Magnetrol Eclipse 706GWR Installation And Operating Manual
  1. Manuals
  2. Brands
  3. Magnetrol Manuals
  4. Transmitter
  5. Eclipse 706GWR
  6. Installation and operating manual

Magnetrol Eclipse 706GWR Installation And Operating Manual

High performance, 4th generation guided wave radar level transmitter
Hide thumbs Also See for Eclipse 706GWR:
Table of Contents

Advertisement

Quick Links

See also: Operating Manual
HART
®
Installation and Operating
Manual for Eclipse
®
Model 706
Software Version 1.x
High Performance,
4th Generation
Guided Wave Radar
Level Transmitter
2014/68/EU

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the Eclipse 706GWR and is the answer not in the manual?

Questions and answers

Related Manuals for Magnetrol Eclipse 706GWR

Summary of Contents for Magnetrol Eclipse 706GWR

  • Page 1 HART ® Installation and Operating Manual for Eclipse ® Model 706 Software Version 1.x High Performance, 4th Generation Guided Wave Radar Level Transmitter 2014/68/EU...
  • Page 2 MAGNETROL will repair or replace the control at no cost W RNINGS to the purchaser (or owner) other than transportation.

  • Page 3: Table Of Contents

    Eclipse Model 706 Guided Wave Radar Transmitter ® Table of Contents 1.0 QuickStart Installation 2.4.6 Installing the ECLIPSE Model 706 1.1 Getting Started............5 Transmitter...........23 1.1.1 Equipment and Tools ........5 2.4.6.1 Integral Mount ........23 1.1.2 Configuration Information......6 2.4.6.2 Remote Mount ........23 1.2 QuickStart Mounting..........6 2.5 Wiring ..............24 1.2.1 Probe..............7...
  • Page 4 3.3 Troubleshooting and Diagnostics ......46 3.6.9 Physical Specifications — 3.3.1 Diagnostics (Namur NE 107) ......47 Single Rod Rigid Probes.......79 3.3.2 Diagnostic Indication Simulation....49 3.6.10 Physical Specifications — 3.3.3 Diagnostic Indication Table......49 Twin Rod Flexible Probes......79 3.3.4 Diagnostic Help ...........52 3.6.11 Power Supply Requirements ......80 3.3.5 Troubleshooting Application Issues ....53 3.6.11.1 Safe Operating Area.......80 3.3.5.1 Model 706 (Dual Element Coaxial or...

  • Page 5: Quickstart Installation

    QuickStart Installation The QuickStart Installation procedures provide an overview of the key steps required for mounting, wiring, and config- uring the ECLIPSE Model 706 Guided Wave Radar level transmitter. These procedures are intended for more experi- enced installers of ECLIPSE transmitters (or other electron- ic level measurement instruments).

  • Page 6: Configuration Information

    1.1.2 Configuration Information To utilize the QuickStart menu available on the ECLIPSE Model 706, some key information is required for configuration. Gather the information and complete the following operating parameters table before beginning configuration. NOTES: The QuickStart menu is available for Level Only applications. 1.

  • Page 7: Probe

    For optimal performance (and correlation to the Calibration Certificate included with all units), confirm the model and serial numbers shown on the nameplates of the ECLIPSE probe and transmitter are identical. NOTES: For applications using the Model 7yS Steam Probe, it is mandatory to keep the transmitter and probe matched as a set.

  • Page 8: Quickstart Wiring

    QuickStart Wiring W RNING! Possible explosion hazard. Do not connect or discon- nect equipment unless power has been switched off and the area is known to be non-hazardous. Black (-) Red (+) NOTE: Ensure that the electrical wiring to the ECLIPSE Model 706 transmitter is complete and in compliance with all local regula- tions and codes.
  • Page 9 3. The push buttons offer multiple forms of functionality for menu navigation and data entry. (See Section 2.6 for com- STEP 4 plete explanation). UP moves up through the menu or increases a displayed value. DOWN moves down through the menu or decreases a displayed value.

  • Page 10: Quickstart Menu Options

    1.4.1 QuickStart Menu Options Level Units Select the Units of measurement for the level readout: • Inches • Feet • Millimeters • Centimeters • Meters Probe Model Select the Probe Model to be used with Model 706: (NOTE: All Probe Models may not be available depending on the firmware version.) •...

  • Page 11: Quickstart Numerical Data Entry

    1.4.1.1 QuickStart Numerical Data Entry To make numerical entry changes to Probe Length and Level Offset: UP moves up to the next highest digit (0,1,2,3,..,9 or the decimal point). If held down the digits scroll until the push button is released.

  • Page 12: Complete Installation

    For same reason, conduit entries should be properly sealed. Electrostatic Discharge (ESD) Handling Procedure MAGNETROL electronic instruments are manufactured to the highest quality standards. These instruments use elec- tronic components that may be damaged by static electricity present in most work environments.

  • Page 13: Before You Begin

    • Use a grounding wrist strap when installing and removing circuit boards. A grounded workstation is recommended. • Handle circuit boards only by the edges. Do not touch components or connector pins. • Make sure that all electrical connections are completely made and none are partial or floating.

