User's Manual
Table Of Contents
- Table of Contents
- SITRANS LR260 Overview
- Specifications
- Installation
- Wiring
- Quick Start via local operation
- Operating via SIMATIC PDM
- Parameter Reference
- Pull-down menus via SIMATIC PDM
- Quick Start Wizard
- 1. Quick Start
- 2. Setup
- 2.1. Device
- 2.2. Input
- 2.2.1. Sensor Calibration (SENSOR CALIB.)
- 2.2.1.1. Antenna
- 2.2.1.2. Sensor Units
- 2.2.1.3. Low Calibration Pt. (LOW CALIB. PT.)
- 2.2.1.4. High Calibration Pt. (HIGH CALIB. PT.)
- 2.2.1.5. Limit Sensor Value
- 2.2.1.6. Unit (Level)
- 2.2.1.7. Low Level Point
- 2.2.1.8. High Level Point
- 2.2.1.9. Level Offset
- 2.2.1.10. Sensor Offset
- 2.2.1.11. Temperature Units (TEMP UNITS)
- 2.2.3. Echo Processing (ECHO PROC)
- 2.2.4. TVT (Auto False Echo Suppression) setup
- 2.2.5. TVT Shaper
- 2.2.6. Rate
- 2.2.7. Transducer Block Values (for diagnostic purposes)
- 2.2.1. Sensor Calibration (SENSOR CALIB.)
- 2.3. Output
- 2.4. Fail-safe
- 3. Diagnostics
- 3.1. Fault Reset
- 3.2. Echo Profile
- 3.3. Measured Values (MEAS. VALUES)
- 3.3.1. Min. Measured Value (MIN. MEAS. VALUE)
- 3.3.2. Max. Measured Value (MAX. MEAS. VALUE)
- 3.3.3. Minimum Output Value - AIFB1 (MIN. OUTPUT FB1)
- 3.3.4. Maximum Output Value - AIFB1 (MAX. OUTPUT FB1)
- 3.3.5. Minimum Output Value - AIFB2 (MIN. OUTPUT FB2)
- 3.3.6. Maximum Output Value - AIFB2 (MAX. OUTPUT FB2)
- 3.3.7. Minimum Internal Temperature (MIN. INTERN. TEMP)
- 3.3.8. Maximum Internal Temperature (MAX. INTERN. TEMP)
- 3.4. Remaining Device Lifetime (REMAIN. DEV. LIFE)
- 3.4.1. Total Device Operating Time (TOTAL OP. TIME)
- 3.4.2. Remaining Device Lifetime (REMAIN LIFETIME)
- 3.4.3. Maintenance Required Limit (MAINT REQ LIMIT)
- 3.4.4. Maintenance Demanded Limit (MAINT DEM LIMIT)
- 3.4.5. Maintenance Alert Activation (ALERT ACTIVATION)
- 3.4.6. Total Expected Device Life (TOTAL EXP. LIFE)
- 3.4.7. Maintenance Status (MAINT STAT)
- 3.4.8. Acknowledge Status (ACK STATUS)
- 3.4.9. Acknowledge (ACK)
- 3.5. Remaining Sensor Lifetime (REMAIN SENS. LIFE)
- 3.5.1. Total Sensor Operating Time (SENS OP. TIME)
- 3.5.2. Remaining Sensor Lifetime (REMAIN LIFETIME)
- 3.5.3. Maintenance Required Limit (MAINT REQ LIMIT)
- 3.5.4. Maintenance Demanded Limit (MAINT. DEM. LIMIT)
- 3.5.5. Maintenance Alert Activation (ALERT ACTIVATION)
- 3.5.6. Total Expected Sensor Life (TOTAL EXP. LIFE)
- 3.5.7. Maintenance Status (MAINT STAT)
- 3.5.8. Acknowledge Status (ACK STATUS)
- 3.5.9. Acknowledge (ACK)
- 3.6. Condensed Status Setup (COND. STAT. SETUP)
- 3.7. Condensed Status
- 4. Service
- 4.1. Device Reset
- 4.2. LCD Fast Mode
- 4.3. LCD Contrast
- 4.4. PROFIBUS Ident Number (PROFIBUS IDENT)
- 4.5. Powered Hours
- 4.6. Power-on Resets
- 4.17. Service Interval
- 4.17.1. Time Last Serviced (TIME LAST SERV)
- 4.17.2. Remaining Lifetime (REMAIN LIFETIME)
- 4.17.3. Maintenance Required Limit (MAINT REQ LIMIT)
- 4.17.4. Maintenance Demanded Limit (MAINT DEM. LIMIT)
- 4.17.5. Alert Activation
- 4.17.6. Service Interval
- 4.17.7. Maintenance Status (MAINT STAT)
- 4.17.8. Acknowledge Status (ACK STATUS)
- 4.17.9. Acknowledge (ACK)
- 4.18. Calibration Interval (CALIB INTERVAL)
- 4.18.1. Time Last Calibrated (TIME LAST CAL.)
