Eclipse® Enhanced Model 705 Guided Wave Radar Level Transmitter D E S C R I P T I O N Measures Level, Volume, and Interface 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. 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. SIL 2 One universal transmitter can be used with all probe types and offers enhanced reliability for use in SIL 2 hardware systems. 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)). • Suited for SIL 1 or SIL 2 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 Initial Pulse Reflected Pulse 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 the GWR probe, which is available in lengths up to 40 feet (12 meters). Transmitted Pulse Overall Liquid Level Reference signal Air εr = 1 Low dielectric medium (eg. oil, εr = 2) Upper level signal > 2" (50 mm) Interface level signal EMULSION Air εr = 1 < 2" (50 mm) high dielectric medium (eg. water, εr = 80) LAYERS As emulsion layers can decrease the strength of the reflected signal, the Eclipse Model 705 should only be utilized in those interface applications that have clean, distinct layers. Contact factory for application assistance. Time Interface Level Initial Pulse Reflected Pulse Air εr = 1 εr > 1.9 for twin flexible probes Transmitted Pulse Bulk Solid Level 2 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. 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. 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 Figure 1 Coaxial Probe buildup. TWIN ROD PROBES The relationship of the Twin Rod probe to a Coaxial is similar to that of older, twin-lead, antenna lead-in to modern, coaxial cable. 300 ohm twin-lead cable simply does not have the efficiency of 75-ohm coax. The parallel conductor design is less sensitive than the concentric coaxial. See Figure 2. This translates to Twin Rod GWR probes measuring dielectrics of only εr ≥1.9. The “open” design also allows more accurate measurement where Figure 2 Twin Rod Probe coating/buildup are possible. A film coating has little effect on performance. However, bridging of material between the rods or buildup on the spacers can cause improper measurement and should be avoided. Figure 2 also shows that the electromagnetic field develops not only between the rods, it also expands outward making it more sensitive to proximity effects of objects located immediately around it. 3 P R O B E SINGLE O V E R V I E W ROD PROBES Single element GWR probes act quite differently from Coaxial and Twin element designs. The pulses of energy develop between the center rod and the mounting nut or flange; the pulse propagates down the rod as it references its ground at the top of the tank. The efficiency of the pulse “launch” is directly related to how much metallic surface exists around it at the top of the vessel. Figure 3 shows the single element design and how the pulse expands into a teardrop shape as it propagates away from the top of the tank (ground reference). This Single element configuration is the least efficient of the three with minimum dielectric detection approximately εr > 10. This dielectric performance improves considerably (εr > 1.9) when the probe is installed between 2–6" (50–150 mm) of a metal tank wall or in a cage/bridle. Because the design is the “open”, it exhibits two strong tendencies. First, it is the most forgiving of coating and buildup. (The PFA-insulated probe is the best choice for severe coating). Secondly, it is most affected by proximity issues. It is important to note that a parallel metal wall INCREASES its performance while a singular, metal object protruding near the probe may be improperly detected as a liquid level. H Y G I E N I C M O D E L Figure 3 Single Rod Probe 7 0 5 Eclipse 705 is available with a deep drawn housing and a 0.4 µm (RA 15) finished single rod GWR probe for use in ultra clean environments. For more details – refer to bulletin 57-110. 4 3 ⁄4" Hygienic Connection without bend 11⁄2" Hygienic Connection with bend 0.25 inch diameter probes suitable for use in smaller vessels where space is at a premium. Available in lengths up to 72 inches. 316 SS probes can be bent to avoid internal obstructions such as agitator blades and spray balls, and to insure lowest possible level detection. S E L E C T I O N G U I D E COAXIAL TYPE GWR PROBE TWIN ROD/CABLE TYPE GWR PROBE signal propagation signal propagation end view Dielectric Limit Application SINGLE ROD/CABLE TYPE signal propagation end view Temperature Limits Pressure Vacuum Applications Overfill Safe Foam GWR Probe Coaxial GWR Probes: Maximum Viscosity 500 cP (I.D. 3⁄4") – 1500 cP (I.D. 13⁄4") Level High Temp./High Pressure Level/Interface Saturated Steam Interface εr 1.4–100 εr 1.4–100 εr 10–100 εr 1.4–100 -40° to +400° F max 1015 psig (-40° to +200° C) (70 bar) Yes Yes No 7xR 7xM -321° to 800° F max 6250 psig (-196° to +430° C) (430 bar) Full Yes No 7xD 7xL max 2250 psig (155 bar) Yes No No 7xS -40° to +400° F max 1015 psig (-40° to +200° C) (70 bar) Yes Yes No 7xT 7xN up to +650° F (up to +345° C) Twin Rod/Cable GWR Probes: Maximum Viscosity 1500 cP Liquids – Rod Liquids – Cable (level/interface) Solids – Cable εr 1.9–100 εr 1.9–100 εr 1.9–100 -40° to +400° F max 1000 psig (-40° to +200° C) (70 bar) Yes No Yes 7xB -40° to +400° F max 1000 psig (-40° to +200° C) (70 bar) Yes No No 7x7 Yes No n/a 7x5 Ambient