Orion-instruments Eclipse 705 Instrukcja Użytkownika

Guided Wave RadarLevel TransmitterEnhanced Model 705Software v3.xInstallation and Operating Manual

10WARNING! The Model 7xD, 7xR or 7xT overfill probes should beused for Safety Shutdown/Overfill applications. All otherGuided Wave Radar probes should

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 theECLIPSE

1257-600 Eclipse®Guided Wave Radar Transmitter2.4.2.2 To install a Model 7x7 standard flexible twin rod probe: Make sure the process connection is at

1357-600 Eclipse®Guided Wave Radar Transmitter2. Ratio of Diameter: Length (A:B) is 1:1 or greater; anyratio <1:1 (e.g., a 2"× 6" nozzle

14 Align the probe process connection with the threaded orflanged mounting on the vessel. For threaded connections, tighten the hex nut of the probe

 Make sure that there is at least 1" (25 mm) spacingbetween the active probe rod and any part of the tank(walls, stillwell, pipes, support beams

1657-600 Eclipse®Guided Wave Radar Transmitter2.4.5 Installing the TransmitterThe transmitter can be ordered for installation as anIntegral or Remote

1757-600 Eclipse®Guided Wave Radar TransmitterRed (+)Black (-)(+)(-)2.5 WiringCaution: All HART versions of the ECLIPSE Model 705 transmitteroperate a

1857-600 Eclipse®Guided Wave Radar Transmitter2.5.2 Intrinsically SafeAn intrinsically safe (IS) installation potentially has flam-mable media present

1957-600 Eclipse®Guided Wave Radar Transmitter2.6 Configuring the TransmitterThe ECLIPSE transmitter comes configured from the factorybut can be recon

57-600 Eclipse®Guided Wave Radar TransmitterRead this Manual Before InstallingThis manual provides information on the Eclipse®trans-mitter. It is impo

2057-600 Eclipse®Guided Wave Radar Transmitter2.6.3 Transmitter Display and KeypadThe ECLIPSE transmitter has an optional liquid crystal display(LCD)

2157-600 Eclipse®Guided Wave Radar Transmitter2.6.5 Model 705 Menu: Step-By-Step ProcedureThe following tables provide a complete explanation ofthe so

2257-600 Eclipse®Guided Wave Radar Transmitter2.6.5.1 Measurement Type: Level Only (Loop Control = Level)Display Action Comment12SenstvtyxxxEnter valu

2357-600 Eclipse®Guided Wave Radar Transmitter2.6.5.1 Measurement Type: Level Only (Loop Control = Level)Display Action Comment33DispFact(select)Selec

2457-600 Eclipse®Guided Wave Radar Transmitter2.6.5.2 Measurement Type: Level and Volume (Loop Control = Volume)Display Action Comment1*Status**Volume

2557-600 Eclipse®Guided Wave Radar Transmitter2.6.5.2 Measurement Type: Level and Volume (Loop Control = Volume)Display Action Comment22SZ Fault(selec

2657-600 Eclipse®Guided Wave Radar Transmitter2.6.5.2 Measurement Type: Level and Volume (Loop Control = Volume)Display Action Comment44Fid GainxxxSup

2757-600 Eclipse®Guided Wave Radar Transmitter2.6.5.3 Measurement Type: Interface Level (Loop Control = Interface Level)Display Action Comment1*Status

2857-600 Eclipse®Guided Wave Radar Transmitter2.6.5.3 Measurement Type: Interface Level (Loop Control = Interface Level)Display Action Comment21SZ Fau

2957-600 Eclipse®Guided Wave Radar Transmitter2.6.5.3 Measurement Type: Interface Level (Loop Control = Interface Level)Display Action Comment43FidTic

Table of Contents1.0 QuickStart Installation1.1 Getting Started...41.1.1 Equipment and Tools ..