  • Page 14: Mounting

    2.4 Mounting An ECLIPSE Model 706 GWR probe can be mounted on to a tank using a variety of process connections. Generally, either a threaded or flanged connection is used. For infor- mation about the sizes and types of connections available, see Probe Model Numbers, Section 3.7.2.

  • Page 15: To Install A Coaxial Probe

    NOTE: For applications using the Model 7yS Steam Probe, it is mandatory to keep the transmitter and probe matched as a set. Refer to Section 3.2.5 for additional information regarding saturated steam applications. ① • Probe has adequate room for installation and has unob- ④...

  • Page 16: Installing A Caged Probe

    2.4.3 Installing a Caged Probe Models 7yG, 7yL and 7yJ Before installing, ensure that the: • The model and serial numbers shown on the nameplates of the ECLIPSE probe and transmitter are identical. For opti- mal performance (and correlation to the Calibration Certificate included with all units), transmitters and probes should be installed as a matched set.

  • Page 17: Installing A Single Rod Probe

    2.4.4 Installing a Single Rod Probe Rigid Models 7yF, 7yG, 7yJ, 7yL, 7yM and 7yN Flexible Models 7y1, 7y2, 7y3 and 7y6 Before installing, ensure that the: • The model and serial numbers shown on the nameplates of the ECLIPSE probe and transmitter are identical. For opti- mal performance (and correlation to the Calibration Certificate included with all units), transmitters and probes should be installed as a matched set.

  • Page 18: To Install A Rigid Single Rod Probe

    2.4.4.1 To install a rigid single rod probe: 1. Ensure that the process connection is at least 1" NPT or a flanged mounting. 2. Carefully place the probe into the vessel. Align the gasket on flanged installations. ➃ ➀ ➁ ➂...

  • Page 19: To Install A Flexible Single Rod Probe For Solids

    2.4.4.3 To install a flexible single rod probe for solids: The Model 7y2 Single Flexible Bulk Solids probe is designed for a 3000 lb. (1360 kg) pull-down force for use in applications such as sand, plastic pellets and grains. It is offered with a maximum 100 foot (30.5 meter) probe length.

  • Page 20: Installing A Twin Flexible Probe

    2.4.5 Installing a Twin Flexible Probe ➃➄ ➀ ➁ ➂ (Models 7y5 and 7y7) Before installing, ensure that the: • The model and serial numbers shown on the nameplates of the ECLIPSE probe and transmitter are identical. For opti- mal performance (and correlation to the Calibration Certificate included with all units), transmitters and probes should be installed as a matched set.

  • Page 21: To Install A Model 7Y5 Bulk Solids Flexible Twin Rod Probe

    3. Carefully place the probe into the vessel. Properly align the gasket on flanged installations. 4. Align the probe process connection with the threaded or flanged mounting on the vessel. ➅ 5. For threaded connections, tighten the hex nut of the probe process connection.
  • Page 22 pplications 1. Plastic pellets, sugar: Dielectric constant 1.9–2.0 2. Grain, seeds, sand: Dielectric constant 2.0–3.0 3. Salts: Dielectric constant 4.0–7.0 4. Metallic powder, coal dust: Dielectric constant >7 NOTE: Contact the factory for those applications requiring addition pull down forces such as cement, heavy gravel, etc. Probe Length Mounting recommendations...

  • Page 23: Transmitter

    2.4.6 Installing the ECLIPSE Model 706 Transmitter The transmitter can be ordered for installation in three con- figurations; 1) As an Integral version, mounted directly on to the probe. 2) As a Remote version, with the transmitter separated from the probe by a distance of 3 feet (84 cm). 3) As a Remote version, with the transmitter separated from the probe by a distance of 12 feet (366 cm).

  • Page 24: Wiring

    Wiring Caution: HART versions of the ECLIPSE Model 706 transmitter operate at voltages of 11–36 VDC, F fieldbus OUNDATION versions operate at 9–17.5 VDC, and Modbus versions operate at 8–30 VDC. Higher voltages will damage the transmitter. Wiring connections between the power supply and the ECLIPSE Model 706 transmitter should be made using 18–22 AWG shielded twisted pair instrument cable.

  • Page 25: Intrinsically Safe

    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 to limit the avail- able energy out to the hazardous area. See Agency Drawing – Intrinsically Safe Installation, Section 3.5.2.

  • Page 26: Configuration

    To install an Explosion Proof transmitter: 1. Install Explosion Proof conduit from the safe area to the conduit connection of the ECLIPSE transmitter (refer to local plant or facility procedures). 2. Remove the cover from the wiring compartment of the transmitter.

  • Page 27: Menu Traversal And Data Entry

    NOTE: Current measurements taken at these test points are an approximate value. Accurate current readings should be taken with the digital multimeter directly in series with the loop. NOTE: When using a HART communicator for configuration, a mini- mum 250-ohm line load resistance is required. Refer to your (-) negative HART communicator manual for additional information.