Atmospheric Single Rod/Cable GWR Probes: Maximum Viscosity 10,000 cP Liquids – Rod Liquids – Cable Solids – Cable High Temp./ High Pressure εr 1.9–100 εr 1.9–100 εr 4–100 εr 1.9–100 -40° to +300° F max 1000 psig (-40° to +150° C) (70 bar) Yes No Yes 7xF -40° to +300° F max 1000 psig (-40° to +150° C) (70 bar) Yes No Yes 7x1 Yes No n/a 7x2 Yes No Yes 7xJ Ambient Atmospheric -40° to +600° F max 3002 psig (-40° to +315° C) (207 bar) Each Eclipse probe can be used for vacuum service (negative pressure) but only the Borosilicate Eclipse is ideally suited to be used on foaming applications but in specific conditions where dense GWR probes (7xD/7xL) are suited for full vacuum conditions (Helium leak < 10-8 cc/s @ 1 bar abs.) Depends on the spacer material. See model selection 7xD/7xL GWR probe. For media with εr 1.9 to 10, GWR probe must be mounted between 3" and 6" (75 and 150 mm) foam can enter in the stilling well, coaxial GWR probes are not recommended. away from the metal tank wall or in a metal cage/stillwell. 5 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) FOUNDATION fieldbus™ H1 (ITK Ver. 5.01) or Profibus PA™ H1 ™ PROFIBUS PA Span 6" to 75' (15 mm to 22 m) except 7xS: max 15' (45 m) Resolution Analog: 0.01 mA Display: 0.1 (inches or centimeters) 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) 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 Electrical Data Ui = 28.4 V, li = 94 mA, Pi = 0.67 W Ci = 0.56 V, li = 380 mA, Pi = 5.32 W (FOUNDATION fieldbus™ / PROFIBUS PA) Equivalent Data Ci = 2.2 nF, Li = 3 µH Ci = 0.56 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 (45 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 6 Not applicable for FOUNDATION fieldbus™ and PROFIBUS PA™ units. 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 1200 20.5 mA 1000 800 Ω 630 600 400 200 24 VDC 0 0 10 11 20 VDC 30 40 GENERAL PURPOSE (GP) INTRINSICALLY SAFE (IS) EXPLOSION PROOF (XP) Specifications will degrade with Model 7xB, 7xD, and 7xP probes and/or Fixed threshold configuration. Top 24 inches of Model 7xB probe: 1.2 inches (30 mm). 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 Process Connection Probe length Transition Zone Max. Process Temp. Top Bottom Max 7xD / 7xL: High Pressure / High Temperature GWR Probe 7xS: Saturated Steam 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 (7xD-A, B and C) – TFE (7xD-W) – High Temp PEEK High Temp PEEK (7xD-V, N, P and R) Inner rod 0.31" (8 mm) – outer tube 0.87" (22.5 mm) 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) Threaded: 3⁄4" NPT or 1" BSP (G1) – except for enlarged probe Flanged: Various ANSI, DIN or “proprietary” mating flanges From 24 to 240 inches (60 to 610 cm) From 24 to 180 inches (60 to 450 cm) None 8" (200 mm) εr: 1.4 = 6" (150 mm) / εr: 80 = 1" (25 mm) εr ≥ 10 = 1" (25 mm) +800° F @ 1500 psi (+430° C @ 103 bar) +650° F @ 2250 psi (+345° C @ 155 bar) +650° F @ 4700 psi (+345° C @ 324 bar) for 7xx-V, N, P and R +400° F @ 5700 psi (+200° C @ 393 bar) for 7xx-W Min Max. Process Pressure Max. Viscosity Dielectric Range Vacuum service -320° F @ 2000 psi (-196 °C @ 135 bar) 6250 psi @ +70° F (430 bar @ +20° C) 500 cP (standard) / 1500 cP (enlarged) εr ≥ 1.4-100: 7xx-W, V, N, P and R εr ≥ 2,0-100: 7xx-A, B and C Full vacuum (Helium leak < 10-8 cc/s @ 1 atmosphere vacuum) 0° F @ 3000 psi (-15° C @ 205 bar) 2250 psi @ +650° F (155 bar @ +345° C) 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. 7 See tables on page 9. P R O B E S P E C I F I C A T I O N S 7xT / 7xN: Interface GWR Probe 7xR / 7xM: Overfill Protection Coaxial Probe Description Materials Probe Probe diameter Process seal Spacers Small coax Large coax 7xB: Standard Twin Rod 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 Inner rod 0.31" (8 mm) Two 0.5" (13 mm) Ø rods – Outer tube 0.87" (22.5 mm) 22 mm (0.875") CL to CL 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) Mounting In-tank mounting / external cage mounting – overfill safe In-tank mounting only. Twin rod probe must be used in metallic vessel or stillwell > 1" (25 mm) from any surface or obstruction Process Connection Threaded: 3⁄4" NPT or 1" BSP (G1) – except for enlarged probe Flanged: Various ANSI, DIN or “proprietary” mating flanges Threaded: 2" NPT or 2" BSP (G2) Flanged: Various ANSI, DIN or “proprietary” mating flanges Probe length Transition Zone Process Temp. Top Bottom Max From 24 to 240 inches (60 to 610 cm), selectable in 1-inch or 1-cm increments None εr ≥ 1.9 = 6" (150 mm) εr: 1.4 = 6" (150 mm)/εr: 80 = 2" (50 mm) εr: 1.9 = 6" (150 mm)/εr: 80 = 1" (25 mm) +400° F @ 270 psi (+200° C @ 18 bar) Min Max. Process Pressure Max. Viscosity Dielectric Range Vacuum service Media coating -40° F @ 750 psi (-40° C @ 50 bar) 1000 psi @ +70° F (70 bar @ +20° C) 500 cP Upper liquid: ≥ 1.4 and ≤ 5, Lower liquid: ≥ 15 Negative pressure but not hermetic seal In case of media coating, select 7xN probe. Description Materials 7xF: standard single rod 7xJ: HTHP single rod 316/316L (1.4401/1.4404), Monel® (2.4360), 316/316L (1.4401/1.4404), Monel® (2.4360) or Hastelloy C® (2.4819) or PFA insulated 316/316L Hastelloy C® (2.4819) (1.4401/1.4404) TFE with Viton® GFLT or Kalrez 4079 PEEK with Aegis PF 128 (Consult factory for alternatives) Bare: 0.50" (13 mm) Bare: 0.50" (13 mm) PFA coated: 0.625" (16 mm) See mounting