.'",r~'t1 .
rDOCUMENT FRONT SHEET
CONOCOBELANAKFIELDDEVELOPMENTDOCUMENT FRONT SHEET (FOR A4/A3 DOCUMENTS ONLy)
DOCUMENT 705 Operating Manua!TITLE
TOTAL NO. OF PAGES 21(INCLUDING FRONT SHEETS)
SUPPLIER'S ORDER NO. STCO587
SUPPLIER'S OWN REV. SUPPLIER'S APPROVALDOCUMENT NO. NO. DA TE (NAME AND SIGNATURE)
R02-70S 01 13tn Nov 02 Darren Dodd
SUBMITTED FOR:. REVIEW D CERTIFIED D INFO. CONOCO BELANAK FIELD DEVELOPMENT PROJECT
REVIEW DOES ~OT CO~STlTUTE ACCEPTANCEOF DESIGN DETAILS. CALCULATIONS, TEST SUPPLIER NAME: SAAB TANK CONTROL UK L TDMETHODS OR MATERIALS DEVELOPED OR
SELECTED BY SUPPLIER NOR DOES IT RELIEVESUPPLIER FROM FULL COMPLIANCE WITH PACKAGE CARGO & BALLAST MONITORINGCONTRACTUAL OR OTHER OBLIGATIONS. DESCRIPTION: SYSTEM
.rn( ACCEPTED.
D 2. ACCEPTED. PROCEED WITH WORK TAG NOS.: MODEL TYPE NOS.:AND INCORPORATE COMMENTS ~ E Eo w ,T H \ N I (/i1-AND RE-SUBj~IT. r;:J
D 3. NOT ACCEPTED.REVISE AND RE-SUBMIT.
D 4. FOR INFORMATION ONLY. SDRLPRIMECODE.NO SIGNATURE REQUIRED . R02
" AME. 0, ".A (-- PURCHASE ORDER NO. SDRLCAT. SEnUENCE NO.: ISSUE.' . ~ -v'YYtP.J ""'"OJ""""""""'"'.' -DATE: f).P.tc.. t$z. CNCO-BELK-PHIC02 R 0008 01
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.. SAAI ~. ..' Saab Tank Control (UK) Ud
SDRL Code :Title :
Instructions
LIST of TAGGED ITEMS
,. . TANK INSTRUMENT DESCRIPTION\
WBT 1 P M 1 O-L TZ-11 02 Ballast HiHi LevelWBT 1S M10-L TZ-1202 Ballast HiHi LevelWBT 2P M10-L TZ-21 02 Ballast HiHi LevelWBT 2S M10-L TZ-2202 Ballast HiHi LevelWBT 3P M10-I:.TZ-3102 Ballast HiHi LevelWBT 3S M10-L TZ-3202 Ballast HiHi LevelWBT 4P M10-L TZ-41 02 Ballast HiHi LevelWBT 4S M10-L TZ-4202 Ballast HiHi LevelWBT 5P M1 O-L TZ-51 02 Ballast HiHi LevelWBT 5S M1 O-L TZ-5202 Ballast HiHi LevelWBT 6P M10-L TZ-61 02 Ballast HiHi LevelWBT 6S M1 O-L TZ-6202 Ballast HiHi LevelWBT 7P M10-L TZ-71 02 Ballast HiHi LevelWBT 7S M10-L TZ-7202 Ballast HiHi LevelWBT AFT PEAK P M10-L TZ-81 02 Ballast HiHi LevelWBT AFT PEAK S M1 O-L TZ-8202 Ballast HiHi LevelWBT FORE PEAK P M10-L TZ-0102 Ballast Hi Hi LevelWBT FORE PEAK S M10-L TZ-0202 Ballast Hi Hi LevelCOT 1P M13-L TZ-1108 Cargo Hi Hi LevelCOT 1S M13-L TZ-1208 Cargo Hi Hi LevelCOT 2P M13-L TZ-21 08 Cargo Hi Hi LevelCOT 2S M13-L TZ-2208 Cargo Hi Hi LevelCOT 3P M13-L TZ-3108 Cargo Hi Hi LevelCOT 3S M 13-L TZ-3208 Cargo Hi Hi LevelCOT 4P M13-L TZ-41 08 Cargo Hi Hi LevelCOT 4S M13-L TZ-4208 Cargo Hi Hi LevelCOT 5P M13-LTZ-5108 Cargo Hi Hi LevelCOT 5S M13-L TZ-5208 Cargo Hi Hi LevelCOT 6P M13-L TZ-6108 Cargo Hi Hi L-evelCOT 6S M 13-L TZ-6208 Cargo Hi Hi LevelCOND TANK P M13-L TZ-7108 Condensate Hi Hi LevelCOND TANK S M13-LTZ-7208 Condensate Hi Hi LevelSLOP TANK P M13-L TZ-8108 Slops Hi Hi LevelSLOP TANK S M13-L TZ-8208 Slops Hi Hi Level
®
Guided Wave
Radar-based
Level
Measurement
Installation and Operating Manual
™ 705
Size: 38 mm (1 1/2") oradjustablewrench
Not important
min 25 mm (1")from tank bottom
min. 1" - 150 lbsDN 25 PN 16 3/4"
2
UNPACKING
Unpack the instrument carefully. Make sure all componentshave been removed from the foam protection. Inspect allcomponents for damage. Report any concealed damage tothe carrier within 24 hours. Check the contents of the car-ton/crates against the packing slip and report any discrep-ancies to Magnetrol. Check the nameplate model number(Model number/approvals as per inserted separate sheet) tobe sure it agrees with the packing slip and purchase order.Check and record the serial number for future referencewhen ordering parts.
MOUNTING
These units have been tested toEN 61000-6-4 and EN 61000-6-2and are in compliance with theEMC Directive 89/336/EEC
Nameplate:- partnumber- amplifier- serial n°- tag n°
Partnumberprobe
Do not insulate the high frequency connector
in case of high temperatureapplications
Coaxial GWR probe
Insulation
Twin Rod GWR probe
min. 3" - 150 lbsDN 80 PN 16 2"
Size: 47 mm (1 7/8") oradjustablewrench
min. 25 mm (1")from any metal
object
High level shutdown/overfill protectionSpecial consideration is necessary in any application where Guided Wave Radar is to be used for high level shutdown/overfillprotection. To ensure proper measurement, the Guided Wave Radar probe should be installed so the maximum overfill level isa minimum of 150 mm (6") below the process connection. This may include utilizing a nozzle or spool piece to raise the probe.No special precautions are required for the 7MR/7MD probes. Consult factory for further information.
min 25 mm (1")from tank bottom
WRONG GOOD
Max 150 °C (300 °F)
3
WIRING
360° rotatable: Position for optimum wiring/viewing
Max. rotation 270°
Size: 38 mm (1 1/2") oradjustable wrenchRecommended torque 20 Nm (15 foot-pounds)
Remove protection
Remove protection
CAUTION: be careful not to bend or dirty the gold, high frequencymale connector (a) and its female connector (b). Clean with iso-propyl alcohol and cotton swabs, if necessary
CAUTION: power must be switched OFF before wiring the unit.