- 4.18.2. Remaining Lifetime (REMAIN LIFETIME)
- 4.18.3. Maintenance Required Limit (MAINT REQ LIMIT)
- 4.18.4. Maintenance Demanded Limit (MAINT DEM LIMIT)
- 4.18.5. Alert Activation
- 4.18.6. Total Calibration Interval (TOTAL CALIB. INTRV)
- 4.18.7. Maintenance Status (MAINT STAT)
- 4.18.8. Acknowledge Status (ACK STAT)
- 4.18.9. Acknowledge (ACK)
- 5. Communication
- 6. Security
- 7. Language
- Appendix A: Alphabetical Parameter List
- Appendix B: Troubleshooting
- Appendix C: Maintenance
- Appendix D: Technical Reference
- Appendix E: Application Example
- Appendix F: PROFIBUS PA Profile Structure
- Appendix G: Communications via PROFIBUS PA
- Appendix H: Firmware Revision History
- Glossary
- Index
- LCD menu structure
Page 136 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685
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Glossary
dielectric constant (DK): the ability of a dielectric to store electrical potential energy under the
influence of an electric field. Also known as Relative Permitivity. An increase in the
dielectric constant is directly proportional to an increase in signal amplitude. The value is
usually given relative to a vacuum /dry air: the dielectric constant of air is 1
1
.
echo: a signal that has been reflected with sufficient magnitude and delay to be perceived in
some manner as a signal distinct from that directly transmitted. Echoes are frequently
measured in decibels relative to the directly transmitted signal.
echo confidence: the recognition of the validity of the echo. A measure of echo reliability.
Echo Lock Window: a window centered on an echo in order to locate and display the echo’s
position and true reading. Echoes outside the window are not immediately processed.
Echo Marker: a marker that points to the processed echo.
Echo Processing: the process by which the radar unit determines echoes.
Echo Strength: describes the strength of the selected echo in dB above 1 V rms.
Echo Profile: a graphical display of a processed echo.
false echo: any echo which is not the echo from the desired target. Generally, false echoes are
created by vessel obstructions.
frequency: the number of periods occurring per unit time. Frequency may be stated in cycles
per second.
hertz (Hz): unit of frequency, one cycle per second. 1 Gigahertz (GHz) is equal to 10
9
Hz.
horn antenna: a conical, horn-shaped antenna which focuses microwave signals. The larger
the horn diameter, the more focused the radar beam.
inductance: the property of an electric circuit by virtue of which a varying current induces an
electromotive force in that circuit or in a neighboring circuit. The unit is a Henry.
microwaves: the term for the electromagnetic frequencies occupying the portion of the radio
frequency spectrum from 1 GHz to 300 GHz.
multiple echoes: secondary echoes that appear as double, triple, or quadruple echoes in the
distance from the target echo.
Near Blanking: see Blanking
nozzle: a length of pipe mounted onto a vessel that supports the flange.
parameters: in programming, variables that are given constant values for specific purposes or
processes.
polarization: the property of a radiated electromagnetic wave describing the time-varying
direction and amplitude of the electric field vector.
1)
Many conductive liquids/electrolytes exhibit dielectric properties; the relative
dielectric constant of water is 80.