considerations on page 25 Threaded: 2" NPT or 2" BSP (G2) – Flanged: Various ANSI or EN/DIN From 24 to 240 inches (60 to 610 cm) selectable in 1-inch or 1-cm increments 4.8" up to 36" (12 up to 91 cm) - depending probe length (adjustable) εr ≥ 10: 1" (25 mm) +300° F @ 400 psi (+150° C @ 27 bar) ambient +600° F @ 2250 psi (+315° C @ 155 bar) -40° F @ 750 psi (-40° C @ 50 bar) – 200 psi (13.7 bar) for 7xF-F 1000 psi @ +70° F (70 bar @ +20° C) 3000 psi @ +70° F (207 bar @ +20° C) 10.000 cP – consult factory in case of agitation/turbulence εr 10-100 (depending installation conditions, down to εr ≥ 1.9) – liquids Not applicable Not applicable Maximum error of 10% of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. Probe Process seal Probe diameter Mounting Process Connection Probe length Blocking distance (top) Transition Zone (bottom) Process Temp. Max Min Max Process Pressure Max Viscosity Dielectric Range Mechanical load Pull-down force Media coating Film: 3% error of coated length, bridging not recommended 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 9. Bridging is defined as continuous accumulation of material between the probe elements. Viton® is a registered trademark of DuPont Performance Elastomers. 8 1000 psi @ +70 °F (70 bar @ +20° C) 1500 cP 1.9 to 100 P R O B E Description Materials S P E C I F I C A T I O N S 7x1 (liquids) / 7x2 (solids): Single Flexible 316 SST (1.4401) 7x5 (solids) / 7x7 (liquids): Twin Flexible 7x7: FEP coated 316 SST (1.4401) 7x5: TFE coated 316 SST (1.4401) TFE with Viton® GFLT, EPDM or Kalrez 4079 (Consult factory for alternatives) 7x1: 0.19" (5 mm) 0.25" (6 mm) 7x2: 0.25" (6 mm) See mounting considerations on page 25 < 1" (25 mm) from any surface or construction Threaded: 2" NPT or 2" BSP (G2) – Flanged: Various ANSI, EN/DIN or hygienic From 3' (1 m) (7x1) - 6' (2 m) (7x2, 7x5, 7x7) to max 75' (22 m) (1 foot or 1 meter) 4.8" up to 36" (120 up to 910 mm) 12" to 20" (300 to 500 mm) depending probe length (adjustable) 12" (305 mm) 7x1: 300° F (+150° C) / 7x2: 150° F (+66° C) 7x7: 300° F (+150° C) / 7x5: 150° F (+66° C) -40° F (-40° C) -40° F (-40° C) 7x1/7x7: 1000 psi @ +70° F (70 bar @ +20° C) 7x2/7x5: 50 psi (3.4 bar) 10.000 cP – consult factory in case of 1500 cP agitation/turbulence Probe Process seal Probe diameter Mounting Process Connection Probe length Blocking distance (top) Transition Zone Process Temperature (bottom) Maximum Minimum Max Process Pressure Max Viscosity εr 10-100 (depending installation conditions down εr 1.9-100 to εr ≥ 1.9) – liquids εr 4-100 – solids Dielectric Range Mechanical load Pull-down force Media coating 20 lbs (9 kg) – 7x1 3000 lbs (1360 kg) – 7x2 3000 lbs (1360 kg) – 7x5 Maximum error of 10% of coated length. % Error is related to dielectric of medium, thickness of coating and coated probe length above level. Transition Zone (zone with reduced accuracy) is dielectric dependent; zone / blocking distance. εr = dielectric permitivity. It is recommended to set 4–20 mA signal outside the transition T E M P E R A T U R E / P R E S S U R E F O R E C L I P S E P R O B E S E A L S 1200 200 180 Ambient Temperature (°F) Process Pressure (psig) 1100 1000 900 800 700 600 500 400 300 200 100 0 -40 0 100 200 300 400 Process Temperature (°F) (max. 400) 7X1, 7X7, 7XB, 7XF 7XM, 7XN, 7XR, 7XT 7XF-F 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 0 160 140 120 100 80 60 40 20 0 100 150 200 250 300 350 400 Process Temperature (°F) Ambient Temperature vs Process Temperature 7XB, 7XF, 7X7 100 200 300 400 500 600 700 800 Process Temperature (°F) 7XD, 7XL HTHP (max. +800° F) 7XS (max. +650°) 7XJ (max. +605°) 9 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 16 to 27. • 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 = E + measuring range + F 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. Type Process connection Magnetrol® EZ & PN Modulevel® ANSI/DIN flange Masoneilan® Series 1200 Fisher® series 2300 & 2500 249B, 259B, 249C cages Proprietary flange other cages ANSI flange Eckhardt Series 134, 144 ANSI/DIN flange ≥ 14" (356) Tokyo Keiso® FST-3000 ANSI/DIN flange H = 11.8" (300) ® 10 Displacer length inches (mm) Manufacturer Round down resulting calculation to the nearest inch. Proprietary flange ANSI/DIN flange ANSI/DIN flange ≥ 14" (356) ≥ 14" (356) ≥ 16" (406) ≥ 14" (356) ≥ 14" (356) ≥ H = 19.7" (500) Probe length inches (mm) Displacer + 7 (178) Displacer + 8 (203) Displacer + 8 (203) Displacer + 10 (254) consult factory consult factory Displacer + 9 (229) Displacer + 9 (229) 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 Masoneilan (600 lb.), carbon steel Figure 1 Figure 2 Figure 3 .25 (6) 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 costeffective 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 57-140. 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. 