Siemens Canada Siemens Milltronics Process Instruments LR260 SITRANS LR260 Level Probing Radar User Manual LR260 PA EN 001 AA
Siemens Canada Ltd. - Siemens Milltronics Process Instruments SITRANS LR260 Level Probing Radar LR260 PA EN 001 AA
Contents
User Manual 2
Radar Transmitters SITRANS LR260 (PROFIBUS PA) Operating Instructions 12/2013 SITRANS Safety Guidelines: Warning notices must be observed to ensure personal safety as well as that of others, and to protect the product and the connected equipment. These warning notices are accompanied by a clarification of the level of caution to be observed. Qualified Personnel: This device/system may only be set up and operated in conjunction with this manual. Qualified personnel are only authorized to install and operate this equipment in accordance with established safety practices and standards. Unit Repair and Excluded Liability: The user is responsible for all changes and repairs made to the device by the user or the user’s agent. All new components are to be provided by Siemens Milltronics Process Instruments. Restrict repair to faulty components only. Do not reuse faulty components. Warning: Cardboard shipping package provides limited humidity and moisture protection. This product can only function properly and safely if it is correctly transported, stored, installed, set up, operated, and maintained. This product is intended for use in industrial areas. Operation of this equipment in a residential area may cause interference to several frequency based communications. Note: Always use product in accordance with specifications. Copyright Siemens AG 2013. All Rights Reserved This document is available in bound version and in electronic version. We encourage users to purchase authorized bound manuals, or to view electronic versions as designed and authored by Siemens Milltronics Process Instruments. Siemens Milltronics Process Instruments will not be responsible for the contents of partial or whole reproductions of either bound or electronic versions. Disclaimer of Liability While we have verified the contents of this manual for agreement with the instrumentation described, variations remain possible. Thus we cannot guarantee full agreement. The contents of this manual are regularly reviewed and corrections are included in subsequent editions. We welcome all suggestions for improvement. Technical data subject to change. MILLTRONICS®is a registered trademark of Siemens Milltronics Process Instruments. Contact SMPI Technical Publications at the following address: Technical Publications Siemens AG Siemens Milltronics Process Instruments 1954 Technology Drive, P.O. Box 4225 Peterborough, Ontario, Canada, K9J 7B1 Email: techpubs.smpi@siemens.com European Authorized Representative Siemens AG Industry Sector 76181 Karlsruhe Deutschland For a selection of Siemens Milltronics level measurement manuals, go to: www. siemens.com/processautomation. Under Process Instrumentation, select Level Measurement and then go to the manual archive listed under the product family. For a selection of Siemens Milltronics weighing manuals, go to: www. siemens.com/processautomation. Under Weighing Technology, select Continuous Weighing Systems and then go to the manual archive listed under the product family. © Siemens AG 2013 Table of Contents SITRANS LR260 Overview ................................................................................................. 4 Specifications ...................................................................................................................... 5 Dimensions ...............................................................................................................................................9 Threaded Horn Antenna with extension ...............................................................................10 Threaded Horn dimensions ......................................................................................................11 Installation ......................................................................................................................... 13 Mounting location .................................................................................................................................14 Nozzle design ...............................................................................................................................14 Nozzle location .............................................................................................................................14 Orientation in a vessel with obstructions .............................................................................15 Easy Aimer .............................................................................................................................................16 Air Purging System (Optional) ............................................................................................................17 Universal Slotted Flange ...........................................................................................................18 Dust Cap (Optional) ...............................................................................................................................19 Wiring ..................................................................................................................................21 Power .......................................................................................................................................................21 Connecting SITRANS LR260 ...............................................................................................................21 Basic PLC configuration with PROFIBUS PA ........................................................................23 Wiring setup for hazardous area installations .............................................................................24 Instructions specific to hazardous area installations ..................................................................26 Quick Start via local operation ......................................................................................27 Activating SITRANS LR260 .................................................................................................................27 The LCD Display ...........................................................................................................................27 Handheld Programmer ...............................................................................................................29 