection from liquid, with dielectric in center of selected range, at +20 °C (70 °F) with CFD threshold¿ < 0,1 % of probe length or 2,5 mm (0.1"), whichever is greater < 0,3 % of probe length or 8 mm (0.3"), whichever is greater < 0,1 % of probe length or 2,5 mm (0.1"), whichever is greater ± 0,5 % of probe length or 13 mm (0.5"), whichever is greater ± 25 mm (1") ± 2,5 mm (0.1") < 2,5 mm (0.1") < 2,5 mm (0.1") < 1 second < 5 seconds -40 °C to +80 °C (-40 °F to +175 °F) – blind transmitter -20 °C to +70 °C (-5 °F to +160 °F) – with digital display -40 °C to +70 °C (-40 °F to +160 °F) – for Ex ia and Ex d[ia] with blind transmitter -20 °C to +70 °C (-5 °F to +160 °F) – for Ex ia and Ex d[ia] with digital display < 7,5 mm (0.3") within selected range Approx. +0,02 % of probe length/°C for probes ≥ 2,5 m (8')¬ 0-99 %, non-condensing Meets CE requirements (EN 61326: 1997 + A1 + A2) and NAMUR NE 21 (Single and Twin-Rod probe must be used in metallic vessel or stillwell) ¿ May degrade for 7MD/7ML probe or with fixed threshold. ¡ Top 600 mm (24") of twin rod probe: 30 mm (1.18"). Top 1220 mm (48") of single rod: application dependant. Accuracy may degrade when using compensation. ¬ Accuracy may degrade slightly < 2,5 m (8') 33 PROBE SPECIFICATIONS Description Materials Probe diameter Mounting Process Connection Probe length Transition Zone¿ Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Dielectric Range Vacuum Service Media coating IntDescription Probe Process seal Spacers Small coax Enlarged Small coax All Top Bottom Max Min Materials Probe Process seal Spacers Probe diameter Small coax Mounting Process Connection Probe length Transition Zone¿ Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Dielectric Range Enlarged Small coax All Top Bottom Max Min Small coax Enlarged Vacuum service Media coating 7MR/7MM: overfill protection coaxial probe 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) Teflon® with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) Teflon® Inside rod 8 mm (0.315") – outer tube 22,5 mm (0.88") Stainless steel: inside rod 16 mm (0,63") – outer tube 45 mm (1.75") Hast. C / Monel®: inside rod 16 mm (0,63") – outer tube 49 mm (1.93") External cage and/or in-tank mounting Threaded: 3/4" NPT or 1" BSP (G 1") Flanged: various ANSI, EN (DIN) or torque tube mating flanges From 60 cm to 610 cm (24" to 240") 0 mm (0") εr: 1,4 = 150 mm (6")/εr: 80 = 25 mm (1") +200 °C @ 18,6 bar (+400 °F @ 270 psi) -40 °C @ 51,7 bar (-40 °F @ 750 psi) 70 bar @ +20 °C (1000 psi @ +70 °F) Small coax: 500 mPa.s (cP); Enlarged coax: 2000 mPa.s (cP) 1,4 to 100 Negative pressure but not hermetic seal In case of media coating, select 7MM probe 7MD/7ML: high pressure / high temperature GWR probe 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) Borosilicate / Inconel® X-750 7Mx-A, B and C: Ceramic 7Mx-W: Teflon® 7Mx-V: High Temp PEEK 7Mx-N, P and R: PEEK Inside rod 8 mm (0.315) – outer tube 22,5 mm (0,88") Stainless steel: inside rod 16 mm (0,63") – outer tube 45 mm (1.75") Hast. C / Monel®: inside rod 16 mm (0,63") – outer tube 49 mm (1.93") External cage and/or in-tank mounting Threaded: 3/4" NPT or 1" BSP (G 1") Flanged: various ANSI, EN (DIN) or torque tube mating flanges From 60 cm to 610 cm (24" to 240") 0 mm (0") εr: 1,4 = 150 mm (6") / εr: 80 = 25 mm (1") +425 °C @ 103 bar (+800 °F @ 1500 psi) for 7Mx-A, B and C +345 °C @ 324 bar (+650 °F @ 4700 psi) for 7Mx-V, N, P and R +200 °C @ 393 bar (+400 °F @ 5700 psi) for 7Mx-W -196 °C @ 138 bar (-320 °F @ 2000 psi) 431 bar @ +20 °C (6250 psi @ +70 °F) Small coax: 500 mPa.s (cP); Enlarged coax: 2000 mPa.s (cP) 1,4 to 100 for 7Mx-W 1,7 to 100 for 7Mx-V 2,0 to 100 for 7Mx-A, B and C Level: Interface: Probes ≤ 2,5 m: εr ≥ 1,4 with single bottom spacer Probes > 2,5 m: εr ≥ 1,7 Upper liquid: εr ≥ 1,4 or 1,7 (see above) and ≤ 5 Lower liquid: εr ≥ 15 Full vacuum (Helium leak < 10-8 cc/s @ 1 atmosphere vacuum) In case of media coating, select 7ML probe ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4-20 mA signal outside transition zone. ¡ See graphs at page 39 and 40. 34 PROBE SPECIFICATIONS Description Materials Probe Process seal Spacers Probe diameter Mounting Process Connection Probe length Transition Zone¿ Top Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Bottom Max Min Dielectric Range Vacuum service Media coating Description Materials Probe diameter 7MQ: saturated steam GWR probe High Temp PEEK Silicon nitride 316/316L (1.4401/1.4404) High Temp PEEK with Aegis PF 128 Inside rod 8 mm (0.315) – outer tube 22,5 mm (0,88") External cage and/or in-tank mounting Threaded: 3/4" NPT or 1" BSP (G 1") Flanged: various ANSI, EN (DIN) or torque tube mating flanges Probe Process seal Probe length Blocking distance (top) Transition Zone¿ (bottom) Max Min Max Process Pressure¡ Max Viscosity Dielectric Range Vacuum service Media coating High Temp PEEK with Aegis PF 128 Alumina Inside rod 8 mm (0.315) – outer tube 32 mm (1,25") Threaded: not available Flanged: various ANSI, EN (DIN) or torque tube mating flanges From 60 cm to 450 cm (24" to 177") 200 mm (8"); consult factory for overfill applications εr ≥ 10 = 25 mm (1") +300 °C @ 88 bar (+575 °F @ 1275 psi) -15 °C @ 207 bar (0 °F @ 3000 psi) 88 bar @ +300 °C (1275 psi @ +575 °F) 500 mPa.s (cP) 10 to 100 Negative pressure but not hermetic seal Not applicable Process Connection Process Temp.