11 PACTware™ P C S O F T W A R E The Most Efficient PC Configuration Tool for Eclipse Guided Wave Radar Transmitters PACTware is the modern, user-friendly adjustment software that enables quick configuration and diagnostics of your radar transmitters. With your PC connected through a serial interface to the HART loop, all functionality can be managed remotely anywhere on the loop. Level Monitoring Screen Continuously viewing the level in a tank is the starting point for PACTware. The position of liquid level can be viewed in a simple visual format on your PC. Level and Output values are shown numerically as well. The screen can be left open to show the relative position of the liquid level. Level Monitoring Screen Parameters Screen Every parameter in your radar transmitter can be monitored and modified remotely with a few clicks of the mouse. From units of measure to settings for dielectric, each parameter can be viewed or changed to suit application conditions. Parameters can be developed offline or transferred between transmitters. Parameters Screen Trending Screen The ability to trend data over a period of time allows insight into overall operation of your radar. Trending values are invaluable when attempting advanced configuration or troubleshooting. PACTware PC software has the ability to track all parameters of your radar device and save them as a text or picture file. Process Trend Screen GET CONNECTED Simply connect the HART/RS232 or HART/USB serial interface from the PC to the two-wire loop. 12 Echo Wave Form Screen This screen yields a wealth of useful information: Level (X-axis); Signal Quality (Y-axis); Actual Echo Curve (black line); False Target Profile (red line); and Minimum Threshold (blue line). Blue hash marks show the location and signal quality of the target currently detected as liquid level. False Target Rejection—a common issue among all non-contact, transit-time devices—can be accessed from this screen. Echo Wave Form Screen 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. 13 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 enhanced 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 14 0 5 5 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, C or F) when ordering the heavier 316 SS version. D I M E N S I O N S inches 3.28 (83) (mm) 4.12 (105) 45° View 4.00 (102) 8.43 (214) 45° 10.08 (256) Elect. Conn. Qty. 2 4.94 (126) 4.12 (105) 3.28 (83) 4.00 (102) 4.38 (111) Eclipse Housing (45° View) Integral Electronics 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 15 M O D E L N U M B E R C O A X I A L P R O B E Models available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). εr ≥ 1.4 - WHG approved εr ≥ 1.4 - WHG approved upper liq: εr ≥ 1.4 and ≤ 5 / lower liq: ≥ 15 - WHG aprvd. upper liq: εr ≥ 1.4 and ≤ 5 / lower liq: ≥ 15 - WHG aprvd. BASIC MODEL NUMBER – GWR probe suited for external cage and/or in-tank mounting 7*R 7*M 7*T 7*N GWR GWR GWR GWR probe probe probe probe for for for for overall level level w/ flushing connection interface level interface level w/ flushing connection *Specify “E” for English (e.g., 7ER) or “M” for Metric (e.g., 7MR) MATERIAL OF CONSTRUCTION – wetted parts (including process connection flange when applicable) A B C J 316/316L (1.4401/1.4404) SS w/ Teflon® spacers Hastelloy C (2.4819) Monel (2.4360) 316/316L SS NACE Construction PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Refer to Bulletin 57-102 for Enlarged Coaxial Probe Threaded 11 3 ⁄4" NPT Thread 22 1" BSP (G1) thread 4 5 5 5 6 6 6 2" 3" 3" 3" 4" 4" 4" ANSI Flanges 2 2 2 3 3 3 4 4 3 4 5 3 4 5 3 4 1" 1" 1" 11⁄2" 11⁄2" 11⁄2" 2" 2" 150# 300# 600# 150# 300# 600# 150# 300# ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI RF RF RF RF RF RF RF RF 5 3 4 5 3 4 5 600 150 300 600 150 300 600 lbs. lbs. lbs. lbs. lbs. lbs. lbs. ANSI ANSI ANSI ANSI ANSI ANSI ANSI RF RF RF RF RF RF RF 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 EN EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 on on on on page page page page EN/DIN Flanges BB BC CB CC DA DB DD DE DN DN DN DN DN DN DN DN 25, 25, 40, 40, 50, 50, 50, 50, PN 16/25/40 PN 63/100 PN 16/25/40 PN 63/100 PN 16 PN 25/40 PN 63 PN 100 EN EN EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 Type Type Type Type Type Type Type Type A B2 A B2 A A B2 B2 EA EB ED EE FA FB FD FE DN DN DN DN DN DN DN DN Type Type Type Type Type Type Type Type A A B2 B2 A A B2 B2 Torque Tube Mating Flanges TT TU UT UU 600# 600# 600# 600# Fisher (249B/259B) in carbon steel – Fisher (249C) in stainless steel – Masoneilan flange in carbon steel – Masoneilan flange in stainless steel – as as as as per per per per dimensions dimensions dimensions dimensions of of of of Figure Figure Figure Figure 1 2 3 3 11 11 11 11 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 -40° F (-40° C) / +400° F (+200° C) Aegis PF 128 seal – for steam and NACE apps -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 16 Always check 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 applications. Max +400° F (+200° C) for use on steam. Consult factory for insertion lengths < 24" (60 cm) C O A X I A L P R O B E M O U N T I N G OVERFILL SAFE & OVERFILL PROOF Eclipse 7xR, 7xM, 7xT and 7xN coaxial type GWR probes are “overfill safe” in operation and “Overfill proof” certified. Overfill safe means that the unit is capable of measuring up to the process connection. “Non overfill safe” probes often use software algorithms to ignore level readings in the blocking distance or transition zone. When level rises in this zone, nonoverfill safe may consider the end of probe reflection as to the real level and may report an empty vessel instead of a full vessel. Measure to Top of Probe C O A X I A L I N C H E S 3.28 (83) P R O B E 