Programming SITRANS LR260 .................................................................................................30 Quick Start Wizard via the handheld programmer .......................................................................33 Requesting an Echo Profile ................................................................................................................35 Device Address ......................................................................................................................................35 Auto False Echo Suppression ............................................................................................................35 Level application example ...................................................................................................................36 Operating via SIMATIC PDM ..........................................................................................37 Functions in SIMATIC PDM ................................................................................................................37 Features of SIMATIC PDM Rev. 6.0, SP3 (or higher) ..........................................................37 Electronic Device Description (EDD) ......................................................................................38 mmmmm Safety Notes .............................................................................................................................................1 Safety marking symbols ..............................................................................................................1 FCC Conformity ........................................................................................................................................1 The Manual ...............................................................................................................................................2 Application Examples ...................................................................................................................2 Technical Support ....................................................................................................................................2 Abbreviations and Identifications .............................................................................................3 Table of Contents Table of Contents .................................................................................................................i Table of Cotents mmmmm Configuring a new device .........................................................................................................38 Quick Start Wizard via SIMATIC PDM .............................................................................................39 Changing parameter settings using SIMATIC PDM ...........................................................42 Parameter Reference .......................................................................................................51 Pull-down menus via SIMATIC PDM .....................................................................................51 Quick Start Wizard ................................................................................................................................52 Quick Start .................................................................................................................................. 52 Setup ............................................................................................................................................ 54 Device ................................................................................................................................ 54 Input.................................................................................................................................... 54 Output................................................................................................................................. 66 Fail-safe ............................................................................................................................. 70 Diagnostics ................................................................................................................................. 72 Fault Reset ........................................................................................................................ 72 Echo Profile....................................................................................................................... 72 Measured Values (MEAS. VALUES)........................................................................... 73 Remaining Device Lifetime (REMAIN. DEV. LIFE).................................................... 74 Remaining Sensor Lifetime (REMAIN SENS. LIFE) ................................................. 77 Condensed Status Setup (COND. STAT. SETUP) .................................................... 80 Condensed Status ........................................................................................................... 81 Service......................................................................................................................................... 84 Device Reset..................................................................................................................... 84 LCD Fast Mode................................................................................................................. 84 LCD Contrast..................................................................................................................... 85 PROFIBUS Ident Number (PROFIBUS IDENT).......................................................... 85 Powered Hours................................................................................................................ 85 Power-on Resets............................................................................................................. 85 Service Interval ................................................................................................................85 Calibration Interval (CALIB INTERVAL)...................................................................... 87 Communication.......................................................................................................................... 88 Device Address ............................................................................................................... 