Eclipse® Enhanced Model 705 Guided Wave Radar Level Transmitter For Heavy-Duty Applications D E S C R I P T I O N The Enhanced Eclipse® Model 705 Transmitter is a looppowered, 24 VDC liquid-level transmitter based on the revolutionary Guided Wave Radar (GWR) technology. Encompassing a number of significant engineering accomplishments, this leading edge level transmitter is designed to provide measurement performance well beyond that of many traditional technologies, as well as “through-air” radar. Overfill-Safe Probes for Clean & Dirty Liquids Eclipse® with Enlarged Coaxial GWR probe The innovative enclosure is a first in the industry, orienting dual compartments (wiring and electronics) in the same plane, and angled to maximize ease of wiring, configuration, and data display. One universal transmitter can be used with all probe types and offers enhanced reliability for use in SIL 2/SIL 3 hardware systems. Eclipse® with Caged GWR probe ECLIPSE supports the FDT/DTM standard and, with the PACTware™ frame program, allows for additional configuration and trending flexibility. F E A T U R E S • “TRUE LEVEL” measurement—not affected by media characteristics (e.g., dielectrics, pressure, density, pH, viscosity, etc.) • Two-wire, 24 VDC loop-powered transmitter for level, interface, or volume. • 20-point custom strapping table for volumetric output. • 360° rotatable housing can be dismantled without depressurizing the vessel. • Two-line, 8-character LCD and 3-button keypad. • Probe designs: up to +800° F / 6250 psi (+430° C / 430 bar). • Saturated steam applications up to 2250 psi @ +650° F (155 bar @ +345° C). • Cryogenic applications down to -320° F (-196° C). • Integral or remote electronics (up to 12 feet (3.6 m)). • Certified for use in SIL 2/SIL 3 Loops (full FMEDA report available). A P P L I C A T I O N S MEDIA: Liquids or slurries; hydrocarbons to water-based media (dielectric 1.4 - 100). VESSELS: Most process or storage vessels up to rated probe temperature and pressure. CONDITIONS: All level measurement and control applications including process conditions exhibiting visible vapors, foam, surface agitation, bubbling or boiling, high fill/empty rates, low level and varying dielectric media or specific gravity. Download your free copy of the ECLIPSE 705 performance reports by WIB/Evaluation International (SIREP)/EXERA from magnetrol.com. T E C H N O L O G Y OVERALL LEVEL ECLIPSE Guided Wave Radar is based upon the technology of TDR (Time Domain Reflectometry). TDR utilizes pulses of electromagnetic energy transmitted down a wave guide (probe). When a pulse reaches a liquid surface that has a higher dielectric constant than the air (εr of 1) in which it is traveling, the pulse is reflected. The transit time of the pulse is then measured via ultra speed timing circuitry that provides an accurate measure of the liquid level. INTERFACE Reflected Pulse Air εr = 1 Liquid εr > 1.4 for coaxial probes LEVEL The ECLIPSE Model 705 is capable of measuring both an upper liquid level and an interface liquid level. Even after the pulse is reflected from the upper surface, some of the energy continues down the GWR probe through the upper liquid. The pulse is again reflected when it reaches the higher dielectric lower liquid. It is required that the upper liquid has a dielectric constant between 1.4 and 5, and the lower liquid has a dielectric constant greater than 15. A typical application would be oil over water, with the upper layer of oil being non-conductive (εr ≈ 2.0), and the lower layer of water being very conductive (εr ≈ 80). The thickness of the upper layer must be > 2" (50 mm). The maximum upper layer is limited to the length of a rigid GWR probe, which is available in lengths up to 20 feet (6 meters). EMULSION Initial Pulse LAYERS As emulsion (rag) layers can decrease the strength of the reflected signal, the ECLIPSE Model 705 is recommended for applications that have clean, distinct layers. The ECLIPSE Model 705 will tend to detect the top of the emulsion layer. Contact the factory for application assistance regarding emulsion layers. O V E R F I L L Transmitted Pulse Overall Level Reference signal Air εr = 1 Upper level signal > 2" (50 mm) Interface level signal Low dielectric medium (eg. oil, εr = 2) Emulsion high dielectric medium (eg. water, εr = 80) Time Interface Level S A F E All published GWR probes in this bulletin (except 7XS) are overfill safe. Overfill safe means that the characteristic impedance match of the waveguide (probe) is uniform from electronics down to the bottom of the GWR probe. This allows the ECLIPSE 705 to measure up to the process flange without any non-measureable zone at the top of the GWR probe (an area where other probes may lose the signal). Overfill safe GWR probes can be installed at any location on the vessel, even when the risk of overflooding exists. Overfill proof protection (such as WHG or VLAREM) certifies reliable operation when the transmitter is used as overfill alarm but assumes that the installation is designed in such a way that the vessel/cage cannot overfill. 2 Measure to Top of Probe P R O B E O V E R V I E W Choosing the proper Guided Wave Radar (GWR) probe is the most important decision in the application process. The probe configuration establishes fundamental performance characteristics. Coaxial, twin element (rod or cable) and single element (rod or cable) are the three basic configurations used today; each with specific strengths and weaknesses. This bulletin focuses on coaxial probes. Refer to bulletin 57-101 for information on other types of GWR probes. COAXIAL PROBES The Coaxial probe is the most efficient of all probe configurations and should be the first consideration in all applications. Analogous to the efficiency of modern, coaxial cable, coaxial probes allow almost unimpeded movement of the high frequency pulses throughout its length. Figure 1 Coaxial Probe The electromagnetic field that develops between the inner rod and outer tube is completely contained. See Figure 1. The efficiency and sensitivity of a coaxial configuration yields robust signal strength even in extremely low dielectric (εr ≥1.4) applications. The sensitivity of this “closed” design, however, also makes it more susceptible to measurement error in applications of coating and buildup. 