¡ 7MS: saturated steam GWR probe 7MF (industrial): standard single rod 316/316L (1.4401/1.4404), Hastelloy C (2.4819), Monel® (2.4360), or PFA insulated 316/316L (1.4401/1.4404) ® TFE with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) Bare: 13 mm (0.50") PFA coated: 16 mm (0.625") Threaded: 2" NPT or 2" BSP (G 2") Flanged: various ANSI or EN (DIN) flanges +345 °C @ 155 bar (+650 °F @ 2250 psi) 155 bar @ +345 °C (2250 psi @ +650 °F) 7MJ: HTHP single rod 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) PEEK with Aegis PF 128 Bare: 13 mm (0.50") From 60 cm to 610 cm (24" to 240") 120 mm up to 910 mm (4.8" up to 36") - depending probe length (adjustable) εr ≥ 10: 25 mm (1") +150 °C @ 27,6 bar (+300 °F @ 400 psi) 7MF-F: -40 °C @ 13,8 bar (-40 °F @ 200 psi) Other 7MF-probes: -40 °C @ 51,7 bar (-40 °F @ 750 psi) 70 bar @ +20 °C (1000 psi @ +70 °F) +315 °C @ 155 bar (+600 °F @ 2250 psi) -15 °C @ 245 bar (0 °F @ 3550 psi) 245 bar @ +20 °C (3550 psi @ +70 °F) 10.000 mPa.s (cP) – consult factory in case of agitation/turbulence εr: 10-100 (depending installation conditions, down to εr ≥ 1,9) Negative pressure but not hermetic seal Max error of 10 % of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4-20 mA signal outside transition zone / blocking distance. ¡ See graphs at page 39 and 40. 35 PROBE SPECIFICATIONS Description Materials Probe diameter Probe length 7MF-E/G/H & 7MH: hygienic single rod probe 316/316L (1.4401/1.4404), Hastelloy® C22 (2.4602) or AL-6XN stainless steel (UNS N08367); 7MH Probe also available in 316L (1.4435) stainless steel 7MF: PTFE (GRAS 21CFR177-1550 and USP <88> Class VI at 121 °C) Process seal 7MH: PEEK & 'O'-ring in Viton or EPDM (GRAS 21CFR177-1550 and USP <88> Class VI at 121 °C) Blocking distance (top) Transition Zone➀ (bottom) Process Temp.¡ Max Min Max Process Pressure¡ Max Viscosity Dielectric Range Materials Probe diameter 0 mm up to 910 mm (0" up to 36") - depending probe length (adjustable) εr ≥ 10: 25 mm (1") +150 °C @ 13,8 bar (+300 °F @ 200 psi) for 7MH with Viton GF ‘O’-rings and 7MF +120 °C @ 13,8 bar (+250 °F @ 200 psi) for 7MH with EPDM ‘O’-rings -40 °C @ 13,8 bar (-40 °F @ 200 psi) 13,8 bar @ +150 °C (200 psi @ +300 °F) for 7MH with Viton GF ‘O’-rings and 7MF 13, 8 bar @ +120 °C (200 psi @ +250 °F) for 7MH with EPDM ‘O’-rings 10.000 mPa.s (cP) – consult factory in case of agitation/turbulence Max error of 10 % of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. Probe 7M1 (liquids) / 7M2 (solids): single flexible Probe length Blocking distance (top) Transition Zone¿ (bottom) Max Min Max Process Pressure¡ Max Viscosity Dielectric Range Mechanical load Pull-down force Vacuum service Media coating Threaded: 2" NPT or 2" BSP (G 2") Flanged: various ANSI or EN (DIN) flanges From 2 m (6.56') to max 22 m (72.18') 120 mm up to 910 mm (4.8" up to 36") - depending 300 mm to 500 mm (12" to 20") probe length (adjustable) 305 mm (12") 7M1/7M7: +150 °C @ 27,6 bar (+300 °F @ 400 psi) 7M2/7M5: +65 °C @ 3,45 bar (+150 °F @ 50 psi) 7M1/7M7: -40 °C @ 51,7 bar (-40 °F @ 750 psi) 7M2/7M5: -40 °C @ 3,45 bar (-40 °F @ 50 psi) 7M1/7M7: 70 bar @ +20 °C (1000 psi @ +70 °F) 7M2/7M5: 3,45 bar @ +20 °C (50 psi @ +70 °F) 10.000 mPa.s (cP) – consult factory in case of agitation/ turbulence 7M1: r: 10-100 (depending installation conditions, down to r ≥ 1,9) 7M2: r: 4-100 ε ε ε It is recommended to set 4-20 mA signal outside transition zone / blocking distance. ¡ See graphs at page 39 and 40. 1500 mPa.s (cP) εr: 1,9-100 7M1: 9 kg (20 lbs) 7M2: 1360 kg (3000 lbs) 7M5: 1360 kg (3000 lbs) Negative pressure but not hermetic seal Max error of 10 % of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. 36 7M5 (solids) /7M7 (liquids): twin flexible 316 SST (1.4401) FEP coated 316 SST (1.4401) 7M1/7M7: Teflon® with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) Process seal 7M2/7M5: Teflon® with Viton® GFLT 7M1: 5 mm (0.19") 6 mm (0.25") 7M2: 6 mm (0.25") Process Connection Process Temp.