  • Page 28: Entering Numeric Data Using Digit Entry

    2.6.2.3 Entering Numeric Data Using Digit Entry This method is used to input numeric data, e.g., Probe Length, set 4mA and set 20mA. Push button Keystroke Action Moves up to the next highest digit (0,1,2,3,..,9 or decimal point). If held down the digits scroll until the push button is released.

  • Page 29: Entering Character Data

    2.6.2.5 Entering Character Data This method is used for parameters requiring alphanumeric character entry, such as for entering tags, etc. General Menu Notes: Push button Keystroke Action Moves to the previous character (Z...Y...X...W). If held down, the characters scroll until the push button is released.

  • Page 30: Model 706 Menu: Step-By-Step Procedure

    dvanced Password Certain portions of the menu structure that contain more advanced parameters are further protected by an Advanced Password. This password will be provided, when necessary, by Factory technical support. Factory Password Calibration-related and other factory settings are further protected by a Factory Password.
  • Page 31 M IN MENU Pressing any key on the Home Screen will present the Main Menu, consisting of three basic menu labels shown in all capital letters. • DEVICE SETUP • DI GNOSTICS • ME SURED V LUES As shown, the reverse video represents a cursor identifying the selected item, which will appear in reverse video on the LCD.

  • Page 32: Model 706 Configuration Menu - Device Setup

    NPT/Flushing BSP/Flushing Home Screen Flange/Flushing Hygienic Main Menu Device Setup Quick Start Identity Product Name (read only) Magnetrol S/N (read only) Hardware Version (read only) Firmware Version (read only) LongTag Measurement Type: Basic Config Level Units: Probe Coating: (7yF only)
  • Page 33 2.6.5 Model 706 Configuration Menu — Device Setup Home Screen Main Menu Device Setup Quick Start Identity Measurement Type: Basic Config I/O Config Level Only Level Units: Probe Coating: (7yF only) Interface and Level Display Config Volume and Level Advanced Config Inches None (Bare) Flow...
  • Page 34 2.6.5 Model 706 Configuration Menu — Device Setup Home Screen Main Menu Device Setup Quick Start Identity Basic Config Measurement Type: I/O Config Level Only Display Config Interface and Level Advanced Config Volume and Level Factory Config Flow Flow Units: V-notch Weir Maximum Flow Level Units:...
  • Page 35 2.6.5 Model 706 Configuration Menu — Device Setup Home Screen Main Menu Device Setup Quick Start Identity Basic Config I/O Config Primary Variable 4 mA Set Pt (LRV): -25 to +175 feet ([Upr] Level, Ifc Level) (-7.6 m to 53 m) 2.0 inches to 100 feet (Upr Thickness) (5 cm to 30 m) 0 to 9999999 gals (Volume)
  • Page 36 2.6.5 Model 706 Configuration Menu — Device Setup Home Screen Main Menu Device Setup Quick Start Identity Basic Config I/O Config Display Config Advanced Config Factory Config Sensitivity: Ifc Lvl Thresh Mode: Compensation: 0 to 100 echo strength units (Interface and Level only) None Auto Largest Auto...
  • Page 37 2.6.5 Model 706 Configuration Menu — Device Setup Home Screen Main Menu Device Setup Quick Start Identity Basic Config I/O Config Display Config Advanced Config Factory Config Fiducial Gain: 0 to 255 (read only) Fid Threshold Value SZ Hysteresis (Safe Zone Hysteresis): (not used when Safe Zone Alarm is None) 0 to 100 feet (0 to 30 m)

  • Page 38: Configuration Using Hart

    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 Model 706 transmitter. When connected to the control loop, the same system measurement readings shown on the transmitter are also shown on the communicator.
  • Page 39 7 Date/Time/Initials 2 Ifc Level 8 Factory Identity 1 Manufacturer 3 Upr Thickness 2 Product Name 4 Volume 3 Magnetrol S/N 1 Enter Password 2 Basic Config 5 Flow 4 Hardware Version 2 Level Units 6 Head 5 Firmware Version...
  • Page 40 2.7.4 HART Menu – Model 706 1 Identity 2 Basic Config 3 Volume Config 4 Flow Config 5 I/O Config 6 Local Display Config 1 Enter Password 2 Language 1 Safety Zone Alarm 3 Status Symbol 2 Safety Zone Height 4 Long Tag 3 Reset SZ Alarm 5 PV Bar Graph...
  • Page 41 2.7.4 HART Menu – Model 706 1 PV 2 PV Loop Current 3 PV % Range 4 Device Setup 5 Setup Wizard 6 Diagnostics 1 Present Status 1 NE107 Category 2 NE107 Highest Active Indicator 7 Measured Values 3 Add’l Device Status 1 Status 0 4 Reset Config Changed 2 Status 1...
  • Page 42 2.7.4 HART Menu – Model 706 1 PV 2 PV Loop Current 3 PV % Range 4 Device Setup 5 Setup Wizard 6 Diagnostics 1 Present Status 7 Measured Values 2 Event History 3 Advanced Diagnostics 4 Echo Curves 1 Echo Graph 2 Curve 1 3 Curve 2 4 Refresh Graph...

