Related Manuals for Eclipse 705
Summary of Contents for Eclipse 705
- Page 1 Enhanced Model 705 Software v3.x Installation and Operating Manual Guided Wave Radar Level Transmitter...
- Page 2 Read this Manual Before Installing Explosion hazard. Do not connect or dis- W RNING! connect designs rated Explosion proof or Non-incendive This manual provides information on the Eclipse ® trans- unless power has been switched off and/or the area is mitter.
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Page 3: Table Of Contents
........35 ® 1.1.2 Configuration Information......5 2.7.1 Connections..........35 1.2 QuickStart Mounting..........5 2.7.2 Display Menu..........35 1.2.1 Probe..............5 2.7.3 HART Menu – Model 705 3.x....36 1.2.2 Transmitter.............6 2.7.4 HART Revision Table........37 1.3 QuickStart Wiring............ 6 2.8 F fieldbus ™ Digital Communications... 37 OUNDATION 1.4 QuickStart Configuration......... -
Page 4: Quickstart Installation
QuickStart Installation The QuickStart Installation procedures provide the key steps for mounting, wiring, and configuring the Eclipse ® level transmitter. These procedures are intended for experi- enced installers of electronic level measurement instruments. See Complete Installation, Section 2.0, for detailed installa- tion instructions. -
Page 5: Configuration Information
② QuickStart Mounting NOTE: Confirm the configuration style and process connection size/type of the ECLIPSE transmitter. Ensure it matches the requirements of the installation before continuing with the QuickStart installation. ① Confirm the model and serial numbers on the nameplates of the ECLIPSE probe and transmitter are identical. -
Page 6: Transmitter
NOTE: Ensure that the electrical wiring to the ECLIPSE transmitter is complete and in compliance with all regulations and codes. 1. Remove the cover of the upper wiring compartment of the transmitter. -
Page 7: Quickstart Configuration
20 mA or Interface Level and Volume. Lvl Units (100% Point) ④ Select the Units of measurement for the level readout (inches, cm, feet or meters). Not included on Model 705 Fieldbus. Probe Ln Probe Model ⑤ xxx.x Probe Length Enter the exact Probe Length as printed on the probe nameplate. -
Page 8: Complete Installation
Complete Installation This section provides detailed procedures for properly installing and configuring the ECLIPSE Guided Wave Radar Level Transmitter. Unpacking Unpack the instrument carefully. Make sure all components have been removed from the packing material. Check all the contents against the packing slip and report any discrepan- cies to the factory. -
Page 9: Before You Begin
Operating specifications vary based on Probe model number. See Specifications, Section 3.6. Mounting The ECLIPSE transmitter can be mounted to a tank using a variety of process connections. Generally, either a threaded or flanged connection is used. For information about the sizes and types of connections available, see Probe Model Numbers, Section 3.7.2. -
Page 10: Installing A Coaxial Probe
Before installing, make sure the: • Model and serial numbers on the nameplates of the ECLIPSE probe and transmitter are identical. • Probe has adequate room for installation and has unob- structed entry to the bottom of the vessel. The Model 7xD (High Temp./High Pressure) probe, Model 7xP (High... -
Page 11: Installing A Twin Rod Probe
(Models 7xB, 7x5, and 7x7) Before installing, make sure the: • Model and serial numbers on the nameplates of the ECLIPSE probe and transmitter are identical. • Probe has adequate headroom for installation and has unob- structed entry to the bottom of the vessel. -
Page 12: To Install A Model 7X7 Standard Flexible Twin Rod Probe
(Models 7x1, 7x2, 7xF, 7xJ) Before installing, make sure the: • Model and serial numbers on the nameplates of the ECLIPSE probe and transmitter are identical. • Probe has adequate headroom for installation and has unob- structed entry to the bottom of the vessel. -
Page 13: Installing A Rigid Probe
2.4.3.2 To install a Model 7x1 flexible single rod probe: ➀ Make sure the process connection is at least 2" NPT or a ➄ flanged mounting. ➁ Carefully place the probe into the vessel. Align the gasket on flanged installations. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 14: Installation Guidelines-Models 7X2/7X5 Bulk Solids Probes
3. A metal flange must be used when mounting on plastic vessels. 2.4.4.3 To install a Model 7x5 bulk solids flexible twin rod probe: ➀ Make sure the process connection is at least 2" NPT or a flanged mounting. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 15: To Install A Bulk Solids Single Rod Probe