¡ From 30 cm to 610 cm (12" to 240") (selectable per 1 cm) εr 10-100 (depending installation conditions, down to εr ≥ 1,9) – liquids Media coating Description 13 mm (0.50") or 6 mm (0.25") PROBE SPECIFICATIONS Description Materials Probe diameter Mounting Process Connection Probe length Transition Zone¿ Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Dielectric Range Vacuum Service Media coating Description Materials Probe diameter Mounting Process Connection Probe length Transition Zone¿ Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Dielectric Range Probe Process seal Bottom spacer 2" cage 3" cage 4" cage Top Bottom Max Min Level Interface Probe Process seal Spacers Small coax Enlarged Small coax all Top Bottom Max Min Vacuum service Media coating 7MG: cage GWR probe 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) Teflon® with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) 2" cage: Teflon®; 3" and 4" cage: PEEK 13 mm (0.50") 19 mm (0.75") 25 mm (1") In a 2", 3" or 4" cage / schedule pipe stillwell or bridle Flanged: various ANSI or EN (DIN) flanges From 60 cm to 610 cm (24" to 240") 0 mm (0") εr: 1,4 = 150 mm (6")/εr: 80 = 50 mm (2") +200 °C @ 18,6 bar (+400 °F @ 270 psi) -40 °C @ 51,7 bar (-40 °F @ 750 psi) 70 bar @ +20 °C (1000 psi @ +70 °F) 10.000 mPa.s (cP) εr ≥ 1,4 Upper liquid: εr ≥ 1,4 and ≤ 5 Lower liquid: εr ≥ 15 Negative pressure but not hermetic seal Max error of 10 % of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. 7MT/7MN: interface GWR probe 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) Teflon® with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) Teflon® inside rod 8 mm (0.315") – outer tube 22,5 mm (0.88") Stainless steel: inside rod 16 mm (0.63") – outer tube 45 mm (1.75") Hast. C / Monel®: inside rod 16 mm (0.63") – outer tube 49 mm (1.93") External cage and/or in-tank mounting Threaded: 3/4" NPT or 1" BSP (G 1") Flanged: various ANSI, EN (DIN) or torque tube mating flanges From 60 cm to 610 cm (24" to 240") 0 mm (0") εr: 1,4 = 150 mm (6")/εr: 80 = 50 mm (2") +200 °C @ 18,6 bar (+400 °F @ 270 psi) -40 °C @ 51,7 bar (-40 °F @ 750 psi) 70 bar @ +20 °C (1000 psi @ +70 °F) Small coax: 500 mPa.s (cP); Enlarged coax: 2000 mPa.s (cP) Upper liquid: εr ≥ 1,4 and ≤ 5 Lower liquid: εr ≥ 15 Negative pressure but not hermetic seal In case of media coating, select 7MN probe ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4-20 mA signal outside transition zones. ¡ See graphs at page 39 and 40. 37 PROBE SPECIFICATIONS Description Materials Probe diameter Mounting Probe Process seal Spacers Process Connection Probe length Transition Zone¿ Process Temp.¡ Max. Process Pressure¡ Max. Viscosity Dielectric Range Vacuum service Media coating Description Materials Probe diameter Cage Top Bottom Max Min Probe Process seal Bottom spacer Process Connection Measuring range Process Temp.¡ Max. Process Pressure¡ Max Min Max. Viscosity Dielectric Range (level only) Vacuum service 7MB: standard twin rod GWR probe 316/316L (1.4401/1.4404), Hastelloy® C (2.4819) or Monel® (2.4360) Teflon® with Viton® GFLT, Aegis PF 128 or Kalrez® 4079 (consult factory for alternatives) Teflon® Two 13 mm (0.5") Ø rods – 22,2 mm (0.875") CL to CL In-tank mounting only. Twin rod probe must be used in metallic vessel or stillwell > 25 mm (1") from any surface or obstruction. Threaded: 2" NPT or 2" BSP (G 2") Flanged: various ANSI, EN (DIN) or torque tube mating flanges From 60 cm to 610 cm (24" to 240") εr ≥ 1,9 = 150 mm (6") εr: 1,9 = 150 mm (6")/εr: 80 = 25 mm (1") +150 °C @ 27,6 bar (+300 °F @ 400 psi) -40 °C @ 51,7 bar (-40 °F @ 750 psi) 70 bar @ +20 °C (1000 psi @ +70 °F) 1500 mPa.s (cP) 1,9 to 100 Negative pressure but not hermetic seal Film: 3% error of coated length, bridging not recommendedÆ 7EK: Top/Bottom GWR probe r ≥ 1,4 - max +260 °C ε 7EK: Top/Bottom GWR probe r ≥ 10 - max +315 °C PEEK and TFE with Aegis PF 128 PEEK and Alumina with Aegis PF 128 316/316L (1.4401/1.4404) TFE Inside tube: max 22,5 mm (0.88") 2" - Sch 80 Top/Bottom cage min 356 mm (14") Std. – max 6,1 m (240") +260 °C @ 115 bar (+500 °F @ 1670 psi) -15 °C @ 117 bar (0 °F @ 1700 psi) 117 bar @ -15 °C (1700 psi @ +0 °F) 10.000 mPa.s (cP) 1,4 to 100 - Non conductive and conductive media Negative pressure but not hermetic seal εr = dielectric permitivity. It is recommended to set 4-20 mA signal out- side transition zones. 38 PEEK Threaded: 1 1/2" NPT or 2" NPT Welded: 1 1/2" or 2" socket weld Flanged: Various ANSI, EN (DIN) or torque tube mating flanges ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; ¡ See graphs at page 39 and 40. ε +315 °C @ 109 bar (+600 °F @ 1585 psi) 10 to 100 - Conductive media Æ Bridging is defined as continuous accumulation of material between the probe elements. Process pressure (bar) Process pressure (bar) TEMPERATURE - PRESSURE RATING FOR ECLIPSE PROBE SEAL Process temperature (°C) Process temperature (°C) 7MR/7MM, 7MT/7MN, 7MG probes Process pressure (bar) Process pressure (bar) 7MS probes 7MJ probes 7MQ probes Process temperature (°C) Process temperature (°C) 7MD/7ML probes small coax Process pressure (bar) Process pressure (bar) 7MD/7ML probes enlarged coax Process temperature (°C) 7M1/7M7, 7MB, 7MF probes except 7MF-E, F, G, H 7MF-F probes Process temperature (°C) 7MF-E, G, H probes 39 Process pressure (bar) Process pressure (bar) TEMPERATURE - PRESSURE RATING FOR ECLIPSE PROBE SEAL Process temperature (°C) Process temperature (°C) 7MH with Viton GF 'O'-rings 7MH with EPDM 'O'-rings 7EK probes for max +260 °C 7EK probes for max +315 °C and conductive liquids only “O” RING SPECIFICATIONS¿ – Not