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Eclipse
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Installation And Operating Manual

Eclipse 705 Installation And Operating Manual

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Manual is about: Guided Wave Radar Level Transmitter

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Guided Wave Radar

Level Transmitter

Enhanced Model 705

Software v3.x

Installation and Operating Manual

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Summary of 705

Page 1
Guided wave radar level transmitter enhanced model 705 software v3.X installation and operating manual.
Page 2
57-600 eclipse ® guided wave radar transmitter read this manual before installing this manual provides information on the eclipse ® trans- mitter. It is important that all instructions are read care- fully and followed in sequence. The quickstart installation instructions are a brief guide to the se...
Page 3: Eclipse
Table of contents 1.0 quickstart installation 1.1 getting started..........................................................4 1.1.1 equipment and tools..................................... 4 1.1.2 configuration information.............................5 1.2 quickstart mounting............................
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1.0 quickstart installation the quickstart installation procedures provide the key steps for mounting, wiring, and configuring the eclipse ® level transmitter. These procedures are intended for experi- enced installers of electronic level measurement instruments. See complete installation, section 2...
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1.1.2 configuration information some key information is needed to configure the eclipse transmitter. Complete the following operating parameters table before beginning configuration. Display question answer probe model what probe model is listed on the model information? (first four digits of probe ...
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6 1.2.2 transmitter ③ tighten the hex nut of the probe process connection or flange bolts. Note: leave the plastic protective cap in place until ready to install the transmitter. Do not use sealing compound or tfe tape on probe connection to transmitter as this connection is sealed by a viton ® o-ri...
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1.4 quickstart configuration the eclipse transmitter comes configured with default values from the factory but can be reconfigured in the shop (disregard any fault messages due to unattached probe). The minimum configuration instructions required in the field follow. Use the information from the ope...
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8 57-600 eclipse ® guided wave radar transmitter 2.0 complete installation this section provides detailed procedures for properly installing and configuring the eclipse guided wave radar level transmitter. 2.1 unpacking unpack the instrument carefully. Make sure all components have been removed from...
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9 2.3 before you begin 2.3.1 site preparation each eclipse transmitter is built to match the specific physical specifications of the required installation. Make sure the probe connection is correct for the threaded or flanged mounting on the vessel or tank where the transmit- ter will be placed. See...
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10 warning! The model 7xd, 7xr or 7xt overfill probes should be used for safety shutdown/overfill applications. All other guided wave radar probes should be installed so the maximum overfill level is a minimum of 6" (150 mm) below the process connection. This may include utilizing a nozzle or spool ...
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2.4.2 installing a twin rod probe (models 7xb, 7x5, and 7x7) before installing, make sure the: • model and serial numbers on the nameplates of the eclipse probe and transmitter are identical. • probe has adequate headroom for installation and has unob- structed entry to the bottom of the vessel. • p...
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12 57-600 eclipse ® guided wave radar transmitter 2.4.2.2 to install a model 7x7 standard flexible twin rod probe: ➀ make sure the process connection is at least 2" npt or a flanged mounting. ➁ make sure that there is at least 1" (25 mm) spacing between the active probe rod and any part of the tank ...
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13 57-600 eclipse ® guided wave radar transmitter 2. Ratio of diameter: length (a:b) is 1:1 or greater; any ratio blocking distance and/or dielectric adjustment (see section 2.6.5.2 measurement type: level and volume). 3. No pipe reducers (restrictions) are used. • probe is kept away from conductive...