88 Remote Lockout ............................................................................................................... 88 Security........................................................................................................................................ 88 Write Locking ................................................................................................................... 88 Language..................................................................................................................................... 89 Appendix A: Alphabetical Parameter List ....................................................................91 Appendix B: Troubleshooting .........................................................................................93 Device Status Icons ..............................................................................................................................94 General Fault Codes .............................................................................................................................95 Operation Troubleshooting .................................................................................................................99 Appendix C: Maintenance ............................................................................................ 101 Unit Repair and Excluded Liability ..................................................................................................101 Appendix D: Technical Reference ............................................................................... 103 Principles of Operation ..................................................................................................................... 103 Echo Processing ................................................................................................................................. 103 Process Intelligence ................................................................................................................ 103 Time Varying Threshold (TVT) Curves ................................................................................. 104 ii Flour in steel storage vessel, level measurement .............................................................111 Appendix F: PROFIBUS PA Profile Structure ............................................................. 113 PROFIBUS Level Device Design ......................................................................................................113 Description of the blocks .........................................................................................................114 Appendix G: Communications via PROFIBUS PA ..................................................... 119 Device Configuration tool ..................................................................................................................119 SIMATIC PDM ............................................................................................................................119 Network Configuration ......................................................................................................................119 The GSD file ................................................................................................................................119 Bus Termination ...................................................................................................................................119 Power Demands ..................................................................................................................................120 PROFIBUS address .............................................................................................................................120 Operating as a Profile Device ...........................................................................................................120 Configuring a device .................................................................................................................121 Configuring PROFIBUS PA with an S7-300/ 400 PLC ........................................................121 Cyclic versus Acyclic Data ................................................................................................................121 Cyclic Data ..................................................................................................................................121 Status Byte ...........................................................................................................................................122 Condensed Status ...............................................................................................................................122 Status Byte ...........................................................................................................................................124 Diagnostics ...........................................................................................................................................125 Diagnosis reply (available cyclically) ....................................................................................125 Diagnosis Object (available cyclically or acyclically) .......................................................125 Extended Mode Diagnosis ......................................................................................................126 Condensed Mode Diagnosis ..................................................................................................126 Acyclic Extended Diagnostics (General Fault Codes) ......................................................127 Acyclic Data ..........................................................................................................................................130 iii mmmmm Appendix E: Application Example ............................................................................... 111 Table of Contents Echo Lock ................................................................................................................................... 104 Echo Position Detection .......................................................................................................... 104 Auto False Echo Suppression ............................................................................................... 105 Measurement Range ........................................................................................................................ 105 Near Range ................................................................................................................................ 