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 way that the vessel/ cage cannot overfill. D I M E N S I O N S ( m m ) 4.12 (105) 3.28 (83) 4.00 (102) 4.12 (105) 3.28 (83) 4.00 (102) 45° 45° 45° Mounting Flange 6.73 (171) 2 cable entries 1 ⁄4" NPT plugged 6.38 (162) 1 ⁄4" NPT plugged 8.11 (206) Mounting Flange Probe Insertion Length 7xR / 7xT with threaded connection 45° 2 cable entries 6.61 (168) Probe Insertion Length 1" BSP (G1) Process Conn. 10.08 (256) 10.08 (256) 2 cable entries 5.39 (137) 4.12 (105) 4.00 (102) 10.08 ( 256) 2 cable entries Probe Insertion Length 3 ⁄4" NPT Process Conn. 3.28 (83) 4.00 (102) 10.08 (256) 5.68 (144) 4.12 (105) 7xR / 7xT with flanged connection Probe Insertion Length 1" BSP (G1) Process Conn. Probe Insertion Length 3 ⁄4" NPT Process Conn. 7xM / 7xN with flushing connection Probe Insertion Length 7xM / 7xN with flushing connection D E 1.97 ( 50) 0.79 (20) B C A Coaxial GWR Probe, End View 0.16 (4) Slots for 7xR-A (order with “x” description) Venting holes for level Venting holes for interface Dim. Standard 12 (305) A Ø 0.25 (6.4) B 0.75 (19) C D 0.88 (22.5) E 0.31 (8) Enlarged 12 (305) Ø 0.5 (12.7) 1 (25.4) 1.75 (45) - SST 1.92 (49) - HC and Monel 0.63 (16) 17 M O D E L T W I N N U M B E R R O D P R O B E Models available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). Twin Rod GWR probe εr ≥ 1.9 - WHG approved *Specify “E” for English (e.g., 7EB) or “M” for Metric (e.g., 7MB) BASIC MODEL NUMBER – GWR probe for in-tank mounting only 7*B MATERIAL OF CONSTRUCTION – wetted parts (including process connection flange when applicable) A B C J 316/316L (1.4401/1.4404) stainless steel with Teflon® spacers Hastelloy C (2.4819) with TFE spacers Monel (2.4360) with TFE spacers 316/316L SS NACE Construction PROCESS CONNECTION – SIZE/TYPE Threaded 41 42 2" NPT Thread 2" BSP (G2) Thread ANSI Flanges 5 5 6 6 3 4 3 4 3" 3" 4" 4" 150# 300# 150# 300# ANSI ANSI ANSI ANSI Raised Raised Raised Raised Face Face Face Face Flange Flange Flange Flange EN/DIN Flanges (consult factory for DN 50 process connections) EA EB ED FA FB FD DN DN DN DN DN DN 80, PN 16 80, PN 25/40 80, PN 63 100, PN 16 100, PN 25/40 100, PN 63 EN EN EN EN EN EN 1092-1 1092-1 1092-1 1092-1 1092-1 1092-1 Type Type Type Type Type Type A A B2 A A B2 Torque Tube Mating Flanges TT TU UT UU 600# 600# 600# 600# Fisher (249B/259B) in carbon steel – Fisher (249C) in stainless steel – Masoneilan flange in carbon steel – Masoneilan flange in stainless steel – as as as as per per per per dimensions dimensions dimensions dimensions of of of of Figure Figure Figure Figure 1 2 3 3 on on on on page page page page 11 11 11 11 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 -40° F (-40° C) / +400° F (+200° C) Aegis PF 128 seal – for 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 Always check dimensions if ANSI/DIN flanges are not used. Consult factory for alternative o-ring materials. 7 18 B Consult factory for HF Acid applications. For ammonia/chlorine applications use the 7xD GWR probe. T W I N R O D P R O B E M O U N T I N G OVERFILL SAFE & OVERFILL PROTECTION Maximum Level Minimum Ø 3"/DN 80 Maximum Level Eclipse Twin Rod GWR probes utilize software algorithms to ignore level readings in the transition zone at the top of the GWR probe. The maximum level is 6" (150 mm) below the process connection. This may include utilizing a nozzle or spool piece to raise the probe. Twin rod probes are overfill proof certified but not overfill safe in use. min 1.00 (25) Tank or cage wall T W I N I N C H E S 3.28 (83) R O D P R O B E D I M E N S I O N S ( m m ) 4.12 (105) 3.28 (83) 3.28 (83) 4.12 (105) 4.00 (102) 4.00 (102) 4.00 (102) 45° 2" NPT Process Conn. 2 cable entries 45° 2 cable entries 4.96 (126) Probe Insertion Length 7xB with threaded 2" NPT connection 10.08 (256) 10.08 (256) 10.08 (256) 2 cable entries 4.12 (105) 2" BSP (G2) Process Conn. 45° Mounting Flange 5.08 (129) 4.00 (102) Probe Insertion Length Probe Insertion Length 7xB with threaded 2" BSP (G2) connection 7xB with flanged connection 0.875 (22.2) Ø 0.50 (13) Rods 0.248 (6.3) Twin Rod GWR Probe, end view 19 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 Models available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). εr ≥ 1.4 - WHG approved εr ≥ 1.4 - WHG approved BASIC MODEL NUMBER – High Temperature/High Pressure Coaxial GWR probe 7*D 7*L HTHP GWR probe for level HTHP GWR probe for level with flushing connection *Specify “E” for English (e.g., 7ED) or “M” for Metric (e.g., 7MD) MATERIAL OF CONSTRUCTION (all wetted parts) and MINIMUM DIELECTRICS For standard coaxial 7xD/7xL GWR probe - max 6250 psig (430 bar) A B C J V W 316/316L (1.4401/1.4404) SST with ceramic spacers Hastelloy C (2.4819) with ceramic spacers Monel (2.4360) with ceramic spacers 316/316L SS NACE construction with ceramic spacers 316/316L (1.4401/1.4404) SST with H. Temp PEEK® spacers 316/316L (1.4401/1.4404) stainless steel with Teflon® spacers min. min. min. min. min. min. εr: ≥ 2.0/max +800°F (+427°C) εr: ≥ 2.0/max +800°F (+427°C) εr: ≥ 2.0/max +800°F (+427°C) εr: ≥ 2.0/max +800°F (+427°C) εr: ≥ 1.4/max +650°F (+345°C) εr: ≥ 1.4/max +550°F (+288°C) PROCESS CONNECTION – SIZE/TYPE (consult factory for other process connections) Refer to Bulletin 57-102 for Enlarged Coaxial Probe Threaded 11 3 ⁄4" NPT Thread 22 1" BSP (G1) thread 