  • Page 43: Reference Information

    Reference Information This section presents an overview of the operation of the ECLIPSE Model 706 Guided Wave Radar Level Transmitter, information on troubleshooting common prob- lems, listings of agency approvals, lists of replacement and recommended spare parts, and detailed physical, functional, and performance specifications.

  • Page 44: Equivalent Time Sampling (Ets)

    In the ECLIPSE transmitter, a waveguide with a characteristic impedance in air is used as a probe. When part of the probe is immersed in a material other than air, there is lower impedance due to the fact that a liquid will have a higher dielectric constant than air.

  • Page 45: Saturated Steam Applications

    constant of the medium in which it is traveling, the dielectric constant of the upper liquid must be known to accurately determine the interface level. The thickness of the upper layer can be determined by knowing the time between the first and second reflections as well as the upper layer dielectric constant.

  • Page 46: Overfill Capability

    This is a patented technique with two US Patents (US 6642801 and US 6867729) issued for both the mechanical target concept and the associated software algorithm. Contact the factory for additional information relating to saturated steam applications. 3.2.6 Overfill Capability Although agencies like WHG or VLAREM certify Overfill proof protection, defined as the tested, reliable operation when the transmitter is used as overfill alarm, it is assumed...

  • Page 47: Diagnostics (Namur Ne 107)

    The combination of these internal tests and diagnostics messages offer a valuable proactive method of troubleshoot- ing. The device not only tells the user what wrong, but also, and more importantly, offers suggestions on how to solve the problem. All of this information can be obtained directly from the transmitter on the LCD, or remotely by using a HART communicator or PACTware and the ECLIPSE Model 706 DTM.
  • Page 48 In essence, this approach ensures that the right diagnostic information is available to the right person-at the right time. In addition, it allows diagnostics to be applied, as most appropriate, for a particular plant application (such as process control engineering or asset management mainte- nance).

  • Page 49: Diagnostic Indication Simulation

    Category Software Error Unrecoverable error occurred in stored Failure program. RAM Error Failure RAM (read/write) memory failing. ADC Error Contact MAGNETROL Technical Support. Failure Analog-to-digital converter failure. EEPROM Error Failure Non-volatile parameter storage failing. Analog Board Error Failure Unrecoverable hardware failure.

  • Page 50: Analog Output

    3.3.3 Diagnostic Indicator Table Default Priority Indicator Name Explanation Remedy Category Check settings: Dielectric Range No Echoes Sensitivity Failure No signal detected anywhere on probe. EoP Thresh Value Increase Sensitivity. Lower EoP Thresh. View Echo Curve. Check settings: Upper Dielectric, Upr Echo Lost Blocking Distance, Signal from upper liquid too weak to...
  • Page 51 Error Internal signal timing out of limits causing Out of Spec Replace transmitter electronics. inaccurate distance measurement. Contact MAGNETROL Technical Support. High Elec Temp Electronics too hot. May compromise Shield transmitter from heat source or Out of Spec level measurement or damage instru- increase air circulation.

  • Page 52: Diagnostic Help

    ITEMS from the top level of the DIAGNOSTICS tree. When Present Status is highlighted, the highest MAGNETROL priority active diagnostic indicator (numer- ically lowest in Table 3.3.3) is displayed on the bottom LCD line, which is “OK” as shown at left. Pressing the...

  • Page 53: Troubleshooting Application Issues

    ECHO HISTORY SETUP – The Model 706 contains the unique and powerful feature that allows waveforms to be automatically captured based on Diagnostic Events, Time or both. This menu contains those parameters that configure that feature. Eleven (11) waveforms can be saved directly into the trans- mitter.

  • Page 54: Model 706 (Single Rod Probe)

    Single rod GWR probes are typically the best probes for applications with potential buildup, but other factors in the application must be considered (such as mounting, sensitivi- ty, etc). For this reason, the ECLIPSE Model 706 is offered with a variety of coaxial, single rod, and Twin Flexible probes so the correct probe can be used for the given application.
  • Page 55 Refer to Section 3.2.6 for a discussion on overfill-capable probes for suggestions on how to eliminate these unwanted single rod reflections. MAGNETROL is unique in the fact that we offer a special caged probe that, when installed Caged Probe properly, has no unwanted reflections.

  • Page 56: Configuration Information

    Configuration Information This section is intended to offer additional configuration- related details with respect to some of the parameters shown in the Menu in Section 2.6. 3.4.1 Level Offset Description The parameter referred to as Level Offset in the ECLIPSE Model 706 DEVICE SETUP/BASIC CONFIG menu is defined as the desired level reading when liquid surface is at the tip of the probe.

  • Page 57: End-Of-Probe Analysis

    NOTE: The accuracy of this level measurement mode is not that of detecting true product level, and can vary depending on the process. MAGNETROL recommends that this feature be used only as last resort for measuring levels in those rare applica-...