(a)
(b)
IS – +
IS
TB1
¤
www.magnetrol.com
P1+
–P2
LOOPCURRENT
0 % 100 %
Positive supply to (+) terminal/HART connection Negative supply to (-) terminal/HART connectionmin. 11 V DC required (min. 16 V DC for explosionproof models)
Shield wire to green grounding screw (resistance toground must be < 1 Ω).
Standard shielded twistedpair cable
Currentloop testpoints
Galvanic Barrier:max: 28,6 V DC @ 140 mA
ANALOG I/Oor
DIGITAL I/O(only for units with HART)
Customer suppliedlocal current meter
Do not connect shield
Ex
Non Ex
Ex
Non Ex
Ex
Non Ex
Transmitter
IntegralRemote
4
Display Comment
Units!cm
Unitscm
Units!cm
CONFIGURATION
WIRING
NOTE: When connected to an approved barrier, the intrinsically safe electronics of the Eclipse allow to remove thecovers with power switched on – even if the area is known to be hazardous
2 line – 8 characters LCDDefault display cycles every 5 s through "LEVEL"/"% OUTPUT"/"LOOP"Returns to default display if after 5 minutes no keystrokes are sensed
Up/Down and Enter pushbuttons
IMPORTANT: The Eclipse amplifier can be bench configured without GWRprobe connected. Ignore the start up message in this case.
Scroll through the menu.
Press * Scroll through the choices or increase/decrease the values on the second lineof the display by and pushbuttons.
* Accept values/choices as selected by pushbutton.
Press : The last character on the first line of the display changes to "!". This sign con-firms that the values/choices of the second line can be modified via the and
push buttons.
Press
LOOP RESISTANCE
1200
1000
800
600
400
200
0
0 10 20 30 40 Vdc
GENERAL PURPOSE (GP)INTRINSICALLY SAFE (IS)
20 mA
23 mA
24 Vdc
1200
1000
800
600
400
200
0
0 10 20 30 40 Vdc
EXPLOSION PROOF (XP)
20 mA
23 mA
24 Vdc
650
400
1611
Ω Ω
5
Display Action Comment
Ent Pass0
New Pass4096➀
Ent Pass0
Ent Pass!1
Ent Pass!1
20 mA Level(100%-point)
Referencepoint
Probe Type
Probe Length
Offset
Inch or cm
Dielectric of medium
4 mA Level(0%-point)
TERMINOLOGY
PASSWORD
Offset = cm or inchesThe offset is the distance between reference point (e.g.bottom of tank) and end of probe. From the reference pointboth 4 mA and 20 mA levels are calibrated. When offset isset at zero, the end of the probe is the reference point.
4 mA Level = cm or inchesor 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:εr = 2.0: 150 mm (6") + Offsetεr = 80: 25 mm (1") + Offset
20 mA Level = cm or inchesor 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 andmedia: see probe specifications page13.
Probe length = cm or inches, record the exact probe length asprinted on the nameplate
Dielectric Select the dielectric scale of the media to measure:1.4–1.7 or 1.7–3.0 or 3.0–10.0 or 10.0–100.0 or VARIES.When the dielectric is known, it will enhance the overallaccuracy of the unit but select the dielectric scale ALWAYSto the lowest expected dielectricum.
CONFIGURATION
Enter factory default with Menu is activated and configuration can be modified.
Enter 1 with Factory default setting
Access Menu with Factory default password "1"
Changing/Disabling Password
Toggle with and until screen “New Pass” appears,press
Enter 1 or old password with and and press
Changing password
Menu is activated and configuration can be modified.
Enter new password to desired value (between 0-255) with and or enter value "0" to disable the passwordfunction
Changing or disabling password
The unit will automatically save all entered modifications.
New password is accepted or disabled.
Ent Pass!4096
New Pass0000
Protect data by new password Data is not protected
Display shows an encrypted value, enter your password orcall Magnetrol for assistance to recoop your passwordif necessary
Data is protected by a validPassword
Access Menu with Factory default password "1"
➀ encrypted value, can be any value.
6
MENU: STEP BY STEP PROCEDURE
Screen Action CommentR
un
mo
de
Co
nfi
gu
rati
on
1
2
3
4
5
6
8
9
10
11
12
13
14
15
16
17
*Level**%Output**Loop*
Levelxx.x cm
%Outputxx.x%
Loopxx.xx mA
Unitsxxx
Prb Typeprobe
7 Prb Mountxxx.x
Probe Lnxxx.x
Offsetxxx.x
Dielctrc(dlctrc)
Set 4mAxxx.x
Set 20mAxxx.x
Dampingxx sec
FaultChoice
Poll Adrxx
Trim 4xxxx
Trim 20xxxx
= min. required calibration No offset
(Offset at 0 cm)Positive offset
(Offset at 10 cm)Negative offset
(Offset at -15 cm)
75 cm
100 %
0 %
15 cm
10 cm
20 mA = 75 cm
4 mA = 15 cm
20 mA = 85 cm
4 mA = 25 cm
20 mA = 60 cm
4 mA = 0 cm
Transmitter default display. Level, % Output, and Loop valuescycle every 5 seconds.
Transmitter Display
Transmitter Display
Transmitter Display
Transmitter Display
Transmitter displays Level measurement in cm or in.
Transmitter displays % Output measurement derived from 20 mAspan.
Transmitter displays Loop measurement (mA).
Select units for level measurement readout.
cm or inches.
Select the type of probe used. Select Coaxial: 7MA and 7MCTwin Rod: 7MBHTHPCoax: 7MDHP Coax: 7MPCageCoax: 7MR
(See the 3 first digits of the probe part N°).HTHP 7xS: 7MS
Select the type of probe mounting.
Select NPT, Flange or BSP.
Enter the exact length ofprobe.
Probe length is printed on the nameplate and orderinformation. It is the last three digits of the model number.
Enter the offset value. When entering configuration values from the end of the probe iscumbersome, an offset can be introduced to determine a newreference point. This reference point can be either below theprobe (positive offset) or at the probe (negative offset). See theexample below.
Enter the dielectric rangevalue of the media.
For 7MC: 1.4–1.7 or 1.7–3.0 ONLYFor 7MA/7MR: 1.4–1.7; 1.7–3.0; 10.0–100.0 or VariesFor 7MB/7MP/7MD: 1.7–3.0; 10.0–100.0 or VariesFor 7MS: 10.0–100.0When dielectric of the process liquid is unknown and/or varies,select always the lowest expected dielectric range.
Enter the level value for the4 mA point.
A small transition zone (0-150 mm) may exist at the bottom of theprobe. See Functional Specifications Probe, See page 13.
A small transition zone (0-150 mm) may exist at the top of theprobe. See Functional Specifications Probe, See page 13.
Enter the level value for the20 mA point.