suited for Ammonia/Chlorine applications “O”-ring material Viton GFLT ® Neoprene® EPDM Kalrez® 4079 max process temperature 200°C @ 16 bar (400 °F @ 230 psi) min process temperature -40 °C (-40 °F) max process pressure 70 bar @ 20 °C (1000 psi @ 70 °F) 150 °C @ 20 bar (300 °F @ 290 psi) -55 °C (-65 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 120 °C @14 bar (250 °F @ 200 psi) 200 °C @ 16 bar (400 °F @ 232 psi) -50 °C (-60 °F) -40 °C (-40 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 200 °C @ 14 bar (400 °F @ 200 psi) -30 °C (-20 °F) Buna-N 135 °C @ 22 bar (275 °F @ 320 psi) -20 °C (-4 °F) Polyurethane 95 °C @29 bar (200 °F @ 420 psi) -55 °C (-65 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 200 °C @ 16 bar (400 °F @ 232 psi) -20 °C (-4 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) Chemraz® 505 HSN (Highly Saturated Nitrile) Aegis PF128 ¡ 135 °C @ 22 bar (275 °F @ 320 psi) -20 °C (-4 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) 70 bar @ 20 °C (1000 psi @ 70 °F) ¿ Valid for all GWR probe types, except 7MD, 7ML, 7MS, 7MJ, 7EK ¡ Max +150 °C (+300 °F) for use on steam. 40 not recommended for applications ketones (MEK, acetone), skydrol fluids, amines, anhydrous ammonia, low molecular weight esters and ethers, hot hydrofluoric or chlorosulfonic acids, sour hydrocarbons phosphate ester fluids, ketones (MEK, acetone) petroleum oils, di-ester base lubricant, steam hot water/steam, hot aliphatic amines, ethylene oxide, propylene oxide acetaldehyde, ammonia + lithium metal solution, butyraldehyde, di-water, freon, ethylene oxide, liquors, isobutyraldehyde halogenated hydrocarbons, nitro hydrocarbons, phosphate ester hydraulic fluids, ketones (MEK, acetone), strong acids, ozone, automotive brake fluid acids, ketones, chlorinated hydrocarbons halogenated hydrocarbons, nitro hydrocarbons, phosphate ester hydraulic fluids, ketones (MEK, acetone), strong acids, ozone, automotive brake fluid, steam black liquor, freon 43, freon 75, galden, KEL-F liquid, molten potassium, molten sodium recommended for applications general purpose, ethylene refrigerants, high anline point petroleum oils, silicate ester lubricants acetone, MEK, skydrol fluids inorganic and organic acids (including hydro fluids and nitric), aldehydes, ethylene, organic oils, glycols, silicone oils, vinegar, sour hydrocarbons inorganic and organic acids, alkalines, ketones, esters, aldehydes, fuels general purpose sealing, petroleum oils and fluids, cold water, silicone greases and oils, di-ester base lubricants, ethylene glycol base fluids hydraulic systems, petroleum oils, hydrocarbon fuel, oxygen, ozone NACE applications inorganic and organic acids (including hydro fluids and nitric), aldehydes, ethylene, organic oils, glycols, silicone oils, vinegar, sour hydrocarbons, steam, amines, ethylene oxide, propylene oxide, NACE applications DIMENSIONS in mm (inches) - Dual compartment housing 45° View 105 (4.12) 83 (3.28) 102 (4.00) 256 (10.08) 126 (4.94) 45° 2 cable entries 102 (4.00) 214 (8.43) 70 (2.75) 19 (0.75) 89 (3.50) 111 (4.38) Integral Electronics 83 (3.28) Eclipse Housing, (45° View) 2 cable entries 102 (4.00) 95 (3.75) 105 (4.12) 45° 2 holes Ø 9,5 (0.37) 840 or 3660 (33 or 144) 108 (4.25) Remote Electronics DIMENSIONS in mm (inches) - Twin Rod 83 (3.28) 83 (3.28) 105 (4.12) 102 (4.00) 83 (3.28) 105 (4.12) 102 (4.00) 102 (4.00) 256 (10.08) 2 cable entries 45° 2 cable entries 103 (4) Probe Insertion Length 7MB with threaded 2" BSP (G 2") connection 105 (4.12) 45° 256 (10.08) 256 (10.08) 2 cable entries 45° 129 (5.08) 126 (4.96) Probe Insertion Length Probe Insertion Length 7MB with threaded 2" NPT connection 7MB with flanged connection 22,2 (0.875) Ø 13 (0.50) Rods Twin Rod GWR Probe, End View 41 DIMENSIONS in mm (inches) - Coaxial GWR probes 83 (3.28) 105 (4.12) 83 (3.28) 102 (4.00) 102 (4.00) 45° 2 cable entries Probe Insertion Length NPT 256 (10.08) 45° 2 cable entries 83 (3.28) 102 (4.00) 2 cable entries 7MD: 218 (8.58) 7MS/7MQ: 177 (6.97) Probe Insertion Length NPT 7MR / 7MT with flanged connection 83 (3.28) Probe Insertion Length BSP 7MD/7MS/7MQ with threaded connection Probe Insertion Length NPT 45° 162 (6.38) Probe Insertion Length 7MD/7MS/7MQ with flanged connection 1/4" NPT plugged 1/4" NPT plugged 256 (10.08) 206 (8.11) Probe Insertion Length BSP Probe Insertion Length 7MM / 7MN with flanged connection 83 (3.28) 105 (4.12) 105 (4.12) 102 (4.00) 256 (10.08) 256 (10.08) 2 cable entries 277 (10.90) 7MD: 7MS/7MQ: 240 (9.45) 45° 2 cable entries 102 (4.00) 256 (10.08) 2 cable entries 105 (4.12) 256 (10.08) 7MM / 7MN with threaded connection 83 (3.28) 256 (10.08) 7MD: 199 (7.83) 7MS/7MQ: 156 (6.14) NPT plugged 1/4" 171 (6.73) 105 (4.12) 102 (4.00) 45° 45° 2 cable entries Probe Insertion Length 105 (4.12) 83 (3.28) 102 (4.00) 256 (10.08) 168 (6.61) Probe Insertion Length BSP 7MR / 7MT with threaded connection 105 (4.12) 102 (4.00) 137 (5.39) 144 (5.68) 42 83 (3.28) 105 (4.12) 45° 2 cable entries 297 (11.69) Probe