Slide the weight back on to the probe. e. Reinstall the two cable clamps and tighten. Model 7x2 Single Rod Bulk Solids Probe f. Enter the new probe length (inches or cm) in software. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 16: Installing The Transmitter
45 ft-lbs. A torque wrench is highly recommended. This is a critical connection. DO NOT LEAVE HAND-TIGHT. ➂ ➁ NOTE: Remote mounting is recommended for all cast 316 SS enclosures due to their extra weight. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 17: Wiring
Wiring Caution: All HART versions of the ECLIPSE Model 705 transmitter operate at voltages of 11–36 VDC. Higher voltage will damage the transmitter. Wiring between the power supply and the ECLIPSE transmitter should be made using 18–22 AWG shielded twisted pair instrument cable. Within the transmitter enclosure, connections are made to the terminal strip and the ground connections. -
Page 18: Intrinsically Safe
1. Make sure the IS barrier is properly installed in the safe area (refer to local plant or facility procedures). Complete the wiring from the barrier to the ECLIPSE transmitter. 2. Remove the cover to the wiring compartment of the trans- mitter. -
Page 19: Configuring The Transmitter
Refer to instruction manual 57-640 for detailed fieldbus information. OUNDATION 2.6.1 Operating Parameters Some key information is needed to calibrate the ECLIPSE transmitter. Complete the configuration information table in Section 1.1.2. 2.6.2 Setting Up for Bench Configuration The ECLIPSE transmitter can be configured at a test... -
Page 20: Transmitter Display And Keypad
2.6.3 Transmitter Display and Keypad The ECLIPSE transmitter has an optional liquid crystal display (LCD) capable of showing two lines of 8 characters each. Transmitter measurements and configuration menu screens are shown on the LCD. The transmitter default display is the measurement screen. -
Page 21: Model 705 Menu: Step-By-Step Procedure
2.6.5 Model 705 Menu: Step-By-Step Procedure The following tables provide a complete explanation of the software menus displayed by the ECLIPSE transmitter. Use these tables as a step-by-step guide to configure the transmitter based on a desired measurement type of: •... - Page 22 New Pass Enter new password (0-255) Displays encrypted value of present password Language (select) Select from English, Spanish, Language choice for LCD display French, German Mdl705HT Ver3.0a0 Transmitter display Product identification Firmware version 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 23 Present temperature in electronics compartment (degrees Celsius) Max Temp xxx C Superuser Password Maximum electronics temperature recorded Min Temp xxx C Superuser Password Minimum electronics temperature recorded SZ Hyst xx.x lu Superuser Password 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 24: Measurement Type: Level And Volume
Select from 3.6 mA, 22 mA or HOLD in presence of a fault BlockDis Enter distance below refer- Allows user to ignore level measurements near the top of the xx.x lu ence point where level is not probe sensed 57-600 Eclipse ® Guided Wave Radar Transmitter... - Page 25 FidTicks xxxx Diagnostic Display Time of flight from start of ramp to fiducial Fid Type (select) Superuser Password Select from positive or negative (Selection only allowed for some probes) Fid Spread 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 26 Present temperature in electronics compartment (degrees Celsius) Max Temp xxx C Diagnostic Display Maximum electronics temperature recorded Min Temp xxx C Diagnostic Display Minimum electronics temperature recorded SZ Hyst xx.x lu Diagnostic Display Diagnostic factory setting 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 27: Measurement Type: Interface Level
Select from 3.6 mA, 22 mA or HOLD in presence of a fault BlockDis Enter distance below Allows user to ignore level measurements near the top of probe xx.x lu reference point where level is not sensed 57-600 Eclipse ® Guided Wave Radar Transmitter... - Page 28 Diagnostic Display of recent exceptions Run Time History Reset Press Enter and select yes Similar to SZ Alarm Reset to clear history HF cable (select) Superuser Parameter Select from 3-foot or 12-foot remote 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 29 Present temperature in electronics compartment (degrees Celsius) Max Temp xxx C Superuser Password Maximum electronics temperature recorded Min Temp xxx C Superuser Password Minimum electronics temperature recorded SZ Hyst xx.x lu Superuser Parameter Safety Zone hysteresis height 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 30: Measurement Type: Interface And Volume