105 Far Range ................................................................................................................................... 106 Measurement Response .................................................................................................................. 106 Damping ................................................................................................................................................ 106 Loss of Echo (LOE) .............................................................................................................................. 106 LOE (Loss of Echo) Timer ........................................................................................................ 107 Fail-safe Mode .................................................................................................................................... 107 Fail-safe value ........................................................................................................................... 107 Process Pressure/Temperature derating curves ..........................................................108 Horn Antenna ............................................................................................................................ 109 Table of Cotents mmmmm Appendix H: Firmware Revision History .................................................................... 133 Glossary ............................................................................................................................ 135 Index .................................................................................................................................. 139 LCD menu structure ....................................................................................................... 141 iv Safety Notes Special attention must be paid to warnings and notes highlighted from the rest of the text by grey boxes.1) WARNING: relates to a caution symbol on the product, and means that failure to observe the necessary precautions can result in death, serious injury, and/or considerable material damage. WARNING1: means that failure to observe the necessary precautions can result in death, serious injury, and/or considerable material damage. In manual On product Description Earth (ground) Terminal Protective Conductor Terminal (Label on product: yellow background.) WARNING: refer to accompanying documents (manual) for details. FCC Conformity US Installations only: Federal Communications Commission (FCC) rules WARNING: Changes or modifications not expressly approved by Siemens Milltronics could void the user’s authority to operate the equipment. Notes: • This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. • This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference to radio communications, in which case the user will be required to correct the interference at his own expense. 1) This symbol is used when there is no corresponding caution symbol on the product. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 1 mmmmm Safety marking symbols SITRANS LR260 Note: means important information about the product or that part of the operating manual. The Manual Notes: • Please follow the installation and operating procedures for a quick, trouble-free installation and to ensure the maximum accuracy and reliability of your SITRANS LR260. • This manual applies to the SITRANS LR260 (PROFIBUS PA) only. SITRANS LR260 mmmmm This manual will help you set up your SITRANS LR260 for optimum performance. We always welcome suggestions and comments about manual content, design, and accessibility. Please direct your comments to techpubs.smpi@siemens.com. For other Siemens Milltronics level measurement manuals, go to: www.siemens.com/level, and look under Level Measurement. Application Examples The application examples used in this manual illustrate typical installations using SITRANS LR260. (See Appendix E: Application Example on page 111.) Because there is often a range of ways to approach an application, other configurations may also apply. In all examples, substitute your own application details. If the examples do not apply to your application, check the applicable parameter reference for the available options. Technical Support Support is available 24 hours a day. To find your local Siemens Automation Office address, phone number, and fax number go to: www.siemens.com/automation/partner • • • Click on the tab Contacts by Product and then find your product group (+Process Automation > +Process Instrumentation > +Level Measuring Instruments). Select the team Technical Support. Click on Next. Click on the appropriate continent, then select the country followed by the city. Click on Next. For on-line technical support go to: www.siemens.com/automation/support-request • • Enter the device name (SITRANS LR260) or order number, then click on Search, and select the appropriate product type. Click on Next. You will be prompted to enter a keyword describing your issue. Then either browse the relevant documentation, or click on Next to email a detailed description of your issue to Siemens Technical Support staff. Siemens A&D Technical Support Center: phone fax Page 2 +49 180 50 50 222 +49 180 50 50 223 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Abbreviations and Identifications Long Form A/D Analog to digital AIFB Analog Input Function Block CE / FM / CSA Conformitè Europèene / Factory Mutual / Canadian Standards Association Ci Internal capacitance D/A Digital to analog Digital Analog Converter DCS Distributed Control System dK dielectric constant Ii Input current Units safety approval control room apparatus mA Io Output current IS Intrinsically Safe Li Internal inductance LTB Level Transducer Block mH milliHenry 10-3 Henry F microFarad 10-6 Farad s microsecond 10-6 Second PA Process Automation (PROFIBUS) PED Pressure Equipment Directive safety approval pF pico Farads 10-12 ppm parts per million PV Primary Valuea) SELV Safety extra low voltage SV Secondary Valuea equivalent value TVT Time Varying Threshold sensitivity threshold Ui Input voltage Uo Output voltage a) mA safety approval mH Farad measured value The output from the Level Transducer Block can be called the Primary Value (or Secondary Value). When it becomes the input to the AIFB, it is called the Process Variable. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 3 mmmmm DAC Description SITRANS LR260 Short form SITRANS LR260 Overview SITRANS LR260 is a 2-wire 25 GHz pulse radar level transmitter for continuous monitoring of solids and liquids in storage vessels including extreme levels of dust and high temperatures, to a range of 30 m (98.4 ft). SITRANS LR260 mmmmm The instrument consists of an electronic component coupled to a horn antenna with an integral Easy Aimer and flange for quick and easy positioning. A dust cover or air purging are available as options. SITRANS LR260 supports PROFIBUS PA communication protocol, and SIMATIC PDM software. Signals are processed using Process Intelligence which has been field-proven in over 1, 000,000 applications worldwide (ultrasonic and radar). This device supports acyclic communications from both a PROFIBUS Class I and Class II master. Programming SITRANS LR260 is very easy to install and configure via a graphical local user interface (LUI). You can modify the built in parameters either locally via the Siemens infrared handheld programmer, or from a remote location via SIMATIC PDM. Applications • • cement powder, plastic powder/pellets, grain, flour, coal, and other applications solids and liquids bulk storage vessels Approvals and Certificates SITRANS LR260 is available with General Purpose approval, or for Hazardous areas. For details, see Approvals on page 7. Page 4 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Specifications Notes: • Siemens Milltronics makes every attempt to ensure the accuracy of these specifications but reserves the right to change them at any time. Power Bus powered Current consumed Per IEC 61158-2 (PROFIBUS PA) 15.0 mA (General Purpose or Intrinsically Safe version) Performance Reference operating conditions according to IEC 60770-1 • ambient temperature +15 to +25 °C (+59 to +77 °F) • humidity 45% to 75% relative humidity • liquids K-band (25 GHz nominal) 2" horn: 10 m (32.8 ft) 3" horn: 20 m (65.6 ft) 4" horn: 30 m (98.4 ft) 2" horn: 20 m (65.6 ft) 3" horn: 30 m (98.4 ft) 4" horn: 30 m (98.4 ft) Min. detectable distance2) Update time3) 0.05 m (1.97") from end of horn minimum 2 seconds, depending on Response Rate (2.2.6.1.) and LCD Fast Mode (4.2.) Influence of ambient temperature <0.003% / K (average over full temperature range, referenced to maximum range) 1) From sensor reference point. See Dimensions on page 9. 3) Reference conditions: Response Rate (2.2.6.1.) set to FAST and LCD Fast Mode (4.2.) set to ON 2) A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 5 mmmmm Frequency Max. measurement range1) • solids Specifications • ambient pressure 860 to 1060 mbar g (86,000 to 106,000 N/m2 g) Measurement Accuracy (measured in accordance with IEC 60770-1) • Maximum measured error (including hysteresis and non-repeatability) - 25 mm (1") from minimum detectable distance up to 300 mm - Remainder of range = 10 mm (0.39") or 0.1% of span (whichever is greater) Dielectric constant of material measured • Minimum dK = 1.6 (depending on antenna and application type) Memory • non-volatile EEPROM • no battery required. Interface • PROFIBUS PA • configuration • display (local)1) Siemens SIMATIC PDM (PC), or Siemens Milltronics infrared hand-held programmer (see Programmer (infrared keypad) on page 8) graphic LCD, with bar graph (representing level) Mechanical (Easy Aimer model) Specifications mmmmm Materials • flange and horn Process Connections: • universal flanges2) Horn: • 2" horn • 3" horn • 4" horn Enclosure • construction • conduit entry • ingress protection Dust cap (optional) • 2" • 3" • 4" flange and horn: 304 stainless steel 2"/50 mm, 3"/80 mm, 4"/100 mm, 6"/150 mm aluminum, polyester powder-coated 2 x M20x1.5, or 2 x ½” NPT Type 4X/NEMA 4X, Type 6/NEMA 6, IP67, IP68 (see note below) PTFE, pipe clamp connection, O.D. 50 mm (1.97") PTFE, pipe clamp connection, O.D. 75 mm (2.95") PTFE, pipe clamp connection, O.D. 100 mm (3.94") Air Purge Connection • equipped with female 1/8” NPT fitting Weight • standard model < 8.14 kg (17.9 lb) including 4" flange and standard Easy Aimer with 4" horn antenna 1) Display quality will be degraded in temperatures below –25 °C (–13 °F) and above +65 °C (+149 °F). 2) Universal flange mates with EN 1092-1 (PN16)/ASME B16.5 (150 lb)/JIS 2220 (10K) bolt hole pattern. Page 6 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Mechanical (Threaded Connection model) • threaded connection materials 2" NPT (ASME B1.20.1), R (BSPT, EN 10226-1) or G (BSPP, EN ISO 228-1) 316L /1.4404 or 316L /1.4435 stainless steel PTFE emitter Environmental • • • • location altitude ambient temperature relative humidity • installation category indoor/ outdoor 2000 m (6562 ft) max. 40 to +80 °C (40 to +176 °F) suitable for outdoor Type 4X/NEMA 4X, Type 6/NEMA 6, IP67 enclosure (see note below) • pollution degree Notes: • Check Approvals on page 7, for the specific configuration you are about to use or install. • Use appropriate conduit seals to maintain IP or NEMA rating. -40 to +200 °C (-40 to +392 °F)2) (at process connection with FKM O-ring) • pressure (vessel)1 Refer to Process Pressure/Temperature derating curves on page 108. Approvals Note: The device nameplate lists the approvals that apply to your device. • General • Radio • Hazardous CSAUS/C, FM, CE Europe (R&TTE), FCC, Industry Canada ATEX II 1GD, 1/2D, 2D Ex ia IIC T4 Ga, Ex ta IIIC T100 °C Da ATEX II 3G Ex nA IIC T4 Gc IECEx SIR 11.0153X Ex ia IIC T4 Ga, Ex ta IIIC T100 °C Da FM/CSA Class I, Div. 1, Groups A, B, C, D, Class II, Div. 1, Groups E, F, G, Class III T4 FM/CSA Class I, Div 2, Groups A, B, C, D T5 SABS ARP0108 Ex ia IIC T4 Ga 1) The maximum temperature is dependent on the ambient temperature and vessel pressure. For more detail, or for other configurations, see Process Pressure/ Temperature derating curves on page 108. 