Insertion Length 7ML with threaded connection 1/4" NPT plugged 45° 375 (14.76) Probe Insertion Length 7ML with flanged connection DIMENSIONS in mm (inches) - Coaxial GWR probes 50 (1.97) 20 (0.79) Ø 229 (9.0) B A 45° Venting holes for level Slots for 7MR-A, 7MD-A/V/W (order per “x” description) D B 6 (.22) Fisher 249B/259B (600 lbs), carbon steel Ø 143 (5.625) E Ø 11 (.438) B E C Ø 191 (7.50) D E F 305 (12) 305 (12) 22,5 (0.88) 45 (1.75) - SST 49 (1.29) - HC and Monel Ø 22 (.875) Ø 12,7 (0.5) 25,4 (1) 8 (0.31) 102 (4.00) 29 (1.125) 6 (.25) Masoneilan (600 lbs), 316 carbon steel 16 (0.63) 32 (1.25) Ø 149 (5.875) 45° Large coax mm (inch) 19 (0.75) 5 (.188) Fisher 249C (600 lbs), 316 stainless steel 7MQ End View Ø 6,4 (0.25) 29 (1.125) 86 (3.375) D A Ø 121 (4.750) 45° F Small coax mm (inch) 32 (1.125) 133 (5.23) Coaxial GWR Probe, End View Venting holes for interface Dim. Ø 184 (7.25) Ø 22 (.875) 4 (0.16) C Proprietary flanges DIMENSIONS in mm (inches) - Single Rod 83 (3.28) 105 (4.12) 102 (4.00) Ø Rod Bare 13 (0.50) / PFA insulated 16 (0.62) 7MF: 60 (2.36) 7MJ: 150 (5.91) 60 (2.36) Probe Insertion Length 7MF-F with PFA faced-flanged connection 13 (0.50) Ø Rod Probe Insertion Length Optional Spacer 7MF/7MJ with flanged connection 2 cable entries 7MF: 57 (2.24) 7MJ: 147 (5.79) Ø Rod Bare 13 (0.50) / Probe Insertion PFA insulated Length 16 (0.62) NPT Optional Spacer 45° 256 (10.08) 7MF: 36 (1.42) 7MJ: 126 (4.96) Probe Insertion Length BSP 7MF/7MJ with threaded connection 49 (1.90) Spacer (end view) 43 DIMENSIONS in mm (inches) - Hygienic 58 (2.28) 52 (2.05) 60 (2.36) 175 (6.89) Cable entry 43° 109 (4.28) Integral Electronics 43° View 52 (2.05) 58 (2.28) 60 (2.36) 19 (0.75) Cable entry 70 (2.75) 102 (4.00) 2 holes Ø 9,5 (0.37) 89 (3.50) 43° 95 (3.75) 840 or 3660 (33 or 144) 108 (4.25) Remote Electronics Process Connection 6 (0.25) Ø Rod 60 (2.36) Probe Insertion Length 3/4" Tri-Clamp® connection 44 Process Connection 13 (0.50) Ø Rod 7MF: 60 (2.36) 7MH: 70 (2.76) Probe Insertion Length all except 3/4" Tri-Clamp® connection DIMENSIONS in mm (inches) - cable GWR probe 41 (1.61) 59 (2.32) 610 (24) Probe Insertion Length BSP 62 (2.44) 62 (2.44) 76 (3) 610 (24) Probe Insertion Length NPT Probe Insertion Length Weight Ø 51 (2) 99 (3.88) 99 (3.88) 7M1 with threaded connection 62 (2.44) Ø 51 (2) 152 (6) Ø 51 (2) Probe Insertion Length 152 (6) Ø 51 (2) 7M2 with threaded connection 93 (3.66) Probe Insertion Length Probe Insertion Length NPT Weight Weight Weight Ø 51 (2) 7M2 with flanged connection 83 (3.25) 76 (3) Probe Insertion Length BSP Probe Insertion Length NPT 152 (6) 7M1 with flanged connection 83 (3.25) 76 (3) Probe Insertion Length BSP Weight 80 (3.13) 76 (3) 80 (3.13) 152 (6) Weight 111 (4.37) 76 (3) 76 (3) Probe Insertion Length BSP Probe Insertion Length NPT Ø 51 (2) Probe Insertion Length Weight 73 (2.88) 7M5 7M5 with threaded connection with flanged connection 114 (4.49) Ø 51 (2) 73 (2.88) Weight Ø 51 (2) 7M7 7M7 with threaded connection with flanged connection Additional weight 29 (1.13) 99 (3.88) Ø 51 (2) Ø 13,2 (0.52) TFE Weight 450 g (1 lb.) 7M1 152 (6) 19 (0.75) Ø 51 (2) SST Weight 2,25 kg (5 lbs) 7M2 32 (1.25) 73 (2.88) Ø 51 (2) Ø 13,2 (0.52) TFE Weight 284 g (10 oz.) 7M7 152 (6) 19 (0.75) Ø 51 (2) SST Weight 2,25 kg (5 lbs) 7M5 45 DIMENSIONS in mm (inches) - cage GWR probe 187 (7.37) 187 (7.37) Ø 71 (2.80) Ø 13 (0.50) rod Probe Insertion Length Ø 95 (3.77) Ø 19 (0.75) rod Probe Insertion Length 7MG - 2" cage Ø 25 (1) rod PEEK spacer PEEK spacer Teflon® spacer 187 (7.37) 7MG - 3" cage 7MG - 4" cage 49 (1.90) 71 (2.80) Spacer (end view) 46 Spacer (end view) 94 (3.70) Spacer (end view) Probe Insertion Length MODEL IDENTIFICATION A complete measuring system consists of: 1. Eclipse transmitter head/electronics 2. Eclipse 705 GWR probe 3. Free of charge: Eclipse 705 DTM (PACTware™) can be downloaded from www.magnetrol.com. 4. Option: MACTek Viator USB HART® interface: order code: 070-3004-002 - TFE spacer for single rod metal GWR probes; order code: 089-9114-001 (7MF-A), 089-9114-002 (7MF-B), 5. Option: - 089-9114-003 (7MF-C) - PEEK spacer for single rod 7MJ GWR probe; order code: 089-9114-005 (7MJ-A), 089-9114-006 (7MJ-B), - 089-9114-007 (7MJ-C) - Additional weight for 7M1 GWR probe; order code: 089-9120-001 - Additional weight for 7M7 GWR probe; order code: 089-9121-001 - Additional weight for 7M2 GWR probe; order code: 004-8778-001 - Additional weight for 7M5 GWR probe; order code: 004-8778-002 1. Code for ECLIPSE 705 transmitter head/electronics BASIC MODEL NUMBER 7 0 5 Eclipse 705 guided wave radar transmitter POWER 5 24 V DC, two wire loop powered OUTPUT AND ELECTRONICS 1 1 2 3 0 A 0 0 4-20 mA with HART® – standard electronics (SFF of 84.5%) 4-20 mA with HART® – SIL enhanced electronics (SFF of 91%) Foundation Fieldbus™ communication Profibus PA™ communication ACCESSORIES A 0 Digital display and keypad - Blind transmitter (no display/keypad) for dual compartment housing - Blind housing cover for