MAGNETROL 705-52-A-321

Enhanced Model 705 with
PROFIBUS PA™ Digital Output
705 software v3.x
PROFIBUS PA Operating Manual
™
Guided Wave Radar
Level Transmitter
Read this Manual Before Installing
This manual provides information on the Enhanced
Eclipse Model 705 transmitter with PROFIBUS PA™
Output and should be used in conjunction with Eclipse
I&O manual 57-600. It is important that all instructions are read and followed carefully.
Performance specifications are effective with date of
issue and are subject to change without notice.
Magnetrol/STI reserves the right to make changes to the
product described in this manual at any time without
notice. Magnetrol/STI makes no warranty with respect
to the accuracy of the information in this manual.
Safety Messages
The Eclipse system is designed for use in Category II,
Pollution Degree 2 installations. Follow all standard
industry procedures for servicing electrical and computer
equipment when working with or around high voltage.
Always shut off the power supply before touching any
components. Although high voltage is not present in this
system, it may be present in other systems.
Warranty
All Magnetrol/STI 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/STI will repair or replace the control at no
cost to the purchaser (or owner) other than transportation.
Electrical components are sensitive to electrostatic discharge. To prevent equipment damage, observe safety
procedures when working with electrostatic sensitive
components.
This device complies with Part 15 of the FCC rules.
Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received,
including interference that may cause undesired operation.
WARNING! Explosion hazard. Do not connect or disconnect designs rated Explosion proof or Non-incendive
unless power has been switched off and/or the area is
known to be non-hazardous
Low Voltage Directive
For use in Installations Category II, Pollution Degree 2.
If equipment is used in a manner not specified by the
manufacturer, protection provided by equipment may be
impaired.
Magnetrol/STI 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/STI
products.
Quality assurance
The quality assurance system in place at Magnetrol/STI
guarantees the highest level of quality throughout the
company. Magnetrol is committed to providing full
customer satisfaction both in quality products and
quality service.
Magnetrol’s 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.
Notice of Copyright and Limitations
Magnetrol and Magnetrol logotype, STI and STI logotype, and Eclipse are registered trademarks of Magnetrol
International.
Copyright © 2009 Magnetrol International
All rights reserved
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
PROFIBUS PA™ Enhanced Eclipse Model 705
Guided Wave Radar Transmitter
Table of Contents
1.0 PROFIBUS PA™ Overview.............................................4
1.1 Description ...............................................................4
1.2 Benefits .....................................................................5
1.3 Device Configuration................................................5
1.4 Intrinsic Safety ..........................................................6
2.0 QuickStart Installation ...................................................7
2.1 Getting Started..........................................................7
2.1.1 Equipment and Tools .....................................7
2.1.2 Configuration Information.............................8
2.2 QuickStart Mounting................................................8
2.2.1 Probe..............................................................8
2.2.2 Transmitter.....................................................9
2.3 QuickStart Wiring ....................................................9
2.4 QuickStart Configuration .......................................10
3.0 Complete Installation...................................................11
3.1 Unpacking ..............................................................11
3.2 Electrostatic Discharge (ESD) Handling Procedure..11
3.3 Before You Begin.....................................................12
3.3.1 Site Preparation ............................................12
3.3.2 Equipment and Tools ...................................12
3.3.3 Operational Considerations..........................12
3.4 Mounting................................................................12
3.4.1 Installing a Coaxial Probe.............................13
3.4.1.1 To install a coaxial probe.......................13
3.4.2 Installing a Twin Rod Probe .........................14
3.4.2.1 To install a rigid twin rod probe............14
3.4.2.2 To install a Model 7x7 standard
flexible twin rod probe ..........................15
3.4.3 Installing a Single Rod Probe .......................15
3.4.3.1 Installing a rigid probe ..........................16
3.4.3.2 Installing a flexible probe ......................16
3.4.4 Installation Guidelines–
Models 7x2/7x5 Bulk Solids Probes .............17
3.4.4.1 Applications ..........................................17
3.4.4.2 Mounting recommendations .................17
3.4.4.3 To install a bulk solids twin rod probe ..17
3.4.4.4 To install a bulk solids single rod probe 18
3.4.5 Installing the Transmitter .............................19
3.4.5.1 Integral Mount......................................19
3.4.5.2 Remote Mount......................................19
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
4.0 Function Blocks............................................................20
4.1 Overview.................................................................20
4.1.1 Standard Profibus Block Parameters .............20
4.2 Physical Block .........................................................21
4.3 GWR Transducer Block ..........................................24
4.3.1 GWR Transducer Block Parameters..............24
4.3.2 Password Parameters.....................................24
4.3.3 Configuration Parameters.............................25
4.3.4 Offset Description........................................26
4.4 Calibration Parameters ............................................27
4.4.1 Factory Parameters .......................................27
4.4.2 Firmware Version .........................................27
4.5 Analog Input Block.................................................28
4.5.1 AI Block Parameters .....................................28
4.5.2 Local Display of
Analog Input Block Output Values ..............29
4.5.2.1 AI Out Display Screens.........................30
5.0 Model 705 Menu: Step by Step Procedure ...................31
6.0 Diagnostic Parameters ..................................................33
6.1 Simulation Feature ..................................................33
7.0 Reference Information..................................................35
7.1 Troubleshooting ......................................................35
7.1.1 Troubleshooting System Problems................35
7.1.2 Device Status Prameter in the
Transducer Block..........................................36
7.1.3 Error Mapped to Diagnosis ..........................38
7.2 Agency Approvals....................................................39
7.2.1 Agency Specifications –
PROFIBUS PA™ System ..............................40
7.3 Specifications ..........................................................41
7.3.1 Functional ....................................................41
7.3.2 Performance – Model 705 ............................42
7.3.3 Performance – Model 705 Interface .............43
7.4 Parts ........................................................................44
7.4.1 Replacement Parts ........................................44
7.4.2 Recommended Spare Parts ...........................44
7.5 Model Numbers......................................................45
7.5.1 Transmitter...................................................45
7.5.2 Probe............................................................46
7.6 References ...............................................................49
Appendix ...............................................................49
Configuration Data Sheet .....................................50
1.0
PROFIBUS PA™ Overview
1.1
Description
PROFIBUS PA™ is a digital communications system that
serially interconnects devices in the field. A fieldbus system
is similar to a Distributed Control System (DCS) with two
exceptions:
• Although a PROFIBUS PA™ system can use the same physical wiring as an existing 4–20 mA device, fieldbus devices
are not connected point to point, but rather are multidropped and wired in parallel on a single pair of wires
(referred to as a segment).
• PROFIBUS PA™ is a system that allows the user to
distribute control across a network. Fieldbus devices are
smart and actually maintain control over the system.
6234 feet (1900 meters) maximum
PC
Power
Conditioner
Terminator
Terminator
Power Supply
Control Room
Typical Fieldbus Installation
Unlike 4–20 mA analog installations in which the two wires
carry a single variable (the varying 4–20 mA current), a digital communications scheme such as PROFIBUS PA™ considers the two wires as a network. The network can carry
many process variables as well as other information. The
Enhanced Eclipse Model 705PA transmitter is a
PROFIBUS PA™ certified device that communicates with
the DPV1 protocol operating at 31.25 kbits/sec. The MBP
physical layer is an approved IEC 61158 standard.
An IEC61158 shielded twisted pair wire segment can be as
long as 6234 feet (1900 meters) without a repeater. Up to
4 repeaters per segment can be used to extend the distance.
The maximum number of devices allowed on a fieldbus segment is 32 although this depends on the current draw
of the devices on any given segment.
4
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
Details regarding cable specifications, grounding, termination,
and other network information can be found in IEC 61158
or the technical guideline “PROFIBUS PA™ User and
Installation Guideline” at www.profibus.com.
1.2
Benefits
The benefits of PROFIBUS PA™ can be found throughout
all phases of an installation:
1. Design/Installation: Connecting multiple devices to a single
pair of wires means less wire and fewer I/O equipment.
Initial Engineering costs are also reduced because
PROFIBUS International requires interoperability, defined
as “the ability to operate multiple devices in the same system,
regardless of manufacturer, without a loss of functionality.”
All PROFIBUS PA™ devices must be tested for
interoperability by a PI accredited, independent testing
agency. Magnetrol Model 705PA device certification information can be found at www.profibus.com.
2. Operation: A PROFIBUS PA™ system allows for multiple
variables to be brought back from each device to the control
room for additional trending and reporting.
3. Maintenance: The self-diagnostics residing in the smart
field devices minimizes the need to send maintenance
personnel to the field.
1.3
Device Configuration
The function of a PROFIBUS PA™ device is determined by
the arrangement of a system of blocks. The types of blocks
used in a typical User Application are described as follows:
Physical Block describes the characteristics of the
PROFIBUS PA™ device such as the device name,
manufacturer, and serial number.
Function Blocks are built into the PROFIBUS PA™ devices
as needed to provide the desired control system behavior.
There can be numerous function blocks in a single User
Application.
Transducer Blocks contain information such as calibration
parameters and sensor type. They are used to connect the
sensor to the input function blocks.
An important requirement of fieldbus devices is the interoperability concept mentioned earlier. Device Description
(DD) technology can provide extended descriptions for
each object and provides pertinent information useful for a
host system.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
5
DDs are similar to the drivers that your personal computer
(PC) uses to operate peripheral devices connected to it.
General PROFIBUS Information:
• The Model 705 supports PA Profile Version 3.0
• The Ident Number issued by the PNO for Magnetrol
Model 705 3.x is 0x09B3. The Ident Number is included
in the name of the GSD file.
• The General Station Description (GSD) file provides
information on the features and performance capabilities
of a PROFIBUS device to allow easy configuration of
PROFIBUS networks with devices from different
manufacturers. The manufacturer-specific GSD file for PA
Model 705 3.x is Mag_09B3.gsd. Also, a bitmap file
specified in the GSD file provides a symbolic representation of the device for network configuration tools.
• The Model 705 3.x can also use the profile-specific GSD
file PA139703.gsd. If this general GSD file is used, the
“Ident number Selector” parameter in the Physical Block
must be set to the profile-specific ident number. The
default selection of the “Ident Number Selector”
parameter is the manufacturer-specific ident number.
• A Device Description is available for configuring the
device using Simatic PDM.
• The range of device bus addresses is 0 to 126. 126 is the
default address and all units will ship with address 126
unless a non-default address assignment is requested by
the customer. The address can be changed via the fieldbus
or the local LCD interface.
Additional information can be found at www.profibus.com.
1.3.1 PROFIBUS DD Revision Table
Model 705 3.x
DD Version
Release Date
Dev V1 DD V1
Dev V2 DD V1
1.4
Compatible with model 705 PA
Firmware
Software Revision
December 2007
3.0K
V2.11
March 2009
3.1C
V2.11 (Rev 2)
Intrinsic Safety
The IEC61158 physical layer supports Intrinsic Safety (IS)
applications with bus-powered devices. To accomplish this,
an IS barrier or galvanic isolator is placed between the
power supply in the safe area and the device in the
hazardous area.
6
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
IEC61158 also supports the Fieldbus Intrinsically Safe
Concept (FISCO) model which allows more field devices in
a network. The FISCO model considers the capacitance and
inductance of the wiring to be distributed along its entire
length. Therefore, the stored energy during a fault will be
less and more devices are permitted on a pair of wires.
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.
FISCO certifying agencies have limited the maximum
segment length to 1000 meters because the FISCO model
does not rely on standardized ignition curves.
The Enhanced Eclipse Model 705 is available with entity IS,
FISCO IS, FNICO non-incendive, or explosion proof
approvals.
2.0
QuickStart Installation
The QuickStart Installation procedures provide the key
steps for mounting, wiring, and configuring the Eclipse
level transmitter. These procedures are intended for experienced installers of electronic level measurement instruments.
See Complete Installation, Section 3.0, for detailed installation instructions.