A Damping factor (1-45 seconds) may be added to smooth anoisy display and/or output due to turbulence.
Enter the damping factor.
Enter the default value. Select 3.6 mA, 22 mA or HOLD (last value). 3.6 mA is notvalid if unit includes both digital display and HART.
Enter HART ID number. Select a HART poll address (0-15). Enter 0 for a single transmitter installation.
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.
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.
Fine tune the 20 mA point.
7
Dia
gn
ost
ics
18
19
20
21
22
23
Loop Tstxx.x mA
Fid Tick
<Window>xxx
Rangexxx
Gainxxx
Conv Fctxx.xxx
24
25
26
27
Scl Offsxx.x
# Ticksxxxx
Tresholdxxx
Model 705xxx
28 New Passxxx
Screen Action Comment
MENU: STEP BY STEP PROCEDURE
Use arrows to select desired value. Values between 0 and 255.Enter new password.
None, do not adjust.
Enter a mA Output value. Set mA Output to any given value to perform loop test.
None, do not adjust.
None, do not adjust.
None, do not adjust.
None, do not adjust.
None, do not adjust.
None, do not adjust.
Diagnostic, factory setting.
Diagnostic, factory setting.
Diagnostic, factory setting.
Diagnostic, factory setting.
Diagnostic, factory setting.
Diagnostic, factory setting.
Diagnostic, factory setting.
Enter "CFD".Enter "Fixed".
Unit default CFD. Only select Fixed in application with low dielectric materialover higher dielectric material and unit is reading incorrect level. Example:oil over water. Select Dielectric Range of upper material. Adjust-ment of Offset may be necessary when threshold is changed.
None, do not adjust. Factory setting. Ver refers to software version.
8
CONFIGURATION USING HART®
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 loadresistance of 450 Ω.
+
+
-
-
Junction
ControlRoom
Display
PowerSupply
CurrentMeter
250 Ω < RL < 450 Ω
CONNECTIONS
CHECK HART®
Connection of your Hart communicator:• at power terminals (+) and (-) in wiring compartment• at first junction box between unit and control room.
Before starting the HART® configuration procedure – check if your HART® commu-nicator (Rosemount Model 275) is equipped with the proper Eclipse DeviceDescriptors (DD’s).
I/O start up the communicatorSelect NO: go offlineSelect 4: utilitySelect 5: simulationCheck manufacturer: Magnetrol
HART MENU
I/O Start up the device1 Enter DEVICE SET UP
Press one of the following alphanumeric keys (if no key is sensed after 5 s, theunit will automatically jump to RUN mode and alternatively show Level/% Outputand Loop signal1 for entering the PASSWORD2 for entering CALIBRATION (see page 5 for additional information)3 for entering Basic Set Up – general HART4 for ADVANCED SET UP CONFIGURATION (see page 5 for additional infor-
mation)5 for entering DIAGNOSTICS (see page 5 for additional information)6 for entering REVIEW to review all settings.
Model 705 2.x Ver. 2.x
Communicator Eclipse software (see “MENU: STEP BY STEPPROCEDURE” – page 7, item 27)
Model 705 Ver. 1.x
When the proper software version is not found, consult your local HART® ServiceCenter to load the correct Eclipse DD’s.
9
CONFIGURATION USING HART®
1 Device Setup2 Level3 % Output4 Loop
1 Units2 Probe Type3 Probe Mount4 Probe Length5 Offset6 Dielectric
7 4 mA Set Point8 20 mA Set Point9 Damping
10 Fault State11 Date/Time/Initials
1 Model2 Manufacturer3 Dev Id, S/N4 Tag5 Descriptor6 Message7 Units8 Probe Type9 Probe Length
10 Offset11 Dielectric12 4 mA Set Point13 20 mA Set Point
14 Damping15 Fault State16 Date17 Date/Time/Initials18 Final Asmbly Num19 Universal Rev20 Fld Dev Rev21 Software Rev22 Burst Mode23 Burst Option24 Poll Address25 Num Req Preams
1 Tag2 Descriptor3 Message4 Final Asmbly Num
5 Poll Address6 Burst Mode7 Burst Option
1 Trim 4 mA2 Trim 20 mA3 4 mA Trim Point4 20 mA Trim Point
5 New Password6 Set Magnetrol S/N7 Set Serial Number
1 Loop Test2 Error Codes3 Digital Settings
1 3.6 mA2 4 mA3 20 mA4 22 mA5 Other6 End
1 Fiducial Ticks2 <Window>3 Range4 Gain5 Conversion Factor6 Scale Offset7 Treshold8 # of Ticks
1 Enter Password
2 Calibration
3 Basic Setup
4 Advanced Setup/Configuration
5 Diagnostics
6 Review
10
MAINTENANCE
TROUBLESHOOTING SYSTEM PROBLEMS
Symptom Problem Solution
ERROR MESSAGES
Symptom Problem Solution
Increase the Damping factor until thereadings stabilize.
LEVEL, % OUTPUT and LOOP valuesare all inaccurate.
Basic configuration data isquestionable.
Reconfigure the Probe Length andOffset.
1) Ensure the Level is accurate.2) Reconfigure Loop values.
LEVEL readings are repeatable butconsistently high or low from actualby a fixed amount.
Configuration data does notaccurately match tank height.
Ensure proper probe length & probe type.Adjust the Offset value by theamount of noted inaccuracy.
LEVEL, % OUTPUT and LOOPvalues fluctuate.
Turbulence.
LEVEL, % OUTPUT and LOOPvalues all reading low vs. actual.
Lower dielectric material over higherdielectric material, e.g. oil over water.
Select Fixed Threshold option and/orselect dielectric range from top layer.
Coating, clumping or buildup on probe. Expected inaccuracies due to affect onpulse propagation.
Dense, water based foam. Expected inaccuracies due to affect onpulse propagation.
LEVEL reading on Display is correctbut LOOP is stuck on 4 mA
Basic configuration datais questionable.
Set POLL ADR to 0.
LOOP value jittery, usually in tenthsor hundredths digit.
Factory settings corrupted. Check # of Ticks. If the number isalso jittery, consult the Factory.
HART device only: handheld will onlyread Universal Commands.
Most current Device Descriptors(DDs) are not installed in handheld.
Contact local HART service center forthe latest DDs. (see page 8)
Output is unstable. Basic configuration datais questionnable
Check Fid Ticks (max ± 15 ticks andstable) otherwise consult factory.
Improper connection. Ensure proper connection transmitteronto probe.
NOTE: When consulting the factory concerning improper operation, use the table on page 19. Enter all data when thetransmitter is working correctly and incorrectly.
NO FIDUCIAL(HART error code = 0x80)
Poor circuit board/cable/probeconnection or malfunctioning cablebetween electronics and probe.
Check all of the connections from theelectronics to the probe.
Replace universal connector.
NO LEVEL SIGNAL(HART error code = 0x40)
Improper dielectric range chosen. Check dielectric of media vs. software choice.