4N 53 54 55 5K 5L 5M 5N 63 64 65 6K 6L 6M 6N 2" 3" 3" 3" 3" 3" 3" 3" 4" 4" 4" 4" 4" 4" 4" ANSI Flanges 23 24 25 2K 2L 33 34 35 3K 3M 3N 43 44 45 4K 4M 1" 1" 1" 1" 1" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 11⁄2" 2" 2" 2" 2" 2" 150# ANSI RF 300# ANSI RF 600# ANSI RF 600# ANSI RJ 900# ANSI RJ 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 900/1500# 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 EN/DIN & Torque Tube Mating Flanges (next page) PROCESS SEAL MATERIAL (next page) INSERTION LENGTH (next page) 7 20 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 ( c o n t . ) EN/DIN Flanges BB BC BF CB CC CF CG CH CJ DA DB DD DE DF DG DH DJ DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN 25, 25, 25, 40, 40, 40, 40, 40, 40, 50, 50, 50, 50, 50, 50, 50, 50, PN 16/25/40 PN 63/100 PN 160 PN 16/25/40 PN 63/100 PN 160 PN 250 PN 320 PN 400 PN 16 PN 25/40 PN 63 PN 100 PN 160 PN 250 PN 320 PN 400 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 Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type A B2 B2 A B2 B2 B2 B2 B2 A A B2 B2 B2 B2 B2 B2 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 UT UU 600# Masoneilan flange in carbon steel 600# Masoneilan flange in stainless steel Torque Tube Mating Flanges TT TU 600# Fisher (249B/259B) in carbon steel 600# Fisher (249C) in stainless steel 80, 80, 80, 80, 80, 80, 80, 80, 100, 100, 100, 100, 100, 100, 100, 100, PN 16 PN 25/40 PN 63 PN 100 PN 160 PN 250 PN 320 PN 400 PN 16 PN 25/40 PN 63 PN 100 PN 160 PN 250 PN 320 PN 400 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 Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type Type A A B2 B2 B2 B2 B2 B2 A A B2 B2 B2 B2 B2 B2 PROCESS SEAL – O-RING MATERIAL N Borosilicate seal – for non steam applications (7xD) -320° F (-196° C) / +800° F (+427° 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 For HTHP interface applications, specify “X7xD”: X = 7xD for interface use with multiple venting holes. Always check dimensions if ANSI/ EN/DIN flanges are not used. As per dimensions on page 10. 7xD-W: max +400° F (+200° C) – 7xD-V: max +650 °F (+345° C) For 7xD/7xL, consult factory for insertion lengths < 24" (60 cm) 7 21 M O D E L S T E A M N U M B E R C O A X I A L P R O B E 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 – Suited for Saturated Steam Applications 7*S Coaxial GWR probe for saturated steam applications, including steam compensation/reference target *Specify “E” for English (e.g., 7ES) or “M” for Metric (e.g., 7MS) MATERIAL OF CONSTRUCTION (all wetted parts) and MINIMUM DIELECTRICS A K 316/316L (1.4401/1.4404) 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 Threaded EN/DIN Flanges 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# Fisher (249B/259B) in carbon steel 600# Fisher (249C) in stainless steel 600# Masoneilan flange in carbon steel 600# Masoneilan flange in stainless steel Proprietary Flanges PROCESS SEAL – O-RING MATERIAL 8 Steam Seal (Aegis PF 128 / PEEK) INSERTION LENGTH 24 to 180 inches (60 to 450 cm) (unit of measure is determined by second digit of Model Number) Examples: 24 inches = 024; 60 centimeters = 060 7 22 Always check dimensions if ANSI/DIN flanges are not used. As per dimensions on page 10. H I G H T E M P / P R E S S U R E I N C H E S ( m m ) C O A X I A L P R O B E OVERFILL SAFE & OVERFILL PROTECTION Eclipse 7xD and 7xL coaxial type GWR probes are “Overfill safe” in use and “Overfill proof” certified. Overfill safe means that the unit is capable of measuring up to the process connection. “Non-overfill safe” probes use software to ignore level readings in the blocking distance or transition zone. When level rises in this zone, non-overfill safe probes may consider the end of probe reflection as to the real level and may report an empty vessel instead of an overfilling vessel. 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 way that the vessel/ cage cannot overfill. Measure to Top of Probe 3.28 (83) 4.12 (105) 3.28 (83) 4.00 (102) 4.12 (105) 4.00 (102) 10.08 (256) 10.08 (256) 45° 45° 2 cable entries 2 cable entries 1.97 (50) 7xD: 7.83 (199) 7xS: 6.14 (156) 7xD: 8.58 (218) 7xS: 6.97 (177) 0.79 (20) B A 7xD: 10.90 (277) 7xS: 9.45 (240) Probe Insertion Length 3/4" NPT Process Conn. Probe Insertion Length 1" BSP (G1) Process Conn. 7xD/7xS with threaded connection 3.28 (83) Mounting Flange 0.16 (4) Probe Insertion Length Slots for 7xD - A/V/W (order per “x” description) 7xD/7xS with flanged connection 3.28 (83) 4.12 (105) 4.12 (105) C D 4.00 (102) 4.00 (102) Venting holes for all E 10.08 (256) 10.08 (256) Venting holes for 7xD/7xL (order per “x” description) 45° 45° 2 cable entries 2 cable entries 14.76 (375) 11.69 (297) Dim. A B C 1/4" NPT plugged 1/4" NPT plugged Mounting Flange Probe Insertion Length 7xL with threaded connection Coaxial GWR Probe, End View Probe Insertion Length 7xL with flanged connection Standard Coaxial 12.00 (305) Ø 0.25 (6.4) 0.75 (19) D 0.88 (22.5) E 0.31 (8) Enlarged Coaxial 12.00 (305) Ø 0.50 (12.7) 1.00 (25.4) 1.75 (45) - SST 1.92 (49) - HC and Monel 0.63 (16) 23 M O D E L R I G I D ( F O R N U M B E R S I N G L E I N - T A N K R O D P R O B E M O U N T I N G F O R L I Q U I D S O N L Y ) Models available for quick shipment, usually within one week after factory receipt of a complete purchase order, through