WARNING:
2.1
The Model 7xD, 7xR or 7xT overfill probes should be
used for Safety Shutdown/Overfill applications. All
other Guided Wave Radar probes should be installed
so the maximum overfill level is a minimum of
6" (150 mm) below the process connection. This may
include utilizing a nozzle or spool piece to raise the
probe. Consult factory to ensure proper installation.
Getting Started
Before beginning the QuickStart Installation procedures,
have the proper equipment, tools, and information available.
2.1.1 Equipment and Tools
• Open-end wrenches or adjustable wrench to fit the process
connection size and type. Coaxial probe 11⁄2" (38 mm),
twin rod probe 17⁄8" (47 mm), transmitter
11⁄2" (38 mm). A torque wrench is highly desirable.
• Flat-blade screwdriver
• Cable cutter and 3⁄32" (2.5 mm) hex wrench
(Flexible probes only)
• Fieldbus-compatible power supply with proper termination
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7
2.1.2 Configuration Information
Some key information is needed to configure the
Eclipse transmitter. Complete the following operating
parameters table before beginning configuration.
Display
Probe Model
Probe Mount
8
Is the probe mounted NPT, BSP,
or flange?
_____________
Probe Length
What probe length is listed on the
model information?
(last three digits of probe model number) _____________
Level Offset
The desired level reading when the
liquid is at the end of the probe.
_____________
What is the dielectric constant range
of the process medium? (Lower layer
dielectric for interface applications)
_____________
2.2
_____________
What is the desired measurement? Choices
are: Level only, Volume, Interface Level
or Interface Level and Volume.
_____________
Answer
Measurement
Type
Dielectric
Question
What probe model is listed on the
model information?
(first four digits of probe model number)
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.
Confirm the model and serial numbers on the nameplates
of the Eclipse probe and transmitter are identical.
For applications using the Model 7xS steam probe, it is
mandatory to keep the transmitter and probe matched
as a set.
2.2.1 Probe
Carefully place the probe into the vessel. Align the probe
process connection with the threaded or flanged mounting
on the vessel.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
2.2.2 Transmitter
Tighten the hex nut of the probe process connection or
flange bolts.
NOTE: Leave the plastic protective cap in place until ready to
install the transmitter. Do not use sealing compound or TFE
tape on probe connection to transmitter as this connection is
sealed by a Viton® O-ring.
Remove the protective plastic cap from the top of the probe
and store for future use. Make sure the top probe connector
(female socket) is clean and dry. Clean with isopropyl
alcohol and cotton swabs if necessary.
Place the transmitter on the probe. Align the universal
connection at the base of the transmitter housing with the
top of the probe. Hand tighten the connection.
Rotate the transmitter so that it is in the most convenient
position for wiring, configuring, and viewing.
Using a 11⁄2" (38 mm) wrench, tighten the universal
connection on the transmitter 1⁄4 to 1⁄2 turn beyond hand
tight. A torque wrench is highly recommended to obtain
15 ft-lbs. This is a critical connection. DO NOT LEAVE
HAND TIGHT.
2.3
QuickStart Wiring
WARNING! Explosion hazard. Do not connect or disconnect equipment unless power has been switched off or the area is
known to be non-hazardous.
Brown
(typical) (-)
Blue
(typical) (+)
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.
2. Attach a conduit fitting and mount the conduit plug in the
spare opening. Pull the power supply wire through the conduit fitting.
3. Connect shield to an earth ground at power supply.
4. Connect the positive supply wire to the (+) terminal and the
negative supply wire to the (-) terminal.
5. Replace the cover and tighten.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
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QuickStart Configuration
Up
4.
6.
7.
5.
Down
2.
3.
Enter
1.
The Eclipse transmitter comes partially configured from
the factory but can be reconfigured in the shop (disregard
fault message due to unattached probe). The minimum
configuration instructions required in the field follow. Use
the information from the operating parameters table in
Section 2.1.2 before beginning configuration.
Power up the transmitter.
The display changes every 5 seconds to show one of two
values: Status & Level.
Remove the cover of the lower electronic compartment.
Use the Up or Down Arrow (
) keys to move from one
step of the configuration program to the next step.
Press the Enter Arrow ( ) key. The last
PrbModel
character in the first line of the display
xxx
changes to an exclamation point (!).
Use the Up or Down Arrow (
) keys to increase or
decrease the value in the display or to scroll through the
choices.
Press the Enter Arrow ( ) key to accept a value and move
to the next step of the configuration program (the default
password is 0).
After entering the last value, allow 10 seconds before
removing power from the transmitter.
2.4
The following configuration entries are the minimum required for
configuration (the default password is 0 from the LCD/keypad).
2
Probe Mount
1
Probe Model
6
Dielectric
of Medium
4
Probe Length
Level Offset 5
10
PrbModel
(select)
Select the Probe Model to be used
Model 705: 7xA-x, 7xB-x, 7xD-x, 7xE-x, 7xF-F, 7xF-P,
7xF-4, 7xF-x, 7xJ-x, 7xK-x, 7xP-x, 7xR-x, 7xS-x,
7xT-x, 7x1-x, 7x2-x, 7x5-x, 7x7-x
PrbMount
(select)
Select the type of Probe Mounting to vessel (NPT, BSP, or
flange).
MeasType
(select)
Select from Level Only, Level and Volume, Interface Level
or Interface Level and Volume.
Probe Ln
xxx.x
Enter the exact Probe Length as printed on the probe
nameplate.
LvlOfst
xxx.x
Enter the Level Offset value. Refer to Section 2.6.6 for
further information. (The unit is shipped from the factory
with offset = 0; i.e., all measurements are referenced to
the bottom of the probe).
Dielctrc
(select)
Enter the Dielectric range for the material to be measured.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
3.0
Complete Installation
This section provides detailed procedures for properly
installing and configuring the Eclipse Guided Wave Radar
Level Transmitter.
3.1
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 discrepancies to the factory.
Before proceeding with the installation, do the following:
• Inspect all components for damage. Report any damage to
the carrier within 24 hours.
• Make sure the nameplate model number on the probe and
transmitter agree with the packing slip and purchase order.
• Record the model and serial numbers for future reference
when ordering parts.
Model Number
Serial Number
3.2
Electrostatic Discharge (ESD)
Handling Procedure
Magnetrol’s electronic instruments are manufactured to the
highest quality standards. These instruments use electronic
components that may be damaged by static electricity present in most work environments.
•
•
•
•
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
The following steps are recommended to reduce the risk of
component failure due to electrostatic discharge.
Ship and store circuit boards in anti-static bags. If an antistatic bag is not available, wrap the board in aluminum foil.
Do not place boards on foam packing materials.
Use a grounding wrist strap when installing and removing
circuit boards. A grounded workstation is recommended.
Handle circuit boards only by the edges. Do not touch
components or connector pins.
Make sure that all electrical connections are completely
made and none are partial or floating. Ground all equipment to a good, earth ground.
11
3.3
Before You Begin
3.3.1 Site Preparation
Each Eclipse transmitter is built to match the specific physical specifications of the required installation. Make sure the
probe connection is correct for the threaded or flanged
mounting on the vessel or tank where the transmitter will
be placed. See Mounting, Section 3.4.
Make sure that the wiring between the power supply and
Eclipse transmitter are complete and correct for the type of
installation.
When installing the Eclipse transmitter in a general purpose
or hazardous area, all local, state, and federal regulations and
guidelines must be observed.
3.3.2 Equipment and Tools
No special equipment or tools are required to install the
Eclipse transmitter. The following items are recommended:
• Open-end wrenches or adjustable wrench to fit the process
connection size and type. Coaxial probe 11⁄2" (38 mm), twin
rod probe 17⁄8" (47 mm), transmitter 11⁄2" (38 mm). A torque
wrench is highly desirable.
• Flat-blade screwdriver
• Fieldbus-compatible power supply with proper termination
3.3.3 Operational Considerations
Operating specifications vary based on Probe model
number.
3.4
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 7.5.2.
NOTE: Do not place insulating material around any part of the Eclipse
transmitter including the probe flange as this may cause excessive heat buildup.
Make sure all mounting connections are properly in place
on the tank before installing the probe. Compare the nameplate on the probe and transmitter with the product information; make sure the Eclipse probe is correct for the
intended installation.
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57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
WARNING! The Model 7xD, 7xR or 7xT overfill probes should be
used for Safety Shutdown/Overfill applications. All other
Guided Wave Radar probes should be installed so the
maximum overfill level is a minimum of 6" (150 mm)
below the process connection. This may include utilizing
a nozzle or spool piece to raise the probe. Consult
factory to ensure proper installation.
WARNING! Do not disassemble probe when in service and under
pressure.
3.4.1 Installing a Coaxial Probe
(Models 7xA, 7xD, 7xP, 7xR, 7xS, and 7xT)
•
•
•
•
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 unobstructed entry to the bottom of the vessel. The Model 7xD
(High Temp./High Pressure) probe, Model 7xP (High
Pressure) probe, Model 7xR (Overfill) probe, Model 7xS
(Steam) probe and Model 7xT (Interface) probe require
added clearance.
Process temperature, pressure, dielectric, and viscosity are
within the probe specifications for the installation.
Model 7xD (High Temp./High Pressure) probes should be
handled with extra care due to the ceramic spacers used
throughout their length.
3.4.1.1 To install a coaxial probe:
Make sure the process connection is at least 3⁄4" NPT or a
flanged mounting.
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
NOTE: If the transmitter is to be installed at a later time, do not remove
the protective cap from the probe. Do not use sealing compound or TFE tape on probe connection to transmitter as this
connection is sealed by a Viton® O-ring.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
13
3.4.2 Installing a Twin Rod Probe
(Models 7xB, 7x5, and 7x7)
Before installing, make sure the:
• Model and serial numbers on the nameplates of the Eclipse
probe and transmitter are identical.
• Probe has adequate headroom for installation and has unobstructed entry to the bottom of the vessel.
• Process temperature, pressure, dielectric, viscosity, and
media buildup are within the probe specifications for the
installation.
Nozzles:
The 7xB/7x5/7x7 Twin Rod probes may be susceptible to
objects that are in close proximity. The following rules
should be followed for proper application:
1. Nozzles should be 3" (80 mm) diameter or larger.
2. 7xB/7x5/7x7 Twin Rod probes should be installed such that
the active rod is >1" (25 mm) from metallic objects such as
pipes, ladders, etc., (a bare tank wall parallel to the probe is
acceptable).
3.4.2.1 To install a rigid twin rod probe:
Active
probe rod
Inactive
probe rod
Make sure the process connection is at least 2" NPT or a
flanged mounting.
Make sure that there is at least 1" (25 mm) spacing between
the active probe rod and any part of the tank (walls, stillwell, pipes, support beams, mixer blades, etc.). Minimum
stillwell diameter for Twin Rod probe is 3".
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
Probe can be stabilized by attaching the inactive probe rod
to vessel.
NOTE: If the transmitter is to be installed at a later time, do not remove
the protective cap from the probe. Do not use sealing compound or TFE tape on probe connection to transmitter as this
connection is sealed by a Viton® O-ring.
14
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
3.4.2.2 To install a Model 7x7 standard flexible twin rod probe:
Make sure the process connection is at least 2" NPT or a
flanged mounting.
Make sure that there is at least 1" (25 mm) spacing between
the active probe rod and any part of the tank (walls, stillwell, pipes, support beams, mixer blades, etc.). Minimum
stillwell diameter for Twin Rod probe is 3".
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
1
0.50" (13 mm) Ø
3
2
4
Probe can be shortened in the field:
a. Raise the weight (1) to expose the two securing devices (2).
b. Loosen the two #10-32 set screws (3) on both securing
devices using a 3⁄32" (2.5 mm) hex wrench and slide the
securing devices off of the probe.
c. Slide the TFE weight off of the probe.
d. Cut and remove the required cable (4) length.
e. Remove 31⁄2" of the rib between the two cables.
f. Strip 5⁄8" (16 mm) of coating from the two cables.
g. Slide the TFE weight back on to the probe.
h. Reattach securing device and tighten screws.
i. Enter new probe length (inches or cm) in software.