3057-600 Eclipse®Guided Wave Radar Transmitter2.6.5.4 Measurement Type: Interface and VolumeDisplay Action Comment1*Status**IfcLvl**% Out ** Loop *Tra

3157-600 Eclipse®Guided Wave Radar Transmitter2.6.5.4 Measurement Type: Interface and VolumeDisplay Action Comment24BlockDisxx.x luEnter distance belo

3257-600 Eclipse®Guided Wave Radar Transmitter2.6.5.4 Measurement Type: Interface and VolumeDisplay Action Comment46Hist RstPress Enter and select yes

3357-600 Eclipse®Guided Wave Radar Transmitter2.6.6 Offset DescriptionThe parameter referred to as Lvl Ofst in the ECLIPSE menuis the desired level re

342.6.7 Strapping Table DescriptionThe Model 705 is available with a 20-point custom strap-ping table. Up to 20 pairs of Level—Volume points can beent

3557-600 Eclipse®Guided Wave Radar Transmitter2.7 Configuration Using HARTA HART (Highway Addressable Remote Transducer)remote unit, such as a HART co

3657-600 Eclipse®Guided Wave Radar Transmitter1 Calibration 2 Basic Setup 3 Advanced Setup 4 Diagnostics5 Review1 Device Setup 2 Level 3 % Range

3757-600 Eclipse®Guided Wave Radar Transmitter2.8 FOUNDATION fieldbus™Digital Communications2.8.1 DescriptionFOUNDATION fieldbus is a digital communic

3857-600 Eclipse®Guided Wave Radar TransmitterDetails regarding cable specifications, grounding, termination,and other network information can be foun

3957-600 Eclipse®Guided Wave Radar Transmitter2.8.3 Device ConfigurationDevice DescriptionsThe function of a Fieldbus device is determined by thearran

1.0 QuickStart InstallationThe QuickStart Installation procedures provide the keysteps for mounting, wiring, and configuring the Eclipse®level transmi

4057-600 Eclipse®Guided Wave Radar TransmitterFISCO certifying agencies have limited the maximumsegment length to 1000 meters because the FISCO modeld

4157-600 Eclipse®Guided Wave Radar Transmitter3.2.2 Interface DetectionThe ECLIPSE Model 705, when used with the Model 7xTcoaxial probe, is a transmit

4257-600 Eclipse®Guided Wave Radar Transmitter3.2.3 Time Domain Reflectometry (TDR)TDR uses pulses of electromagnetic (EM) energy to mea-sure distance

4357-600 Eclipse®Guided Wave Radar TransmitterLEVEL, % OUTPUT and LOOP values Basic configuration data is Reconfigure the Probe Model and/or Probeare

4457-600 Eclipse®Guided Wave Radar Transmitter3.3.2 Status MessagesDisplay Message Action CommentOK None Normal operating modeInitial None Program is

4557-600 Eclipse®Guided Wave Radar Transmitter3.3.2 Status MessagesDisplay Message Action CommentLo Temp Present temperature inelectronics compartment

463.3.3 Troubleshooting ApplicationsThere are numerous causes for application problems.Media buildup on the probe and stratification are coveredhere.

473.3.3.3 Model 705 (Single Rod Application)• NozzlesNozzles can create false echoes that can cause diagnosticmessages and/or errors in measurement. I

FM 705-5XXX-1XX Intrinsically Safe Class I, Div. 1; Groups A, B, C, & D705-5XXX-2XX Class II, Div. 1; Groups E, F, & G T4Class III, Type 4X, I

4957-600 Eclipse®Guided Wave Radar Transmitter3.4.2 Agency Specifications – Intrinsically Safe Installation

1.1.2 Configuration InformationSome key information is needed to configure theECLIPSE transmitter. Complete the following operatingparameters table be

5057-600 Eclipse®Guided Wave Radar Transmitter3.4.3 Agency Specifications – FOUNDATION fieldbus System