  • Page 58: Echo Rejection

    Model 706 DTM and PACTware ™ Refer to Section 4 “Advanced Configuration/ Troubleshooting Techniques” or contact MAGNETROL Technical Support for additional instructions. 3.4.4 Volumetric Capability Selecting Measurement Type = Volume and Level allows the Model 706 transmitter to measure volume as the Primary Measured Value.
  • Page 59 Vessel Types HORIZONTAL/SPHERICAL SPHERICAL HORIZONTAL/ELLIPTICAL VERTICAL/ELLIPTICAL VERTICAL/SPHERICAL RECTANGULAR VERTICAL/FLAT VERTICAL/CONICAL HORIZONTAL/FLAT 57-606 ECLIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 60: Configuration Using Custom Table

    3.4.4.2 Configuration using Custom Table If none of the nine Vessel Types shown can be used, a Custom Table can be created. A maximum of 30 points can be used to establish the level to volume relationship. The following table provides an explanation of each of the System Configuration parameters for volume applications where a Custom Table is needed.

  • Page 61: Open Channel Flow Capability

    3.4.5 Open Channel Flow Capability Selecting Measurement Type = Flow allows the Model 706 transmitter to measure flow as the Primary Measured Value. Open channel flow is performed by using the ECLIPSE Model 706 Model 706 to measure the Head in a hydraulic structure. Flow The hydraulic structure is the primary measuring element, of which the two most common types are weirs and flumes.

  • Page 62: Configuration Using Flume/Weir Equations

    3.4.5.1 Configuration using Flume/Weir Equations The following table provides an explanation of each of the System Configuration parameters required for open channel flow applications using one of the Flow Elements that are stored in the firmware. Configuration Parameter Explanation A selection of Gallons/Minute (factory default Flow unit), Gallons/Hour, Mil Flow Units Gallons/Day, Liters/Second, Liters/Minute, Liters/Hour, Cubic Meter/Hour, Cubic Ft/Second, Cubic Ft/Minute, and Cubic Ft/Hour are provided.

  • Page 63: Configuration Using Generic Equation

    3.4.5.2 Configuration using Generic Equation The following table provides an explanation of each of the System Configuration parameters for Open channel flow applications using the Generic Equation. Configuration Parameter Explanation (Open Channel Flow — using the Generic Equation) A selection of Gallons/Minute (factory default Flow unit), Gallons/Hour, Flow Units Mil Gallons/Day, Liters/Second, Liters/Minute, Liters/Hour, Cubic Meter/Hour, Cubic Ft/Second, Cubic Ft/Minute, and Cubic Ft/Hour are provided.
  • Page 64 3.4.5.3 Configuration using Custom Table Concentrate points as follows: The following table provides an explanation of each of the A. At least two points at beginning (P1 and P2); B. At least two points at end (P9 and P10); System Configuration parameters for open channel flow C.

  • Page 65: Reset Function

    Model 706 transmitter configuration. Unique to the Model 706 transmitter is the ability for MAGNETROL to fully “pre-configure” devices to customer requests. For that reason, the Reset function will return the device back to the state at which it left the factory.

  • Page 66: Agency Approvals

    Agency Approvals These units are in compliance with the EMC-directive 2014/30/EU, the PED-directive 2014/68/EU and the ATEX directive 2014/34/EU. Explosion Proof (with intrinsically Safe Probe) Non- Incendive US/Canada: US/Canada: Class I, Div 1, Group B, C and D, T4 Class I, II, III, Division 2, Group A, B, C, D, E, F, G, T4 Class I, Zone 1 AEx d/ia [ia IIC Ga] IIB + H2 T4 Gb/Ga Class I, Zone 2 AEx ia/nA [ia Ga] IIC T4 Ga/Gc Class I, Zone 1 Ex d/ia [ia IIC Ga] IIB + H2 T4 Gb/Ga...

  • Page 67: (Special Conditions For Use)

    3.5.1 Special Conditions of Use 1. The enclosure contains aluminum and is considered to present a potential risk of ignition by impact or friction. Care must be taken during installation and use to prevent impact or friction. 2. The risk of electrostatic discharge shall be minimized at installation, following the directions given in the instructions.

  • Page 68: Agency Specifications (Is Installation)

    3.5.3 gency Specifications – FM/CS Intrinsically Safe Installation 57-606 E LIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 69: Fieldbus Installation

    3.5.4 gency Specifications – FM/CS Intrinsically Safe F ™ fieldbus Installation OUND TION 57-606 E LIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 70: Specifications

    Specifications 3.6.1 Functional/Physical System Design Measurement Principle Guided Wave Radar based on Time Domain Reflectometry (TDR) Input Measured Variable Level, as determined by GWR time of flight Span 6 inches to 100 feet (15 cm to 30 m); Model 7yS Probe 20 feet (610 cm) max. Output Type 4 to 20 mA with HART: 3.8 mA to 20.5 mA useable (per NAMUR NE43)
  • Page 71 3.6.1 Functional/Physical Environment Operating Temperature -40 to +175 °F (-40 to +80 °C); LCD viewable -5 to +160 °F (-20 to +70 °C) Storage Temperature -50 to +185 °F (-46 to +85 °C) Humidity 0 to 99%, non-condensing Electromagnetic Compatibility Meets CE requirement (EN 61326) and NAMUR NE 21 NOTE: Single Rod and Twin Cable probes must be used in metallic vessel or stillwell to maintain CE noise immunity...