3.4.3 Installing a Single 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 unobstructed entry to the bottom of the vessel.
Process temperature, pressure, dielectric, viscosity, and
media buildup are within the probe specifications for the
installation.
Nozzle does not restrict performance by ensuring the
following:
1. Nozzle is <2" (50mm) diameter.
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15
B
A
2. Ratio of Diameter: Length (A:B) is 1:1 or greater; any
ratio <1:1 (e.g., a 2"× 6" nozzle = 1:3) may require a
Blocking Distance and/or DIELECTRIC adjustment
3. No pipe reducers (restrictions) are used.
• Probe is kept away from conductive objects to ensure proper
performance. See Probe Clearance Table below. A lower gain
(increase in DIELECTRIC setting) may be necessary to
ignore certain objects.
PROBE CLEARANCE GUIDELINES
Distance
to Probe
Acceptable Objects
<6"
Continuous, smooth, parallel conductive
surface, for example a metal tank wall;
important that probe does not touch wall
>6"
<1" (25mm) diameter pipe and beams,
ladder rungs
<3" (75mm) diameter pipe and beams,
concrete walls
>12"
>18"
All remaining objects
3.4.3.1 To install a Model 7xF rigid single rod probe:
Make sure the process connection is at least 2" NPT or a
flanged mounting.
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
Probe can be stabilized by placing into a non-metallic cup
or bracket at the bottom of the probe. A TFE bottom
spacer (P/N 89-9114-001) is optional for mounting into
a metallic cup or bracket.
NOTE: If the transmitter is to be installed at a later time, do not remove
the protective cap from the probe. Do not use sealing compound or TFE tape on probe connection to transmitter as this
connection is sealed by a Viton® O-ring.
3.4.3.2 To install a Model 7x1 flexible single rod probe:
Make sure the process connection is at least 2" NPT or a
flanged mounting.
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
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①
②
⑤
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
Probe can be shortened in field:
a. Raise TFE weight (1) exposing securing device (2).
b. Loosen both #10–32 set screws (3) using 3⁄32" (2.5 mm)
hex wrench and remove securing device.
c. Cut and remove needed cable (4) length.
d. Reattach securing device and tighten screws.
e. Enter new probe length (inches or cm) in software.
Probe can be attached to the tank bottom using the
0.50" (13 mm) ∅ hole provided in the TFE weight.
Cable tension should not exceed 20 lbs.
④
③
1
0.50" (13 mm) Ø
3.4.4 Installation Guidelines
Models 7x2/7x5 Bulk Solids Probes
The Model 7x2 and 7x5 Bulk Solids probes are designed for
a 3000 lb. (1360 kg) pull-down force for use in applications
such as sand, plastic pellets and grains. It is offered with a
maximum 75 foot (22 meter) probe length.
2
Model 7x2 Single Rod — dielectric ≥4
3
Model 7x5 Twin Rod — dielectric ≥1.9
4
NOTE: Avoid cement, heavy gravel, etc.
3.4.4.1 Applications
1.
2.
3.
4.
Plastic pellets, sugar: Dielectric constant 1.9-2.0
Grain, seeds, sand: Dielectric constant 2.0-3.0
Salts: Dielectric constant 4.0-7.0
Metallic powder, coal dust: Dielectric constant >7
3.4.4.2 Mounting recommendations
1. Use a weight instead of securing the probe to the vessel.
2. Mount probe at least 12 inches from the wall. Ideal
location is 1⁄4 to 1⁄6 the diameter to average the angle
of repose.
3. A metal flange must be used when mounting on plastic
vessels.
3.4.4.3 To install a Model 7x5 bulk solids flexible twin rod
probe:
Make sure the process connection is at least 2" NPT or a
flanged mounting.
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Make sure that there is at least 1" (25 mm) spacing
between the active probe rod and any part of the tank
(walls, stillwell, pipes, support beams, mixer blades, etc.).
Minimum stillwell diameter for Twin Rod probe is 3".
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
Model 7x5 Dual Rod
Bulk Solids Probe
Probe can be shortened in the field:
a. Loosen and remove the two cable clamps.
b. Slide the weight off of the probe.
c. Cut the cable to the required length.
d. Remove 12 inches of the rib between the two cables.
e. Strip 6 inches of coating from the two cables.
f. Slide the weight back on to the probe.
g. Reinstall the two cable clamps and tighten.
h. Enter the new probe length (inches or cm) in software.
3.4.4.4 To install a Model 7x2 bulk solids flexible single rod
probe:
Model 7x2 Single Rod
Bulk Solids Probe
18
Make sure the process connection is at least 2" NPT or a
flanged mounting.
Carefully place the probe into the vessel. Align the gasket
on flanged installations.
Align the probe process connection with the threaded or
flanged mounting on the vessel.
For threaded connections, tighten the hex nut of the probe
process connection. For flanged connections, tighten flange
bolts.
Probe can be shortened in field:
a. Loosen and remove the two cable clamps.
b. Slide the weight off of the probe.
c. Cut the cable to the required length plus 6.38".
d. Slide the weight back on to the probe.
e. Reinstall the two cable clamps and tighten.
f. Enter the new probe length (inches or cm) in software.
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3.4.5 Installing the Transmitter
The transmitter can be ordered for installation as an
Integral or Remote configuration.
3.4.5.1 Integral Mount
Remove the protective plastic cap from the top of the
probe. Put the cap in a safe place in case the transmitter has
to be removed later.
Place the transmitter on the probe. Be careful not to bend
or dirty the gold, high frequency (male) connector.
Align the universal connection at the base of the transmitter
housing with the top of the probe. Hand-tighten the
connection.
Rotate the transmitter to face the most convenient direction
for wiring, configuration, and viewing.
When the transmitter is facing the desired direction, use a
11⁄2" (38 mm) wrench to tighten the universal connection on
the transmitter to 15 ft-lbs. A torque wrench is highly recommended. This is a critical connection. DO NOT LEAVE
HAND-TIGHTENED.
3.4.5.2 Remote Mount
Mount the transmitter/remote bracket as an assembly
within 33" (84 cm) of the probe. DO NOT REMOVE
TRANSMITTER FROM BRACKET.
Remove the protective plastic cap from the top of the probe.
Put the cap in a safe place in case the transmitter has to be
removed later.
Align the universal connection at the end of the remote
assembly with the top of the probe. Using a 11⁄2" (38 mm)
wrench, tighten the universal connection on the transmitter
to 15 ft-lbs. A torque wrench is highly recommended. This is
a critical connection. DO NOT LEAVE HAND-TIGHTENED.
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4.0
Function Blocks
4.1
Overview
The Enhanced Eclipse Model 705 Guided Wave Radar
Level Transmitter operates on the principle of Time Domain
Reflectometry (TDR). Refer to Bulletins 57-101 and 57-600
for more detailed information on the Eclipse product family.
The Enhanced Eclipse Model 705PA is a Guided Wave
Radar (GWR) level transmitter with six PROFIBUS PA™
Blocks (one Physical Block, one Transducer Block, and four
Analog Input blocks). The idea of Function Blocks, which a
user can customize for a particular application, is a key concept of fieldbus topology. Function Blocks consist of an
algorithm, inputs and outputs, and a user-defined name.
The TRANSDUCER block output is available to the network through the ANALOG INPUT blocks.
The ANALOG INPUT blocks (AI) take the TRANSDUCER
block level or volume values and makes them available as an
analog value to the network. The AI blocks have scaling conversion, filtering, and alarm functions.
4.1.1 Standard PROFIBUSTM Block Parameters
The following are general descriptions of the parameters
common to all blocks. Additional information for a given
parameter is described later in that specific block section.
BLOCK_OBJECT: Contains the characteristics of the
block. This object applies to every block and is placed
before the first parameter.
ST_REV A read-only parameter to track changes of static
parameters in the associated block. ST_REV will be incremented each time a static parameter is changed.
TAG_DESC (tag descriptor): A user-supplied description
of the block.
STRATEGY: A user-specified value that may be used in
configuration or diagnostics as a key in sorting block
information.
ALERT_KEY: A user-assigned value that may be used in
sorting alarms or events generated by a block.
TARGET_MODE: This attribute indicates what mode of
operation is desired for the block.
MODE_BLK: A structured parameter composed of the actual
mode, the normal and the permitted mode(s) of a block.
The actual mode is set by the block during its execution to
reflect the mode used during execution
The permitted mode shows which changes of the target
mode are valid for the specific block
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ALARM_SUM: This parameter summarized the status of
up to 16 block alarms.
4.2
Physical Block
The Physical Block contains data specific to the Enhanced
Model 705 PA transmitter, along with some
information about the firmware.
NOTE: The Physical Block has no control function.
MODE_BLK: Actual mode must be in AUTO in order for
the AI Function blocks in the transmitter to operate.
NOTE: A Physical Block in “out of service” will stop all function block
execution in the transmitter.
SOFTWARE_REVISION: Revision number of the
software of the field device.
HARDWARE_REVISION: Revision number of the
hardware of the field device.
DEVICE_MAN_ID: Identification code of the
manufacturer of the field device.
DEVICE_ID: Manufacturer specific identification of the
device.
DEVICE_SER_NUM: Serial number of the device.
DIAGNOSIS: Detailed information about the device,
bitwise coded.
DIAGNOSIS_EXTENSION: Additional detailed
information about the device.
DIAGNOSIS_MASK: Definition of supported
DIAGNOSIS information-bits.
0 = not supported
1 = supported
DIAGNOSIS_MASK_EXTENSION: Definition of supported DIAGNOSIS_EXTENSION information-bits.
0 = not supported
1 = supported
DEVICE CERTIFICATION: Pertinent certifications of
the device.
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WRITE_LOCKING: Software write-protection can be
enabled or disabled.
FACTORY_RESET: Command for resetting the device for
default values. The setting of the bus address in not affected.
• RESTART_WITH_DEFAULTS: As RESTART
DEFAULT will set all configuration parameters to
their default values. Devices need to be reconfigured
following activation of this function. The bus address
is not affected.
• WARM_START: No parameters changed
• RESET_ADDRESS_TO_DEFAULT: Other
parameter unchanged
DESCRIPTOR: User-definable text string to describe the
device within the application.
DEVICE_MESSAGE: User-definable message string used
to describe the device within the application of in the plant.
DEVICE_INSTAL_DATE: Installation date of the device.
IDENT_NUMBER_SELECTOR: Selects manufacturerspecific Ident number issued by PNO or profile-specific
Ident number to determine features and behavior for
interacting with device.
HW_WRITE_PROTECTION: Indicates the position of a
write block mechanism (e.g., hardware jumper).
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4.3
GWR Transducer Block
The GWR TRANSDUCER block is a custom block
containing parameters that support the Enhanced Eclipse
Model 705 level transmitter. It contains the GWR probe
configuration, diagnostics, and calibration data, and outputs
level with status information.
The TRANSDUCER block parameters are grouped in a
useful configuration. There are both read-only parameters
and read-write parameters within the TRANSDUCER block.
• The read-only parameters report the block status and
operation modes.
• The read-write parameters affect the function block basic
operation, level transmitter operation, and calibration.
The Transducer Block remains in AUTO mode even when
the local interface (keypad) is used to change a parameter
online.
4.3.1 GWR Transducer Block Parameters
The first eight parameters in the GWR TRANSDUCER
block are the standard block parameters discussed in section
4.1.1. The standard parameters are followed by these additional required parameters for a Level Transducer Block:
Corresponding parameter names from Profile specification
are shown parenthetically if different from parameter names
used by Model 705.
LEVEL (PRIMARY_VALUE): The process value Level is
Probe Level + Level Offset and an associated status.
LEVEL_UNIT (PRIMARY_VALUE_UNIT): Unit of
measurement for level process variable (primary value).