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14 ➂ align the probe process connection with the threaded or flanged mounting on the vessel. ➃ for threaded connections, tighten the hex nut of the probe process connection. For flanged connections, tighten flange bolts. ➄ probe can be shortened in field: a. Raise tfe weight (1) exposing securing de...
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➁ make sure that there is at least 1" (25 mm) spacing between the active probe rod and any part of the tank (walls, stillwell, pipes, support beams, mixer blades, etc.). Minimum stillwell diameter for twin rod probe is 3". ➂ carefully place the probe into the vessel. Align the gasket on flanged inst...
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16 57-600 eclipse ® guided wave radar transmitter 2.4.5 installing the transmitter the transmitter can be ordered for installation as an integral or remote configuration. 2.4.5.1 integral mount ➀ remove the protective plastic cap from the top of the probe. Store the cap in a safe place in case the t...
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17 57-600 eclipse ® guided wave radar transmitter red (+) black (-) (+) (-) 2.5 wiring caution: all hart versions of the eclipse model 705 transmitter operate at voltages of 11–36 vdc. Higher voltage will damage the transmitter. Wiring between the power supply and the eclipse transmitter should be m...
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18 57-600 eclipse ® guided wave radar transmitter 2.5.2 intrinsically safe an intrinsically safe (is) installation potentially has flam- mable media present. An approved is barrier must be installed in the non-hazardous (safe) area. See agency drawing – intrinsically safe installation, section 3.4.2...
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19 57-600 eclipse ® guided wave radar transmitter 2.6 configuring the transmitter the eclipse transmitter comes configured from the factory but can be reconfigured easily in the shop (disregard error message due to unattached probe). Bench configuration provides a convenient and efficient way to set...
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20 57-600 eclipse ® guided wave radar transmitter 2.6.3 transmitter display and keypad the eclipse transmitter has an optional liquid crystal display (lcd) capable of showing two lines of 8 characters each. Transmitter measurements and configuration menu screens are shown on the lcd. The transmitter...
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21 57-600 eclipse ® guided wave radar transmitter 2.6.5 model 705 menu: step-by-step procedure the following tables provide a complete explanation of the software menus displayed by the eclipse transmitter. Use these tables as a step-by-step guide to configure the transmitter based on a desired meas...
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22 57-600 eclipse ® guided wave radar transmitter 2.6.5.1 measurement type: level only (loop control = level) display action comment 12 senstvty xxx enter value upward or downward to sense liquid surface allows fine gain adjustment for single rod probes (this parameter is password protected for coax...
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23 57-600 eclipse ® guided wave radar transmitter 2.6.5.1 measurement type: level only (loop control = level) display action comment 33 dispfact (select) select yes to display factory parameter menus 34 history (current status) press enter to view history of exceptions diagnostic display 35 run time...
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24 57-600 eclipse ® guided wave radar transmitter 2.6.5.2 measurement type: level and volume (loop control = volume) display action comment 1 *status* *volume* *% out * * loop * transmitter display loopctrl = volume transmitter default display showing: status, volume, % output and loop values cycles...
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25 57-600 eclipse ® guided wave radar transmitter 2.6.5.2 measurement type: level and volume (loop control = volume) display action comment 22 sz fault (select) select loop current behavior when level is sensed in safety zone safety zone is a user-defined area just below the blocking distance. Enabl...
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26 57-600 eclipse ® guided wave radar transmitter 2.6.5.2 measurement type: level and volume (loop control = volume) display action comment 44 fid gain xxx superuser password 45 window xxx factory parameter 46 conv fct xxxx factory parameter calibration parameter 47 scl ofst xxx factory parameter ca...