3 STYLES OF THE COAXIAL GWR Standard coaxial GWR probes for clean liquids The standard (0.875" diameter) coaxial GWR probes are recommended for use in clean applications or special applications such as saturated steam. Spacers are located at 24-inch intervals centering the inner rod in the outer tube, obtaining a perfect characteristic impedance along the entire length of the probe. This probe can be used in appliEnlarged Coaxial cations with viscosi- Small Coaxial GWR probe GWR probe ties up to 500 cP. Enlarged coaxial GWR probes for clean liquids. The enlarged (1.75" diameter) coaxial GWR probes can be generally used for most applications. They can be installed directly in the tank as well as into bypass cages, stillwells or bridles. The robust construction reduces the number of spacers required, allowing the probe to be used in applications FLUSHING PROBE where higher risk of buildup exists. The use of a single bottom spacer is recommended up to probe lengths of 10 feet. The overall performance of an enlarged coaxial GWR probe is identical to a standard coaxial GWR probe, but can be used in applications with viscosities up to 2,000 cP. Caged GWR probe for dirty liquids The Caged GWR probe is a single rod probe which uses an existing or new cage, bridle or stillwell to re-create the same signal propagation of a coaxial GWR probe. Caged GWR probes are designed for 2" (DN50), 3" (DN80) or 4" (DN100) diameter chambers and utilize an impedance matching section that results in the same characteristic impedance of a coaxial style GWR probe. Caged GWR probes are overfill safe, offer the same performance of coaxial GWR probes, and can be used in applications with viscosities up to 10,000 cP. Caged GWR probe CONNECTION The maintenance of coaxial GWR probes in applications suffering from buildup, crystallization or condensation can be significantly improved by using a flushing connection. This flushing connection is a metal extension with a vent, welded above the process connection. With the vent it is possible to purge the inside of the coaxial GWR probe during routine maintenance. The best approach to defeat the effects of condensation or crystallization is to install adequate insulation or heat tracing (steam or electrical). A flushing connection is no substitute for proper maintenance but will help to reduce/optimize the frequency of the maintenance routines. Flushing Connection 3 T R A N S M I T T E R S P E C I F I C A T I O N S F U N C T I O N A L / P H Y S I C A L Power (at terminals) General Purpose / Intrinsically Safe 11 to 28.6 VDC Explosion Proof (with Intrinsically Safe probe) 11 to 36 VDC FOUNDATION fieldbus™ and PROFIBUS PA™ (FISCO) 9 to 17.5 VDC FOUNDATION fieldbus™ and PROFIBUS PA™ (FNICO Exd) 9 to 32 VDC Signal Output 4-20 mA with HART® 3.8 mA to 20,5 mA useable (meets NAMUR NE 43) — HART 6 FOUNDATION fieldbus™ H1 (ITK Ver. 5.01) or PROFIBUS PA™ H1 ™ PROFIBUS PA Span 6 to 240" (150 to 6100 mm) except 7xS: max 180" (4500 mm) Resolution Analog: 0.01 mA Display: 0.1 cm (inch) Loop Resistance 630 Ω @ 20.5 mA - 24 VDC Damping Adjustable 0-10 s Diagnostic Alarm Adjustable 3.6 mA, 22 mA, HOLD User Interface HART® communicator, AMS® or PACTware™, FOUNDATION fieldbus™, PROFIBUS PA™, and/or 3-button keypad Display 2-line x 8-character LCD Menu Language English/Spanish/French/German (FOUNDATION fieldbus™ and PROFIBUS PA: English) Housing Material IP 66/Aluminium A356T6 (< 0.20 % copper) or 316 stainless steel SIL ¿ Standard Functional safety to SIL 1 as 1oo1 / SIL 2 as 1oo2 in accordance to 61508 – SFF of 85,4 % (Safety Integrity electronics – full FMEDA reports and declaration sheets available at request Level) Enhanced Functional safety to SIL 2 as 1oo1 in accordance to 61508 – SFF of 91 % electronics – full FMEDA reports and declaration sheets available at request. Certified for use in SIL 3 Loops. Electrical Data Ui = 28.4 V, li = 94 mA, Pi = 0.67 W Ui = 0.56 V, li = 380 mA, Pi = 5.32 W (FOUNDATION fieldbus™ / PROFIBUS PA™) Equivalent Data Ci = 2.2 nF, Li = 3 µH Ci = 0.24 nF, Li = 3 µH (FOUNDATION fieldbus™ / PROFIBUS PA™) Shock/Vibration Class ANSI/ISA-571.03 SA1 (Shock), ANSI/ISA-571.03 VC2 (Vibration) Net and Gross Cast aluminium 6 lbs. (2.7 kg) net; 7 lbs. (3.2 kg) gross – transmitter only Weight Stainless steel 12.5 lbs. (5.7 kg) net; 13.5 lbs. (6.2 kg) gross – transmitter only Overall Dimensions H 8.43" (214 mm) x W 4.38" (111 mm) x D 7.40" (188 mm) FOUNDATION fieldbus™ ITK Version 5.01 specifications H1 Device Class Link Master (LAS) – selectable ON/OFF H1 Profile Class 31PS, 32L Function Blocks 1 x RB (s), 4 x AI (s), 1 x TB (c), and (1) PID Quiescent current draw 15 mA Execution time 15 ms (40 msec PID Block) CFF files Downloads available from Host system supplier or www.fieldbus.org PROFIBUS PA Device revision 0x01 specifications Digital communication Version 3.0 MBP (31.25 kbits/sec) protocol Function Blocks 1 ¥ PB, 4 ¥ Al blocks, 1 ¥ TB Quiescent current draw 15 mA Execution time 15 ms GSD files Downloads available from www.profibus.com or Magnetrol.com ¿ Not applicable for FOUNDATION fieldbus™ and PROFIBUS PA™ units. 4 T R A N S M I T T E R S P E C I F I C A T I O N S P E R F O R M A N C E Reference Conditions with a 72" coaxial type GWR probe ¿ Linearity ¡ Coaxial/twin lead probes Single lead probes Accuracy ¡¬ Coaxial/twin lead probes Single lead probes 7xT/7xL interface Resolution Repeatability Hysteresis Response Time Warm-up Time Ambient Temp. Reflection from liquid, with dielectric in center of selected range, at +70° F (+20° C) with CFD threshold < 0.1 % of probe length or 0.1" (2.5 mm), whichever is greater < 0.3 % of probe length or 0.3" (8 mm), whichever is greater < 0.1 % of probe length or 0.1" (2.5 mm), whichever is greater ± 0.5 % of probe length or 0.5" (13 mm), whichever is greater ± 1" (25 mm) ± 0.1" (2.5 mm) < 0.1" (2.5 mm) < 0.1" (2.5 mm) < 1 second < 5 seconds -40° to +175° F (-40° to +80° C) – blind transmitter -5° to +160° F (-20° to +70° C) – with digital display -40° to +160° F (-40° to +70° C) – for EEx ia and EEx d[ia] with blind transmitter -5° to +160° F (-20° to +70° C) – for EEx ia and EEx d[ia] with digital display Process Dielectric Effect Operating Temp. Effect Humidity Electromagnetic Compatibility < 0.3" (7.5 mm) within selected range Approx. +0.02 % of probe length/°C for probes ≥ 8' (2.5 m) 0-99 %, non-condensing Meets CE requirements (EN-61326: 1997 + A1 + A2) and NAMUR NE 21 (Single and Twin Rod probe must be used in metallic vessel or stillwell) Meets CE EN61326 (1000 V) Surge Protection ¿ Specifications may degrade with fixed threshold configuration. ¡ Top 24 inches of Model 7xB probe: 1.2 inches (30 mm). ¬ Accuracy may degrade when using manual or automatic compensation. 