Dielectric too low for probe type. Confirm the probe choice is proper forthe dielectric of the media.
Malfunctioning analog board and/or32 pin connector.
Replace electronic module.
Consult Factory - verify ConversionFactor and Scale Offset values.
CORRUPT PARAMTRS(HART error code = 0x10)
Microprocessor data corrupted. Check all Configuration parameters.
Verify Probe Type and Probe Length.OUT OF CALIB(not a fault)
Internal parameters corrupted; displayswith at least 1 parameter has been modified after corruption.
Recalibrate all parameters and/or consult factory
BAD CAL PARAMTRS(HART error code = 0x20)
Probe Length entered in software isot equal to value measured byelectronics; possible media build-upon probe.
Verify Probe Length and Probe Typeentered in software is correct.
Clean media off probe.
Improper dielectric range selected. Select proper dielectric range. (Selectalways to the lowest expected dielectricum).
“Water bottom”. Select fixed treshold.
11
MAINTENANCE
REPLACEMENT PARTS
TROUBLESHOOTING APPLICATIONS
Most frequent application problems that may occur, mediabuildup on the probe and stratification, are covered here.Media buildup on the probe is not a problem in mostcases–Eclipse circuitry typically works very effectively.Media buildup should be viewed as two types – FilmCoating and Bridging.A twin rod probe should always be chosen if media buildupis a possibility.
• Continuous Film CoatingThe most typical of coating problems where the mediaforms a continuous coating on the probe. Eclipse willcontinue to measure effectively with some small degra-dation in performance. A problem can develop if theproduct begins to buildup on the spacers that separatethe probe elements. High dielectric media (e.g., water-based) will cause the greatest error.
• BridgingMedia that is viscous or solid enough to form a clog, orbridge, between the elements causes the greatestdegradation in performance. High dielectric media (eg.water-based) will show as level at the location of thebridging.
• Stratification/InterfaceThe Eclipse transmitter is designed to measure the firstair/media interface it detects. It will not measure furtherliquid/liquid interfaces. However, a low dielectric over ahigh dielectric application can cause a measurementproblem if the net level of the low dielectric mediumbecomes small enough (a few inches) to cause the elec-tronics to trigger on the high dielectric medium that liesbeneath it.
FilmCoating
Bridging
1
2
3
4
3
5
No. Description Part Number
1 Electronic moduleDisplay and HART® - English 31-2808-001Display and HART® - Spanish 31-2808-021Display and HART® - French 31-2808-031Display and HART® - German 31-2808-041HART® only 31-2808-002Display only - English 31-2808-003Display only - Spanish 31-2808-023Display only - French 31-2808-033Display only - German 31-2808-043
2 Terminal boardGeneral Purpose (GP) 30-9106-003Intrinsically Safe (IS) 30-9106-003Explosion Proof (XP) 30-9106-004
3 O-Ring (neoprene) 12-2201-237
4 Housing cover without glass ➀ 04-9193-003
5 Housing cover with glass ➀ 36-4410-001
➀ For stainless steel housing covers – consult factory.
12
TRANSMITTER SPECIFICATIONS
TEMPERATURE-PRESSURE RATING FOR ECLIPSE PROBE SEALS
Process Temperature (°C)
Pro
cess
Pre
ssu
re (
bar
)
0
10
20
30
40
50
-40 -20 0 20 40 60 80 100 120 140 160 180 200
7MA: coaxial GWR probe7MB: standard twin rod GWR probe7MR: overfill prevention GWR probe
Description SpecificationPower (at terminals) General Purpose: 11 to 36 V DC
ATEX Intrinsically Safe: 11 to 28.6 V DCATEX Explosion Proof (with Intrinsically Safe electronics) 16 to 36 V DC
Signal Output 4-20 mA or 4-20 mA with HART®
3,8 to 20,5 mA useable (meets NAMUR NE 43)Span 150 to 6100 mm (6 to 240") Resolution Analog: 0,01 mA
Display: 0,1 cm (inch)Loop Resistance CENELEC Intrinsically Safe/General Purpose: 620 Ω @ 20,5 mA - 24 V DC(see tables at page 12) Explosion Proof (with Intrinsically Safe electronics): 390 Ω @ 20,5 mA - 24 V DCDamping Adjustable 0-45 sDiagnostic Alarm Adjustable 3,6 mA, 22 mA, HOLD (3,6 mA is not valid if unit includes both digital display and HART®)
User Interface 3-button keypad and/or HART® communicatorDisplay 2-line x 8-character LCDMenu Language English/Spanish/French/GermanHousing Material IP 66/Aluminium A356T6 (< 0.25% copper) or stainless steelApprovals ATEX II 1G EEx ia II C T4, ATEX II 1/2G EEx d(ia) II C T4,
ATEX II 3G EEx nA II T6, FM and CSASTOOMWEZEN – Secondary level safety device for steamdrumsTÜV – WHG § 19, VLAREM II 5.17-7LRS – Lloyds Register of Shipment (marine applications)GOST/GOSGORTECHNADZOR – Russian Authorisation Standards
Electrical Data Ui = 28,6 V, li = 140 mA, Pi = 1 WEquivalent Data Ci = 2,1 nF, Li = 37 µHShock/Vibration Class ANSI/ISA-571.03 SA1 (Shock), ANSI/ISA-571.03 VC2 (Vibration)Net and Gross Weight 2,70 kg net; 3,20 kg grossOverall Dimensions H 214 mm (8.43") x W 111 mm (4.38") x D 188 mm (7.40")
FUNCTIONAL/PHYSICAL
Description SpecificationReference Conditions Reflection from liquid, with dielectric in center of selected
range, at +20 °C (70 °F) with CFD treshold➀
Linearity Better than 0,1 % of probe length➁
Accuracy 2,5 mm (0.1") or ± 0,1 % probe length (whichever is greater)➁
Resolution ± 2,5 mm (0.1")Repeatability < 2,5 mm (0.1")Hysteresis < 2,5 mm (0.1")Response Time < 1 secondWarm-up Time < 5 secondsAmbient Temp. -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 and keypadProcess Dielectric Effect < 7,5 mm (0.3") within selected rangeOperating Temp. Effect Approx. +0,02 % of probe length/°CHumidity 0-99 %, non-condensingElectromagnetic Compatibility Meets CE requirements (EN-61000-6-4, EN 61000-6-2)
(Twin-Rod probe must be used in metallic vessel or stillwell)
PERFORMANCE
➀ May degrade for 7MD probe or with fixed treshold. ➁ Top 600 mm (24") of twin rod probe: 7,5 mm (0.3").