hygienic housing SEE NEXT PAGE 7 0 5 5 complete code for ECLIPSE 705 transmitter head/electronics X = product with a specific customer requirement 47 MODEL IDENTIFICATION 1. Code for ECLIPSE 705 transmitter head/electronics SEE PREVIOUS PAGE MOUNTING / HOUSING MATERIAL / APPROVAL¿ Integral mount electronics Cast aluminium - dual compartment 1 A C E 1 1 1 1 Weatherproof ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) ATEX flameproof enclosure ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) Cast SST - dual compartment 1 2 Weatherproof A 2 ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) ATEX flameproof enclosure C 2 E 2 ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) 304 SST - IP 67 - hygienic 1 3 Weatherproof A 3 ATEX intrinsically safe (digit 5 =1) / ATEX FISCO (digit 5 = 2 or 3) 84 cm (33") remote mount electronics Cast aluminium - dual compartment 2 B D F 1 1 1 1 Weatherproof ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) ATEX flameproof enclosure ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) Cast SST - dual compartment 2 2 Weatherproof B 2 ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) D 2 ATEX flameproof enclosure F 2 ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) 304 SST - IP 67 - hygienic 2 3 Weatherproof B 3 ATEX intrinsically safe (digit 5 =1) / ATEX FISCO (digit 5 = 2 or 3) 3,66 m (144") remote mount electronics (consult factory for applications with r < 10) Cast aluminium - dual compartment 2 7 Weatherproof B 7 ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) D 7 ATEX flameproof enclosure F 7 ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) ε Cast SST - dual compartment 2 8 Weatherproof B 8 ATEX intrinsically safe (digit 5 = 1) / ATEX FISCO (digit 5 = 2 or 3) D 8 ATEX flameproof enclosure F 8 ATEX non sparking (digit 5 =1) / ATEX FNICO (digit 5 = 2 or 3) 304 SST - IP 67 - hygienic 2 9 Weatherproof B 9 ATEX intrinsically safe (digit 5 =1) / ATEX FISCO (digit 5 = 2 or 3) ¿ CABLE ENTRY 1 0 4 7 0 5 48 5 For IEC approval, use ATEX approval and clearly request IEC nameplate. M20 x 1,5 (2 entries - 1 plugged) 3/4" NPT (2 entries - 1 plugged) 1/2" NPT (1 entry) complete code for ECLIPSE 705 transmitter head/electronics X = product with a specific customer requirement MODEL IDENTIFICATION 2. Code for ECLIPSE 705 GWR probe BASIC MODEL NUMBER 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 M M M M M M M M M M M M M M M M M B D F G H J L M N Q R S T 1 2 5 7 Twin Rod GWR probe for liquid level – WHG approved εr: ≥ 1,9 HTHP GWR probe for level/interface – WHG approved εr: ≥ 2,0 if digit 4 = A, B or C Single rod GWR probe εr: ≥ 1,9/10 Cage GWR probe for level/interface Hygienic single rod GWR probe HTHP single rod GWR probe εr: ≥ 1,9/10 HTHP GWR probe for level/interface with flushing connection εr: ≥ 2,0 if digit 4 = A, B or C GWR probe for level with flushing connection εr: ≥ 1,4 GWR probe for interface with flushing connection upper liq: εr: ≥ 1,4 and ≤ 5 / lower liq: ≥ 15 Coaxial GWR probe for saturated steam applications, incl. steam compensation / reference target; 345 °C (650 °F) max. GWR probe for level – WHG approved εr: ≥ 1,4 Coaxial GWR probe for saturated steam applications, incl. steam compensation / reference target; 300 °C (575 °F) max. GWR probe for interface upper liq: εr: ≥ 1,4 and ≤ 5 / lower liq: ≥ 15 Single cable GWR probe in 316 stainless steel (1.4401) εr: ≥ 1,9/10 – liquids Single cable GWR probe in 316 stainless steel (1.4401) εr: ≥ 4,0 – solids Twin cable GWR probe in FEP coated 316 SST (1.4401) εr: ≥ 1,9 – solids Twin cable GWR probe in FEP coated 316 SST (1.4401) εr: ≥ 1,9 – liquids MATERIAL OF CONSTRUCTION - wetted parts (including process connection flange when applicable) A B C E F G H L 4 V W N P R 316/316L (1.4401/1.4404) stainless steel Hastelloy C (2.4819) Monel (2.4360) 316/316L (1.4401/1.4404) stainless steel 0,4 µm Ra (15 Ra) electropolished surface finish PFA insulated 316/316L (1.4401/1.4404) stainless steel AL-6XN stainless steel (UNS N08367) 0,4 µm Ra (15 Ra) electropolished surface finish Hastelloy® C22 (2.4602) 0,4 µm Ra (15 Ra) electropolished surface finish 316L (1.4435) stainless steel 0,4 µm Ra (15 Ra) electropolished surface finish PFA insulated 316/316L (1.4401/1.4404) stainless steel 316/316L (1.4401/1.4404) stainless steel with High Temp PEEK® spacers εr: ≥ 1,7 316/316L (1.4401/1.4404) stainless steel with Teflon® spacers εr: ≥ 1,4 Enlarged coax 316/316L (1.4401/1.4404) stainless steel Enlarged coax Hastelloy C (2.4819) Enlarged coax Monel (2.4360) PROCESS CONNECTION - SIZE/TYPE (consult factory for other process connections) Threaded 1 1 3/4" NPT 4 1 2" NPT 2 2 1" BSP (G 1") 4 2 2" BSP (G 2") ANSI flanges 2 3 1" 150 lbs ANSI RF 2 4 1" 300 lbs ANSI RF 2 5 1" 600 lbs ANSI RF 2 K 1" 600 lbs ANSI RJ 2 L 1" 900 lbs ANSI RJ 3 3 1 1/2" 150 lbs ANSI RF 3 4 1 1/2" 300 lbs ANSI RF 3 5 1 1/2" 600 lbs ANSI RF 3 K 1 1/2" 600 lbs ANSI RJ 3 M 1 1/2" 900/1500 lbs ANSI RJ 3 N 1 1/2" 2500 lbs ANSI RJ 