1200 20.5 mA 1000 800 Ω 630 600 400 200 24 VDC 0 11 0 10 20 VDC 30 40 GENERAL PURPOSE (GP) INTRINSICALLY SAFE (IS) EXPLOSION PROOF (XP) 5 P R O B E S P E C I F I C A T I O N S Description Materials Probe Probe diameter Process seal Spacers Enlarged coax Mounting Process Connection Probe length Transition Zone ¡ Top Bottom Process Temp. Max Min Max. Process Pressure ¬ Max. Viscosity Dielectric Range Vacuum service Media coating 7xT/7xN: Level/Interface GWR Probe 316/316L (1.4401/1.4404) Hastelloy C® (2.4819) or Monel® (2.4360) TFE with Viton® GFLT or Kalrez 4079 (Consult factory for alternatives) Teflon Stainless steel: Inner rod 0.63" (16 mm) – Outer tube 1.75" (45 mm) Hastelloy C and Monel: Inner rod 0.63" (16 mm) – Outer tube 1.92" (49 mm) In-tank mounting / external cage mounting – overfill safe Threaded: 3⁄4" NPT or 1" BSP (G1) – except for enlarged probe, 2" NPT Flanged: Various ANSI, DIN or “proprietary” mating flanges From 24 to 240 inches (60 to 610 cm), selectable in 1-inch or 1-cm increments ¿ 0" (0 mm) εr: 1.4 = 6" (150 mm)/εr: 80 = 2" (50 mm) +400° F @ 270 psi (+200° C @ 18 bar) -40° F @ 750 psi (-40° C @ 50 bar) 1000 psi @ +70° F (70 bar @ +20° C) 500 cP (standard) 2000 cP (enlarged) Upper liquid: ≥ 1.4 and ≤ 5 Lower liquid: ≥ 15 Negative pressure but not hermetic seal In case of media coating, select 7xN probe ¿ Consult factory for insertion length < 24" (60 cm) ¡ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4-20 mA signal outside transition zones. ¬ See tables on page 10. Description Materials Probe diameter Probe Process seal 2" chamber 3" chamber 4" chamber Mounting Process Connection Probe length Blocking distance (top) Transition Zone ¿ (bottom) Process Temp. ¡ Max Min Max Process Pressure Max Viscosity Dielectric Range Media coating Vacuum Service 7xG: Level/Interface Caged GWR Single Rod 316/316L (1.4401/1.4404), Monel® (2.4360), Hastelloy C® (2.4819) or TFE with Viton® GFLT or Kalrez 4079 (Consult factory for alternatives) 1 ⁄2" (13 mm) Rod 3 ⁄4" (19 mm) Rod 1" (25 mm) Rod External 2", 3", or 4" cage mounting — overfill safe Flanged: Various ANSI or EN/DIN From 24 to 240 inches (600 to 6100 mm) 0" εr: 1.4 = 6" (150 mm)/εr: 80 = 2" (50 mm) +400° F @ 270 psi (+200° C @ 18 bar) ambient -40° F @ 750 psi (-40° C @ 50 bar) 1000 psi @ +70° F (70 bar @ +20° C) 10.000 cP – consult factory in case of agitation/turbulence 1.4 to 100 Maximum error 10% of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. Negative pressure; but not hermetic seal ¿ Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4-20 mA signal outside transition zones. ¡ See tables on page 10. 6 P R O B E S P E C I F I C A T I O N S Description Materials Probe Process seal Spacers Probe diameter Standard coax Enlarged coax 7xD/7xL: High Pressure / High Temperature 7xQ/7xS: Saturated Steam GWR Probe GWR probe 316/316L (1.4401/1.4404), Hastelloy C® (2.4819) or Monel® (2.4360) Borosilicate/Inconel X750 High Temp PEEK with Aegis PF 128 Alumina (7xQ only) High Temp PEEK (7xD-V, N, P and R) – High Temp PEEK (7xS) Alumina (7xD-A, B and C) – TFE (7xD-W) Alumina (7xQ) Inner rod 0.31" (8 mm) Outer tube 0.87" (22.5 mm) (7xS) n/a Outer tube 1.25" (31.75 mm) (7xQ) Stainless steel: Inner rod 0.63" (16 mm) Outer tube 1.75" (45 mm) n/a Hastelloy C and Monel: Inner rod 0.63" (16 mm) Outer tube 1.92" (49 mm) Process Connection Probe length Transition Zone ¡ Max. Process Temp. Top Bottom Max Threaded: 3⁄4" NPT or 1" BSP (G1) – except for enlarged probe, 2" NPT Threaded: 3⁄4" NPT or 1" BSP (G1) (not available with 7xQ) Flanged: Various ANSI, DIN or “proprietary” mating flanges Flanged: Various ANSI, DIN or “proprietary” mating flanges From 24 to 240" (60 to 610 cm) ¿ 0" (0 mm) εr: 1.4 = 6" (150 mm) / εr: 80 = 1" (25 mm) +800° F @ 1500 psi (+430° C @ 103 bar) +650° F @ 4700 psi (+345° C @ 324 bar) for 7xx-V, N, P and R From 24 to 180" (60 to 450 cm) 8" (200 mm) ¬ εr ≥ 10 = 1" (25 mm) +575° F @ 1275 psi (+300° C @ 88 bar) (7xS) +650° F @ 2250 psi (+345° C @ 155 bar) (7xQ) +550° F @ 5700 psi (+288° C @ 393 bar) for 7xx-W Min Max. Process Pressure √ -320° F @ 2000 psi (-196° C @ 135 bar) 6250 psi @ +70° F (430 bar @ +20° C) Max. Viscosity Dielectric Range 500 cP (standard) / 2000 cP (enlarged) εr ≥ 1.4-100: 7xx-W, V, N, P and R εr ≥ 2,0-100: 7xx-A, B and C Vacuum service Full vacuum (Helium leak < 10-8 cc/s @ 1 atmosphere vacuum) ¿ ¡ ¬ √ 0° F @ 3000 psi (-15° C @ 205 bar) 1275 psi @ +575° F (88 bar @ +300° C) (7xS) 2250 psi @ +650° F (155 bar @ +345° C) (7xQ) 500 cP 10 to 100 Negative pressure but not hermetic seal Consult factory for insertion length < 24" (60 cm). Transition Zone (zone with reduced accuracy) is dielectric dependent; εr = dielectric permitivity. It is recommended to set 4–20 mA signal outside transition zones. Consult factory for overfill applications. See tables on page 10. Materials Probe Process seal Bottom spacer Probe diameter Cage Process Connection Measuring range Process Temp. 7EK: Top/Bottom GWR probe 7EK: Top/Bottom GWR probe min r 1.4 - max +500° F (+260° C) min r 10 - max +605° F (+320° C) 316/316L (1.4401/1.4404) PEEK and TFE with Aegis PF 128 PEEK and Alumina with Aegis PF 128 TFE PEEK Inside tube: max 0.875" (22 mm) 2" – Sch 80 Top/Bottom cage Threaded: 11⁄2" NPT or 2" NPT Welded: 2" socket weld Flanged: Various ANSI, DIN or “proprietary” mating flanges min 14" (356 mm) Std. – max 240" (6.1 m) +500° F @ 1700 psi (+260° C @ 120 bar) +605° F @ 1585 psi (+320° C @ 110 bar) 0° F @ 3000 psi (-15° C @ 205 bar) 1700 psi @ 0° F (120 bar @ -15° C) 10.000 cP 1.4 to 100 - Non-conductive and conductive media 10 to 100 - Conductive media Negative pressure but not hermetic seal ε Description Max Min Max. Process Pressure Max. Viscosity Dielectric Range Vacuum service ε 7 R E P L A C E M E N T O F D I S P L A C E R T R A N S M I T T E R ECLIPSE has proven to be the ideal replacement for existing torque tube transmitters. In numerous applications around the world, customers have found ECLIPSE Guided Wave Radar superior to torque tube transmitters: In order to match the proper ECLIPSE transmitter with the proper external cage, consider the following: • Cost: A new ECLIPSE costs only slightly more than rebuilding an aging torque tube. • Overfill proof: “Overfill” occurs when the level rises