Process Temperature (°C)
Pro
cess
Pre
ssu
re (
bar
)
0
50
100
150
200
250
-150 -100 -50 0 50 100 150 200 250 300 350 400
300
350
7MD: high temperature / high pressure GWR probe7MP: high pressure GWR probe7MS: saturated steam GWR probe
13
PROBE SPECIFICATIONS
Description 7MR: overfill protection coaxial probe 7MA: coaxialMaterials Probe 316/316L (1.4401/1.4404)
Hastelloy C® (2.4819) or Monel® (2.4360)
Process seal TFE with Viton GFLT, EPDM or Kalrez 4079 (Consult factory for alternatives)
Probe diameter Inside rod: 8 mm (0.3125") – Outer tube: 22 mm (0.875")
Mounting In-tank mounting / external cage mounting In-tank mounting only(WHG approved)
Process Connection Threaded: 3/4" NPT or 1" BSP (G1)Flanged: Various ANSI, DIN or torque tube mating flanges
Probe length From 600 mm to 6100 mm (24 to 240"), selectable per 10 mm
Transition Zone➀ Top 0 mm (0") εr: 2,0 = 25 mm (1")/εr: 80 = 150 mm (6")
Bottom εr: 2,0 = 150 mm (6")/εr: 80 = 25 mm (1") εr: 2,0 = 150 mm (6")/εr: 80 = 25 mm (1")
Max. Process Temp. 200 °C @ 13 bar (400 °F @ 200 psi) 150 °C @ 20 bar (250 °F @ 300 psi)
Max. Process Pressure 50 bar @ 20 °C (750 psi @ 70 °F) – see table at page 12
Max. Viscosity 500 cP
Dielectric Range 1,4 to 100
➀ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr= dielectric permitivity. It is recommended to set 4-20 mA signal outsidetransition zones.
➁ Bridging is defined as continuous accumulation of material between theprobe elements.
Description 7MD: high pressure/high temperature 7MS: saturated steam GWR probeGWR probe
Materials Probe 316/316L (1.4401/1.4404)
Process seal Borosilicate/inconel X750 PEEK with Aegis PF 128
Spacers Ceramic
Probe diameter Inside rod: 8 mm (0.125") – Outer tube: 22 mm (0.875")
Mounting In-tank mounting / external cage mounting (7MD – WHG / 7MS – Stoomwezen approved)
Process Connection Threaded: 3/4" NPT or 1" BSP (G1)Flanged: Various ANSI, DIN or “proprietary” mating flanges
Probe length From 600 mm to 6100 mm (24 to 240"), selectable per 10 mm
Transition Zone➀ Top 25 mm (1")
Bottom εr: 2,0 = 150 mm (6") / εr: 80 = 25 mm (1") εr: 10 = 150 mm (6") / εr: 80 = 25 mm (1")
Process Temp. Max 400 °C @ 135 bar (750 °F @ 2000 psi) 320 °C @ 110 bar (605 °F @ 1585 psi)
Min -150 °C @ 135 bar (-230 °F @ 2000 psi) -40 °C @ 110 bar (-40 °F @ 1585 psi)
Max. Process Pressure 345 bar @ 20 °C (5000 psig @ 70 °F) 110 bar @ 320 °C (1585 psi @ 605 °F)
Max. Viscosity 500 cP
Dielectric Range 2 to 100 10 to 100
Vacuum service Full vacuum Negative pressure but not up to full vacuum(Helium leak < 10-8 cc/s @ 1 atmosphere vacuum)
Description 7MP: high pressure GWR probe 7MB: standard twin rod GWR probeMaterials Probe 316/316L (1.4401/1.4404)
Hastelloy C® (2.4819) or Monel® (2.4360)
Process seal Borosilicate/inconel X750 TFE with Viton GFLT, EPDM or Kalrez 4079 (Consult factory for alternatives)
Spacers Teflon
Probe diameter Inside rod: 8 mm (0.3125") – Two 13 mm (0.5") Ø rods –Outer tube: 22 mm (0.875") 22 mm (0.875") CL to CL
Mounting In-tank mounting only. Twin rod probe must be used in metallic vessel or stillwell > 25 mm(1") from any surface or obstruction
Process Connection Threaded: 3/4" NPT or 1" BSP (G1) Threaded: 2" NPT or 2" BSP (G2)Flanged: Various ANSI, DIN or “proprietary” Flanged: Various ANSI, DIN or “proprietary”mating flanges mating flanges
Probe length From 600 mm to 6100 mm (24 to 240"), selectable per 10 mm
Transition Zone➀ Top εr: 2,0 = 25 mm (1")/εr: 80 = 150 mm (6") 50 mm (2") + 102 mm (4") inactive length
Bottom εr: 2,0 = 150 mm (6")/εr: 80 = 25 mm (1") εr: 2,0 = 150 mm (6")/εr: 80 = 25 mm (1")
Process Temp. Max 200 °C @ 290 bar (400 °F @ 4000 psi) 150 °C @ 20 bar (250 °F @ 300 psi) /200 °C @ 30 °C (400 °F @ 86 °F) ambient temp.
Min - integral electr. -40 °C @ 345 bar ( -40 °F @ 5000 psi) -40 °C @ 50 bar (-40 °F @ 750 psi)
Min - remote electr. -150 °C @ 135 bar (-230 °F @ 2000 psi) -40 °C @ 50 bar (-40 °F @ 750 psi)
Max. Process Pressure 345 bar @ 20 °C (5000 psig @ 70 °F) 50 bar @ 20 °C (750 psi @ 70 °F)– see table at page 12 – see table at page 12
Max. Viscosity 500 cP 1500 cP
Dielectric Range 1,7 to 100 2,0 to 100
Vacuum service Full vacuum Negative pressure but not up to full vacuum(Helium leak < 10-8 cc/s @ 1 atmosphere vacuum)
Media coating Not recommended in case of media coating Film: 3% error of coated length,bridging not recommended➁
14
DIMENSIONS in mm (inches)
83(3.28)
105(4.12)
108(4.25)
95(3.75)
76(3.00)
89(3.50)
60(2.37)
2 holes
2 cableentries
51(2.00)
840(33.00)
98(3.85)
214 (8.43)
126 (4.94)
111(4.38)
45° View
45°
Eclipse Housing,(45° View)
22 (0.88)
10 (0.38)
Ø 13 (0.50)Rods