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27 57-600 eclipse ® guided wave radar transmitter 2.6.5.3 measurement type: interface level (loop control = interface level) display action comment 1 *status* *ifclvl* *% out * * loop * transmitter display loopctrl = ifclevel transmitter default display showing status, ifclevel, % output, and loop v...
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28 57-600 eclipse ® guided wave radar transmitter 2.6.5.3 measurement type: interface level (loop control = interface level) display action comment 21 sz fault (select) select loop current behavior when level is sensed in safety zone safety zone is a user-defined area just below the blocking distanc...
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29 57-600 eclipse ® guided wave radar transmitter 2.6.5.3 measurement type: interface level (loop control = interface level) display action comment 43 fidticks xxxx diagnostic display time of flight from start of ramp to fiducial 44 fid sprd xxx diagnostic display spread in fiducial ticks readings 4...
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30 57-600 eclipse ® guided wave radar transmitter 2.6.5.4 measurement type: interface and volume display action comment 1 *status* *ifclvl* *% out * * loop * transmitter display loopctrl = ifclevel and volume transmitter default display showing status, interface level, volume, % output, and loop val...
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31 57-600 eclipse ® guided wave radar transmitter 2.6.5.4 measurement type: interface and volume display action comment 24 blockdis xx.X lu enter distance below reference point where level is not sensed allows user to ignore level measurements near the top of the probe 25 sz fault (select) select lo...
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32 57-600 eclipse ® guided wave radar transmitter 2.6.5.4 measurement type: interface and volume display action comment 46 hist rst press enter and select yes to clear history similar to sz alarm reset 47 fidticks xxxx diagnostic display time of flight from start of ramp to fiducial 48 fid sprd 49 f...
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33 57-600 eclipse ® guided wave radar transmitter 2.6.6 offset description the parameter referred to as lvl ofst in the eclipse menu is the desired level reading when liquid surface is at the end of the probe. The eclipse transmitter is shipped from the factory with lvl ofst set to 0. With this conf...
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34 2.6.7 strapping table description the model 705 is available with a 20-point custom strap- ping table. Up to 20 pairs of level—volume points can be entered to linearize the 4-20 ma output for odd-shaped vessels. There are two ways to enter data into the strapping table. Procedure 1 (this method i...
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35 57-600 eclipse ® guided wave radar transmitter 2.7 configuration using hart a hart (highway addressable remote transducer) remote unit, such as a hart communicator, can be used to provide a communication link to the eclipse transmitter. When connected to the control loop, the same system measurem...
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36 57-600 eclipse ® guided wave radar transmitter 1 calibration 2 basic setup 3 advanced setup 4 diagnostics 5 review 1 device setup 2 level 3 % range 4 loop 5 device variables 1 tag 2 descriptor 3 date 4 message 5 poll address 6 final asmbly num 1 model 2 manufacturer 3 magnetrol s/n 4 firmware ver...
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37 57-600 eclipse ® guided wave radar transmitter 2.8 f oundation fieldbus ™ digital communications 2.8.1 description f oundation fieldbus is a digital communications system that serially interconnects devices in the field. A fieldbus system is similar to a distributed control system (dcs) with two ...
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38 57-600 eclipse ® guided wave radar transmitter details regarding cable specifications, grounding, termination, and other network information can be found in iec 61158 or at www.Fieldbus.Org. 2.8.2 benefits the benefits of fieldbus can be found throughout all phases of an installation: 1. Design/i...
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39 57-600 eclipse ® guided wave radar transmitter 2.8.3 device configuration device descriptions the function of a fieldbus device is determined by the arrangement of a system of blocks defined by the fieldbus foundation. The types of blocks used in a typical user application are described as follow...
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40 57-600 eclipse ® guided wave radar transmitter fisco certifying agencies have limited the maximum segment length to 1000 meters because the fisco model does not rely on standardized ignition curves. The eclipse model 705 is available with an entity is, fisco is, and explosion proof approvals. 3.0...