above the maximum range of operation. Radar based probes may provide erroneous output in this zone unless an optimal design is used. ECLIPSE GWR overfill probes without top transition zones (e.g., 7xG, 7xR, 7xD, 7xT) are always safe to use. In cases where the application demands a different probe type, other selections can be considered and the recommended installation precautions should be followed. • Type of application: Use the applicable GWR probe, see pages 14–23. • Installation: No field calibration is necessary; it can be configured in minutes with no level movement. Factory pre-configuration is available. • Performance: ECLIPSE is not affected by changes in specific gravity or dielectric. • Min cage size: • Coaxial type: min 2" • Enlarged Coaxial Type: min 3" • Twin rod type: min 3" • Caged GWR type: 2" • Ease of replacement: Proprietary flanges are offered so existing chamber/ cages can be used. Before Body connection E 20 mA / 100 % After P H Measuring range: min 12" (30 cm) max 224" (570 cm) Displacer Length Probe Insertion Length = + measuring range + 4 mA / 0 % F min 1" (25 mm) Recomended probe length for replacing displacer transmitters The table below helps to define the GWR probe length for the most common displacer transmitters. Refer to the flange selection guide on the next page. Manufacturer Type Process connection Displacer length inches (mm) Probe length ¿ inches (mm) Magnetrol® EZ & PN Modulevel® ANSI/DIN flange ≥ 14" (356) Displacer + 7 (178) Masoneilan® Series 1200 Proprietary flange ≥ 14" (356) Displacer + 8 (203) ANSI/DIN flange ≥ 16" (406) Displacer + 8 (203) Fisher® series 2300 & 2500 249B, 259B, 249C cages Proprietary flange ≥ 14" (356) Displacer + 10 (254) other cages ANSI flange ≥ 14" (356) consult factory Eckardt Series 134, 144 ANSI/DIN flange ≥ 14" (356) consult factory Tokyo Keiso® FST-3000 ANSI/DIN flange H = 11.8" (300) Displacer + 9 (229) ANSI/DIN flange ≥ H = 19.7" (500) Displacer + 9 (229) ® ¿ 8 Round down resulting calculation to the nearest inch. P R O P R I E T A R Y Ø 9.0 (229) F L A N G E S Ø 5.625 (143) Ø7.25 (184) Ø 7.50 (191) Ø 4.750 (121) 45° 45° 45° Ø .438 (11) Ø .875 (22) Ø .875 (22) 1.25 (32) 5.23 (133) Ø 5.875 (149) 1.125 (29) 3.375 (86) .22 (6) 1.25 (32) 4.00 (102) .188 (5) Fisher 249B/259B (600 lb.), carbon steel Fisher 249C (600 lb.), 316 stainless steel Figure 1 Figure 2 .25 (6) Masoneilan (600 lb.), carbon steel Figure 3 C A G E S A U R O R A ECLIPSE can be installed into cages as small as 2". When a new cage is needed, it can be ordered together with the ECLIPSE. MAGNETROL has a long tradition in offering cost-effective cages. MAGNETROL cages can be manufactured to comply with PED regulations and are available with a wide variety of options. The Orion Instruments® Aurora® is the innovative combination of the ECLIPSE Guided Wave Radar transmitter and a Magnetic Level Indicator (MLI). The integration of these two independent technologies provides excellent redundancy. The float positioned within the AURORA chamber moves up and down according to level changes. The float contains an internal group of magnets that are “coupled” with magnets in the flags of the visual indicator. As the float moves, the flags rotate to expose the color of their opposite side. The position where the flag’s color changes corresponds to a point on the measuring scale indicating true level. The ECLIPSE transmitter continuously emits electromagnetic radar pulses directly off the liquid surface, and provides a real-time level output, in addition to the external visual indicator operated by the AURORA internal float. ® Measuring span 12-240" (30-610 cm) ¿ Materials of construction Carbon steel or 316 (1.4401) stainless steel Process connection sizes 3 Process connection ratings 150#-2500# ANSI Configurations Side-Side and Side-Bottom Process pressures Up to 6250 psig (430 bar) ¿ Process temperatures Up to +800° F (+430° C) ¿ ⁄4", 1", 1 1⁄2", 2" ¿ Limitations are defined per selected GWR probe. For more details, refer to bulletin 41-140. For more details, refer to bulletin ORI-101. R E P L A C E M E N T O F T O P / B O T T O M In addition to the Magnetrol® Torque Tube Cage Flange options, the ECLIPSE 705 transmitter and 7EK GWR probe/cage can also be used in replacing existing Top/Bottom and Top/Side torque tube installations. Before C A G E S After After removal of the existing torque tube cage assembly (controller, displacer and cage), ECLIPSE Guided Wave Radar may then be installed directly in its place. Several models are available for some of the major torque tube displacer transmitter manufacturers. Because the Model 7EK probe/cage mounting dimensions and measuring ranges match the original manufacturer’s specification, no re-piping is necessary. 9 1200 5000 1100 4500 1000 900 800 700 600 500 400 300 200 100 0 -40 Process Pressure (psig) Process Pressure (psig) T E M P E R A T U R E - P R E S S U R E E C L I P S E® P R O B E S E A L S F O R 0 500 4000 3500 3000 2500 2000 1500 1000 500 0 100 200 300 400 Process Temperature (°F) (max. 400) 7XG, 7XT, 7XL, 7XN Process Pressure (psig) R A T I N G 6500 6000 5500 5000 4500 4000 3500 3000 2500 2000 1500 1000 500 0 -320 -200 -100 0 -100 100 200 300 400 600 700 Process Temperature (°F) 7EK top/bottom GWR probe: max +500° F for conductive and non conductive liquids 7EK top/bottom GWR probe: max +600° F for conductive liquids only 0 100 200 300 400 500 600 700 800 Process Temperature (°F) 7XD, 7XL HTHP (max. +800° F) 7XS (max. +575°F) 7XJ (max. +605°F) 7XQ (max. +650°F) PACTware™ P C S O F T W A R E FDT technology provides an open communication interface between field instruments of various communication protocols and the host/DCS system. The DTM driver istypically designed for one type of instrument and delivers the full functionality of the device, along with a graphical user interface, via a laptop or PC. MAGNETROL transmitters use the free shareware PACTware™ software to support DTM drivers and the FDT functionality. With PACTware™ it becomes easy to configure, monitor and diagnose a MAGNETROL transmitter remotely or even to call for support using screenshots of echo curves and trending graphs. The MAGNETROL HART® DTM library has passed the dtmINSPECTOR, which is the official FDT interoperability test and certification tool. MAGNETROL DTMs are free of charge and can be downloaded from www.magnetrol.com/products/software/PACTware™ or obtained via CD-Rom from your nearest MAGNETROL contact. 