Twin Rod GWR Probe,End View
Ø 22 O.D. (0.88)
Ø 8 (0.31")
Coaxial GWR Probe,End View
“O”-ring material max process min process max process not recommended for recommended for applicationstemperature temperature pressure applications
Viton 200°C @ 16 bar -40 °C (-40 °F) 50 bar @ 20 °C ketones (MEK, acetone), skydrol fluids, general purpose, steam, ethyleneGFLT (400 °F @ 230 psi) (750 psi @ 70 °F) amines, anhydrous ammonia,
low molecular weight esters and ethers,hot hydrofluoric or chlorosulfonic acids,
sour hydrocarbonsNeoprene 150 °C @ 20 bar -55 °C (-65 °F) 50 bar @ 20 °C phosphate ester fluids, refrigerants, high anline point
(300 °F @ 290 psi) (750 psi @ 70 °F) ketones (MEK, acetone) petroleum oils, silicate ester lubricants
EPDM 125 °C @14 bar -50 °C (-60 °F) 50 bar @ 20 °C petroleum oils, di-ester base acetone, MEK, skydrol fluids,(250 °F @ 200 psi) (750 psi @ 70 °F) lubricant, steam anhydrous ammonia
Kalrez 4079 200 °C @ 14 bar -40 °C (-40 °F) 50 bar @ 20 °C hot water/steam, hot aliphatic inorganic and organic acids (including (400 °F @ 200 psi) (750 psi @ 70 °F) amines, ethylene oxide, propylene hydro fluids and nitric), aldehydes,
oxide ethylene, organic oils, glycols, silicone oils, vinegar, sour hydrocarbons
Chemraz 505 200 °C @ 14 bar -30 °C (-20 °F) 50 bar @ 20 °C acetaldehyde, ammonia + lithium inorganic and organic acids,(400 °F @ 200 psi) (750 psi @ 70 °F) metal solution, butyraldehyde, alkalines, ketones, esters, aldehydes,
di-water, freon, ethylene oxide, fuels, steam, hot waterliquors, isobutyraldehyde
Buna-N 135 °C @ 22 bar -20 °C (-4 °F) 50 bar @ 20 °C halogenated hydrocarbons, nitro general purpose sealing, petroleum(275 °F @ 320 psi) (750 psi @ 70 °F) hydrocarbons, phosphate ester oils and fluids, cold water, silicone
hydraulic fluids, ketones (MEK, greases and oils, di-ester baseacetone), strong acids, ozone, lubricants, ethylene glycol base
automotive brake fluid fluidsPolyurethane 95 °C @29 bar -55 °C (-65 °F) 50 bar @ 20 °C acids, ketones, chlorinated hydraulic systems, petroleum
(200 °F @ 420 psi) (750 psi @ 70 °F) hydrocarbons oils, hydrocarbon fuel, oxygen,ozone
HSN 135 °C @ 22 bar -20 °C (-4 °F) 50 bar @ 20 °C halogenated hydrocarbons, nitro NACE applications(Highly Saturated (275 °F @ 320 psi) (750 psi @ 70 °F) hydrocarbons, phosphate ester
Nitrile) hydraulic fluids, ketones (MEK,acetone), strong acids, ozone,automotive brake fluid, steam
Aegis PF128 200 °C @ 14 bar -20 °C (-4 °F) 50 bar @ 20 °C black liquor, freon 43, freon 75, inorganic and organic acids (including (400 °F @ 200 psi) (750 psi @ 70 °F) galden, KEL-F liquid, molten potassium, hydro fluids and nitric), aldehydes,
molten sodium ethylene, organic oils, glycols, silicone oils, vinegar, sour hydrocarbons, steam,amines, ethylene oxide, propylene oxide
PROBE SPECIFICATIONS
256(10.08)
102(4.00)
166 (6.55)Mounting
Flange
7MR with flanged connection
83(3.28)
105(4.12)
2 cableentries
45°
ProbeInsertionLength
135 (5.31)142(5.31)
83(3.28)
105(4.12)
256(10.08)
102(4.00)
2 cableentries
45°
7MR with threaded
connection
Probe InsertionLength
1" BSP (G1)Process Conn.
Probe InsertionLength 3/4" NPTProcess Conn.
256(10.08)
102(4.00)
315 (12.40)
143 (5.62)
83(3.28)
105(4.12)
2 cableentries
45°
7MRwith top hat flanged
connection
Add 143 (5.62)for complete
probe insertionlength
15
DIMENSIONS in mm (inches)
83(3.28)
105(4.12)
71 (2.80)
102(4.00)
MountingFlange
2 cableentries
ProbeInsertionLength
45°
7MA with flanged connection
256(10.08)
7MBwith threaded
2" NPT connection
256(10.08)
83(3.28)
105(4.12)
77 (3.03) 54 (2.13)
2 cableentries
Probe InsertionLength
2" BSP (G2)Process Conn.
45°
102(4.00)
7MP with threaded
connection7MP
with flanged connection
7MD/7MS with threaded
connection
166 (6.52)
MountingFlange
83(3.28)
105(4.12)
256(10.08)
102(4.00)
2 cableentries
45°
ProbeInsertionLength
7MD/7MS with flanged connection
7MD: 277 (10.90)7MS: 240 (9.45)
MountingFlange
83(3.28)
105(4.12)
256(10.08)
102(4.00)
2 cableentries
45°
ProbeInsertionLength
7MD: 218 (8.58)7MS: 177 (6.97)218
(8.58)
83(3.28)
105(4.12)
256(10.08)
102(4.00)
2 cableentries
45°
Probe InsertionLength
1" BSP (G1)Process Conn.
Probe InsertionLength 3/4" NPTProcess Conn.
83(3.28)
105(4.12)
256(10.08)
40 (1.57)
102(4.00)
2 cableentries
45°
7MA with threaded
connection
59 (2.31)
Probe InsertionLength
1" BSP (G1)Process Conn.
Probe InsertionLength 3/4" NPTProcess Conn.
ProbeInsertionLength 2" NPTProcessConn.
83(3.28)
105(4.12)
256(10.08)
88 (3.00)
102(4.00)
2 cableentries
45°
59 (2.31)
Probe InsertionLength
1" BSP (G1)Process Conn.
Probe InsertionLength 3/4" NPTProcess Conn.