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41 57-600 eclipse ® guided wave radar transmitter 3.2.2 interface detection the eclipse model 705, when used with the model 7xt coaxial probe, is a transmitter capable of measuring both an upper level and an interface level. It is required that the upper liquid have a dielectric constant between 1.4...
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42 57-600 eclipse ® guided wave radar transmitter 3.2.3 time domain reflectometry (tdr) tdr uses pulses of electromagnetic (em) energy to mea- sure distances or levels. When a pulse reaches a dielectric discontinuity (created by media surface), part of the energy is reflected. The greater the dielec...
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43 57-600 eclipse ® guided wave radar transmitter level, % output and loop values basic configuration data is reconfigure the probe model and/or probe are all inaccurate. Questionable. Mount, probe length or level offset. 1) ensure the level is accurate. 2) verify 4 ma and 20 ma loop values. Interfa...
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44 57-600 eclipse ® guided wave radar transmitter 3.3.2 status messages display message action comment ok none normal operating mode initial none program is initializing, level reading held at 4 ma set point. This is a transient condition. Dryprobe none normal message for a dry probe. End of probe s...
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45 57-600 eclipse ® guided wave radar transmitter 3.3.2 status messages display message action comment lo temp present temperature in electronics compartment is below -40 °c 1) transmitter may need to be moved to ensure ambient temperature is within specification 2) change to remote mount transmitte...
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46 3.3.3 troubleshooting applications there are numerous causes for application problems. 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 t...
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47 3.3.3.3 model 705 (single rod application) • nozzles nozzles can create false echoes that can cause diagnostic messages and/or errors in measurement. If eop high or eop low is displayed when first configuring the instrument: 1. Ensure the probe length as entered in the software is equal to the ac...
Page 48
Fm 705-5xxx-1xx intrinsically safe class i, div. 1; groups a, b, c, & d 705-5xxx-2xx class ii, div. 1; groups e, f, & g t4 class iii, type 4x, ip66 entity 705-5xxx-3xx explosion proof ➀ class i, div. 1; groups b, c & d 705-5xxx-4xx (with intrinsically safe probe) class ii, div. 1; groups e, f, & g t...
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49 57-600 eclipse ® guided wave radar transmitter 3.4.2 agency specifications – intrinsically safe installation.
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50 57-600 eclipse ® guided wave radar transmitter 3.4.3 agency specifications – f oundation fieldbus system.
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51 3.5 parts 3.5.1 replacement parts item description part number ➀ electronic module hart with display (sil 1) z31-2835-001 hart without display (sil 1) z31-2835-002 hart with display (sil 2) z31-2835-003 hart without display (sil 2) z31-2835-004 f oundation fieldbus with display z31-2841-001 f oun...
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52 57-600 eclipse ® guided wave radar transmitter 3.6 specifications 3.6.1 functional system design measurement principle guided time-of-flight via time domain reflectometry input measured variable level, determined by the time-of-flight of a guided radar pulse from transmitter to product surface an...
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53 reference conditions ➁ reflection from water at +70 °f (+20 °c) with 72" coaxial probe (cfd threshold) linearity ➂ coaxial/twin rod probes: single rod probes: measured error ➃ coaxial/twin rod probes: ±0.1% probe length or ±0.1 inch (whichever is greater) single rod probes ±0.5% probe length or ±...
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54 57-600 eclipse ® guided wave radar transmitter reference conditions reflection from liquid of selected dielectric at +70 °f (+20 °c) with 72" probe linearity measured error upper layer ±1 inch interface layer ±1 inch (clean distinct interface required) upper layer dielectric 1.4–5.0 interface lay...
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Dual-element probes 55 57-600 eclipse ® guided wave radar transmitter single rod probes distance to probe acceptable objects continuous, smooth, parallel conductive surface; e.G., tank wall. Important that probe does not touch wall. All remaining objects single rod probe clearance guidelines table n...