10 PACTware™ CD with DTM drivers Magnetrol® recommends the VIATOR® USB HART® Interface from MACTek® Corporation. A G E N C Y AGENCY FM CSA IEC ATEX A P P R O V A L S MODEL APPROVED APPROVAL CATEGORY APPROVAL CLASSES 705-5XXX-1XX 705-5XXX-2XX Intrinsically Safe Class I, Div. 1; Groups A, B, C, & D Class II, Div. 1; Groups E, F, & G T4 Class III, Type 4X, IP66 Entity Class I, Div. 1; Groups B, C & D Class II, Div. 1; Groups E, F, & G T4 Class III, Type 4X, IP66 Class I, Div. 2; Groups A, B, C, & D Class II, Div. 2; Groups F & G T4 Class III, Type 4X, IP66 Class I, Div. 1; Groups A, B, C, & D Class II, Div. 1; Group E, F & G T4 Class III, Type 4X Entity Class I, Div. 1; Groups B, C & D Class II, Div. 1; Group E, F & G T4 Class III, Type 4X Class I, Div. 2; Groups A, B, C, & D Class II, Div. 2; Group E, F & G T4 Class III, Type 4X Zone 0 Ex ia IIC T4 705-5XXX-3XX 705-5XXX-4XX Explosion Proof ¿ (with Intrinsically Safe probe) 705-5XXX-XXX 705-5XXX-XXX Non-Incendive Suitable for: ¡ 705-5XXX-1XX 705-5XXX-2XX Intrinsically Safe 705-5XXX-3XX 705-5XXX-4XX Explosion Proof ¿ (with Intrinsically Safe probe) 705-5XXX-XXX 705-5XXX-XXX Non-Incendive Suitable for: ¡ 705-5XXX-AXX 705-5XXX-BXX 705-5XXX-AXX 705-5XXX-BXX 705-5XXX-CXX 705-5XXX-DXX 705-51XX-EXX 705-51XX-FXX 705-52XX-EXX 705-52XX-FXX Intrinsically Safe ¬ Intrinsically Safe ¬ II 1G, EEx ia IIC T4 Flame Proof II 1/2G, EEx d [ia] IIC T6 Non-sparking II 3(1)G, EEx nA [ia] IIC T4..T6 with probe II 1 G EEx ia IIC T6 II 3(1)G, EEx nA [nL] [ia] IIC T4..T6 with probe II 1 G EEx ia IIC T6 0344 These units are in conformity of: 1. The EMC Directive: 2004/108/EC. The units have been tested to EN 61326. 2. Directive 94/9/EC for equipment or protective system for use in potentially explosive atmospheres. Note: Single and twin rod probes must be used in metallic vessel or stillwell to maintain CE compliance. ¿ Factory Sealed: This product has been approved by Factory Mutual Research (FM), and Canadian Standards Association (CSA), as a Factory Sealed device. ¡ IMPORTANT: Measured media inside vessel must be non-flammable only. If media inside vessel is flammable, then the explosion proof version (which contains an internal barrier making the probe Intrinsically Safe) is required. ¬ Special conditions for safe use Because the enclosure of the Guided Wave Radar Level Transmitter ECLIPSE Model 705-5 _ _ _ - _1 _ and/or Probe ECLIPSE Model 7_ _ - _ _ _ _ - _ _ _ is made of aluminum, if it is mounted in an area where the use of category 1 G (Zone 0) apparatus is required, it must be installed such, that, even in the event of rare incidents, ignition sources due to impact and friction sparks are excluded. For applications in explosive atmospheres caused by gases, vapours or mists and where category 1G (Zone 0) apparatus is required, electrostatic charges on the non-metallic parts of the Probe ECLIPSE Model 7x5- _ _ __ - _ __ , Model 7x7- _ _ __ - _ __ and Model 7_ F- _ _ __ - _ __ shall be avoided. 11 M O D E L N U M B E R T R A N S M I T T E R Models available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). BASIC MODEL NUMBER 705 ECLIPSE Guided Wave Radar Level Transmitter POWER 5 24 VDC, Two-wire SIGNAL OUTPUT AND ELECTRONICS 10 1A 20 30 4-20 mA with HART – SIL 1 standard electronics (SFF of 85.4%) 4-20 mA with HART – SIL 2 Certified electronics (SFF of 91%) ¿ FOUNDATION fieldbus™ Communication PROFIBUS PA™ Communication ACCESSORIES 0 A No digital display and keypad Digital display and keypad MOUNTING/CLASSIFICATION 1 2 3 4 A B C D E F Integral, General Purpose & Intrinsically Safe (FM & CSA), Non-incendive (Class I, Div. 2) Remote, General Purpose & Intrinsically Safe (FM & CSA), Non-incendive (Class I, Div. 2) Integral, Explosion Proof (FM & CSA) & Non-incendive Remote, Explosion Proof (FM & CSA) & Non-incendive Integral, General Purpose & Intrinsically Safe (ATEX & JIS EEx ia IIC T4) Remote, General Purpose & Intrinsically Safe (ATEX & JIS EEx ia IIC T4) Integral, Explosion Proof (ATEX EEx d [ia] IIC T6) (must be ordered with Conduit Connection Codes 0 and 1) Remote, Explosion Proof (ATEX EEx d [ia] IIC T6) (must be ordered with Conduit Connection Codes 0 and 1) Integral, Non-incendive (ATEX EEx n II T4..6) Remote, Non-incendive (ATEX EEx n II T4..6) HOUSING 1 2 7 8 Cast aluminum, dual compartment, 45° angle 316 stainless steel, dual compartment, 45° angle ¡ Cast aluminum, dual compartment, 45° angle, 12-ft remote 316 stainless steel, dual compartment, 45° angle, 12-ft remote ¡ CONDUIT CONNECTION 0 1 3 ⁄4" NPT M20 ¿ ¡ 7 12 0 5 5 Not available with Model 7xQ steam probe. To reduce the possibility of probe damage due to vibration, it is recommended to use a remote mount transmitter (Mounting/Classification codes 2, 4, B, D or F) when ordering the heavier 316 SS version. D I M E N S I O N S inches (mm) 3.28 (83) 4.12 (105) 45° View 4.00 (102) 8.43 (214) 45° 10.08 (256) 4.94 (126) 4.12 (105) 3.28 (83) 4.00 (102) Elect. Conn. Qty. 2 Integral Electronics 4.38 (111) Eclipse® Housing (45° View) Elect. Conn. Qty. 2 2.37 (60) 45 3.00 (76) 2.00 (51) 3.50 (89) 33 or 144 (838 or 3650) 3.75 (95) 2 Holes .38 (10) Dia. 4.00 (100) Eclipse® Remote Configurations E L E C T R I C A L W I R I N G Power supply: GP / intrinsically safe / explosion proof: min 11 VDC 0% HART® modem 100 % Standard shielded twisted cable (recommended but not needed when wired as per NAMUR NE 21 for field strenghts up to 10 V/m). Galvanic Barrier: max: 28.4 VDC @ 94 mA for intrinsically safe units max: 17.5 VDC @ 380 mA for FOUNDATION fieldbus™ units (not needed for GP Dust Ex and explosion proof models). Ex Non Ex 13 M O D E L N U M B E R E N L A R G E D C O A X I A L P R O B E BASIC MODEL NUMBER – Enlarged Coaxial GWR probe suited for external cage and/or in-tank mounting 7*T 7*N GWR probe for level/interface GWR probe for level/interface with flushing connection upper liq: εr ≥ 1.4 and ≤ 5 / lower liq: ≥ 15 - WHG aprvd. upper liq: εr ≥ 1.4 and ≤ 5 / lower liq: ≥ 15 - WHG aprvd. *Specify "E" for English (e.g., 7ET) or "M" for Metric (e.g., 7MT) MATERIAL OF CONSTRUCTION – wetted parts (including process connection flange when applicable) N P R Enlarged Coaxial GWR Probe 316/316L (1.4401/1.4404) SS w/ PEEK® spacers Hastelloy C (2.4819) w/ PEEK spacers Monel (2.4360) w/ PEEK spacers PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Use min 3" / DN 80 process connection for enlarged coaxial GWR probe (4th digit: N, P & R). ANSI Flanges EN/DIN Flanges 4 4 4 4 5 5 5 6 6 6 1 3 4 5 3 4 5 3 4 5 2" 2" 2" 2" 3" 3" 3" 4" 4" 4" NPT 150# 300# 600# 150# 300# 600# 150# 300# 600# ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI DA DB DD EA EB ED EE FA FB FD FE RF ¿ RF ¿ RF ¿ RF RF RF RF RF RF Proprietary Flanges ¡ TT TU UT UU 600# 600# 600# 600# DN DN DN DN DN DN DN DN DN DN DN 50, PN 16 50, PN 25/40 50, PN 63 80, PN 16 80, PN 25/40 80, PN 63 80, PN 100 100, PN 16 100, PN 25/40 100, PN 63 100, PN 100 EN 1092-1 Type A EN 1092-1 Type A EN 1092-1 Type B2 EN 1092-1 Type A EN 1092-1 Type A EN 1092-1 Type B2 EN 1092-1 Type B2 EN 1092-1 Type A EN 1092-1 Type A EN 1092-1 Type B2 EN 1092-1 Type B2 Fisher (249B/259B) in carbon steel – as per dimensions of Figure 1 on page 9 Fisher (249C) in stainless steel – as per dimensions of Figure 2 on page 9 Masoneilan flange in carbon steel – as per dimensions of Figure 3 on page 9 Masoneilan flange in stainless steel – as per dimensions of Figure 3 on page 9 PROCESS SEAL – O-RING MATERIAL ¬ 0 2 8 Viton GFLT seal – for universal use -40 °F (-40 °C) / +400 °F (+200 °C) Kalrez 4079 seal – for aggressive media √ƒ -40 °F (-40 °C) / +400 °F (+200 °C) Aegis PF 128 seal – for steam ≈ and NACE applications -4 °F (-20 °C) / +400 °F (+200 °C) INSERTION LENGTH ∆ 24 to 240 inches (60 to 610 cm) (unit of measure is determined by second digit of Model Number) Examples: 24 inches = 024; 60 centimeters = 060 7 14 ¿ ¡ ¬ √ ƒ ≈ ∆ Nozzle/cage must be ≥1.9" (48mm) Always verify dimensions if ANSI/DIN flanges are not used. Consult factory for alternative o-ring materials. For ammonia/chlorine applications use the 7xD GWR probe. Consult factory for HF acid appllications Maximum +400° F (+200° C) for use on steam. Consult factory for insertion lengths < 60 cm (24") D I M E N S I O N A L E N L A R G E D 3.28 (83) C O A X I A L S P E C I F I C A T I O N S P R O B E — I N C H E S ( M M ) 4.12 (105) 4.00 (102) A B 10.08 (256) C D 45° 2 cable entries Venting holes for level/interface 6.61 (168) Coaxial GWR Probe, end view Mounting Flange Dim. Probe Insertion Length 7xT with flanged connection A Ø .5" (12.7 mm) B 1" (25.4 mm) C 1.75" (45 mm) – SST 1.92" (49 mm) – HC and Monel D 0.63" (16 mm) 3.28 (83) 3.28 (83) Enlarged Coaxial Probe 4.12 (105) 3.28 83) 4.12 (105) 4.00 (102) 4.12 (105) 4.00 (102) 4.00 (102) 10.08 (256) 10.08 (256) 10.08 (256) 45° 45° 2 cable entries 45° 2 cable entries 2 cable entries 1/4" NPT plugged 8.11 (206) 10.90 (277) 10.90 (277) Mounting Flange 1/4" NPT plugged Mounting Flange Probe Insertion Length 7xN with flanged connection Mounting Flange Probe Insertion Length Enlarged 7xD with flanged connection Probe Insertion Length Enlarged 7xL with flanged connection 15 M O D E L H I G H N U M B E R T E M P . / P R E S S U R E C O A X I A L P R O B E BASIC MODEL NUMBER – High Temperature/High Pressure Coaxial GWR probe 7*D 7*L HTHP GWR probe for level/interface HTHP GWR probe for level/interface with flushing connection εr ≥ 1.4 - WHG approved εr ≥ 1.4 - WHG approved *Specify “E” for English (e.g., 7ED) or “M” for Metric (e.g., 7MD) MATERIAL OF CONSTRUCTION (all wetted parts) and MINIMUM DIELECTRICS Enlarged coaxial 7xD/7xL GWR probe - max 6250 psig (430 bar) N P R min. εr: ≥ 1.4 / max +650° (+345° C) ¿ min. εr: ≥ 1.4 / max +650° (+345° C) ¿ min. εr: ≥ 1.4 / max +650° (+345° C) ¿ 316/316L (1.4401/1.4404) SST with PEEK spacers Hastelloy C (2.4819) with PEEK spacers Monel (2.4360) with PEEK spacers PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Use min 3" / DN 80 process connection for enlarged coaxial GWR probe (4th digit: N, P & R). ANSI Flanges EN/DIN Flanges 41 43 44 45 4K 4M 4N 53 54 55 5K 5L 5M 5N 63 64 65 6K 6L 6M 6N 2" 2" 2" 2" 2" 2" 2" 3" 3" 3" 3" 3" 3" 3" 4" 4" 4" 4" 4" 4" 4" NPT 150# ANSI RF ¡ 300# ANSI RF ¡ 600# ANSI RF ¡ 600# ANSI RJ ¡ 900/1500# ANSI RJ ¡ 2500#. ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 600# ANSI RJ 900# ANSI RJ 1500# ANSI RJ 2500# ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 600# ANSI RJ 900# ANSI RJ 1500# ANSI RJ 2500# ANSI RJ DA DB DD EA EB ED EE EF EG EH EJ FA FB FD FE FF FG FH FJ DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN 50, PN 16 50, PN 25/40 50, PN 63 80, PN 16 80, PN 25/40 80, PN 63 80, PN 100 80, PN 160 80, PN 250 80, PN 320 80, PN 400 100, PN 16 100, PN 25/40 100, PN 63 100, PN 100 100, PN 160 100, PN 250 100, PN 320 100, PN 400 EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type A A B2 A A B2 B2 B2 B2 B2 B2 A A B2 B2 B2 B2 B2 B2 Proprietary Flanges ¬ TT TU UT UU 600# Fisher (249B/259B) in carbon steel √ 600# Fisher (249C) in stainless steel √ 600# Masoneilan flange in carbon steel √ 600# Masoneilan flange in stainless steel √ PROCESS SEAL N Borosilicate seal – for non steam applications (7xD) -320° F (-196° C) / +800° F (+426° C) √ INSERTION LENGTH 24 to 240 inches (60 to 610 cm) (unit of measure is determined by second digit of Model Number) Examples: 24 inches = 024; 60 centimeters = 060 7 16 ¿ ¡ ¬ √ Consult factory for applications above +650° F(+345° C) Nozzle/cage must be ≥1.9" (48mm) Always check dimensions if ANSI/EN/DIN flanges are not used. As per dimensions on page 9. Consult factory for insertion lengths < 24" (60 cm). D I M E N S I O N A L H I G H S P E C I F I C A T I O N S T E M P . / P R E S S U R E 3.28 (83) C O A X I A L P R O B E — I N C H E S ( M M ) 4.12 (105) 4.00 (102) A B 10.08 (256) C D 45° 2 cable entries Venting holes for level/interface 6.61 (168) Coaxial GWR Probe, end view Mounting Flange Dim. Probe Insertion Length 7xT with flanged connection A Ø .5" (12.7 mm) B 1" (25.4 mm) C 1.75" (45 mm) – SST 1.92" (49 mm) – HC and Monel D 0.63" (16 mm) 3.28 (83) 3.28 (83) Enlarged Coaxial Probe 4.12 (105) 3.28 83) 4.12 (105) 4.00 (102) 4.12 (105) 4.00 (102) 4.00 (102) 10.08 (256) 10.08 (256) 10.08 (256) 45° 45° 2 cable entries 45° 2 cable entries 2 cable entries 1/4" NPT plugged 8.11 (206) 10.90 (277) 10.90 (277) Mounting Flange 1/4" NPT plugged Mounting Flange Probe Insertion Length 7xN with flanged connection Mounting Flange Probe Insertion Length Enlarged 7xD with flanged connection Probe Insertion Length Enlarged 7xL with flanged connection 17 M O D E L C A G E D N U M B E R S I N G L E R O D P R O B E BASIC MODEL NUMBER – Suited for external cage mounting only 7*G εr ≥ 1.4 ¿ Caged GWR probe for level and interface – dirty liquids (max. 10,000 cP) *Specify “E” for English (e.g., 7EG) or “M” for Metric (e.g., 7MG) MATERIAL OF CONSTRUCTION – wetted parts (including process connection flange when applicable) A B C 316/316L (1.4401/1.4404) w/ Teflon® bottom spacer ¡ Hastelloy C (2.4819) w/ Teflon® bottom spacer ¡ Monel (2.4360) w/ Teflon® bottom spacer ¡ PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Flanges are of solid material per selected material of construction ANSI RF Flanges EN/DIN Flanges Probes for 2" cages 43 2" 150# ANSI RF ¿ 44 2" 300# ANSI RF ¿ 45 2" 600# ANSI RF ¿ Probes for 2" cages D A DN 50, PN D B DN 50, PN D D DN 50, PN DE DN 80, PN Probes for 3" cages 53 54 55 3" 3" 3" 150# ANSI RF 300# ANSI RF 600# ANSI RF 4" 4" 4" 150# ANSI RF 300# ANSI RF 600# ANSI RF EN 1092-1 Type A EN 1092-1 Type A EN 1092-1 Type B2 EN 1092-1 Type A Probes for 3" cages EA EB ED EE Probes for 4" cages 63 64 65 16 25/40 63 16 DN DN DN DN 100, 100, 100, 100, PN 16 PN 25/40 PN 63 PN 100 EN EN EN EN 1092-1 1092-1 1092-1 1092-1 Type Type Type Type A A B2 B2 EN EN EN EN 1092-1 1092-1 1092-1 1092-1 Type Type Type Type A A B2 B2 Probes for 4" cages FA FB FD FE DN DN DN DN 100, 100, 100, 100, PN 16 PN 25/40 PN 63 PN 100 Proprietary Flanges ¬ TT TU UT UU 600# Fisher (249B/259B) in carbon steel √ 600# Fisher (249C) in stainless steel √ 600# Masoneilan flange in carbon steel √ 600# Masoneilan flange in stainless steel √ ≈ Viton GFLT seal – for universal use Kalrez 4079 seal – for aggressive media Aegis PF 128 seal – for aggressive media PROCESS SEAL – O-RING MATERIAL 0 2 8 -40 °F (-40 °C) / +400 °F (+200 °C) -40 °F (-40 °C) / +400 °F (+200 °C) -4 °F (-20 °C) / +400 °F (+200 °C) INSERTION LENGTH ∆ 24 to 240 inches (60 to 610 cm) (7xS only: 180 inches (457 cm) maximum) (unit of measure is determined by second digit of Model Number) Examples: 24 inches = 024; 60 centimeters = 060 ¿ For interface measurement; upper liquid: εr ≥ 1.4 and ≤ 5 / lower liquid: εr ≥ 15. 7 18 ¡ PEEK spacers for the probes in for 3" and 4" cages. ¬ Always check dimensions if ANSI/EN/DIN flanges are not used. √ As per dimensions on page 9. ƒ Consult factory for alternative o-ring materials. ≈ For ammonia/chlorine applications use the 7xD GWR probe. ∆ Consult factory for insertion lengths < 24" (60 cm). D I M E N S I O N A L C A G E D S I N G L E R O D S P E C I F I C A T I O N S P R O B E — I N C H E S 7.37 (187) Ø 3.77 (95) Ø 25 (1) rod Ø 19 (0.75) rod Probe Insertion Length Probe Insertion Length Probe Insertion Length HT PEEK spacer HT PEEK spacer Teflon spacer 7.37 (187) 7.37 (187) Ø 71 (2.80) Ø 0.50 (13) rod ( M M ) 7xG - 2" cage max 240" (6.1 m) 7xG - 3" cage max 240" (6.1 m) 7xG - 4" cage max 240" (6.1 m) 49 (1.90) 71 (2.80) 94 (3.70) Spacer (end view) Spacer (end view) Spacer (end view) The MAGNETROL external chambers are self-contained cages designed for use with our top mounting level transmitters or switches. Quality construction and a wide selection of configurations make these cages an ideal means of utilizing the power of our many technologies without mounting directly into the process vessel. For more information request bulletin 41-140. To order a new cage; consult bulletin 41-140 Bulletin 41-140 External Chambers 19 M O D E L N U M B E R Models available for quick shipment, usually within one week after factory S T E A M C O A X I A L P R O B E receipt of a complete purchase order, through the Expedite Ship Plan (ESP). BASIC MODEL NUMBER – Suited for saturated steam applications 7*S 7*Q Coaxial GWR probe for saturated steam applications, including steam compensation/reference target: +575°F (+300°C) max. Coaxial GWR probe for saturated steam applications, including steam compensation/reference target: +650°F (+345°C) max. *Specify “E” for English MATERIAL OF CONSTRUCTION (all wetted parts) and MINIMUM DIELECTRICS (e.g., 7EQ or 7ES) or "M" for Metric (e.g., A 316/316L (1.4401/1.4404) 7MQ or 7MS) K 316/316L (1.4401/1.4404) ASME B31.1 Specifications PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Flanges are of solid material per selected material of construction EN/DIN Flanges Threaded ¿ 11 22 3 ⁄4" NPT Thread 1" BSP (G1) Thread ANSI Flanges 23 24 25 27 2K 2L 33 34 35 37 3K 3M 3N 43 44 45 47 4K 4M 4N 53 54 55 56 57 5K 5L 5M 5N 63 64 65 66 67 6K 6L 6M 6N 1" 1" 1" 1" 1" 1" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 2" 2" 2" 2" 2" 2" 2" 3" 3" 3" 3" 3" 3" 3" 3" 3" 4" 4" 4" 4" 4" 4" 4" 4" 4" 150# ANSI RF 300# ANSI RF 600# ANSI RF 900/1500# ANSI 600# ANSI RJ 900# ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 900/1500# ANSI 600# ANSI RJ 900/1500# ANSI 2500# ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 900/1500# ANSI 600# ANSI RJ 900/1500# ANSI 2500# ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 900# ANSI RF 1500# ANSI RF 600# ANSI RJ 900# ANSI RJ 1500# ANSI RJ 2500# ANSI RJ 150# ANSI RF 300# ANSI RF 600# ANSI RF 900# ANSI RF 1500# ANSI RF 600# ANSI RJ 900# ANSI RJ 1500# ANSI RJ 2500# ANSI RJ RF RF RJ RF RJ BB BC BF CB CC CF CG CH CJ DA DB DD DE DF DG DH DJ EA EB ED EE EF EG EH EJ FA FB FD FE FF FG FH FJ DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN 25, PN 16/25/40 EN 1092-1 Type A 25, PN 63/100 EN 1092-1 Type B2 25, PN 160 EN 1092-1 Type B2 40, PN 16/25/40 EN 1092-1 Type A 40, PN 63/100 EN 1092-1 Type B2 40, PN 160 EN 1092-1 Type B2 40, PN 250 EN 1092-1 Type B2 40, PN 320 EN 1092-1 Type B2 40, PN 400 EN 1092-1 Type B2 50, PN 16 EN 1092-1 Type A 50, PN 25/40 EN 1092-1 Type A 50, PN 63 EN 1092-1 Type B2 50, PN 100 EN 1092-1 Type B2 50, PN 160 EN 1092-1 Type B2 50, PN 250 EN 1092-1 Type B2 50, PN 320 EN 1092-1 Type B2 50, PN 400 EN 1092-1 Type B2 80, PN 16 EN 1092-1 Type A 80, PN 25/40 EN 1092-1 Type A 80, PN 63 EN 1092-1 Type B2 80, PN 100 EN 1092-1 Type B2 80, PN 160 EN 1092-1 Type B2 80, PN 250 EN 1092-1 Type B2 80, PN 320 EN 1092-1 Type B2 80, PN 400 EN 1092-1 Type B2 100, PN 16 EN 1092-1 Type A 100, PN 25/40 EN 1092-1 Type A 100, PN 63 EN 1092-1 Type B2 100, PN 100 EN 1092-1 Type B2 100, PN 160 EN 1092-1 Type B2 100, PN 250 EN 1092-1 Type B2 100, PN 320 EN 1092-1 Type B2 100, PN 400 EN 1092-1 Type B2 TT TU UT UU 600# 600# 600# 600# Proprietary Flanges ¡ Fisher (249B/259B) in carbon steel ¬ Fisher (249C) in stainless steel ¬ Masoneilan flange in carbon steel ¬ Masoneilan flange in stainless steel ¬ PROCESS SEAL – O-RING MATERIAL 8 Steam Seal (Aegis PF 128 / PEEK) INSERTION LENGTH √ 24 to 180 inches (60 to 457 cm) (unit of measure is determined by second digit of Model Number) Examples: 24 inches = 024; 60 centimeters = 060 7 20 ¿ ¡ ¬ √ Not available with 