PROBE_LEVEL (LEVEL): Level on the probe relative to
the end of the probe in Probe Level units.
PROBE_LEVEL_UNIT (LEVEL_UNIT): Unit of measurement for probe level parameters: Level Offset, Probe
Level, Probe Level Hi, and Probe Level Lo.
SENSOR_VALUE: Sensor Value is the physical value of
the sensor (distance).
SENSOR_UNIT: Unit of measurement for sensor parameters.
SENSOR_OFFSET: Distance from the sensor reference
point to the top of the tank in sensor units.
CAL_TYPE: Defines type of calibration. Dry indicates that
sensor value has no influence on the level calibration.
SENSOR_CAL_LO (CAL_POINT_LO): Sensor Cal Lo
is the lower calibrated point of Sensor Value in sensor units.
It refers to Probe Level Lo.
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SENSOR_CAL_HI (CAL_POINT_HI): Sensor Cal Hi is
the upper calibrated point of Sensor Value in sensor units.
It refers to Probe Level Hi.
PROBE_LEVEL_LO (LEVEL_LO): Probe Level Low is
the value of Probe Level at Sensor Cal Lo and is defined in
Probe Level units.
PROBE_LEVEL_HI (LEVEL_HI): Probe Level Hi is the
value of Probe Level at Sensor Cal Hi and is defined in
Probe Level units.
LEVEL_OFFSET: Desired level reading when liquid surface is at end of probe. Level Offset is defined in Probe
Level units.
LIN_TYPE: Type of linearization. No linearization is supported.
SENSOR_HIGH_LIMIT: Upper process limit of the sensor in sensor units.
SENSOR_LOW_LIMIT: Lower process limit of the sensor
in sensor units.
Another important parameter found later in the TRANSDUCER block list is DEVICE_STATUS, which displays
the status of the device. If more than one message exists,
then the messages are displayed in priority order. Refer to
Section 7.1.2, Error Messages.
If DEVICE_STATUS indicates a problem, refer to
Section 7.1, Troubleshooting.
For a complete list of Transducer Block Parameters, refer
to table in the Appendix.
4.3.2 Password Parameters
To change a parameter at the local user interface, a value
matching the user password must be entered (Default=0). If
the user password is entered, the instrument is in the user
mode. After 5 minutes with no keypad activity, the entered
password expires.
Factory password is for use by trained factory personnel only.
From the network, the instrument always behaves as if it is
in the user mode by default. In other words, it is not necessary to enter the user password in order to write parameters
from the network.
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4.3.3 Eclipse Model 705 Configuration Parameters
This set of parameters within the Transducer Block is important and required to configure every Eclipse Model 705
transmitter.
PROBE_MODEL: Select the choice that corresponds to the
first four digits of the model number of the probe. An “x”
in the selection means that character is variable (the probe
model number is shown on the nameplates attached to both
the transmitter and probe). For example, 7xA-x should be
chosen for probe models beginning with 7EA or 7MA.
PROBE_MOUNT: Select the type of mounting on the
probe. The choices are NPT, BSP, and Flange.
Probe Mount
MEASUREMENT_TYPE: Select from LEVEL ONLY,
LEVEL AND VOLUME, INTERFACE, or INTERFACE
AND VOLUME.
100%
PROBE_LENGTH: Enter the exact length of the probe.
The probe length is shown as the last three digits of the
probe model number printed on the nameplates attached to
the transmitter and probe. PROBE_LENGTH is shown in
SENSOR_UNITs.
Probe Model
Probe Length
Dielectric
of Medium
LEVEL_OFFSET: Enter the distance from the probe tip to
the desired 0% reference in PROBE_LEVEL_UNITs. The
acceptable range is from -300 inches to 600 inches. Refer to
Section 4.3.4 for additional information.
0%
Offset
DIELECTRIC_RANGE: Select from 10–100, 3–10,
1.7–3.0, or 1.7–1.4
NOTE: All dielectric ranges are not available with all probes.
If an unsupported dielectric range is selected, the transmitter
will give a negative response and the value displayed will
revert to its previous value.
THRESHOLD: The threshold can be set as either FIXED
or CFD. The factory default is CFD. This parameter should
only be changed to FIXED in those applications measuring
total level having a lower dielectric material over a higher
dielectric material. A typical example for FIXED Threshold
is a hydrocarbon application having water bottoms.
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4.3.4 Offset Description
LCD Menu
LvlUnits
in
PrbModel
7xA-x
100%
PrbMount
NPT
60"
Probe Ln
72 in
Lvl Ofst
0.0 in
0%
24"
Dielctrc
10-100
10"
Example 1
The parameter referred to as LEVEL_OFFSET in the
Transducer Block is the desired level reading when liquid
surface is at the end of the probe. The Eclipse transmitter is
shipped from the factory with LEVEL_OFFSET set to 0.
With this configuration, all measurements are referenced
from the bottom of the probe. See Example 1.
Example 1 (LEVEL_OFFSET = 0 as shipped from factory):
Application calls for a 72-inch NPT Coaxial probe in
water with the bottom of the probe 10 inches above the
bottom of the tank. The user wants the 0% point at
24 inches and the 100% point at 60 inches as referenced
from the bottom of the probe.
In those applications in which it is desired to reference all
measurements from the bottom of the vessel, the value of
LEVEL_OFFSET should be changed to the distance
between the bottom of the probe and the bottom of the
vessel as shown in Example 2.
LCD Menu
LvlUnits
in
PrbModel
7xA-x
100%
PrbMount
NPT
Probe Ln
72 in
60"
Example 2:
Application calls for a 72-inch NPT coaxial probe in
water with the bottom of the probe 10 inches above the
bottom of the tank. The user wants the 0% point at
24 inches and the 100% point at 60 inches as referenced
from the bottom of the tank.
Lvl Ofst
10 in
0%
24"
Dielctrc
10-100
10"
Example 2
LCD Menu
LvlUnits
in
100%
PrbModel
7xR-x
PrbMount
Flange
30"
Probe Ln
48 in
0%
When the Eclipse transmitter is mounted in a chamber/bridle,
it is usually desirable to configure the unit with the 0%
point at the lower process connection and the 100% point
at the upper process connection. The span is the center-to-center dimension. In this case, a negative
LEVEL_OFFSET needs to be entered. In doing so, all
measurements are then referenced at a point up on the
probe as shown in Example 3.
Example 3:
Application calls for a 48-inch cage-coaxial flanged probe
measuring water in a chamber with the bottom of the
probe 6 inches below the lower process connection. The
user wants the 0% point to be 0 inches at the bottom
process connection and the 100% point to be 30 inches
at the top process connection.
Lvl Ofst
-6.0 in
6"
Dielctrc
10-100
Example 3
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4.4
User-Calibration Parameters
One of the main advantages of the Enhanced Eclipse Model
705 transmitter is that the device does not need to be calibrated in the field. Every Enhanced Eclipse Model 705
transmitter is shipped from the factory precisely calibrated.
Part of the advantage of PROFIBUS PA™ is to provide the
ability to monitor changes and make adjustments to a transmitter. The fieldbus concept allows a user to make calibration adjustments if deemed necessary.
NOTE: The original factory calibration settings are restored when a new
probe length value is assigned.
It is highly recommended that factory calibration be used
for optimum performance.
Contact the factory for information on how to perform a
User Calibration.
4.4.1 Factory Parameters
The following parameters are used for either
troubleshooting or are parameters adjusted at the
factory. They should never be changed in the field.
The factory-adjustable calibrated parameters are WINDOW,
CONVERSION_FACTOR, and SCALE_OFFSET.
WINDOW is used to adjust for the variations in the analog
section of the Eclipse TDR measurement engine. CONVERSION_FACTOR and SCALE_OFFSET are the main
factory calibration settings.
WINDOW: determines the amount of delay between the
generation of the transmitted signal pulse and the start of
the measurement cycle.
FID_TICKS: a measure of the time to the fiducial (reference) pulse.
LEVEL_TICKS: a measure of the time to the level of the
product being measured.
CONVERSION_FACTOR: the slope of the factory-set
calibration line.
SCALE_OFFSET: the intercept of the calibration line.
4.4.2 Firmware Version
The last parameter in the TRANSDUCER block gives the
firmware version of the transmitter.
FIRMWARE_VERSION: displays the version of the
firmware.
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4.5
Analog Input Block
The ANALOG INPUT (AI) block takes the Transducer
Block input data, selected by channel number, and makes it
available to other function blocks at its output:
1.
2.
3.
4.
Level
Volume
Interface
Interface Volume
4.5.1 AI Block Parameters
The first eight parameters in an AI block are the standard
block parameters discussed in section 4.1.1. Additional
analog input function block parameters are as follows:
Scaling
28
BATCH: A parameter intended to be used in Batch application in line with IEC 61512 Part 1.
OUT: Contains the current measurement value in the configuration engineering unit.
PV_SCALE: High and low scale values used to convert
Process Variable Configured by channel into percent.
OUT_SCALE: The high and low scale values, the engineering code, and number of digits to the right of the decimal
point to be used in displaying the OUT parameters.
LIN_TYPE: Type of linearization. No linerization is supported in the AI function blocks.
CHANNEL: Selects the measurement value from an active
transducer block as the input to the function block.
PV_FTIME: Filter time of the Process Variable.
FSAFE_TYPE: Defines the reaction of a device, if a fault is
detected and the quality of the process variable input from
the transducer block is BAD.
0 = FSAFE_VALUE is used as OUT
1 = Use last stored valid OUT value
2 = OUT has incorrect calculated value; status
remains “bad”.
FSAFE_VALUE: Default value for the OUT parameter, if a
fault is detected, and FSAFE_TYPE is 0.
HI_LIM: Value of the upper limit of warnings.
LO_LIM: Value of the lower limit of warnings.
ALARM_HYS: Hysteresis to adjust sensitivity of alarm
triggering.
HI_HI_LIM: Value of the upper limit of alarms.
HI_LIM: Value of the upper limit of warnings.
LO_LIM: Value of the lower limit of warnings.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
LO_LO_LIM: Value of the lower limit of alarms.
HI_HI_ALM: State of the upper limit of alarms.
HI_ALM: State of the upper limit of warnings.
LO_ALM: State of the lower limit of warnings.
LO_LO_ALM: State of the lower limit of alarms.
SIMULATE: For commissioning and test purposes, the
input value of the Transducer Block in the AI Block can be
modified.
OUT_UNIT_TEXT: Allows the user to write text if a specific unit of the OUT parameter is not in the code list.
The TRANSDUCER and AI Block’s actual mode in the
MODE_BLK parameter must be set to AUTO to pass the
PV Value through the AI to the network.
Transducer scaling, called PV_SCALE, is applied to the
PV from the CHANNEL to produce the FIELD_VAL in
percent. Units of PV_SCALE are the same as the units of
the TRANSDUCER BLOCK process variable comfigured
by channel.
Damping Filter is a feature of the AI Block. PV_FTIME
parameter is the time constant of a single exponential filter
for the PV, in seconds. This parameter can be used to
dampen out fluctuation in level due to excessive turbulence.
The AI Block has multiple ALARM functions that monitor
the OUT parameter for out of bound conditions.
4.5.2 Local Display of Analog Input Block Output Values
The Model 705 3x PROFIBUS PA™ [Device Revision 2]
transmitter incorporates a feature that allows the device’s
Analog Input [AI] Block Out values to be displayed on the
local LCD.
NOTE: There are many reasons that AI Block Out values can deviate
from the measurement value originating in the Transducer
block, and because the keypad and local display will only provide access to Transducer block parameters, there is no way to
explore or change the other fieldbus configuration items affecting the AI Block output using the keypad and LCD.
These screens should only be considered as measured value
indicators for configured transmitters.
• The screens are not used for commissioning or diagnostic /
troubleshooting purposes.
• Prior to configuration of AI Blocks, the value displayed will
not reflect the transducer measurement. (Pre-configuration
values will typically be 0).