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56 57-600 eclipse ® guided wave radar transmitter temperature/pressure charts 3.6.6 physical inches (mm) 33.00 or 144 (838 or 3650) 3.75 (95) 3.00 (76) 2.75 (70) 2.00 (51) 3.50 (89) 2 holes .38 (10) dia. 4.00 (102) 4.12 (105) 3.28 (83) elect. Conn. Qty. 2 45 4.00 (102) eclipse ® remote configuration...
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57 57-600 eclipse ® guided wave radar transmitter 3.6.6 physical – coaxial probes inches (mm) eclipse ® with 7xs/7xq probe flanged connection eclipse ® with 7xs probe threaded connection d dimension h dimension probe standard enlarged npt flanged 7xa .875 (22) 1.75 (44) 2.32 (59) 2.91 (74) 7xd .875 ...
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58 57-600 eclipse ® guided wave radar transmitter 3.6.6 physical – twin rod probes inches (mm) eclipse ® with 7x7 twin rod flexible probe flanged or npt connection 1.75 (44) probe insertion length 0.1875" Ø cable 0.75" (19) Ø 0.50" (12) hole tfe weight Ø 2.0" (50) probe insertion length 2.80 (71) np...
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59 57-600 eclipse ® guided wave radar transmitter 3.6.6 physical – single rod probes inches (mm) eclipse ® with 7xf-e probe hygienic connection probe insertion length sanitary conn. Ø 0.50" (12) rod 2.36 (60) eclipse ® with 7xf-f probe faced-flange connection probe insertion length 2.36 (60) Ø 0.50"...
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3.7 model numbers 3.7.1 transmitter 60 57-600 eclipse ® guided wave radar transmitter 0 3 ⁄ 4 " npt 1 m20 1 cast aluminum, dual compartment, 45° angle 2 316 stainless steel, dual compartment, 45° angle ➁ 7 cast aluminum, dual compartment, 45° angle, 12-ft remote 8 316 ss, dual compartment, 45° angle...
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3.7.2 probe 61 7 57-600 eclipse ® guided wave radar transmitter refer to pages 59 and 60 for selections 0 viton ® gflt 1 epdm (ethylene propylene rubber) 2 kalrez ® 4079 8 aegis pf128 n none (use with probes 7xd, 7xp, 7xf-e, 7xf-f, 7xf-g) 7e eclipse gwr probe, english unit of measure 7m eclipse gwr ...
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3.7.2 probe 62 57-600 eclipse ® guided wave radar transmitter 7 5l 3" 900# ansi ring joint flange ➁ 5m 3" 1500# ansi ring joint flange ➁ 5n 3" 2500# ansi ring joint flange ➁ 6k 4" 600# ansi ring joint flange ➁ 6l 4" 900# ansi ring joint flange ➁ 6m 4" 1500# ansi ring joint flange ➁ 6n 4" 2500# ansi ...
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63 57-600 eclipse ® guided wave radar transmitter 7 tt 3 1 ⁄ 2 " 600# fisher ® - proprietary carbon steel (249b) torque tube flange tu 3 1 ⁄ 2 " 600# fisher - proprietary 316 stainless steel (249c) torque tube flange ut 3 1 ⁄ 2 " 600# masoneilan ® - proprietary carbon steel torque tube flange uu 3 1...
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Accuracy the maximum positive and negative % deviation over the total span. Ansi american national standards institute. Atex atmospheric explosive european regulations governing the use in hazardous areas. Blocking distance the distance between the top of the probe (fiducial) and the point at which ...
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Radar radio detection and ranging uses em energy and high speed timing circuits to determine distance. Original radar devices used energy in the radio frequency range (mhz), many current devices use much higher frequencies (ghz). Range a value related to probe length (factory setting). Relative diel...
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Copy blank page and store calibration data for future reference and troubleshooting. Item value value value vessel name vessel # process medium tag # electronics serial # troubleshooting probe serial # working value non-working value level volume (optional) interface (optional) interface volume (opt...
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67 57-600 eclipse ® guided wave radar transmitter copy blank page and store calibration data for future reference and troubleshooting. Item value value value troubleshooting working value non-working value fidticks fidsprd fid type fid gain window conv fct scl ofst neg ampl pos ampl signal compsate ...
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Bulletin: 57-600.22 effective: march 2017 supersedes: october 2015 705 enterprise street • aurora, illinois 60504-8149 • 630-969-4000 • fax 630-969-9489 info@magnetrol.Com • www.Magnetrol.Com copyright © 2017 magnetrol international, incorporated service policy owners of magnetrol controls may reque...