102(4.00)
83(3.28)
105(4.12)
256(10.08)
219 (8.62)
2 cableentries
45°
7MAwith top hat flanged
connection
143 (5.62)
Add 143 (5.62)for complete
probe insertionlength
7MB with flanged connection
47 (1.85)
256(10.08)
83(3.28)
105(4.12)
135 (5.31)InactiveLength
MountingFlange
2 cableentries
ProbeInsertionLength
45°
102(4.00)
Add 143 (5.62) forcomplete probeinsertion length
7MB with top hat flanged connection
256(10.08)
83(3.28)
105(4.12)
2 cableentries
45°
102(4.00)
190(7.48)143
(5.62)
102 (4.00)InactiveLength
Proprietary flanges
Ø 229(9.0)
32(1.125)
Fisher 249B/259B (600 lbs), carbon steel
133(5.23) 6
(.22)
Ø 184(7.25)
Ø 22(.875)
45°
Ø 143(5.625)
29(1.125)
Fisher 249C (600 lbs), 316 stainless steel
86(3.375) 5
(.188)
Ø 121(4.750)
Ø 11(.438)
45°
Ø 191(7.50)
29(1.125)
Masoneilan (600 lbs), 316 carbon steel
102(4.00) 6
(.25)
Ø 149(5.875)
Ø 22(.875)
45°
16
MODEL IDENTIFICATION
Code for ECLIPSE transmitter head/electronics
7 50 5
POWER
complete code for ECLIPSE 705 transmitter head/electronics
5 24 V DC, two wire
MOUNTING/CLASSIFICATION (Consult factory for FM/CSA approvals)
1 Integral, General Purpose (& I.S. FM/CSA)2 Remote, General Purpose (& I.S. FM/CSA)A Integral, ATEX II 1 G EEx ia IIC T4B Remote, ATEX II 1 G EEx ia IIC T4C Integral, ATEX II 1/2 G EEx d(ia) IIC T4D Remote, ATEX II 1/2 G EEx d(ia) IIC T4E Integral, ATEX II 3 G EEx nA II T6F Remote, ATEX II 3 G EEx nA II T6
BASIC MODEL NUMBER
7 0 5 Eclipse guided wave radar transmitter
SIGNAL OUTPUT
1 4-20 mA with HART® communication0 4-20 mA only (requires local display and keypad - Accessories code A)
MENU LANGUAGE (HART® communication is only available in English)
1 English – default selection for blind transmitters2 Spanish3 French4 German
CABLE ENTRY
1 M20 x 1.5 (2 entries - one plugged)0 3/4" NPT (2 entries - one plugged)2 PG 13.5 (2 entries - one plugged) – not available for explosion proof version3 PG 16 (2 entries - one plugged) – not available for explosion proof version
ACCESSORIES
A Digital display and keypad0 Blind transmitter (no display/keypad) – only available for units with HART® communication
MATERIAL OF CONSTRUCTION
1 Cast aluminium dual compartiment housing2 Stainless steel dual compartiment housing
Process Temperature (°C)
Am
bie
nt
Tem
per
atu
re °
C
0
20
40
60
80
100
0 20 40 60 80 100 120 140 160 180 200
AMBIENT TEMPERATURE VERSUS PROCESS TEMPERATURE
17
Code for ECLIPSE GWR probe
7 M
MATERIAL OF CONSTRUCTION - wetted parts (including process connection flange when applicable)
complete code for ECLIPSE 705 Coaxial GWR probe
A 316/316L (1.4401/1.4404) stainless steelB Hastelloy C (2.4819)C Monel (2.4360)
BASIC MODEL NUMBERGWR probe suited for external cage and/or in-tank mounting
7 M A Coaxial GWR probe (dielectric range: ≥ 1,4)7 M B Twin Rod GWR probe (dielectric range: ≥ 2,0)
GWR probes for in-tank mounting only (probes should not be used in overfill applications)
7 M R Overfill prevention Coaxial GWR probe (dielectric range: ≥ 1,4) - WHG approved
PROCESS CONNECTION - SIZE/TYPE (consult factory for other process connections)
1 1 3/4" NPT thread2 2 1" BSP (G1) thread
Threaded
4 1 2" NPT thread4 2 2" BSP (G2) thread
2 3 1" 150 lbs. ANSI RF2 4 1" 300 lbs. ANSI RF3 3 1 1/2" 150 lbs. ANSI RF3 4 1 1/2" 300 lbs. ANSI RF4 3 2" 150 lbs. ANSI RF4 4 2" 300 lbs. ANSI RF
5 3 3" 150 lbs. ANSI RF5 4 3" 300 lbs. ANSI RF6 3 4" 150 lbs. ANSI RF6 4 4" 300 lbs. ANSI RF
ANSI flanges
B A DN 25, PN 16 DIN 2527 form BB B DN 25, PN 25/40 DIN 2527 form BB C DN 25, PN 64/100 DIN 2527 form EC A DN 40, PN 16 DIN 2527 form BC B DN 40, PN 25/40 DIN 2527 form BC C DN 40, PN 64/100 DIN 2527 form ED A DN 50, PN 16 DIN 2527 form BD B DN 50, PN 25/40 DIN 2527 form BD D DN 50, PN 64 DIN 2527 form ED E DN 50, PN 100 DIN 2527 form E
E A DN 80, PN 16 DIN 2527 form BE B DN 80, PN 25/40 DIN 2527 form BE D DN 80, PN 64 DIN 2527 form EE E DN 80, PN 100 DIN 2527 form EF A DN 100, PN 16 DIN 2527 form BF B DN 100, PN 25/40 DIN 2527 form BF D DN 100, PN 64 DIN 2527 form EF E DN 100, PN 100 DIN 2527 form E
DIN flanges
4 R 2" 150 lbs ANSI Raised Face flange4 S 2" 300 lbs ANSI Raised Face flange5 R 3" 150 lbs ANSI Raised Face flange5 S 3" 300 lbs ANSI Raised Face flange
Top Hat (Modulevel type) flanges in carbon steel
4 W 2" 150 lbs ANSI Raised Face flange4 Y 2" 300 lbs ANSI Raised Face flange5 W 3" 150 lbs ANSI Raised Face flange5 Y 3" 300 lbs ANSI Raised Face flange
Top Hat (Modulevel type) flanges in stainless steel
T V 600 lbs Fisher (249B/259B) with top hat in carbon steelT W 600 lbs Fisher (249C) with top hat in stainless steelU V 600 lbs Masoneilan flange with top hat in carbon steelU W 600 lbs Masoneilan flange with top hat in stainless steel
Torque tube mating flanges with top hat
T T 600 lbs Fisher (249B/259B) in carbon steelT U 600 lbs Fisher (249C) in stainless steelU T 600 lbs Masoneilan flange in carbon steelU U 600 lbs Masoneilan flange in stainless steel
Torque tube mating flanges
INSERTION LENGTH – specify per 1 cm (0.39") increments0 6 0 min 0.6 m (24") insertion length6 1 0 max 6.1 m (240") insertion length
PROCESS SEAL - MATERIAL ➀
0 Viton GFLT seal1 EPDM (Ethylene Propylene)2 Kalrez 4079 seal3 HSN seal
4 Buna-N seal5 Neoprene seal6 Chemraz seal
7 Cast Polyurethane seal8 Aegis PF 128 seal9 Kalrez 2035 seal
➀ Viton GFLT and Kalrez are rated to a max. process temperature of 200 °C (400 °F) / EPDM is rated to 125 °C (250 °F).
Note: Add 143 mm (5.62") to the probe insertion length to obtain the complete GWR probe length for units with tophat process connection.