2) Pressure rated version for maximum process temperature of 80 °C (176 °F) A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 7 mmmmm • temperature1) Specifications Process INMETRO: DNV 12.0081 X Ex ia IIC T4 Ga Ex ta IIIC T100 °C Da -40 °C Ta +80 °C IP67/IP68 DNV #OCP 0017 ABNT NBR IEC 60079-0:2008 ABNT NBR IEC 60079-11:2009 ABNT NBR IEC 60079-26:2008 e ABNT NBR IEC 60079-31:2011 Programmer (infrared keypad) Siemens Milltronics Infrared IS (Intrinsically Safe) Hand Programmer for hazardous and all other locations (battery is non-replaceable) Specifications mmmmm • approval • • • • • • Page 8 ambient temperature interface power weight color Part Number ATEX II 1GD, Ex ia IIC T4 Ga, Ex iaD 20 T135 °C, SIRA 01ATEX2147 IECEx SIR 09.0073 Ex ia IIC T4 Ga, Ex iaD 20 T135 °C FM/CSA: Class I, Div. 1, Groups A, B, C, D INMETRO: DNV 12.0075 Ex ia IIC T4 Ga Ex ta IIIC T135 °C Da DNV #OCP 0017 ABNT NBR IEC 60079-0:2008 ABNT NBR IEC 60079-11:2009 ABNT NBR IEC 60079-26:2008 e IEC 61241-11:2005 20 to +50 °C (5 to +122 °F) proprietary infrared pulse signal 3 V lithium battery 150 g (0.3 lb) black 7ML5830-2AJ SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Dimensions Notes: • Process temperature and pressure capabilities are dependent upon information on the process device tag. • Signal amplitude increases with horn diameter, so use the largest practical size. enclosure/electronics nameplate 268 mm (10.6") process device tag 2" horn: 163 mm (6.4") 3" horn: 228 mm (9.0") horn 4" horn: 285 mm (11.2") A5E32337685 49 mm (1.9") 74.5 mm (2.9") 2" horn 97.5 mm (3.8") 4" horn 3" horn SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 9 mmmmm optional extension Specifications universal slotted flange sensor reference point Threaded Horn Antenna with extension Notes: • Process temperature and pressure capabilities are dependent upon information on the process connection tag. • Signal amplitude increases with horn diameter, so use the largest practical size. • Optional extensions can be installed below the threads. 50 mm (2.0") 1/2" NPT cable entry (or alternatively, M20 cable gland) threaded cover 167 mm (6.6") Specifications mmmmm 154 mm (6.1") 90 mm (3.5") enclosure/ electronics retaining collar 196 mm (7.7") 159 mm (6.26") sensor ref. point optional 100 mm (4.0 ") horn extension 28 mm (1.1") process connection tag horn horn O.D. See table under Threaded Horn dimensions on page 11 for horn height to sensor reference point. Page 10 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Threaded Horn dimensions Antenna Type Antenna O.D. Height to sensor reference pointa) 1-1/2" threaded connection a) 2" threaded connection Beam Angleb) Measurement Range 3" threaded connection 2" Horn 47.8mm (1.88") N/A 166mm (6.55") 180mm (7.09") 15 degrees 20m (65.6 ft) 3" Horn 74.8mm (2.94") N/A 199mm (7.85") 213mm (8.39") 10 degrees 20m (65.6 ft) 4" Horn 94.8mm (3.73") N/A 254mm (10") 268mm (10.55") 8 degrees 20m (65.6 ft) Height from bottom of horn to sensor reference point as shown: see Threaded Horn Antenna with extension on page 10. b) – 3dB in the direction of the polarization axis (see Polarization reference point on page 15 for an illustration). SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 11 mmmmm Specifications A5E32337685 Specifications mmmmm Notes Page 12 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Installation WARNINGS: • Installation shall be performed only by qualified personnel and in accordance with local governing regulations. • SITRANS LR260 is to be used only in the manner outlined in this manual, otherwise protection provided by the device may be impaired. • Never attempt to loosen, remove, or disassemble process connection or instrument housing while vessel contents are under pressure. • This product is designated as a Pressure Accessory per Directive 97/23/EC and is not intended for use as a safety device. • Materials of construction are chosen based on their chemical compatibility (or inertness) for general purposes. For exposure to specific environments, check with chemical compatibility charts before installing. • The user is responsible for the selection of bolting and gasket materials which will fall within the limits of the flange and its intended use and which are suitable for the service conditions. • Improper installation may result in loss of process pressure. Notes: 1) The process pressure boundary assembly comprises the components that act as a barrier against pressure loss from the process vessel: that is, the combination of process connection body and emitter, but normally excluding the electrical enclosure. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 13 mmmmm 1) Installation • For European Union and member countries, installation must be according to ETSI EN 302372. • Refer to the device nameplate for approval information. • The Process Device Tag shall remain with the process pressure boundary assembly1. In the event the instrument package is replaced, the Process Device Tag shall be transferred to the replacement unit. • SITRANS LR260 units are hydrostatically tested, meeting or exceeding the requirements of the ASME Boiler and Pressure Vessel Code and the European Pressure Equipment Directive. • The serial numbers stamped in each process connection body provide a unique identification number indicating date of manufacture. Example: MMDDYY – XXX (where MM = month, DD = day, YY = year, and XXX= sequential unit produced) Further markings (space permitting) indicate flange configuration, size, equivalent pressure class, material, and material heat code. Mounting location Notes: • Correct location is key to a successful application. • Avoid reflective interference from vessel walls and obstructions by following the guidelines below Nozzle design • The end of the horn must protrude a minimum of 10 mm (0.4”) to avoid false echoes being reflected from the nozzle. • Optional antenna extensions: 100 mm (3.93"), 200 mm (70.9"), 500 mm (19.69"), 1000 mm (39.4")1) Min. clearance: 10 mm (0.4") Nozzle location Notes: Installation mmmmm • Beam angle depends on horn size. • For details on avoiding false echoes, see Auto False Echo Suppression on page 105. • Keep emission cone free of interference from ladders, pipes, I-beams or filling streams. • Avoid central locations on tall, narrow vessels. • Align the antenna so that the radar cone is perpendicular to the surface of the monitored material, if possible. (See Easy Aimer on page 16.) 1) emission cone beam angle: 2" horn = 15° 3" horn = 10° 4" horn = 8° Extensions are not recommended for applications where there may be excessive visible vibration. Please consult the factory for more information. Page 14 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Nozzle location (continued) • • • Provide easy access for viewing the display and programming via the hand programmer. Provide an environment suitable to the housing rating and materials of construction. Provide a sunshield if the instrument will be mounted in direct sunlight. ambient temperature –40 °C to +80 °C (–40 °F to +176 °F) process temperature (with FKM O-ring) non-pressure version: –40 to +200 °C (–40 to +392 °F) pressure rated version: –40 to +80 °C (–40 to +176 °F) Orientation in a vessel with obstructions Polarization reference point polarization axis polarization reference point For best results on a vessel with obstructions, orient the front or back of the device toward the obstructions. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 15 mmmmm Installation display Easy Aimer Easy Aimer ball locking bolts top clamping plate (upper socket) bottom clamping plate (lower socket) 0.38" (10 mm) customer gasket as required [recommended thickness 1.5 to 1.8 mm (0.06 to 0.07")] customer mounting plate, as required ø 4" (102 mm) min., central opening 285 mm (11.22") 30° max. Note: When the Easy Aimer ball is loosened, the device is free to tilt to a maximum of Installation mmmmm 30°. 1. Holding the electronics enclosure firmly, loosen the Easy Aimer ball locking bolts and gently reposition the enclosure. 2. Direct SITRANS LR260 so the horn antenna is pointed at an angle perpendicular to the material surface, if possible. (As a guide, aim the beam at a point approximately 2/3 of the way across the tank diameter.) 3. When the desired position is reached, retighten the 5 bolts to 15-23 Nm (11 to 17 Lbf-ft). Page 16 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Easy Aimer A5E32337685 Air Purging System (Optional) For more frequent cleaning, a purging system can be installed between the flange and the horn antenna. The system provides an 1/8” inlet (female thread) on the flange where cooling air or cleaning fluid passes through the flange and exits the inside of the horn to clean it. The customer will supply the purging medium by a manual or automatic valve system. This option is only available with the universal flange for purging shown on page 17. 1) Notes: • The Air Purge feature should not be activated with a dust cap in place. • Purge duration, pressure, and interval, will vary with each application. It is the user’s responsibility to determine the requirements depending on the application and cleaning required. • Short duration bursts of high pressure provide more effective cleaning than continuous low pressure air. • Some dust particles are highly abrasive and can be drawn into the inside of the horn during purge cleaning, damaging the internal PTFE emitter of the antenna. A replacement kit is available from your local Siemens Milltronics representative. • It is the customer’s responsibility to ensure that any vacuum or pressure in the measured vessel is maintained, considering the hole that passes through the process connection and SITRANS LR260 antenna system. Air Consumption (Flow rate versus applied pressure) Approx. inlet volume flow rate Air Pressure (psi)2 20 5 SCFM 40 6 SCFM 60 8 SCFM 80 9 SCFM 90 10 SCFM Recommended 90 to 110 psi for effective cleaning with inlet flow of 10 SCFM1) • purged process connection with factoryinstalled 1/8” NPT plug 1) SCFM (standard cubic feet/minute) referenced to 14.7 psia, +68 °F and 36% relative humidity (RH). 2) Air pressure in vessel can affect purge operation. 3) Not for pressure applications A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 17 mmmmm Installation • The purge connection is closed by the manufacturer, using a 1/8” plug. When the plug is removed to connect a purging system, the operator is responsible for ensuring that the purging circuit conforms to “Ex” requirements: for example, by fitting an NRV valve. 2)3) Universal Slotted Flange WARNING: The user is responsible for the selection of bolting and gasket materials which will fall within the limits of the flange and its intended use and which are suitable for the service conditions. number of slotted bolt holes bolt hole circle max. diameter bolt hole circle min. diameter flange O.D. thickness Installation mmmmm section A-A Slotted Flange Dimensions (see above)1) Pipe Size Flange O.D. 2" or 50 mm 3" or 80 mm 4" or 100 mm 6" or 150 mm 6.50" (165 mm) 7.87" (200 mm) 9.00" (229 mm) 11.22" (285 mm) ThickBolt Hole Bolt Hole ness (s) Circle Max Ø Circle Min Ø Bolt Hole radius 0.38" (9.65 mm) 0.38" (9.65 mm) 0.38" (9.65 mm) 0.38" (9.65 mm) 0.38" (9.65 mm) 0.38" (9.65 mm) 0.38" (9.65 mm) 0.45" (11.5 mm) 4.92" (125 mm) 6.30" (160 mm) 7.52" (191 mm) 9.53" (242 mm) 4.72" (120 mm) 5.91" (150 mm) 6.89" (175 mm) 9.45" (240 mm) Page 18 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS No. of Slotted Holes A5E32337685 Dust Cap (Optional) Note: The dust cap must be removed before using the Air Purge feature. (See Air Purging System (Optional) on page 17). The dust cap fits onto the end of the horn and prevents the buildup of dust and other process material inside the horn. • It is particularly useful for applications in areas of high humidity, or with bulk solids with a high moisture content. Three sizes are available, to fit the standard 2", 3", and 4" horns. • Installation 1. Thoroughly clean inside the horn. If you remove the horn for easier cleaning, take care not to damage or bend the plastic emitter. plastic emitter groove ridge dust cap clamp screw 2. 3. 4. 1) Universal flange mates with EN 1092-1 (PN16)/ASME B16.5 (150 lb)/JIS 2220 (10K) bolt hole pattern. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 19 mmmmm Note: It is critical to ensure no moisture can be trapped inside. Installation Press the cap firmly onto the horn until the ridge inside the cap snaps into position in the groove on the outside of the horn. Hand tighten the adjustable clamp supplied to secure the cap. Use a screwdriver or nut driver to tighten the clamp screw until the clamp provides an air-tight seal. Installation mmmmm Notes Page 20 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Wiring Power WARNINGS: The DC input terminals shall be supplied from a source providing electrical isolation between the input and output, in order to meet the applicable safety requirements of IEC 61010-1. All field wiring must have insulation suitable for rated voltages. Connecting SITRANS LR260 WARNINGS: • Check the nameplate on your instrument, to verify the approval rating. • Use appropriate conduit seals to maintain IP or NEMA rating. Notes: • • Use twisted pair cable: AWG 22 to 14 (0.34 mm2 to 2.5 mm2). Separate cables and conduits may be required to conform to standard instrumentation wiring practices or electrical codes. 1) Use a 2 mm Allen key to loosen the lid-lock set screw. Unscrew the cover for access to the terminals. Use a screwdriver for added leverage, if necessary. cable gland1 (or 2 x 1/2" NPT metallic cable entry) Depending on the approval rating, glands and plugs may be supplied with your instrument. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 21 mmmmm Wiring 1) 1. 2. 3. Strip the cable jacket for approximately 70 mm (2.75") from the end of the PROFIBUS PA cable, and thread the wires through the gland1). Connect the wires to the terminals as shown below (SITRANS LR260 is not polarity sensitive). Ground the instrument according to local regulations. 