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4.5.2.1 AI Out Display Screens
Analog Input block #
AI block channel
measurement type
*AI#mmm*
######uu
Out Scale units
abbreviation
Out Value
Analog Input Out Display
The Analog Input Out values will be conditionally displayed as part of the “rotating” home menu screens.
The screens will be formatted as shown where # in the title
is the number of the AI block (1, 2, 3, or 4) and mmm is
one of: “Lvl”, “Vol”, “Ifc”, “IfV”, “---” depending on the
value of the associated AI block’s Channel parameter.
• For example, “AI1Lvl” would be the most commonly used
AI Out screen.
• “AI2---” would be displayed when the channel value is 0
[uninitialized] for AI block 2.
The Out value will be displayed subject to limitations necessary for a 6-character display [999999 > Value > -99999].
Representative examples are shown below:
*AI1Lvl*
99.5 cm
Local AI Display
AI1 Out
AI2 Out
AI3 Out
AI4 Out
None
AI1
AI2
AI1+AI2
AI3
AI1+AI3
AI2+AI3
AIs1,2,3
AI4
AI1+AI4
AI2+AI4
AIs1,2,4
AI3+AI4
AIs1,3,4
AIs2,3,4
All AIs
*AI3Ifc*
0.0 %
*AI1Vol*
999999 L
Because the Model 705 transmitter has four Analog Input
blocks any or all of which may be used in particular applications, a Transducer block parameter controls which AI block
Out values will be displayed.
The fieldbus presentation of this parameter will be similar
to that shown at left (host system dependent).
Any or all (or none) of the AI block Out values can be
selected for display on the LCD.
The local LCD version of this parameter is shown differently due to the limitations of the LCD:
LCD label: “AI Disp ”
The default value of the Local AI Display parameter will be
such that AI 1 Out is selected.
Analog Input Out Values
To Be Displayed
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5.0
Model 705 Menu: Step by Step Procedures
The following table describes the software menu displayed
by the Eclipse PROFIBUS PATM transmitter for “Level
Only” measurement. Use this table as a step by step guide
to configure the transmitter.
The second column presents the menus shown on the transmitter display. The displays are in the order they would
appear if the arrow keys were used to scroll through the
menu. The numbers on the first column are not shown in
the display. They are only provided as reference.
The third column provides the actions to take when configuring the transmitter. Additional information or an explanation of an action is given in the fourth coulmn. (Shaded
sections are factory menu items).
Display
Password
Action
Comment
1
*Status*
*Level*
*AI1Lvl*
None
Transmitter Display
MeasType = Lvl Only
2
Level
xxx.x lu
None
Transmitter Display
All MeasType selections
3
LvlUnits
(select)
User
Select the Level units
Select from cm, inches, feet, meters,
percent
4
AI1LVl
xx.x%
None
Transmitter Display
All MeasType selections
Select from 7xA-x, 7xB-x, 7xD-x,
7xG-x, 7xK-x, 7xP-x, 7xR-x, 7xE-x,
7xF-x, 7xF-E, 7xF-F, 7x1-x, 7x2-x,
7x5-x, 7x7-x, 7xF-4, 7xF-P, 7xJ-x,
7xL-x, 7xM-x, 7xN-x, 7xS-x, 7xT-x
5
PrbModel
(select)
User
Select the type of probe used
6
PrbMount
(select)
User
Select the type of probe
mounting
7
MeasType
(select)
User
Select type of measurement
Select from Lvl Only, Lvl&Vol, Intrface,
Ifc&Vol
8
SnsrUnit
(select)
User
Select the Sensor units
Select from cm, inches, feet, meters
9
Probe Ln
xxx.x su
User
Enter the exact length
of the probe
11.8 to 900 in (30 to 2286 cm)
10
PrbLvlUn
User
Select Probe Level units
Select from cm, inches, feet, meters,
percent
11
Lvl Ofst
xxx.x plu
User
Enter desired Level reading when probe
is dry
-90 to 300 in (-228.6 to 762 cm)
12
Dielctrc
(select)
User
Select range bounding the dielectric constant of the medium
Select from 1.4-1.7, 1.7-3,
3-10, 10-100
13
Senstvty
xxx
Superuser or
user
Adjust gain value upward or downward
to sense liquid surface
(Superuser password required for dual element probes.)
14
BlockDis
xx.x su
User
Enter distance below reference point
where level is not sensed
-99.9 to 2286 cm (-39.3 to 900 in)
15
SftyZone
(select)
User
Select behavior when level is sensed in
safety zone
Off, On, Latch
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
Select from NPT, BSP or Flange
31
Action
Comment
Display
Password
16
SZHeight
xx.x su
User
Enter distance below BlockDis where
SZ Fault will be asserted
17
SZ Latch
Reset
User
Press Enter to clear a Safety Zone latch
18
Threshld
(select)
User
Select from CFD, Fixed
For interface, refers to threshold for
upper level pulse
19
Trim Lvl
xx.x su
Superuser or
user
Enter value to adjust Level reading
-20.0 inches <= Lvl Trim <= +20.0 inches
(Superuser password required if negative
fiducial.)
20
Dev Addr
User
Set Device Address
0 to 126
21
AIDisp
(select)
User
Select AI Block Out values to be displayed
22
LvlTicks
xxxxx
User
Diagnostic Display
Time of flight from fiducial to level signal
23
New Pass
xxx
User
Enter new password (0-255)
Displays encrypted value of present
password
24
Language
(select)
User
Select from English, Spanish, French,
German
Language choice for
LCD display
25
Mdl705PA
Ver 3.0A
None
Transmitter Display
Product identification
Firmware version
26
DispFact
(select)
None
Select Yes to display factory parameter
menus
27
History Status
(status)
None
Diagnostic Display to view present status
and recent exceptions
28
Run Time
xxxx.x h
None
Diagnostic Display showing elapsed
time since power on
Cleared to zero with History Reset
29
History
Reset
Superuser
Press Enter and select yes to clear
history
Similar to SZ Mode Reset.
30
HF Cable
(select)
Superuser
Select length of remote extension cable
Select Integral, 3-foot, 12-foot
31
FidTicks
xxxx
None
Diagnostic Display
Time of flight from start of
ramp to fiducial
32
Fid Sprd
xxx
None
Diagnostic Display
Spread in fiducial ticks readings
33
Fid Type
(select)
Superuser
Superuser parameter
Select from Positive, Negative.
Selection only allowed for some probes,
fixed for others
34
Fid Gain
xxx
Superuser
Superuser parameter
35
Window
xxx
Factory
Factory Parameter
Calibration parameter
36
Conv Fct
xxxx
Factory
Factory Parameter
Calibration parameter
37
Scl Ofst
xxx
Factory
Factory Parameter
Calibration parameter
38
Neg Ampl
xxx
Superuser
Superuser Parameter
Diagnostic parameter
39
Pos Ampl
xxx
Superuser
Superuser Parameter
Diagnostic parameter
40
Signal
xxx
None
Diagnostic Display
Indication of level
signal amplitude
32
5.1 to 2286 cm (2 to 900 in)
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
Display
Password
41
Compsate
Superuser
42
DrateFct
xxxx
43
Action
Comment
Superuser Parameter
Select from None,
Manual, Auto
None
Diagnostic Display
Compsate = Auto, velocity
derating factor
TargAmpl
xxxx
None
Diagnostic Display
Compsate = Auto, target
negative threshold amplitude
44
Targ Tks
xxxx
None
Diagnostic Display
Compsate = Auto, measured time of flight
from fiducial to target
45
Targ Cal
xxxx
Superuser
Diagnostic Display
Compsate = Auto, calibrated time of flight
from fiducial to target in room temperature air
46
OperMode
(select)
Superuser
Superuser Parameter
Compsate =
Auto, select from Run, Cal, Off
47
7xK Corr
xxx
Superuser
Superuser Parameter
Probe Model = 7xK, Distance in mm from
fiducial to user reference point
48
Snsr Val
xxx.x su
None
Distance to the target relative to the sensor
reference point.
49
SnrCalLo
xxx.x su
Superuser
The lower calibrated point of Sensor Value.
It refers to PrLvl Lo.
50
SnrCalHi
xxx.x su
Superuser
The higher calibrated point of Sensor
Value. It refers to PrLvl Hi.
51
ProbeLvl
xxx.x plu
None
52
PrLvl Lo
xxx.x plu
Superuser
Value of PrLvl at SnrCalLo.
In Probe Level Units
53
PrLvl Hi
xxx.x plu
Superuser
Value of PrLvl at SnrCalHi.
In Probe Level Units
54
ElecTemp
xxx C
None
Diagnostic Display
Present temperature in electronics
compartment (degrees Celsius)
55
Max Temp
xxx C
Superuser
Diagnostic Display
Maximum electronics
temperature recorded
56
Min Temp
xxx C
Superuser
Diagnostic Display
Minimum electronics
temperature recorded
57
SZ Hyst
xx.x su
Superuser
Superuser Parameter
Safety Zone hysteresis height
In Sensor Units. Set to entered Probe Ln
In Sensor Units
Level on the probe relative to the end of
the probe.
6.0 Diagnostic Parameters
The Eclipse Model 705 measurement engine runs through a
series of self-tests and will detect and report faulty operation. The TRANSDUCER BLOCK displays these faults in
the DEVICE_STATUS parameter. Refer to Section 7.1.2
for more information on specific faults and warnings.
When the Model 705 transmitter is initially powered on,
the measurement engine does not have enough valid measurement cycles to make a decision about the output level.
For the first sixteen measurement cycles after power is
applied, the QUALITY is “Uncertain,” the SUB_STATUS
is “Initial value,” and the LIMIT attribute is “Constant.”
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
33
When the Model 705 is operating correctly, the QUALITY
is shown as “GOOD,” and the SUB_STATUS is “NonSpecific.”
Depending on the FAIL SAFE MODE in AI BLOCK,
when the Enhanced Model 705 measurement cycle fails to
find a valid output level, the transmitter maintains the last
good value as the output and flags the failure. The LIMIT
attribute is the same as the last good measurement. Excessive
disrupted cycles causes the transmitter to go into a defined
operational mode based on the cause of the disrupted cycles.
When the Enhanced Model 705 detects a level above the
highest measurement point of the probe the operational
mode is shown as “May Be Flooded.” This is due to the fact
that since the actual level location above the top of some
probes is not known, the output may not be accurate.
The Model 705 operational mode is DRY_PROBE when
the level is below the end of the probe. Again, the output
may not be accurate, since the location of the level below
the end of the probe is not known. The TRANSDUCER
BLOCK output is calculated as LEVEL_OFFSET.
When in the dry probe condition, the Model 705 compares
the measured length of the probe to the value entered into
the PROBE_LENGTH parameter. If the measured value
does not match PROBE_LENGTH, a fault is reported. The
QUALITY will be shown as “Bad,” and the SUB_STATUS
is “Configuration error.”
If the Model 705 fails to find a measurable level, either due
to an actual loss of a level signal or the loss of a proper
Fiducial (reference) signal, the TRANSDUCER BLOCK
maintains the last good value as the output and flags the
failure. The QUALITY is “Bad,” the SUB_STATUS is
“Sensor failure” for no level (or “Device failure” for loss of
the Fiducial), and the LIMIT attribute is “Constant.”
Device status conditions and the effects on PV Status are
summarized in section 7.1.2.
6.1
Simulation Feature
The Eclipse Model 705 with PROFIBUS PA™ supports the
Simulate feature in the Analog Input Block. The Simulate
feature is typically used to exercise the operation of an AI
block by simulating a TRANSDUCER block input.
When an Analog Input Block is in Manual Mode, the operator can also set the value and status of the OUT parameter
to simulate different AI BLOCK outputs.
34
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.0
Reference Information
7.1
Troubleshooting
WARNING!
Explosion hazard. Do not connect or
disconnect equipment unless power
has been switched off or the area is
known to be non-hazardous.
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.