4 3 2" 150 lbs ANSI RF 4 4 2" 300 lbs ANSI RF 4 5 2" 600 lbs ANSI RF 4 K 2" 600 lbs ANSI RJ 4 M 2" 900/1500 lbs ANSI RJ 4 5 5 5 5 5 5 5 6 6 6 6 6 6 6 N 3 4 5 K L M N 3 4 5 K L M N 2" 3" 3" 3" 3" 3" 3" 3" 4" 4" 4" 4" 4" 4" 4" 2500 150 300 600 600 900 1500 2500 150 300 600 600 900 1500 2500 lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs lbs ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI RJ RF RF RF RJ RJ RJ RJ RF RF RF RJ RJ RJ RJ SEE NEXT PAGE 7 M complete code for ECLIPSE 705 GWR probe X = product with a specific customer requirement 49 MODEL IDENTIFICATION 2. Code for ECLIPSE 705 GWR probe SEE PREVIOUS PAGE PROCESS CONNECTION - SIZE/TYPE EN (DIN) flanges B B B C C C C C C D D D D D D D B C F B C F G H J A B D E F G H 2 3 4 9 5 6 C D V D V E D S T P P P P P P S S V N N N R Y Y DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN Hygienic 25 25 25 40 40 40 40 40 40 50 50 50 50 50 50 50 PN PN PN PN PN PN PN PN PN PN PN PN PN PN PN PN 16/25/40 63/100 160 16/25/40 63/100 160 250 320 400 16 25/40 63 100 160 250 320 EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type A B2 B2 A B2 B2 B2 B2 B2 A A B2 B2 B2 B2 B2 3/4" D E E E E E E E E F F F F F F F F Tri-Clamp® 1" - 1 1/2" Tri-Clamp® 2" Tri-Clamp® 2 1/2" Tri-Clamp® 3" Tri-Clamp® 4" Tri-Clamp® DN 40 DIN 11851 DN 50 DIN 11851 Varivent Type N (mounting diameter 68 mm) D 50 NEUMO BioControl D 65 NEUMO BioControl D 80 NEUMO BioControl DN 50 DIN 11864-1 Type A DN 11/2" SMS DN 2" SMS J A B D E F G H J A B D E F G H J DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN 50 PN 80 PN 80 PN 80 PN 80 PN 80 PN 80 PN 80 PN 80 PN 100 PN 100 PN 100 PN 100 PN 100 PN 100 PN 100 PN 100 PN 400 16 25/40 63 100 160 250 320 400 16 25/40 63 100 160 250 320 400 EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type B2 A A B2 B2 B2 B2 B2 B2 A A B2 B2 B2 B2 B2 B2 Torque tube mating flanges T T 300/600 lbs Fisher (249B/259B) in carbon steel T U 300/600 lbs Fisher (249C) in stainless steel U T 300/600 lbs Masoneilan flange in carbon steel U U 300/600 lbs Masoneilan flange in stainless steel PROCESS SEAL - MATERIAL 0 1 2 3 4 5 Viton® GFLT EPDM (Ethylene Propylene) PEEK® & EPDM ‘O’-rings for 7MH Kalrez® 4079 HSN (highly saturated nitrile) Buna-N Neoprene® 6 7 8 A C N Chemraz® 505 Polyurethane Aegis PF 128 Kalrez® 6375 PEEK® & Viton GF ‘O’-rings for 7MH Borosilicate/Inconel® X-750 for 7MD/7ML PTFE for 7MF-E/G/H SEE NEXT PAGE 7 M 50 complete code for ECLIPSE 705 GWR probe X = product with a specific customer requirement MODEL IDENTIFICATION 2. Code for ECLIPSE 705 GWR probe SEE PREVIOUS PAGE INSERTION LENGTH Rigid GWR probes: specify per cm (0.39") increment 0 6 0 min 60 cm (24") 6 1 0 max 610 cm (240") – max 450 cm (177") for 7MQ / 7MS Flexible GWR probes: specify per m (3.28') increment min 2 m (6.56') 0 0 2 0 2 2 max 22 m (72.18') Hygienic GWR probes: specify per cm (0.39") increment 0 3 0 min 30 cm (12") 1 8 0 max 180 cm (72") for 3/4" Tri-Clamp® process connection 6 1 0 max 610 cm (240") for all other process connections 7 M complete code for ECLIPSE 705 GWR probe X = product with a specific customer requirement 51 MODEL IDENTIFICATION 2. Code for ECLIPSE® 705 Top/Bottom GWR probe and cage Additional dimensions are provided (see drawings at bottom of this page): - Dimension A: top of process connection up to 20 mA range - Dimension B: bottom of process connection up to 4 mA range - Level Range, if different from 356 mm (14") BASIC MODEL NUMBER GWR probe suited for in-line external cage mounting 7 E K Top/Bottom GWR probe and cage - overfill safe MATERIAL OF CONSTRUCTION - wetted parts (including process connection flange when applicable) K M Cage and Flanges 316/316L (1.4401/1.4404) stainless steel Carbon steel PROCESS CONNECTION - SIZE/TYPE Threaded 3 1 1 1/2" NPT 4 1 2" NPT ANSI flanges 3 3 1 1/2" 3 4 1 1/2" 3 5 1 1/2" 4 3 2" 4 4 2" 4 5 2" 150 300 600 150 300 600 LEVEL RANGE A lbs lbs lbs lbs lbs lbs 316/316L (1.4401/1.4404) stainless steel Welded 3 9 1 1/2" socket weld 4 9 2" socket weld RF RF RF RF RF RF 356 mm (14") OPTIONS 0 2 None Sight glass connections (sight glass not included) LIQUID TYPE / OPERATING TEMPERATURE 1 0 2 0 7 E K ANSI ANSI ANSI ANSI ANSI ANSI GWR probe A Conductive liquids (εr ≥ 10) All liquids (εr ≥ 1,4) max +315 °C (+600 °F) max +260 °C (+500 °F) complete code for ECLIPSE 705 Top/Bottom GWR probe and cage 0 X = product with a specific customer requirement DIMENSIONS in mm (inches) A min 11/2": 64 (2.50) 2": 86 (3.37) A min 11/2": 102 (4.03) 2": 110 (4.34) 100 % 100 % mid range Max level range in mm or inches min 356 (14) max 6,1 m (240) 0% 52 Flanged 7EK B min 76 mm (3") A min 94 (3.69) mid range Max level range in mm or inches min 356 (14) max 6,1 m (240) 0% B min 76 mm (3") Threaded 7EK A min. 156 (6.12) 100 % 100 % Max level range in mm or inches min 356 (14) max 6,1 m (240) mid range 0% B min 76 mm (3") Welded 7EK mid range 3/4" NPT-F 0% B min 76 mm (3") Optional sight glass connections ® 705 Eclipse Guided Wave Radar Transmitter