18
Code for ECLIPSE High Pressure Coaxial GWR probe
7 M
MATERIAL OF CONSTRUCTION - wetted parts (including process connection flange when applicable)
complete code for ECLIPSE 705 High Temperature / High Pressure CoaxialGWR probe - for non steam applications
A 316/316L (1.4401/1.4404) stainless steelB Hastelloy C (2.4819) - not for 7MD/7MS GWR probesC Monel (2.4360) - not for 7MD/7MS GWR probes
PROCESS SEAL MATERIAL
N Borosilicate seal – for high temp / pressure non condensing applications min -150 °C (-230 °F)8 Saturated steam seal (PEEK / Aegis PF 128) – for saturated steam applications min -40 °C (-40 °F)
PROCESS CONNECTION - SIZE/TYPE (consult factory for other process connections)
2 3 1" 150 lbs. ANSI RF2 4 1" 300 lbs. ANSI RF2 5 1" 600 lbs. ANSI RF2 K 1" 600 lbs. ANSI RJ2 L 1" 900 lbs. ANSI RJ3 3 1 1/2" 150 lbs. ANSI RF3 4 1 1/2" 300 lbs. ANSI RF3 5 1 1/2" 600 lbs. ANSI RF3 K 1 1/2" 600 lbs. ANSI RJ3 M 1 1/2" 900/1500 lbs. ANSI RJ3 N 1 1/2" 2500 lbs. ANSI RJ4 3 2" 150 lbs. ANSI RF4 4 2" 300 lbs. ANSI RF4 5 2" 600 lbs. ANSI RF4 K 2" 600 lbs. ANSI RJ4 M 2" 900/1500 lbs. ANSI RJ
4 N 2" 2500 lbs. ANSI RJ5 3 3" 150 lbs. ANSI RF5 4 3" 300 lbs. ANSI RF5 5 3" 600 lbs. ANSI RF5 K 3" 600 lbs. ANSI RJ5 L 3" 900 lbs. ANSI RJ5 M 3" 1500 lbs. ANSI RJ5 N 3" 2500 lbs. ANSI RJ6 3 4" 150 lbs. ANSI RF6 4 4" 300 lbs. ANSI RF6 5 4" 600 lbs. ANSI RF6 K 4" 600 lbs. ANSI RJ6 L 4" 900 lbs. ANSI RJ6 M 4" 1500 lbs. ANSI RJ6 N 4" 2500 lbs. ANSI RJ
ANSI flanges
B A DN 25, PN 16 DIN 2527 form BB B DN 25, PN 25/40 DIN 2527 form BB C DN 25, PN 64/100 DIN 2527 form EB F DN 25, PN 160 DIN 2527 form EB G DN 25, PN 250 DIN 2527 form EB H DN 25, PN 320 DIN 2527 form EB J DN 25, PN 400 DIN 2527 form EC A DN 40, PN 16 DIN 2527 form BC B DN 40, PN 25/40 DIN 2527 form BC C DN 40, PN 64/100 DIN 2527 form EC F DN 40, PN 160 DIN 2527 form EC G DN 40, PN 250 DIN 2527 form EC H DN 40, PN 320 DIN 2527 form EC J DN 40, PN 400 DIN 2527 form ED A DN 50, PN 16 DIN 2527 form BD B DN 50, PN 25/40 DIN 2527 form BD D DN 50, PN 64 DIN 2527 form ED E DN 50, PN 100 DIN 2527 form ED F DN 50, PN 160 DIN 2527 form E
D G DN 50, PN 250 DIN 2527 form ED H DN 50, PN 320 DIN 2527 form ED J DN 50, PN 400 DIN 2527 form EE A DN 80, PN 16 DIN 2527 form BE B DN 80, PN 25/40 DIN 2527 form BE D DN 80, PN 64 DIN 2527 form EE E DN 80, PN 100 DIN 2527 form EE F DN 80, PN 160 DIN 2527 form EE G DN 80, PN 250 DIN 2527 form EE H DN 80, PN 320 DIN 2527 form EE J DN 80, PN 400 DIN 2527 form EF A DN 100, PN 16 DIN 2527 form BF B DN 100, PN 25/40 DIN 2527 form BF D DN 100, PN 64 DIN 2527 form EF E DN 100, PN 100 DIN 2527 form EF F DN 100, PN 160 DIN 2527 form EF G DN 100, PN 250 DIN 2527 form EF H DN 100, PN 320 DIN 2527 form EF J DN 100, PN 400 DIN 2527 form E
DIN flanges
INSERTION LENGTH – specify per 1 cm (0.39") increments0 6 0 min 0.6 m (24") insertion length6 1 0 max 6.1 m (240") insertion length
BASIC MODEL NUMBERGWR probe suited for external cage and/or in-tank mounting
7 M D High Temp / High Pressure (HTHP) Coaxial GWR probe (dielectric range: ≥ 2.0) - WHG approved7 M S Saturated steam – Coaxial GWR probe (dielectric range: ≥ 10) - Stoomwezen approved
GWR probes for in-tank mounting only (probe should not be used in overfill applications)
7 M P High Pressure High Integrity (HP) Coaxial GWR probe (dielectric range: ≥ 1.7)
T T 600 lbs Fisher (249B/259B) in carbon steelT U 600 lbs Fisher (249C) in stainless steel
U T 600 lbs Masoneilan flange in carbon steelU U 600 lbs Masoneilan flange in stainless steel
Torque tube mating flanges
19
Copy blank page and store calibration data for future reference and troubleshooting.
Item Value Value Value
Vessel Name
Vessel #
Media & Dielectric
Tag #
Electronics Serial # TROUBLESHOOTING
Probe Serial # Correct Value Incorrect Value
Level
Units
Probe Type
Probe Mount
Probe Length
Offset
Dielectric
4mA point
20mA point
Damping
Fault Choice
HART Poll Address
Trim 4mA
Trim 20mA
Fiducial Tick
<Window>
Range
Gain
Conversion Factor
Scale Offset
# of Ticks
Threshold
Software Version
New Password
Name
Date
Time
®
705 Eclipse Guided Wave Radar TransmitterConfiguration Data Sheet
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 tothe 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 labourand 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 theoriginal 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 ofour 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 isavailable through Magnetrol’s local representative or by contacting the factory. Please supply the following information:
1. Purchaser Name2. Description of Material3. Serial Number and Ref Number4. Desired Action5. Reason for Return6. Process details
All shipments returned to the factory must be by prepaid transportation. Magnetrol will not accept collect shipments.
All replacements will be shipped FOB factory.
BENELUX Heikensstraat 6, 9240 Zele, BelgiëTel. +32 (0)52.45.11.11 • Fax. +32 (0)52.45.09.93 • E-Mail: [email protected]
DEUTSCHLAND Schloßstraße 76, D-51429 Bergisch Gladbach-BensbergTel. 02204 / 9536-0 • Fax. 02204 / 9536-53 • E-Mail: [email protected]
FRANCE Le Vinci 6 - Parc d’activités de Mitry Compans, 1, rue Becquerel, 77290 Mitry MoryTél. 01.60.93.99.50 • Fax. 01.60.93.99.51 • E-Mail: [email protected]
ITALIA Via Arese 12, I-20159 MilanoTel. (02) 607.22.98 (R.A.) • Fax. (02) 668.66.52 • E-Mail: [email protected]
UNITED Unit 1 Regent Business Centre, Jubilee Road Burgess Hill West Sussex RH 15 9TLKINGDOM Tel. (01444) 871313 • Fax (01444) 871317 • E-Mail: [email protected]
INDIA B4/115 Safdurjung Enclave, New Delhi 110 029Tel. 91 (11) 6186211 • Fax 91 (11) 6186418 • E-Mail: [email protected]
BULLETIN N°: BE 57-600.6EFFECTIVE: MAY 2002SUPERSEDES: January 2002
®
UNDER RESERVE OF MODIFICATIONS
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