513.5 Parts3.5.1 Replacement PartsItem Description Part Number Electronic moduleHART with display (SIL 1) Z31-2835-001HART without display (SIL 1) Z3

5257-600 Eclipse®Guided Wave Radar Transmitter3.6 Specifications3.6.1 FunctionalSystem DesignMeasurement Principle Guided time-of-flight via time doma

53Reference Conditions  Reflection from water at +70° F (+20° C) with 72" coaxial probe(CFD threshold)Linearity  Coaxial/Twin Rod Probes: <0

5457-600 Eclipse®Guided Wave Radar TransmitterReference Conditions Reflection from liquid of selected dielectric at +70° F (+20° C) with 72" prob

Dual-element Probes5557-600 Eclipse®Guided Wave Radar TransmitterSingle Rod ProbesDistance to Probe Acceptable Objects<6" Continuous, smooth,

5657-600 Eclipse®Guided Wave Radar TransmitterTemperature/Pressure Charts3.6.6 Physicalinches (mm)33.00 or 144(838 or 3650)3.75(95)3.00(76)2.37(60)2.0

5757-600 Eclipse®Guided Wave Radar Transmitter3.6.6 Physical – Coaxial Probesinches (mm)Eclipse®with 7XS ProbeFlanged ConnectionEclipse®with 7XS Probe

5857-600 Eclipse®Guided Wave Radar Transmitter3.6.6 Physical – Twin Rod Probesinches (mm)Eclipse®with 7x7 Twin Rod Flexible ProbeFlanged or NPT Connec

5957-600 Eclipse®Guided Wave Radar Transmitter3.6.6 Physical – Single Rod Probesinches (mm)Eclipse®with 7xF-E ProbeHygienic ConnectionProbeInsertion

61.2.2 Transmitter Tighten the hex nut of the probe process connection orflange bolts.NOTE: Leave the plastic protective cap in place until ready toi

3.7 Model Numbers3.7.1 Transmitter6057-600 Eclipse®Guided Wave Radar Transmitter03⁄4" NPT1 M201 Cast aluminum, dual compartment, 45° angle2 316 s

D Coaxial High Temp./High Pressure3⁄4" processconnectionor largerDielectric range ≥1.4R Coaxial Overfill ProbeL Coaxial High Temp./High Pressure

3.7.2 Probe6257-600 Eclipse®Guided Wave Radar Transmitter75L 3" 900# ANSI Ring Joint Flange 5M 3" 1500# ANSI Ring Joint Flange 5N 3"

6357-600 Eclipse®Guided Wave Radar Transmitter7TT 31⁄2" 600# Fisher®- Proprietary Carbon Steel (249B) Torque Tube FlangeTU 31⁄2" 600# Fisher

Accuracy The maximum positive and negative % deviation over thetotal span.ANSI American National Standards Institute.ATEX ATmospheric EXplosive Europe

Radar Radio Detection And Ranging Uses EM energy and highspeed timing circuits to determine distance. Original Radar devicesused energy in the radio f

Copy blank page and store calibration data for future reference and troubleshooting.Item Value Value ValueVessel NameVessel #Process MediumTag #Electr

6757-600 Eclipse®Guided Wave Radar TransmitterCopy blank page and store calibration data for future reference and troubleshooting.Item Value Value Val

BULLETIN: 57-600.20EFFECTIVE: October 2012SUPERSEDES: March 20125300 Belmont Road • Downers Grove, Illinois 60515-4499 • 630-969-4000 • Fax 630-969-94

1.4 QuickStart ConfigurationThe ECLIPSE transmitter comes configured with defaultvalues from the factory but can be reconfigured in the shop(disregard

857-600 Eclipse®Guided Wave Radar Transmitter2.0 Complete InstallationThis section provides detailed procedures for properlyinstalling and configuring

92.3 Before You Begin2.3.1 Site PreparationEach ECLIPSE transmitter is built to match the specificphysical specifications of the required installation