  • Page 72: O-Ring (Seal) Selection Chart

    3.6.2 O-ring (Seal) Selection Chart “O”-Ring Max. Process Min. Process Max. Process Not Recommended For Code Recommended for Applications Material Temperature Temperature Pressure Applications Ketones (MEK, acetone), skydrol fluids, amines, anhydrous ammonia, low 1000 psi 70 °F 400 °F @ 230 psi -40 °F Viton ®...

  • Page 73: Probe Selection Guide

    3.6.3 Probe Selection Guide COAXIAL/CAGED GWR PROBE TWIN CABLE GWR PROBE SINGLE ROD/CABLE PROBE signal propagation signal propagation signal propagation Launch end view Vacuum ƒ end view Dielectric Temperature Viscosity Max. Overfill Range ¡¬ Range √ Description Application Installation Probe¿ Pressure Safe cP (mPa.s)

  • Page 74: Probe Specifications

    3.6.4 Probe Specifications Dual-element Probes Coaxial / Cage HP Coaxial/Cage HTHP Coaxial/Cage Steam Flexible Twin Rod Model (7yG, 7yT) (7yL, 7yP) (7yD, 7yJ) (7yS) (7y5, 7y7) 316/316L SS (Hastelloy 316/316L SS, 316/316L SS, 316/316L SS, 316/316L SS C and Monel opt.) Glass Ceramic Alloy, Glass Ceramic Alloy, Materials...

  • Page 75: Physical Specifications - Transmitter

    Temperature/Pressure Charts 7yL, 7yM and 7yP 7yD, 7yJ, 7yN, 7y3 and 7y6 Temperature/Pressure Ratings Temperature/Pressure Ratings 6500 6500 6000 6000 5500 5500 5000 5000 4500 4500 4000 4000 3500 3500 3000 3000 1000 Temperature (°F) Temperature (°F) 316/316L SST 316/316L SST Hastelloy C276 Hastelloy C276 Monel 400...

  • Page 76: Physical Specifications - Coaxial Probes

    3.6.6 Physical Specifications – Coaxial Probes inches (mm) 3.38 4.18 3.38 4.18 3.38 4.18 (86) (106) (86) (106) (86) (106) 3.77 3.77 3.77 (96) (96) (96) 9.30 9.30 9.30 (236) (236) (236) 2 cable entries 45° 45° 45° 2 cable Optional 2 cable entries...

  • Page 77: Physical Specifications - Caged Probes

    3.6.7 Physical Specifications – Caged Probes 3.38 4.18 inches (mm) (86) (106) 3.38 4.18 3.77 (86) (106) 3.38 4.18 (96) (86) (106) 3.77 9.30 (96) 3.77 (236) (96) 9.30 (236) 9.30 (236) 45° 2 cable entries 45° 2 cable entries 45°...

  • Page 78: Physical Specifications

    3.6.8 Physical Specifications – Single Cable Flexible Probes 3.38 4.18 3.38 4.18 inches (mm) (86) (106) (86) (106) 3.38 4.18 (86) (106) 3.77 3.77 (96) (96) 3.77 (96) 9.30 9.30 (236) (236) 9.30 (236) 45° 45° 2 cable 2 cable entries entries 45°...

  • Page 79: Physical Specifications - Single Rod Rigid Probes

    3.6.9 Physical Specifications – Single Rod Rigid Probes 3.38 4.18 inches (mm) (86) (106) 3.38 4.18 (86) (106) 3.38 4.18 3.77 (86) (106) (96) 3.77 (96) 3.77 9.30 (96) (236) 9.30 (236) 9.30 (236) 45° 2 cable entries 45° 2 cable entries 45°...

  • Page 80: Power Supply Requirements

    3.6.11 Power Supply Requirements 3.6.11.1 Safe Operating Area Safe Operating Area Loop Ω Typical HART 4-20 mA Digital Solar Mode Operating Area 11 V 16.25 V 24 V 36 V Vsupply 3.6.11.2 Supply Voltage Operational Mode Current Consumption Vmin Vmax HART 16.25V General Purpose...