7.1.1 Troubleshooting System Problems
Symptom
Problem
Solution
LEVEL and % OUTPUT values
are inaccurate.
Basic configuration data is
questionable.
Reconfigure the Probe Model and/or Probe
Mount, Probe Length or Level Offset.
1) Ensure the Level is accurate.
Interface level has significant emulsion. Examine process to reduce/eliminate
emulsion layer.
LEVEL readings are repeatable but
consistently high or low from actual
by a fixed amount.
Configuration data does not
accurately match probe length
or tank height.
Ensure proper Probe Model, Level Offset
& probe length.
Adjust trim level value by the amount of
noted inaccuracy.
LEVEL and % OUTPUT values
fluctuate.
Turbulence
Increase the Damping factor until the
readings stabilize.
High Frequency connection
Check Fid Spread (should be stable within
±10 counts).
Lower dielectric material over higher
dielectric material, e.g., oil over water
Select Fixed Threshold option.
LEVEL and % OUTPUT values
all reading low vs. actual.
Coating, clumping or buildup on probe These may be expected inaccuracies due
to affect on pulse propagation.
Dense, water based foam
These may be expected inaccuracies due
to affect on pulse propagation.
Level Reading on Display is stuck at
full scale.
Software believes probe is flooded
(level near very top of probe).
Check actual level. If probe is not flooded,
Check for buildup or obstructions near top
of probe. Select higher dielectric range.
Check for condensation in probe
connection. Add Blocking Distance.
LEVEL and % OUTPUT values
values all at maximum level.
Possible configuration issue
with single rod probe
1) Increase Blocking Distance
2) Increase Dielectric Range
LEVEL and % OUTPUT values
reading high vs. actual.
Possible obstruction in tank
affecting single rod probe
1) Increase Dielectric Range until
obstruction is ignored
2) Relocate probe away from obstruction
LEVEL value reading high when
should be zero.
Transmitter loose or disconnected
from probe
Ensure transmitter connected securely
to probe.
NOTE: When consulting the factory concerning improper operation, use proper tables on Pages 50-51. Enter all data when transmitter
is working CORRECTLY and INCORRECTLY.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
35
7.1.2 Device Status Parameter in the
Transducer Block
The following table lists the conditions indicated in the
Device Status parameter. It also shows the affect the condition has on PV status, Sub-Status and Limit.
Type
Mode
Fault
Fault
Fault
Fault
Fault
Fault
Fault
Fault
Fault
Warning
Warning
Warning
Warning
Warning
Warning
Warning
Warning
Device Status
Label
Bit #
OK
15
Default Params
28
No End of Ramp 27
Lvl<Probe Length 23
No Fiducial
21
Safety Zone FLT 20
No Signal
19
EOP<Probe Length 18
EOP High
17
High Volume Fit
16
Hi Temperature
11
Lo Temperature
10
Default Cal
9
Initializing
4
May be Flooded
3
Dry Probe
2
Weak Signal
1
No Steam Target
6
Value
0x00008000
0x10000000
0x08000000
0x00800000
0x00200000
0x00100000
0x00080000
0x00040000
0x00020000
0x00010000
0x00000800
0x00000400
0x00000200
0x00000010
0x00000008
0x00000004
0x00000002
0x00000040
PV Status
Quality
Good
Bad
Bad
Bad
Bad
Bad
Bad
Bad
Bad
Bad
No Effect
No Effect
No Effect
Uncertain
No Effect
No Effect
No Effect
No Effect
PV Sub Status
Limit
Non-Specific
Configuration Error
Device Failure
Sensor Failure
Device Failure
Non-Specific
Sensor Failure
Sensor Failure
Configuration Error
Configuration Error
No Effect
No Effect
No Effect
Initial Value
No Effect
No Effect
No Effect
No Effect
Not Limited
Not Limited
Constant Limited
Constant Limited
Constant Limited
Not Limited
Constant Limited
Constant Limited
Not Limited
High Limited
No Effect
No Effect
No Effect
Constant Limited
High Limited
Low Limited
No Effect
No Effect
The first condition is Type Mode. If everything is running
normally and there are no Faults or Warnings, then the
device indicates it is “OK” an the local display and in
Device Status.
The next set of conditions is device faults. The device will
most likely not be able to measure level correctly if one or
more of these conditions occur. The condition will be indicated in Device Status and will affect PV Status, Sub-Status
and Limit as indicated.
The next set of conditions is the device warnings. The condition will not jeopardize the level measurement. However,
knowledge of the condition may be useful in troubleshooting
the device.
The following table describes the conditions that can be
seen in Device Status:
Display Message
Action
Comment
OK
None
Default Params
Internal non-volatile parameters have Consult factory.
been defaulted.
No End-of Ramp signal detected.
Consult factory.
No End of Ramp
No Fiducial
36
Fiducial signal is not being
detected.
Normal operating mode.
1) Check connection between probe and transmitter.
2) Check for moisture on top of probe.
3) Check for damaged gold pin in the high frequency connector.
4) Consult factory.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.1.2 Device Status Parameter in the Transducer Block
Display Message
Action
Comment
Safety Zone Flt
Safety Zone Alarm has been tripped. Decrease level in vessel.
No Signal
No level signal being detected.
EOP<Probe Length
End of Probe signal from a dry probe 1) Ensure the Probe Length is entered correctly.
is out of range.
2) Set Dielectric to a lower dielectric range.
3) Consult factory.
4) Ensure proper Blocking Distance.
Lvl<Probe Length
Apparent position of the upper level
pulse is beyond the end of the probe.
1) Check entered Probe Length.
2) Change Threshold to Fixed.
EOP High
End of Probe signal is out of range.
1) Ensure Probe Length is entered correctly.
2) Consult factory.
High Volume Flt
Level more than 5% above highest point 1) Verify strapping table is entered correctly.
in strapping table.
2) Signal amplitude may be lower than desired.
Hi Temperature
Present temperature in electronics
compartment is above 80 C.
1) Transmitter may need to be moved to ensure ambient
temperature is within specification.
2) Change to remote mount transmitter.
Lo Temperature
Present temperature in electronics
compartment is below -40° F (-40° C).
1) Transmitter may need to be moved to ensure ambient
temperature is within specification.
2) Change to remote transmitter.
Default Cal
Factory set default calibration
Consult factory.
parameters are in use. Level reading
may be inaccurate.
No Steam Target
No steam target detected on
Model 7x5 probe.
Consult factory.
Initializing
None
Program is initializing. This is a transient condition.
May be Flooded
Loss of level signal possibly due to
flooding. Twin Rod probes only.
Dry Probe
Weak Signal
1) Ensure Dielectric setting is correct for the measured medium.
2) Increase Sensitivity
3) Confirm Probe Model is proper for the dielectric of the medium.
4) Consult factory.
1) Decrease level in vessel.
2) Set Dielectric to lower range value.
3) Replace with Model 7xR Overfill probe.
None
Normal message for a dry probe. End of Probe signal is being
detected in correct location.
None. Signal amplitude is lower than 1) Set Dielectric to a lower range value.
desired.
2) Increase Sensitivity.
7.1.3 Error Mapped to Diagnosis
Some error codes are mapped to information bits in the
PHYSICAL_BLOCK_DIAGNOSIS parameter as shown in the
following table:
Display Message
Description
No Signal Fault
Failure in Measurement
Lvl<PL Fault
Failure in Measurement
EOP<PL Fault
Failure in Measurement
No End of Ramp Fault Electronic Hardware Failure/Maint Required
No Fiducial Fault
Electronic Hardware Failure/Maint Required
Default Parameters
Fault
Configuration not valid
EOP High Fault
Configuration not valid
Hi Temperature
Warning
Electronic Temperature too high
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
37
7.1.3 Error Mapped to Diagnosis (cont.)
Note that PV status for Interface and Volume process varibles may indicate a configuration error if the correct
Measurement Type has not been selected. In this case,
“Configuration not valid” will not be set in the DIAGNOSIS parameter since level measurement may still be correct.
Also, a Default Parameters Fault is indicated after a Factory
Reset which will result in the DIAGNOSIS indication
“Configuration not valid”.
7.1.4 PROFIBUS PATM Segment Checklist
•
•
•
•
•
There can be several reasons for a PROFIBUS PA™ installation to be in a faulty condition. In order to assure that communication can be established, the following requirements
must be met.
Device supply voltage must be higher than 9 VDC with a
maximum of 32 VDC.
Total current draw of a given segment cannot exceed the
rating shown on the power conditioner and/or barrier.
Device polarity must be correct.
Two 100 Ω, 1 µF terminators must be connected to the
network—one at each end of the segment.
Cable length plus spur length must not exceed the following
values:
Number of Spurs
1 Device
2 Devices
3 Devices
4 Devices
25–32
—
—
—
—
19–24
100 ft. (30 m)
—
—
—
15–18
200 ft. (60 m)
100 ft. (30 m)
—
—
13–14
300 ft. (90 m)
200 ft. (60 m)
100 ft. (30 m)
—
1–12
400 ft. (120 m) 300 ft. (90 m)
200 ft. (60 m)
100 ft. (30 m)
Pair
Shield
Twisted
Size
Length
Type
Single
Yes
Yes
AWG 18 (0.8 mm2)
6,200 ft. (1,900 m)
A
Multi
Yes
Yes
AWG 22 (0.32 mm2)
3,900 ft. (1,200 m)
B
Multi
No
Yes
AWG 26 (0.13 mm2)
1,300 ft. (400 m)
C
Multi
Yes
No
AWG 16 (1.25 mm2)
650 ft. (200 m)
D
• The cable shield is to be hard grounded only at one point
close to the DCS. In addition, the cable shield can be
capacitively grounded in multiple places to improve EMC
protection.
If all of these requirements are met, a stable communication
should be established.
38
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.2
Agency Approvals
AGENCY
FM
CSA
ATEX
TEXT HERE............
MODEL APPROVED
APPROVAL CATEGORY
APPROVAL CLASSES
705-53XX-1XX
705-53XX-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/FISCO
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 G T4
Class III, Type 4X
Entity/FISCO
Class I, Div. 1; Groups B, C & D
Class II, Div. 1; Group G T4
Class III, Type 4X
Class I, Div. 2; Groups A, B, C, & D
Class II, Div. 2; Group G T4
Class III, Type 4X
II 1G, EEx ia IIC T4
705-53XX-3XX
705-53XXX-4XX
Explosion Proof (with Intrinsically Safe probe)
705-53XX-XXX
705-53XX-XXX
Non-Incendive
Suitable for: 705-53XX-1XX
705-53XX-2XX
Intrinsically Safe
705-53XX-3XX
705-53XX-4XX
Explosion Proof (with Intrinsically Safe probe)
705-53XX-XXX
705-53XX-XXX
Non-Incendive
Suitable for: 705-53XX-AXX
705-53XX-BXX
705-53XX-CXX
705-53XX-DXX
705-53XX-EXX
705-53XX-FXX
Intrinsically Safe
Flame Proof II 1/2G, EEx d [ia] IIC T4
Non-sparking II 3G, EEx n II T4..T6
Factory Sealed: This product has been approved by Factory
Mutual Research (FM), and Canadian Standards Association
(CSA), as a Factory Sealed device.
Measured media inside vessel must be non-flammable only.
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
0344
These units are in conformity of:
1. The EMC Directive: 89/336/EEC. The units have been
tested to EN 61000-6-2/2001 and EN 61000-6-4/2001.
2. Directive 94/9/EC for equipment or protective system for use
in potentially explosive atmospheres.