A Damping factor (0–10 seconds) may be added to smooth the desired damping output due to turbulence Fault (select) Select the loop current value Select from 3.6 mA, 22 mA or HOLD in presence of a fault 57-600 Eclipse ® Guided Wave Radar Transmitter... - Page 31 Allows for viewing the factory parameters parameter menus History (current status) Press Enter to view history Diagnostic Display of recent exceptions HF cable (select) Superuser Parameter Select from 3-foot or 12-foot remote Run Time 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 32 Present temperature in electronics compartment (degrees Celsius) Max Temp xxx C Superuser Password Maximum electronics temperature recorded Min Temp xxx C Superuser Password Minimum electronics temperature recorded SZ Hyst xx.x lu Superuser Password Diagnostic factory setting 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 33: Offset Description
2.6.6 Offset Description The parameter referred to as Lvl Ofst in the ECLIPSE menu LvlUnits is the desired level reading when liquid surface is at the end of the probe. The ECLIPSE transmitter is shipped from the PrbModel 7xA-x factory with Lvl Ofst set to 0. With this configuration, all PrbMount measurements are referenced from the bottom of the probe. -
Page 34: Strapping Table Description
As above, a twenty-point table is available. However, with this procedure, the user can allow the Model 705 to use the present level as the strapping table entry. 1. Scroll down to the Strapping Table parameter and press enter, Pt01Lvl is displayed. -
Page 35: Configuration Using Hart
A typical communicator display is an 8-line by 21-character LCD. When connected, the top line of each menu displays Control the model (Model 705 3.x) and its tag number or address. Room Display Usually the bottom line of each menu is reserved for software-... -
Page 36: Hart Menu - Model 705 3.X
2.7.3 HART Menu – Model 705 3.x 1 Device Setup 2 Level 3 % Range 4 Loop 5 Device Variables 1 Level 2 Volume 3 IfcLvl 4 IfcVol 1 Calibration 2 Basic Setup 3 Advanced Setup 4 Diagnostics 5 Review... -
Page 37: Hart Revision Table
(the varying 4–20 mA current), a digital communications scheme such as Fieldbus considers the two wires as a network. The network can carry many process variables as well as other information. The ECLIPSE Model 705FF transmitter is a F fieldbus regis-... -
Page 38: Benefits
3. Maintenance: The self-diagnostics residing in the smart field devices minimizes the need to send maintenance personnel to the field. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 39: Device Configuration
Instead of the conservative entity model, which only allows about 90 mA of current, the FISCO model allows a maximum of 110 mA for Class II C installations and 240 mA for Class II B installations. 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 40: Reference Information
FISCO certifying agencies have limited the maximum segment length to 1000 meters because the FISCO model does not rely on standardized ignition curves. The ECLIPSE Model 705 is available with an entity IS, FISCO IS, and explosion proof approvals. Reference Information... -
Page 41: Interface Detection
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. -
Page 42: Time Domain Reflectometry (Tdr)
In the ECLIPSE transmitter, a waveguide with a characteristic impedance in air is used as a probe. When part of the probe is immersed in a material other than air, there is lower impedance due to the increase in the dielectric. -
Page 43: Troubleshooting
Troubleshooting The ECLIPSE transmitter is designed and engineered for trouble-free operation over a wide range of operating conditions. Common transmitter problems are discussed in terms of their symptoms and recommended corrective actions. Information on how to handle material buildup on the probe is also provided in this section. -
Page 44: Status Messages
End of Probe signal is out of 1) Ensure probe length is entered correctly range 2) Consult factory (old twin rod probe being used with enhanced 705) WeakSgnl None. Signal amplitude is lower 1) Set transmitter to lower dielectric range than desired. - Page 45 ™ The ECLIPSE Model 705 offers the ability to do Trending and Echo Curve analysis using a PACTw re DTM. This is a powerful troubleshooting tool that can aid in the resolution of some of the Error Messages shown above.