  • Page 81: Model Numbers

    odel Number 3.7.1 Transmitter 1 2 3 BASIC MODEL NUMBER 7 0 6 ECLIPSE 4th Generation Guided Wave Radar (GWR) Level Transmitter 4 POWER 24 VDC, Two-Wire 5 SIGNAL OUTPUT 4 –20 mA with HART ™ fieldbus Communications OUNDATION Modbus Communication 6 SAFETY OPTIONS None (F fieldbus or Modbus) (5th digit = 2 or 4)

  • Page 82: Enlarged Coaxial Probe

    3.7.2 Enlarged Coaxial Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | CONFIGURATION/STYLE (RIGID) Enlarged Coaxial, High Temp/High Pressure: Overfill w/Glass Seal (+850 °F/+450 °C) — Only available with 10th digit N or D Enlarged Coaxial, High Pressure: Overfill w/Glass Seal (+400 °F/+200 °C) —...
  • Page 83 3.7.2 Enlarged Coaxial Probe continued 6 | CONSTRUCTION CODES Industrial ASME B31.1 ASME B31.3 ASME B31.3 & NACE MR0175/MR0103 NACE MR0175/MR0103 7 | FLANGE OPTIONS — Offset flanges are only available with small coaxial probes None | MATERIAL OF CONSTRUCTION - FLANGE/NUT/ROD/INSULATION 316 SS/316L SS (Probe O.D.

  • Page 84: Small Coaxial Probe

    3.7.3 Small Coaxial Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | CONFIGURATION/STYLE (RIGID) Small Coaxial, High Temp/High Pressure: Overfill w/Glass Seal (+850 °F/+450 °C) — Only available with 10th digit N or D Small Coaxial, High Pressure: Overfill w/Glass Seal (+400 °F/+200 °C) —...
  • Page 85 3.7.3 Small Coaxial Probe continued 6 | CONSTRUCTION CODES Industrial ASME B31.1 (Not available with 4th and 5th digits T or U) ASME B31.3 ASME B31.3 & NACE MR0175/MR0103 NACE MR0175/MR0103 7 | FLANGE OPTIONS — Offset flanges are only available with small coaxial probes None Offset (For use with AURORA) —...

  • Page 86: Caged Probe

    3.7.4 Caged Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | CONFIGURATION/STYLE (RIGID) Overfill Caged Rigid Probe for use in chambers +400 °F (+200 °C) — Only available with 2", 3" and 4" flanges Overfill Caged High Temp/High Pressure Probe with Glass Seal for use in chambers +850 °F (+450 °C) Only available with 2", 3"...
  • Page 87 3.7.4 Caged Probe continued 6 | CONSTRUCTION CODES Industrial ASME B31.1 ASME B31.3 ASME B31.3 & NACE MR0175/MR0103 NACE MR0175/MR0103 7 | FLANGE OPTIONS None Offset (For use with AURORA)–4” Only available with 3rd digit G and J and 4th digit 6 "...

  • Page 88: Single Rod Rigid Probe

    3.7.5 Single Rod Rigid Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | CONFIGURATION/STYLE (RIGID) Single Rod, Standard (+400 °F/200 °C) for in-tank applications NOT available with 10th digit N or D Single Rod, High Pressure Probe with glass seal (+400 °F/+200 °C), for in-tank applications Only available with 10th digit N or D Single Rod, High Temp/High Pressure with glass seal (+850 °F/+450 °C), for in-tank applications Only available with 10th digit N or D 4 5 | PROCESS CONNECTION –...
  • Page 89 3.7.5 Single Rigid Rod Probe continued 6 | CONSTRUCTION CODES Industrial ASME B31.1 ASME B31.3 ASME B31.3 & NACE MR0175/MR0103 NACE MR0175/MR0103 7 | FLANGE OPTIONS None | MATERIAL OF CONSTRUCTION - MFG/NUT/ROD/INSULATION 316 SS/316L SS Hastelloy C Monel Faced Flange, PFA coated wetted surfaces — Only available with Digit 3rd digit F PFA coated rod —...

  • Page 90: Single Cable Flexible Probe

    3.7.6 Single Cable Flexible Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | SPECIALTY FLEXIBLE PROBES Single Cable Flexible standard for in-tank applications (+400 °F/+200 °C) Single Cable Flexible Light Duty Bulk Solids Single Cable Flexible HTHP for in-tank applications (+850 °F/+450 °C) Single Cable Flexible standard for chamber applications (+400 °F/+200 °C) —...
  • Page 91 3.7.6 Single Flexible Cable Probe continued 6 CONSTRUCTION CODES Industrial 7 FLANGE OPTIONS None MATERIAL OF CONSTRUCTION - MFG/NUT/ROD/INSULATION 316 SS/316L SS Faced Flange, PFA Coated Wetted Surfaces — Only available with 3rd digit 1 316 SS/316L SS with Carbon Steel Flange 9 SPACER/WEIGHT MATERIAL No Spacer —...

  • Page 92: Twin Cable Flexible Probe

    3.7.7 Twin Cable Flexible Probe 1 | TECHNOLOGY ECLIPSE GWR Probes - Model 706 2 | MEASUREMENT SYSTEM English Metric 3 | SPECIALTY FLEXIBLE PROBES Twin Flexible Light Duty Bulk Solids with FEP Webbing Twin Flexible - 316 SS with FEP Webbing 4 5 | PROCESS CONNECTION –...
  • Page 93 3.7.7 Twin Flexible Cable Probe continued 6 | CONSTRUCTION CODES Industrial 7 | FLANGE OPTIONS None | MATERIAL OF CONSTRUCTION - MFG/NUT/ROD/INSULATION 316 SS/316L SS 316 SS/316L SS with Carbon Steel Flange 9 | SPACER MATERIAL None 10 | O-RING MATERIALS/SEAL OPTIONS Viton ®...