the Expedite Ship Plan (ESP). • 316/316L (1.4401/1.4404) material for standard applications • Hastelloy C (2.4819) or Monel (2.4360) for extreme aggressive media • PFA insulated for applications with excessive coating / buildup. BASIC MODEL NUMBER 7*F 7*J Standard single rod GWR probe High temperature / high pressure single rod GWR probe *Specify “E” for English (e.g., 7EF) or “M” for Metric (e.g., 7MF) εr ≥ 1.9/10 εr ≥ 1.9/10 MATERIAL OF CONSTRUCTION A B C J 4 316/316L (1.4401/1.4404) stainless steel Hastelloy C (2.4819) Monel (2.4360) 316/316L SS NACE Construction PFA insulated 316/316L (1.4401/1.4404) stainless steel (for 7xF only) PROCESS CONNECTION – SIZE/TYPE Threaded 41 42 2" NPT thread 2" BSP (G2) thread 43 44 45 4K 4M 53 54 55 5K 5L 5M 63 64 65 6K 6L 6M 2" 2" 2" 2" 2" 3" 3" 3" 3" 3" 3" 4" 4" 4" 4" 4" 4" EN/DIN Flanges DA DB DD DE DF DG EA EB ED EE EF EG FA FB FD FE FF FG ANSI Flanges 150# ANSI RF 300# ANSI RF 600# ANSI RF 600# ANSI RJ 900/1500# ANSI RJ 150# ANSI RF flange 300# ANSI RF flange 600# ANSI RF flange 600# ANSI RJ flange 900# ANSI RJ flange 1500# ANSI RJ flange 150# ANSI RF flange 300# ANSI RF flange 600# ANSI RF flange 600# ANSI RJ flange 900# ANSI RJ flange 1500# ANSI RJ flange DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN DN 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 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 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 PROCESS SEAL – O-RING MATERIAL For 7xF 0 2 8 Viton® GFLT seal: for universal use Kalrez 4079 seal: for aggressive media Aegis PF 128 seal: for aggressive media -40° F (-40° C) / +300° F (+150° C) -40° F (-40° C) / +300° F (+150° C) -20° C (-4° F) / +300° F (+150° C) For 7xJ 8 PEEK/Aegis PF 128 seal -0° F (-15° C) / +600° F (+315° C) Consult factory for alternative o-ring materials. For Ammonia/Chlorine applications, use the 7xD GWR probe. Viton® is a registered trademark of DuPont Performance Elastomers. 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 24 For dielectric range ≤1.9 and 10, probe must be mounted within 2–6 inches (50–150 mm) distance from the tank wall or in a cage or bridle. See mounting consideration on page 25. 7xF up to 600# ANSI RF / PN 100 flanges. “ I N T A N K ” M O U N T I N G S T A N D A R D S I N G L E 2. Nozzles: do not restrict the performance by ensuring the following: For 7xF/7x1/7x2/7xJ (single rod/cable): 1. Nozzle must be 50 mm (2") or larger diameter. 2. Nozzle inside diameter (A) should be ≥ to nozzle height (B). If this is not the case, it is recommended to adjust BLOCKING DISTANCE and/or SENSITIVITY settings. 3. Metallic (conductive) obstructions in tank. For 7xF/7x1/7x2 (single rod/cable) A metal stillwell/cage of max. 6"/DN150 size or a metal tank wall within 150 mm of the probe mounting will allow the unit to operate accurately in media with dielectrics down to εr 1.9. Objects in the proximity can cause erroneous readings For 7x5/7x7 (twin rod/cable) Mount the probe more than 25 mm (1") from any metallic object/vessel wall. Distance to probe < 150 mm (6") > 150 mm (6") > 300 mm (12") B > 450 mm (18") Pipe reducers should not be used Correct installation For 7x5/7x7 (twin rod/cable): 1. Nozzle should be DN80 (3") diameter or larger. 2. For nozzles < DN80 (3") diameter, the bottom of the inactive section of the probe should be flush with the bottom of the nozzle or extend into the vessel. R I G I D I N C H E S P R O B E C O N S I D E R A T I O N S 1. Turbulence For 7xF/7x1/7x2/7xJ (single rod/cable) The bottom of the probe should be stabilized if turbulence will cause a deflection of more than 3" at 10' (75 mm at 3 m) of length. The probe should not make contact with metal. A TFE bottom spacer for 7xF GWR probes or PEEK spacer for 7xJ is optional. A R O D S I N G L E R O D ( m m ) 4. Non-metallic vessels For 7xF/7x1/7x2/7xJ (single rod/cable) Flange (metal) mounting is recommended for optimum performance. High level shutdown / Overfill protection Special consideration is necessary in any high level shutdown / overfill protection application where single rod GWR probes are used. To ensure proper measurement, the guided wave radar probe should be installed so the maximum overfill level is at a minimum of 120 mm (4.8") up to 910 mm (36") – blocking distance depending application below the process connection. Consult factory for further information. P R O B E 3.28 (83) Acceptable objects Continuous, smooth, parallel, conductive surface (e.g. metal tank wall); probe should not touch tank wall < 1"/DN25 diameter pipe and beams, ladder rungs < 3"/DN80 diameter pipe and beams, concrete walls All remaining objects D I M E N S I O N S 4.12 (105) 4.00 (102) 7xF/7xJ with threaded connection max. 240" (6 m) 45° 10.08 (256) 2.36 (60) 2 cable entries Process Conn. 2.24 (57) 1.90 (49) Spacer (end view) Ø Rod Bare 0.50 (13) / PFA insulated 0.62 (16) Probe Insertion Length for 2" NPT process connection Optional Spacer 1.42 (36) Probe Insertion Length for 2" (G2) BSP process connection 0.50 (13) Ø Rod Probe Insertion Length Optional Spacer 7xF/7xJ with flanged connection max. 240" (6 m) 25 M O D E L N U M B E R I N S U L A T E D / F A C E D - F L A N G E P F A A G G R E S S I V E L I Q U I D S (FOR IN-TAN Single rod PFA insulated 316/316L (1.4401/1.4404) GWR probe *Specify “E” for English (e.g., 7EF-F) or “M” for Metric (e.g., 7MF-F) PROCESS CONNECTION – SIZE/TYPE ANSI Flanges 4 4 4 5 5 5 6 6 6 3 4 5 3 4 5 3 4 5 2" 2" 2" 3" 3" 3" 4" 4" 4" 150# 300# 600# 150# 300# 600# 150# 300# 600# ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI ANSI RF RF RF RF RF RF RF RF RF F O R M O U N T I N G O N L Y ) εr ≥ 1.9/10 BASIC MODEL NUMBER 7 * F-F P R O B E K EN/DIN Flanges flange flange flange flange flange flange flange flange flange DA DB DD DE EA EB ED EE FA FB FD FE DN DN DN DN DN DN DN DN DN DN DN DN 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 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 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 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 For dielectric range ≤1.9 and 10, probe must be mounted within 2–6 inches (50–150 mm) distance from the tank wall or in a cage or bridle. See mounting consideration on page 25. 7 F F L E X I B L E F N C A B L E P R O B E S F O R L I Q U I D S O R S O L I D S BASIC MODEL NUMBER – GWR probe suited for external cage and/or in-tank mounting 7 * 1-A 7 * 7-A 7 * 2-A 7 * 5-A Single cable GWR probe in 316 stainless steel For liquid Twin cable GWR probe in FEP coated 316 stainless steel For liquid Single cable GWR probe in 316 stainless steel For solids Twin cable GWR probe in 316 stainless steel For solids level level level (use only Viton® process seal) level (use only Viton® process seal) *Specify “E” for English (e.g., 7EF-F) or “M” for Metric (e.g., 7MF-F) PROCESS CONNECTION – SIZE/TYPE Threaded 41 42 ANSI Flanges & EN/DIN Flanges Refer to charts in above section. (ANSI codes 43, 44, 45 & EN DIN codes DA, DB, DD, DE not available with 7*7/7*5 GWR probes) 2" NPT thread 2" BSP (G2) thread PROCESS SEAL – O-RING MATERIAL 0 Viton® GFLT seal: for universal use -40° F (-40° C) / +400° F (+200° C) INSERTION LENGTH – Specify per 1' (1 m) increments 0 0 0 0 7 26 A 0 0 0 4 7 3 6 0 5 min 3' (1 m) for model 7*1 min 6' (2 m) for models 7*2, 7*7, 7*5 max 40' (12 m) for model 7*7 for liquid interface max 75' (22 m) all models except 7*7 for liquid interface P F A & F L E X I B L E I N C H E S P R O B E D I M E N S I O N S ( m m ) Process Connection Mounting Flange 7x5: 2.44 (62) 7x7: 2.09 (53) 7x5: 3.25 (83) 7x7: 1.75 (44) 7x5: 3.13 (80) 7x7: 2.80 (71) 2.36 (60) Ø Rod Bare 0.50 (13) / PFA insulated 0.62 (16) Probe Insertion Length 3.00 (76) 3.00 (76) Probe Insertion Length for 2" (G2) BSP process connection Probe Insertion Length for 2" NPT process connection Probe Insertion Length 6.00 (152) Ø 2.00 (51) Ø 0.25 (6) 7xF-F with PFA faced-flanged connection max. 240" (6 m) 7x7: TFE Weight 2.25 (57) 1.25 (32) 2.00 (50) 3.88 (99) 0.5 (12) 7x7: TFE Weight 10 oz. (284 g) 0.75 (19) 7x5: SST Weight 5 lbs (2.25 kg) order code: 004-8778-002 + 2 x 010-1731-001 Order code: 089-9121-001 7x5/7x7 with flanged connection max. 75' (22 m) 7x5/7x7 with threaded connection max. 75' (22 m) 3.28 (83) 4.12 (105) 4.00 (102) 10.08 (256) 2 cable entries 7x1: 1.54 (39) 7x2: 2.44 (62) Mounting Flange 7x1: 2.24 (57) 7x2: 3.13 (80) 7x1: 2.36 (60) 7x2: 3.25 (83) 7x1: 24 (610) 7x2: 3 (76) Probe Insertion Length for 2" (G2) BSP process connection 7x1: 24 (610) 7x2: 3 (76) 6 (152) Probe Insertion Length for NPT process connection Ø2 (51) Ø 0.19 (5) 2.25 (57) Weight 7x1: TFE Weight 1 lb. (450 g) Order code: 089-9120-001 7x2: SST Weight 5 lbs (2.25 kg) order code: 004-8778-001 + 2 x 010-1731-001 7x1/7x2 with threaded connection max. 75' (22 m) & Probe Insertion Length 0.19 (5) 4.00 (102) 1 (25) P F A 45° F L E X I B L E P R O B E 0.19 (5) 0.75 (19) 7x1/7x2 with flanged connection max. 75' (22 m) M O U N T I N G Consult mounting considerations on page 25 27 Q U A L I T Y The quality assurance system in place at Magnetrol guarantees the highest level of quality throughout the company. Magnetrol is committed to providing full customer satisfaction both in quality products and quality service. The Magnetrol quality assurance system is registered to ISO 9001 affirming its commitment to known international quality standards providing the strongest assurance 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 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. If returned within the warranty period; and, upon factory inspection of the control, the cause of the claim is determined to be covered under the warranty; then, Magnetrol will repair or replace the control at no cost to the purchaser (or owner) other than transportation. 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, 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. 5300 Belmont Road • Downers Grove, Illinois 60515-4499 • 630-969-4000 • Fax 630-969-9489 • www.magnetrol.com 145 Jardin Drive, Units 1 & 2 • Concord, Ontario Canada L4K 1X7 • 905-738-9600 • Fax 905-738-1306 Heikensstraat 6 • B 9240 Zele, Belgium • 052 45.11.11 • Fax 052 45.09.93 Regent Business Ctr., Jubilee Rd. • Burgess Hill, Sussex RH15 9TL U.K. • 01444-871313 • Fax 01444-871317 Copyright © 2011 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, Eclipse, and Aurora are registered trademarks of Magnetrol International. 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. PEEK™ is a trademark of Vitrex plc. 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. BULLETIN: 57-101.20 EFFECTIVE: January 2011 SUPERSEDES: September 2010