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Page 46: Troubleshooting Applications
• Continuous Film Coating The most typical of coating problems where the media forms a continuous coating on the probe. ECLIPSE will continue to measure effectively with some small degrada- tion in performance. A problem can develop if the product begins to build up on the spacers that separate the probe elements. -
Page 47: Model 705 (Single Rod Application)
➂ Coating • Stratification/Interface Buildup The Model 705 and Single Rod probe should not be used in applications where media can separate and stratify creat- ➀ ing an interface application (e.g., water over oil). The cir- cuitry will detect the lower level—the higher dielectric medium (e.g., the water level). -
Page 48: Agency Approvals
For applications in explosive atmospheres caused by gases, vapors 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. -
Page 49: Agency Specifications (Is Installation)
3.4.2 Agency Specifications – Intrinsically Safe Installation 57-600 clipse ® Guided Wave Radar Transmitter... -
Page 50: Agency Specifications (Foundation Fieldbus)
3.4.3 Agency Specifications – F fieldbus System oundAtIon 57-600 clipse ® Guided Wave Radar Transmitter... -
Page 51: Parts
Z31-2841-002 OUNDATION ➁ Terminal board HART General Purpose (GP), Intrinsically Safe (IS), Explosion Proof (XP) Z30-9151-001 fieldbus (XP) Z30-9151-003 OUNDATION fieldbus (IS/Fisco) Z30-9151-004 OUNDATION ➃ ➂ ➄ ➁ ➂ ➀ 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 52: Specifications
Steam, hot alkaline solutions HF acid, +800 °F -320 °F Borosilicate applications, hydrocarbons, full vacuum (+430 °C) (-195 °C) media with ph>12 (hermetic), ammonia, chlorine ➀ Maximum temperature of O-ring (not necessarily maximum process temperature) 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 53: Performance (Model 705)
ANSI/ISA-S71.03 Class SA1 Vibration Class ANSI/ISA-S71.03 Class VC2 SIL 3 Capable Safe Failure Fraction (SFF) 91% 3.6.2 Performance - Model 705 Reference Conditions ➁ Reflection from water at +70 °F (+20 °C) with 72" coaxial probe (CFD threshold) Linearity ➂... -
Page 54: Performance (Model 705 Interface)
3.6.3 Performance - Model 705 Interface Reference Conditions Reflection from liquid of selected dielectric at +70 °F (+20 °C) with 72" probe Linearity <0.5 inch Measured Error Upper layer ±1 inch Interface layer ±1 inch (clean distinct interface required) Upper Layer Dielectric 1.4–5.0... -
Page 55: Probe Specifications
Continuous, smooth, parallel conductive surface; e.g., tank wall. Important that probe does not touch wall. <6" <1" (25 mm) diameter pipe and beams, ladder rungs <12" <1" (75 mm) diameter pipe and beams, concrete walls <18" All remaining objects 57-600 Eclipse ® Guided Wave Radar Transmitter... -
Page 56: Physical