Configuration Data Sheet Copy blank page and store calibration data for future reference and troubleshooting. Item Vessel Name Vessel # Process Medium Tag # Electronics Serial # Probe Serial # Level Volume (optional) Interface (optional) Interface Volume (opt.) Probe Model Probe Mount Measurement Type Level Units Probe Length Level Offset Volume Units (opt.) Strapping Table (opt.) (Make a separate list for each level and its corresponding volume Dielectric Sensitivity Loop Control 4mA point 20mA point Damping Blocking Distance Safety Zone Fault Safety Zone Height Safety Zone Alarm Fault Choice Threshold Interface Threshold HART Poll Address Level Trim Trim 4 mA Trim 20 mA Level Ticks Interface Ticks (opt.) HF cable Screen «Level» «Volume» «IfcLvl» «IfcVol» «PrbModel» «PrbMount» Value Value TROUBLESHOOTING Working Value Non-Working Value «MeasType» «LvlUnits» «Probe Ln» «Lvl Ofst» «VolUnits» «StrapTbl» «Pt1..20» «Dielectrc» «Senstvty» «LoopCtrl» «Set 4mA» «Set 20mA» «Damping» «BlockDis» «Sz Fault» «SzHeight» «Sz Alarm Reset» «Fault» «Treshld» «IfcThrs» «Poll Adr» «Trim Lvl» «Trim 4» «Trim 20» «LvlTicks» «IfcTicks» «HF Cable» 53 ® 705 Eclipse Guided Wave Radar Transmitter Configuration Data Sheet – additional Advanced Diagnostic Copy blank page and store calibration data for future reference and troubleshooting. Item # of Fiducial Ticks Fiducial Spread Sys Code Fiducial Type Fiducial Gain Window Conversion Factor Scale Offset Negative Amplitude Positive Amplitude Signal Compensate Screen «FidTicks» «Fid Sprd» «Sys Code» «Fid Type» «Fid Gain» «Window» «Conv Fct» «Scl Ofst» «Neg Ampl» «Pos Ampl» «Signal» «Compensate» Derating Factor «DrateFct» Target Ticks (7MS) «Targ Tks» Operating Mode «OperMode» Target Amplitude (7MS) «TargAmpl» Target Calibration (7MS) «Targ Cal» 7EK Correction «7xK Corr» Max temperature «Max Temp» Electronics temperature «ElecTemp» Min temperature Safety Zone Hysterisis 54 «Min Temp» «SZ Hyst» Value Value TROUBLESHOOTING Correct Value Incorrect Value Notes 55 IMPORTANT SERVICE POLICY Owners of Magnetrol products may request the return of a control; or, any part of a control for complete rebuilding or replacement. They will be rebuilt or replaced promptly. Magnetrol International will repair or replace the control, at no cost to the purchaser, (or owner) other than transportation cost if: a. Returned within the warranty period; and, b. The factory inspection finds the cause of the malfunction to be defective material or workmanship. If the trouble is the result of conditions beyond our control; or, is NOT covered by the warranty, there will be charges for labour and the parts required to rebuild or replace the equipment. In some cases, it may be expedient to ship replacement parts; or, in extreme cases a complete new control, to replace the original equipment before it is returned. If this is desired, notify the factory of both the model and serial numbers of the control to be replaced. In such cases, credit for the materials returned, will be determined on the basis of the applicability of our warranty. No claims for misapplication, labour, direct or consequential damage will be allowed. RETURNED MATERIAL PROCEDURE So that we may efficiently process any materials that are returned, it is essential that a “Return Material Authorisation” (RMA) form will be obtained from the factory. It is mandatory that this form will be attached to each material returned. This form is available through Magnetrol’s local representative or by contacting the factory. Please supply the following information: 1. 2. 3. 4. 5. 6. Purchaser Name Description of Material Serial Number and Ref Number Desired Action Reason for Return Process details Any unit that was used in a process must be properly cleaned in accordance with the proper health and safety standards applicable by the owner, before it is returned to the factory. A material Safety Data Sheet (MSDS) must be attached at the outside of the transport crate or box. All shipments returned to the factory must be by prepaid transportation. Magnetrol will not accept collect shipments. All replacements will be shipped Ex Works. BULLETIN N°: EFFECTIVE: SUPERSEDES: UNDER RESERVE OF MODIFICATIONS BE 57-600.18 APRIL 2016 September 2015 www.m a gne tr ol.c om BENELUX FRANCE Heikensstraat 6, 9240 Zele, België -Belgique Tel. +32 (0)52.45.11.11 • Fax. +32 (0)52.45.09.93 • E-Mail: [email protected] DEUTSCHLAND Alte Ziegelei 2-4, D-51491 Overath Tel. +49 (0)2204 / 9536-0 • Fax. +49 (0)2204 / 9536-53 • E-Mail: [email protected] INDIA B-506, Sagar Tech Plaza, Saki Naka Junction, Andheri (E), Mumbai - 400072 Tel. +91 22 2850 7903 • Fax. +91 22 2850 7904 • E-Mail: [email protected] ITALIA Via Arese 12, I-20159 Milano Tel. +39 02 607.22.98 • Fax. +39 02 668.66.52 • E-Mail: [email protected] RUSSIA 198095 Saint-Petersburg, Marshala Govorova street, house 35A, office 427 Tel. +7 812 320 70 87 • E-Mail: [email protected] U.A.E. 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