7xQ probe. Always check dimensions if ANSI/DIN flanges are not used. As per dimensions on page 9. Consult factory for insertion lengths < 24" (60 cm). D I M E N S I O N A L S T E A M C O A X I A L 3.28 (83) S P E C I F I C A T I O N S P R O B E — I N C H E S ( M M ) 4.12 (105) 4.12 (105) 3.28 (83) 4.00 (102) 102 (4.00) 10.08 (256) 10.08 (256) 45° 45° 2 cable entries 2 cable entries 6.14 (156) 6.97 (177) 9.45 (240) Probe Insertion Length 3/4" NPT Process Conn. Mounting Flange Probe Insertion Length 1" BSP (G1) Process Conn. Probe Insertion Length 7xS with threaded connection 7xQ or 7xS with flanged connection E A D B C D C 7xQ Coaxial GWR Probe End View Venting holes Dim. 7xS Coaxial GWR Probe End View Standard Coaxial Probe A Ø .25" (6.4 mm) B 12" (305 mm) C 0.88" (22.5 mm) D 0.31" (8 mm) E 1.25" (31.75 mm) 21 M O D E L N U M B E R T O P - I N / B O T T O M - O U T P R O B E A N D C A G E To ensure that all dimensions are provided, please specify the following dimensions with your order (see drawings on next page): • Dimension A: top of process connection to 20 mA point • Dimension B: bottom of process connection up to 4 mA point • Level Range, if different from 14" (356 mm) Order code for modified models or adders: put an “X” in front of the closest matching order code and specify the modifications/adders separately (e.g., X7EK-K33A-010) X = measuring range of 500 mm. BASIC MODEL NUMBER – GWR probe suited for in-line external cage mounting 7EK Top/Bottom GWR probe and cage—Overfill safe MATERIAL OF CONSTRUCTION – Wetted parts (including process connection flange when applicable) K M Cages and Flanges 316/316L (1.4401/1.4401) Carbon steel GWR Probe 316/316L (1.4401/1.4404) PROCESS CONNECTION – SIZE/TYPE Threaded 31 41 1 1 ⁄2" NPT Thread 2" NPT Thread Welded 39 49 11⁄2" Socket Weld 2" Socket Weld ANSI Flanges 3 3 3 4 4 4 3 4 5 3 4 5 11⁄2" 11⁄2" 11⁄2" 2" 2" 2" 150# 300# 600# 150# 300# 600# ANSI ANSI ANSI ANSI ANSI ANSI Raised Raised Raised Raised Raised Raised Face Face Face Face Face Face Flange Flange Flange Flange Flange Flange LEVEL RANGE A 14" (356 mm) OPTIONS 0 2 None 3 ⁄4" Sight glass connections (sight glass not included) LIQUID TYPE / OPERATING TEMPERATURE Conductive liquids (min εr ≥ 10) max +605 °F (+320 °C) All liquids (min εr ≥ 1.4) max +500 °F (+260 °C) 10 20 7 22 E K A 0 D I M E N S I O N A L S P E C I F I C A T I O N S T O P - I N / B O T T O M - O U T — I N C H E S ( M M ) 1 A Min. 1 /2": 4.03" (102 mm) 2": 4.34" (110 mm) 1 A Min. 1 /2": 2.5" (64 mm) 2": 3.37" (86 mm) 100% Midrange Maximum level range in inches or millimeters Minimum 14" (356 mm) Maximum 240" (6.1 m) 100% Maximum level range in inches or millimeters Minimum 14" (356 mm) Maximum 240" (6.1 m) Midrange 0% 0% B Min. 3" (76 mm) Flanged 7EK B Min. 3" (76 mm) Threaded 7EK A Min. 6.12" (156 mm) A Min. 3.69" (94 mm) 100% 100% Midrange Maximum level range in inches or millimeters Minimum 14" (356 mm) Maximum 240" (6.1 m) Midrange 3/4" NPT 0% B Min. 3" (76 mm) Welded 7EK 0% B Min. 3" (76 mm) Optional sight glass connections 23 Q U A L I T Y The quality assurance system in place at MAGNETROL guarantees the highest level The MAGNETROL quality assurance system is registered to ISO 9001 affirming its com- of quality throughout the company. MAGNETROL is committed to providing mitment to known international quality standards providing the strongest assurance full customer satisfaction both in quality products and quality service. of product/service quality available. Several models of ECLIPSE Guided Wave Radar Transmitters are available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). To take advantage of ESP, simply match the color coded model number codes (standard dimensions apply). E S P Expedite Ship Plan Models covered by ESP service are color coded in the selection data charts. ESP service may not apply to orders of ten units or more. Contact your local representative for lead times on larger volume orders, as well as other products and options. W A R R A N T Y All MAGNETROL electronic level and flow controls are warranted free of defects in materials or workmanship for one full year from the date of original factory shipment. to the purchaser (or owner) other than transportation. If returned within the warranty period; and, upon factory inspection of the control, the cause of the claim is determined to be cov- MAGNETROL shall not be liable for misapplication, labor claims, direct or consequential damage or expense arising from the installation or use of equipment. There are no other warranties expressed or implied, ered under the warranty; then, MAGNETROL will repair or replace the control at no cost except special written warranties covering some MAGNETROL products. For additional information, see Instruction Manual 57-600. ECLIPSE Guided Wave Radar transmitters may be protected by one or more of the following U.S. Patent Nos. US 6,062,095: US 6,247,362; US 6,588,272; US 6,626,038; US 6,640,629; US 6,642,807; US 6,690,320; US 6,750,808; US 6,801,157; US 6,867,729; US 6,879,282; 6,906,662. May depend on model. 705 Enterprise Street • Aurora, Illinois 60504-8149 • 630-969-4000 • Fax 630-969-9489 [email protected] • www.magnetrol.com Copyright © 2015 Magnetrol International, Incorporated. All rights reserved. Printed in the USA. Performance specifications are effective with date of issue and are subject to change without notice. Magnetrol & Magnetrol logotype, Orion Instruments & Orion Instruments logotype, Eclipse, and Aurora are registered trademarks of Magnetrol International, Incorporated. FOUNDATION fieldbus logo is a registered trademark of the Fieldbus Foundation HART® is a registered trademark of the HART Communication Foundation. Hastelloy® is a registered trademark of Haynes International. INCONEL® and Monel® are registered trademarks of the INCO family of companies. PROFIBUS is a registered trademark of PROFIBUS International Teflon® is a registered trademark of DuPont. Viton® and Kalrez® are registered trademarks of DuPont Performance Elastomers. Masoneilan® is a registered trademark of Dresser Industries, Inc. Fisher® is a registered trademark of Emerson Process Management. Eckardt® is a registered trademark of Invensys Process Systems. Tokyo Keiso® is a registered trademark of Tokyo Keiso Co., Ltd. PACTware™ is a trademark of PACTware Consortium. PEEK™ is a trademark of Vitrex plc. BULLETIN: 57-102.6 EFFECTIVE: April 2015 SUPERSEDES: February 2012