33.00 or 144 4.94 (70) (838 or 3650) (126) 3.75 3.00 2.00 (95) (76) (51) 2 Holes 3.50 4.00 4.38 .38 (10) Dia. (89) (102) (111) Eclipse Housing ® (45° View) Eclipse Remote Configuration ® 57-600 Eclipse ® Guided Wave Radar Transmitter... - Page 57 Insertion Length Length HT PEEK spacer Eclipse with 7xG Probe Eclipse with 7xR or 7xT Probe Eclipse with 7xR or 7xT Probe ® ® ® max 240" (6.1 m) Threaded Connection Flanged Connection 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 58 10 oz. (284 grams) 316SS Weight 5 lb. (2268 grams) Eclipse with 7x7 Twin Rod Flexible Probe Eclipse with 7x5 Twin Rod Bulk Solids Flexible Probe ® ® Flanged or NPT Connection Flanged or NPT Connection 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 59 TFE Weight 1 lb. (454 grams) 316SS Weight 5 lb. (2268 grams) Eclipse with 7x1 Flexible Probe Eclipse with 7x2 Bulk Solids Flexible Probe ® ® Flanged or NPT Connection Flanged or NPT Connection 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 60: Model Numbers
Model Numbers 3.7.1 Transmitter BASIC MODEL NUMBER 705 ECLIPSE Guided Wave Radar Level Transmitter POWER 24 VDC, Two-wire SIGNAL OUTPUT AND ELECTRONICS 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%) – Certified ➀... -
Page 61: Probe
3.7.2 Probe BASIC MODEL NUMBER ECLIPSE GWR probe, English unit of measure ECLIPSE GWR probe, Metric unit of measure CONFIGURATION/STYLE Coaxial High Temp./High Pressure Coaxial Overfill Probe ⁄ " process connection Coaxial High Temp./High Pressure w/Flushing Conn. Dielectric range ≥1.4... - Page 62 4" 2500# ➀ Configuration/Style Codes A, D, P, R, S & T only ➁ Configuration/Style Codes D, J, P & S only ➂ Configuration/Style Codes B, F, J, 1, 2, 5 & 7 only 57-600 Eclipse ® Guided Wave Radar Transmitter...
- Page 63 Examples: 24 inches = 024; 60 centimeters = 060 LENGTH – FLEXIBLE PROBE MODEL 6' to 75' (1 to 22 m) (unit of measure is determined by second digit of Model Number) Examples: 30 feet = 030; 10 meters = 010 57-600 Eclipse ® Guided Wave Radar Transmitter...
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Page 64: Glossary
Factory Sealed A third-party-approved Explosion Proof seal CSA) or the local inspector. installed in the unit during manufacturing. This alleviates the end user from installing an external XP seal adjacent (within 18") to the device. 57-600 Eclipse ® Guided Wave Radar Transmitter... - Page 65 Guided Wave Radar Waveguide See Probe. propagation and measurement. <Window> A time slice variable that enhances system resolution. QuickStart The essential information needed for the ECLIPSE (Factory setting). transmitter and probe to be installed, wired, and calibrated. 57-600 Eclipse ®...
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Page 66: Model 705 Configuration Data Sheet
705 Eclipse Guided Wave Radar Transmitter ® Configuration Data Sheet Copy blank page and store calibration data for future reference and troubleshooting. Item Value Value Value Vessel Name Vessel # Process Medium Tag # Electronics Serial # TROUBLESHOOTING Probe Serial #... - Page 67 705 Eclipse Guided Wave Radar Transmitter ® Configuration Data Sheet Copy blank page and store calibration data for future reference and troubleshooting. Item Value Value Value TROUBLESHOOTING Working Value Non-Working Value FidTicks FidSprd Fid Type Fid Gain Window Conv Fct...
- Page 68 No claims for misapplication, labor, direct or consequen- tial damage will be allowed. ECLIPSE Guided Wave Radar transmitters may be protected by one or more of the following U.S. Patent Nos. US 6,626,038; US 6,640,629; US 6,642,807. May depend on model.