39
7.2.1 Agency Specifications – PROFIBUS PA™ System
40
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.3
Specifications
7.3.1 Functional
System Design
Measurement Principle
Guided time-of-flight via time domain reflectometry
Input
Measured Variable
Level, determined by the time-of-flight of a guided radar pulse from
transmitter to product surface and back
Zero and Span
6 inches to 75 feet (15 to 2286 cm)
User Interface
Keypad
3-button menu-driven data entry and system security
Indication
2-line × 8-character display
Digital Communication
PROFIBUS PA™ Profile Version 3.0, MBP (31.25 kbits/sec)
Minimum Operating Voltage
9 VDC
Quiescent Current Draw
15 mA
DEV Revision
0X01
Function Blocks
AI_1, AI_2, AI_3, AI_4
Damping
Adjustable 0-10 seconds
Power (Measured at instrument terminals)
General Purpose/Explosion Proof
9 to 32 VDC (15 mA maximum current draw)
IS/FISCO/FNICO
9–32 VDC (15 mA maximum current draw)
Housing
Material
Aluminum A356T6 (<0.20% copper), optional 316 stainless steel
Cable Entry
3
⁄4" NPT and M20
Environment
Operating Temperature
-40 to +175° F (-40 to +80° C)
Display Function Operating Temperature
-5 to +160° F
Storage Temperature
-50 to +175° F (-40 to +80° C)
(-20 to +70° C)
Humidity
0-99%, non-condensing
Electromagnetic Compatibility
Meets CE Requirements: EN 50081-2, EN 50082-2
Note: Twin Rod and Single Rod probes must be used in metallic vessel or
stillwell to maintain CE requirement.
Mounting Affects:
Twin Rod: Active rod must be mounted at least 1" (25 mm) from any surface or
obstruction. Minimum stillwell diameter for Twin Rod probe is 3".
Single Rod: Nozzles do not restrict performance by ensuring the following:
No nozzle is <2" (50 mm) diameter
Ratio of Diameter: Length is 1:1 or greater;
any ratio <1:1 (e.g., a 2" × 6" nozzle = 1:3) may require a Blocking Distance
and/or DIELECTRIC adjustment
No pipe reducers are used
Obstructions
Keep conductive objects away from probe to ensure proper performance
Shock Class
ANSI/ISA-S71.03 Class SA1
Vibration Class
ANSI/ISA-S71.03 Class VC2
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
41
7.3.2 Performance - Model 705
Reference Conditions Linearity Measured Error
Reflection from water at +70° F (+20° C) with 72" coaxial probe
(CFD threshold)
Coaxial/Twin Rod Probes:
<0.1% of probe length or 0.1 inch (whichever is greater)
Single Rod Probes:
<0.3% of probe length or 0.3 inch (whichever is greater)
Coaxial/Twin Rod Probes:
±0.1% probe length or 0.1 inch (whichever is greater)
Single Rod Probes
±0.5% probe length or 0.5 inch (whichever is greater)
Resolution
±0.1 inch
Repeatability
<0.1 inch
Hysteresis
<0.1 inch
Response Time
<1 second
Warm-up Time
<5 seconds
Operating Temp. Range
-40° to +175° F (-40° to +80° C)
LCD Temp. Range
-5° to +160° F (-20° to +70° C)
Ambient Temp. Effect
Approximately +0.02% of probe length/ ° C
Process Dielectric Effect
<0.3 inch within selected range
Humidity
0-99%, non-condensing
Electromagnetic Compatibility
Meets CE requirements (EN-61000-6-2/2001, 61000-6-4/2001)
(Twin and Single Rod probes must be used in metallic vessel or
stillwell to maintain CE requirement)
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). Specification for top 48 inches of single rod will
be application dependent.
42
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.3.3 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
Interface Layer Dielectric
>15
Resolution
±0.1 inch
Repeatability
<0.5 inch
Hysteresis
<0.5 inch
Response Time
<1 second
Warm-up Time
<5 seconds
Operating Temp. Range
-40° to +175° F (-40° to +80° C)
LCD Temp. Range
-5° to +160° F (-20° to +70° C)
Ambient Temp. Effect
Approximately ±0.02% of probe length/ ° C
Humidity
0-99%, non-condensing
Electromagnetic Compatibility
Meets CE requirements (EN-61000-6-2/2001, EN 61000-6-4/2001)
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
43
7.4
Parts
7.4.1 Replacement Parts
Item Description
Part Number
Electronic module
PROFIBUS PA™
Z31-2846-001
Terminal board
PROFIBUS PA™
Z30-9151-003
O-ring (VITON)
(Consult Factory for alternative O-ring materials)
012-2201-237
Housing cover without glass
004-9193-003
Housing cover with glass (GP, IS)
(XP)
036-4410-001
036-4410-003
7.4.2 Recommended Spare Parts
Item Description
44
Part Number
Electronic module
PROFIBUS PA™
Z31-2846-001
Terminal board
PROFIBUS PA™
Z30-9151-003
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.5
Model Numbers
7.5.1 Transmitter
BASIC MODEL NUMBER
705
Eclipse Guided Wave Radar Level Transmitter
POWER
5
24 VDC, Two-wire
SIGNAL OUTPUT
1
2
3
4-20 mA with HART
FOUNDATION fieldbus™ Digital Communications (English only)
PROFIBUS PA™ Digital Communications (English Only)
OPTIONS
0
None
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)
Remote, Explosion Proof (FM & CSA)
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 T4)
(must be ordered with Conduit Connection Codes 0 and 1)
Remote, Explosion Proof (ATEX EEx d ia IIB T4)
(must be ordered with Conduit Connection Codes 0 and 1)
Integral, Non-incendive (ATEX EEx n IIC T6) (Model 705 only)
Remote, Non-incendive (ATEX EEx n IIC T6) (Model 705 only)
HOUSING
1
2
Cast aluminum, dual compartment, 45° angle
316 stainless steel, dual compartment, 45° angle
CONDUIT CONNECTION
0
1
7
0
5
⁄4" NPT
M20
3
5
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
45
7.5.2 Probe
BASIC MODEL NUMBER
7E
7M
Eclipse GWR probe, English unit of measure
Eclipse GWR probe, Metric unit of measure
CONFIGURATION/STYLE
A
B
D
F
J
P
R
S
1
2
5
7
Coaxial, 3⁄4" process connection or larger
Twin Rod, 2" NPT or 3" flanged process connection or larger
Coaxial, High Temperature/High Pressure, 3⁄4" process conn. or larger
Single Rod, Rigid, 2" process connection or larger
Single Rod, Rigid, High Temperature/High Pressure
Coaxial, High Pressure, 3⁄4" process connection or larger
Coaxial, Overfill, 3⁄4" process connection or larger
Coaxial, Hot Water/Steam, 3⁄4" process connection or larger
Single Rod, Flexible, 2" process connection or larger
Single Rod, Flexible Bulk Solid, 2" process connection or larger
Twin Rod, Flexible Bulk Solid, 2" process connection or larger
Twin Rod Flexible, 2" NPT or 3" flanged process connection or larger
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
(Dielectric
range
range
range
range
range
range
range
range
range
range
range
range
≥1.4)
≥1.9)
≥1.4)
≥1.9)
≥ 1.9)
≥1.4)
≥1.4)
≥10)
≥1.9)
≥4.0)
≥1.9)
1.9–10)
MATERIAL OF CONSTRUCTION
A
B
C
E
F
K
P
4
316/316L stainless steel
Hastelloy C, Configuration/Style codes A, B, F and R only
Monel, Configuration/Style codes A, B, F and R only
Sanitary, 316/316L stainless steel (20 Ra finish), Configuration/Style code F only,
Process connections codes 4P, 5P, and 6P only
PFA faced flange, 2" to 4", 150# to 300#, Configuration/Style code F only,
Process connection codes 43, 44, 53, 54, 63, 64, DA, DB, EA, EB, FA, and FB only
316/316L stainless steel probe and process connection, ASME B31.1 specifications (model 7xS only)
Paint Probe, 316/316L SS, 3⁄4" process connection or larger
Configuration/Style code F only: maximum length 72"
PFA insulated rod, 2" NPT process connection or larger, Configuration/Style code F only
PROCESS CONNECTION SIZE/TYPE
Refer to pages 47 and 48 for selections
O-RINGS
0
1
2
8
N
Viton® GFLT
EPDM (Ethylene Propylene Rubber)
Kalrez 4079
Aegis PF128
None (Use with probes 7xD, 7xP, 7xF-E, 7xF-F, 7xF-P)
LENGTH – PROBE MODELS 7xA, 7xB, 7xD, 7xF, 7XJ, 7xP, 7xR & 7xS
24" to 240" (60 cm to 610 cm) (7xS only: 180" (457 cm) maximum)
(unit of measure is determined by second digit of Model Number)
Examples: 24 inches = 024; 60 centimeters = 060
LENGTH – PROBE MODEL 7x1, 7x2, 7x5 & 7x7
6' to 75' (2 to 22 m) (unit of measure is determined by second
digit of Model Number) Examples: 30 feet = 030; 10 meters = 010
7
46
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
7.5.2 Probe
Insertion Length
NPT Process Connection
Insertion Length
BSP Process Connection
Insertion Length
Sanitary Flange
Insertion Length
ANSI or DIN Welded Flange
PROCESS CONNECTION SIZE/TYPE
THREADED CONNECTIONS
11
22
41
42
⁄4" NPT Thread 1" BSP Thread 2" NPT Thread 2" BSP Thread 3
ANSI RAISED FACE FLANGE CONNECTIONS
23
24
25
27
28
33
34
35
37
38
43
44
45
47
1" 150#
1" 300#
1" 600#
1" 900/1500#
1'' 2500#
11⁄2" 150#
11⁄2" 300#
11⁄2" 600#
11⁄2" 900/1500#
11⁄2" 2500#
2" 150#
2" 300#
2" 600#
2" 900/1500#
ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange ANSI Raised Face Flange 48
53
54
55
56
57
58
63
64
65
66
67
68
2"
3"
3"
3"
3"
3"
3"
4"
4"
4"
4"
4"
4"
2500#
150#
300#
600#
900#
1500#
2500#
150#
300#
600#
900#
1500#
2500#
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
ANSI Raised
5L
5M
5N
6K
6L
6M
6N
3"
3"
3"
4"
4"
4"
4"
900#
1500#
2500#
600#
900#
1500#
2500#
ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI RING JOINT FLANGE CONNECTIONS
3K
3M
3N
4K
4M
4N
5K
11⁄2" 600#
11⁄2" 900/1500#
11⁄2" 2500#
2" 600#
2" 900/1500#
2" 2500#
3" 600#
ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange ANSI Ring Joint Flange Face
Face
Face
Face
Face
Face
Face
Face
Face
Face
Face
Face
Face
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Flange
Configuration/Style Codes A, D, P, R & S only.
Configuration/Style Codes D & P only.
Configuration/Style Codes B, F, 1, 2, 5 & 7 only.
7
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
47
7.5.2 Probe
SANITARY FLANGE CONNECTIONS
2P
3
⁄4" Tri-clover® type, 16 AMP Sanitary Flange
3P
4P
5P
6P
9P
11⁄2" Tri-clover type, 16 AMP Sanitary Flange
2" Tri-clover type, 16 AMP Sanitary Flange
3" Tri-clover type, 16 AMP Sanitary Flange
4" Tri-clover type, 16 AMP Sanitary Flange
21⁄2" Tri-clover type, 16 AMP Sanitary Flange
PROPRIETARY AND SPECIALTY FLANGE CONNECTIONS
TT
TU
UT
UU
31⁄2"
31⁄2"
21⁄2"
21⁄2"
600#
600#
600#
600#
Fisher® - Proprietary Carbon Steel (249B) Torque Tube Flange
Fisher - Proprietary 316 Stainless Steel (249C) Torque Tube Flange
Masoneilan® - Proprietary Carbon Steel Torque Tube Flange
Masoneilan - Proprietary 316 Stainless Steel Torque Tube Flange
DIN FLANGE CONNECTIONS
BA
BB
BC
BF
BG
BH
BJ
CA
CB
CC
CF
CG
CH
CJ
DA
DB
DD
DE
DF
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
DN
25,
25,
25,
25,
25,
25,
25,
40,
40,
40,
40,
40,
40,
40,
50,
50,
50,
50,
50,
PN 16
PN 25/40
PN 64/100
PN 160
PN 250
PN 320
PN 400
PN 16
PN 25/40
PN 64/100
PN 160
PN 250
PN 320
PN 400
PN 16
PN 25/40
PN 64
PN 100
PN 160
DIN 2527 Form B Flange DIN 2527 Form B Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form B Flange DIN 2527 Form B Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form B Flange
DIN 2527 Form B Flange
DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DG
DH
DJ
EA
EB
ED
EE
EF
EG
EH
EJ
FA
FB
FD
FE
FF
FG
FH
FJ
DN 50,
DN 50,
DN 50,
DN 80,
DN 80,
DN 80,
DN 80,
DN 80,
DN 80,
DN 80,
DN 80,
DN 100,
DN 100,
DN 100,
DN 100,
DN 100,
DN 100,
DN 100,
DN 100,
PN 250
PN 320
PN 400
PN 16
PN 25/40
PN 64
PN 100
PN 160
PN 250
PN 320
PN 400
PN 16
PN 25/40
PN 64
PN 100
PN 160
PN 250
PN 320
PN 400
DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form B Flange
DIN 2527 Form B Flange
DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form B Flange
DIN 2527 Form B Flange
DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange DIN 2527 Form E Flange Configuration/Style Codes A, D, P, R & S only.