  • Page 94: Segmented Probe Options

    3.7.8 Segmented Probe Options 12th Digit of Model Number Three Four Five Probe Model Segment Segments Segments Segments Segments Segments Coaxial Models 7yD, 7yP and 7yT 24 – 72" 48 – 144" 72 – 216" 96 – 288" 120 – 360" 144 –...

  • Page 95: Parts

    Parts 3.8.1 Replacement Parts CURRENT LOOP Electronics: Digit: Part Number: Serial Number: 7 7 7 7 0 6 7 7 7 See nameplate, always provide complete part number and X = product with a non-standard customer requirement serial number when ordering spares. (1) Electronic Module (6) Housing Cover Digit 5...
  • Page 96 Probe: Digit: 11 12 13 14 Part Number: X = product with a non-standard customer requirement Bottom Spacer for Single Rod GWR Probe (8) Bottom Spacer + Pin Kit Digit 3 Digit 8 Replacement Part A or R 089-9114-008 F or M B or S 089-9114-009 ➇...

  • Page 97: Advanced Configuration/Troubleshooting Techniques

    Model 706 transmitter. These diagnostic options are best suited for use with PACTware and the Model 706 DTM, and should be implemented only after contacting MAGNETROL Technical Support. End-of-Probe Analysis (EOPA) Note that due to the operation of this method, End of Probe Analysis cannot be applied with interface measure- ment, applications with a "water"...

  • Page 98: Enable Eopa Using Keyboard/Lcd

    4.1.2 Enable EOPA using keypad/LCD From the MAIN MENU, select DEVICE SETUP and press Enter. Scroll down to Advanced Config, and then press Enter. Scroll down to END of PROBE ANALYSIS, and then press Enter. 57-606 ECLIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 99: Sloped Threshold

    Enter the correct polarity for EoP Polarity, turn on EoP Analysis, and then enter the correct value for EoP Dielectric. EoP Dielectric is the dielectric constant of the process medium being measured. 4.2 Sloped Threshold The Sloped Threshold option contained in the Model 706 allows the user additional level detection capability by allowing the threshold to be sloped (bent) around an unwanted signal.
  • Page 100 57-606 ECLIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 101: Echo Rejection

    Echo Rejection Another way to ignore unwanted signals along the length of the probe is by utilizing the Echo Rejection feature. Setup using P CTware Select the Diagnostics tab and then the Echo Curve tab. Then click on New Rejection Curve Click on OK at the loop warning message.
  • Page 102 On the next screen, enter the actual process media location and then hit OK. A password window will then appear (unless the password was previously entered). Enter the password and hit OK. Then the system calculates the curve, and then saves it. Hit OK to confirm.
  • Page 103 You will get a warning regarding the loop, hit OK. On the next screen you need to enter the actual media location and then hit OK. Next a password window might appear if not already entered. Then the system calculates the curve, and then saves it.

  • Page 104: Buildup Detection

    A warning screen is shown that the loop can be returned to automatic control. At this point the echo rejection curve can be viewed by selecting Rejection Curve as Curve 2 in the lower left corner of the Echo Curve screen. The Rejection curve will then be displayed in red as shown in the screenshot below.

  • Page 105: Buildup Detection Setup Using Pactware

    4.4.1 Buildup Detection Setup using PACTware Buildup detection is a feature that needs to be turned on in Advanced Config, see below. Once turned on progress can be checked in the Advanced Diagnostics screen, see below. 57-606 ECLIPSE Model 706 Guided Wave Radar Transmitter...

  • Page 106: Buildup Detection Setup Using The Keypad

    4.4.2 Buildup Detection Setup using the Keypad From the menu select DEVICE SETUP and hit Enter. Scroll down to Buildup Detection and hit Enter Select On and hit Enter 57-606 ECLIPSE Model 706 Guided Wave Radar Transmitter...
  • Page 107 Checking buildup can be done from the main display screen. First the unit must be set up to display the Buildup percentage. Go to the main menu and select DEVICE SETUP then hit Enter. Scroll down to DISPLAY CONFIG and hit Enter. Scroll down to Probe Buildup and hit Enter, then select View.
  • Page 108 705 Enterprise Street • Aurora, Illinois 60504-8149 • 630-969-4000 info@magnetrol.com • www.magnetrol.com Copyright © 2017 Magnetrol International, Incorporated Magnetrol & Magnetrol logotype, Orion Instruments & Orion Instruments logotype, ECLIPSE and MODULEVEL are registered trademarks of Magnetrol International, Incorporated. CSA logotype is a registered trademark of Canadian Standards Association.

This manual is also suitable for:

Eclipse 706

Table of Contents

Save PDF