Configuration/Style Codes D & P only.
7
7.6 References
1. “PROFIBUS™, A Pocket Guide” by Ronald W. Mitchell
2. PNO Specification 3.042, “Profile for Process Control Devices”
3. PNO Specification 2.092, “PROFIBUS PA - User and Installation Guideline”
48
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
Appendix – Transducer Block Parameters
INDEX
0
1
2
3
4
5
6
7
8
9
10
11
12
13
18
19
20
21
22
23
24
25
28
29
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
PARAMETER NAME
BLOCK_OBJECT
ST_REV
TAG_DESC
STRATEGY
ALERT_KEY
TARGET_MODE
MODE_BLK (Act, Perm, Norm)
ALARM_SUM
LEVEL
LEVEL_UNIT
PROBE_LEVEL
PROBE_LEVEL_UNIT
SENSOR_VALUE
SENSOR_UNIT
SENSOR_OFFSET
CAL_TYPE
CAL_POINT_LO
CAL_POINT_HI
PROBE_LEVEL_LO
PROBE_LEVEL_HI
LEVEL_OFFSET
LIN_TYPE
SENSOR_HIGH_LIMIT
SENSOR_LOW_LIMIT
PROBE_MODEL
PROBE_MOUNT
MEASUREMENT_TYPE
PROBE_LENGTH
DIELECTRIC_RANGE
SENSITIVITY
BLOCKING_DISTANCE
SAFETY_ZONE_MODE
SAFETY_ZONE_HEIGHT
SZ_LATCH_RESET
THRESHOLD
TRIM_LEVEL
VOLUME
VOLUME_UNIT
INTERFACE
INTERFACE_UNIT
UPPER_LIQUID_DIELECT
INTERFACE_THRESHOLD
INTERFACE_VOLUME
INTERFACE_VOL_UNIT
STRAP_TABLE_LENGTH
TABLE_VOLUME_UNIT
STRAPPING_TABLE_PT01
STRAPPING_TABLE_PT02
STRAPPING_TABLE_PT03
STRAPPING_TABLE_PT04
STRAPPING_TABLE_PT05
STRAPPING_TABLE_PT06
STRAPPING_TABLE_PT07
STRAPPING_TABLE_PT08
STRAPPING_TABLE_PT09
STRAPPING_TABLE_PT10
STRAPPING_TABLE_PT11
PARAMETER LABEL
BLOCK OBJECT
ST REV
TAG DESC
STRATEGY
ALERT KEY
TARGET MODE
MODE BLK
ALARM SUM
Level
Level Unit
Probe Level
Probe Level Unit
Sensor Value
Sensor Unit
Sensor Offset
Calibration Type
Sensor Cal Lo
Sensor Cal Hi
Probe Level Lo
Probe Level Hi
Level Offset
Lin Type
Sensor High Limit
Sensor Low Limit
Probe Model
Probe Mount
Measurement Type
Probe Length
Dielectric Range
Sensitivity
Blocking Distance
Safety Zone Mode
SZ Height
SZ Latch Reset
Threshold
Trim Level
Volume
Volume Unit
Ifc Level
Ifc Level Unit
Upper Dielectric
Interface Threshold
Ifc Volume
Ifc Volume Unit
Strapping Table Length
Table Volume Unit
StrappingTbl Pt01
StrappingTbl Pt02
StrappingTbl Pt03
StrappingTbl Pt04
StrappingTbl Pt05
StrappingTbl Pt06
StrappingTbl Pt07
StrappingTbl Pt08
StrappingTbl Pt09
StrappingTbl Pt10
StrappingTbl Pt11
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
INDEX
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
PARAMETER NAME
PARAMETER LABEL
StrappingTbl Pt12
StrappingTbl Pt13
StrappingTbl Pt14
StrappingTbl Pt15
StrappingTbl Pt16
StrappingTbl Pt17
StrappingTbl Pt18
StrappingTbl Pt19
StrappingTbl Pt20
FID_TICKS
Fiducial Ticks
FID_SPREAD
Fiducial Spread
LEVEL_TICKS
Level Ticks
INTERFACE_TICKS
Interface Ticks
INTERFACE_MEDIUM
Interface Medium
ENTER_PASSWORD
Enter Password
NEW_PASSWORD
New User Password
DEVICE_STATUS
Device Status
HISTORY_MESSAGE
History Message
HISTORY_CONTROL
History Control
RESET_HISTORY
Reset History
FID_TYPE
Fiducial Type
FID_GAIN
Fiducial Gain
WINDOW_705
Window
CONVERSION_FACTOR
Conversion Factor
SCALE_OFFSET
Scale Offset
NEGATIVE_AMPLITUDE
NegThreshold Ampl
INTERFACE_AMPLITUDE
IfcThreshold Ampl
POSITIVE_AMPLITUDE
PosThreshold Ampl
SIGNAL
Signal Strength
COMPENSATION
Compensation Mode
DERATE_FACTOR
Derating Factor
TARGET_AMPLITUDE
Target Amplitude
TARGET_TICKS
Target Ticks
TARGET_CAL
Targ Calib Value
TARGET_OPER_MODE
Target OperMode
SEVENXK_DIST_CORRECT 7XK Correction
ELECT_TEMPERATURE
Elec Temperature
MAX_ELECTRONICS_TEMP Max Temperature
MIN_ELECTRONICS_TEMP Min Temperature
RESET_ELECT_TEMP
Reset Temperature
SZ_HYSTERESIS
SZ Hysteresis
LCD_LANGUAGE
LCD Language
STEAM_CAL_MOUNT
Steam Cal Mount
RAMP_SLOPE
Ramp Slope
BASE_FID_TICKS
Base Fid Ticks
FACTORY_PARAM_1
Factory Param 1
FACTORY_PARAM_2
Factory Param 2
ECHO_SUMMARY
Echo Summary
ECHO_DATA
Echo Data
ECHO_DATA_INDEX
EchoData Indx
NON_VOL_STAT
Non Vol Stat
DATE_CODE
Date Code
MAGNETROL_SERIAL_NUM Magnetrol S/N
FIRMWARE_VERSION
Firmware Version
LOCAL_AI_DISPLAY
Local AI Display
HF_CABLE
HF Cable
NSP_VALUE
NSP Value
STRAPPING_TABLE_PT12
STRAPPING_TABLE_PT13
STRAPPING_TABLE_PT14
STRAPPING_TABLE_PT15
STRAPPING_TABLE_PT16
STRAPPING_TABLE_PT17
STRAPPING_TABLE_PT18
STRAPPING_TABLE_PT19
STRAPPING_TABLE_PT20
49
Enhanced Model 705
Eclipse Guided Wave Radar Transmitter
®
PROFIBUS PA™ Configuration Data Sheet
Copy blank page and store calibration data for future reference and troubleshooting.
Item
Vessel Name
Vessel #
Process Medium
Tag #
Electronics Serial #
Probe Serial #
LvlUnits
VolUnits (opt.)
IfcUnits (opt.)
IfcVolUn (opt.)
PrbModel
PrbMount
MeasType
SnsrUnit
Probe Ln
PrbLvlUn
Lvl Ofst
TblVolUn (opt.)
StrapTbl (opt.)
Upr Diel (opt.)
Dielctrc
Senstvty
BlockDis
SftyZone
SZHeight
Threshld
IfcThrsh (opt.)
Trim Lvl
AI Disp
Dev Addr
Language
HF Cable
Fid Type
Fid Gain
Window
Conv Fct
Scl Ofst
50
Value
Value
Value
TROUBLESHOOTING
Working Value
Non-Working Value
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
Enhanced Model 705
Eclipse Guided Wave Radar Transmitter
®
PROFIBUS PA™ Configuration Data Sheet
Copy blank page and store calibration data for future reference and troubleshooting.
Item
Value
Value
Value
TROUBLESHOOTING
Correct Value
Incorrect Value
Neg Ampl
Ifc Ampl (opt.)
Pos Ampl
Compsate
Targ Cal (opt.)
OperMode (opt.)
7xK Corr (opt.)
SnrCalLo
SnrCalHi
PrLvl Lo
PrLvl Hi
SZ Hyst
Software Version
New Password
Name:
Date:
Time:
57-645 Eclipse Guided Wave Radar Transmitter - PROFIBUS PA™
51
ASSURED QUALITY & SERVICE COST LESS
Service Policy
Return Material Procedure
Owners of Magnetrol/STI controls may request the
return of a control or any part of a control for complete
rebuilding or replacement. They will be rebuilt or replaced
promptly. Controls returned under our service policy
must be returned by Prepaid transportation.
Magnetrol/STI will repair or replace the control at no cost
to the purchaser (or owner) other than transportation if:
So that we may efficiently process any materials that are
returned, it is essential that a “Return Material
Authorization” (RMA) number be obtained from the
factory prior to the material's return. This is available
through Magnetrol/STIs local representative or by contacting the factory. Please supply the following information:
1. Returned within the warranty period; and
2. The factory inspection finds the cause of the claim to
be covered under the warranty.
If the trouble is the result of conditions beyond our control; or, is NOT covered by the warranty, there will be
charges for labor and the parts required to rebuild or
replace the equipment.
In some cases it may be expedient to ship replacement
parts; or, in extreme cases a complete new control, to
replace the original equipment before it is returned. If this
is desired, notify the factory of both the model and serial
numbers of the control to be replaced. In such cases, credit for the materials returned will be determined on the
basis of the applicability of our warranty.
1.
2.
3.
4.
5.
Company Name
Description of Material
Serial Number
Reason for Return
Application
Any unit that was used in a process must be properly
cleaned in accordance with OSHA standards, before it is
returned to the factory.
A Material Safety Data Sheet (MSDS) must accompany
material that was used in any media.
All shipments returned to the factory must be by prepaid
transportation.
All replacements will be shipped F.O.B. factory.
No claims for misapplication, labor, direct or consequential damage will be allowed.
Eclipse Guided Wave Radar transmitters may be protected by one or more of the following U.S. Patent Nos. US 6,062,095; 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. 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
5300 Belmont Road • Downers Grove, Illinois 60515-4499 • 630-969-4028 • Fax 630-969-9489 • www.sticontrols.com
Copyright © 2009 Magnetrol International, Incorporated. All rights reserved. Printed in the USA.
Viton® is a registered trademark of DuPont Performance Elastomers.
PROFIBUS is a registered trademark of PROFIBUS International
Tri-Clover® is a registered trademark of Tri-Clover, Inc.
Hastelloy® is a registered trademark of Haynes International, Inc.
Monel® and Inconel® are registered trademarks of Special Metals Corporation
BULLETIN: 57-645.1
EFFECTIVE: May 2009
SUPERSEDES: December 2007