2) instrument shield connection2 external ground lug 4. 5. cable shield Tighten the gland to form a good seal. Close the lid and secure the locking ring before programming and calibration. Notes: • Wiring mmmmm • PROFIBUS PA must be terminated at both extreme ends of the cable for it to work properly. Please refer to the PROFIBUS PA User and Installation Guidelines (order number 2.092), available from www.profibus.com, for information on installing PROFIBUS devices. 1) If cable is routed through conduit, use only approved suitable-size hubs for waterproof applications. 2) The instrument shield connection is internally connected to the external ground lug. Page 22 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Basic PLC configuration with PROFIBUS PA PDM active PLC PROFIBUS DP PC/laptop DP/PA coupler PROFIBUS PA SITRANS LR260 (PROFIBUS PA) SITRANS LR260 (PROFIBUS PA) SITRANS LR260 (PROFIBUS PA) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 23 mmmmm Wiring A5E32337685 Wiring setup for hazardous area installations 1. Intrinsically Safe wiring Device nameplate (ATEX/IECEX/INMETRO/C-TICK) SITRANS LR260 7MLxxxx-xxxxx-xxxx Serial No: GYZ / A1034567 Encl.: NEMA / TYPE 4X, 6, IP67, IP68 Amb.Temp.: – 40°C to 80°C Power Rating: 30 V Max., 15 mA II 1 G D, 1/2 D, 2 D Ex ia IIC T4 Ga Ex ta IIIC T100°C Da SIRA 11ATEX2348X Ex ia IIC T4 Ga IECEx SIR 11.0153X Ex ta IIIC T100°C Da ARP0108 Ex ia IIC T4 Ga DNV 12.0081 X OCP 0017 PROFIBUS PA Siemens Milltronics Process Instruments, Peterborough Assembled in Canada with domestic and imported parts KCC-REM-S49 SITRANSLR FISCO: Field Device Ui = 17.5 V Ii = 380 mA Pi = 5.32 W Ci = 0 Li = 0 Entity: Ui = 24 V Ii = 250 mA Pi = 1.2 W Ci = 0 Li = 0 WARNING: Use Cable Rated >100°C ATENÇÃO - RISCO POTENCIAL DE CARGA ELETROSTÁTICA – VEJA INSTRUÇÕES - UTILIZAR CABOS ADEQUADOS PARA TEMPERATURAS >100 °C 0891 0518 The ATEX certificate listed on the nameplate can be downloaded from the product page of our website at: www.siemens.com/LR260. Go to Support > Approvals / Certificates. The IECEx certificate listed on the nameplate can be viewed on the IECEx website. Go to: http://iecex.iec.ch and click on Ex Equipment Certificates of Conformity then enter the certificate number IECEx SIR 11.0153X. Device nameplate (FM/CSA) FM/CSA Intrinsically Safe connection drawing number A5E03745619 can be downloaded from the product page of our website at: www.siemens.com/LR260. Go to Support > Installation Drawings > Level Measurement > Continuous - Radar. • For wiring requirements: follow local regulations. • Approved dust-tight and water-tight conduit seals are required for outdoor NEMA 4X / type 4X / NEMA 6, IP67, IP68 locations. • Refer to Instructions specific to hazardous area installations on page 26. Wiring mmmmm Note: Selecting a suitable PLC input module, power supply, or barrier requires knowledge about Intrinsic Safety and the application. It is the responsibility of the installer to ensure that the intrinsically safe installation complies with both the apparatus approval requirements and the relevant national code of practice. Page 24 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2. Non-Sparking wiring SITRANS LR260 7MLxxxx-xxxxx-xxxx Serial No.: GYZ / B1034567 Encl.: NEMA / TYPE 4X, 6, IP67, IP68 Amb. Temp.: – 40°C to 80°C Power Rating: 30 V Max., 15 mA II 3 G Ex nA IIC T4 Gc SIRA 09ATEX4156X KCC-REM-S49 SITRANSLR 0891 PROFIBUS PA Siemens Milltronics Process Instruments, Peterborough Assembled in Canada with domestic and imported parts WARNING: Use Cable Rated > 100°C The ATEX certificate listed on the nameplate can be downloaded from the product page of our website at: www.siemens.com/LR260. Go to Support > Approvals / Certificates. • For wiring requirements: follow local regulations. • Approved dust-tight and water-tight conduit seals are required for outdoor Type 4X/NEMA 4X, Type 6/NEMA 6, IP67 locations. • Refer to Instructions specific to hazardous area installations on page 26. 3. Non-incendive wiring (US/Canada only) FM/CSA Class 1, Div 2 connection drawing number A5E03745541 can be downloaded from the product page of our website at: www.siemens.com/LR260. Go to Support > Installation Drawings > Level Measurement > Continuous - Radar. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 25 mmmmm Wiring A5E32337685 Instructions specific to hazardous area installations (Reference European ATEX Directive 94/9/EC, Annex II, 1/0/6) The following instructions apply to equipment covered by certificate number SIRA 11ATEX2348X, and SIRA 09ATEX4156X. 1) 2) For use and assembly, refer to the main instructions. The equipment is certified for use as Category 1GD, 1/2D, 2D equipment per SIRA 11ATEX2348X and Category 3G equipment per SIRA 09ATEX4156X. 3) The equipment may be used with flammable gases and vapors with apparatus group IIC, IIB and IIA and temperature classes T1, T2, T3 and T4. 4) The equipment has a degree of ingress protection of IP67 and a temperature class of T100C and may be used with flammable dusts. 5) The equipment is certified for use in an ambient temperature range of –40 C to 80 C. 6) The equipment has not been assessed as a safety related device (as referred to by Directive 94/9/EC Annex II, clause 1.5). 7) Installation and inspection of this equipment shall be carried out by suitably trained personnel in accordance with the applicable code of practice (EN 60079-14 and EN 60079-17 in Europe). 8) The equipment is non-repairable. 9) The certificate numbers have an ‘X’ suffix, which indicates that special conditions for safe use apply. Those installing or inspecting this equipment must have access to the certificates. 10) If the equipment is likely to come into contact with aggressive substances, then it is the responsibility of the user to take suitable precautions that prevent it from being adversely affected, thus ensuring that the type of protection is not compromised. - Aggressive substances: for example, acidic liquids or gases that may attack metals, or solvents that may affect polymeric materials. - Suitable precautions: for example, establishing from the material’s data sheet that it is resistant to specific chemicals. SPECIAL CONDITIONS FOR SAFE USE The 'X' suffix to the certificate number relates to the following special condition(s) for safe use: • • Wiring mmmmm • Unused cable entries shall be fitted with blanking elements that can only be removed with the aid of a tool. Any glands, conduit entry devices or blanking elements fitted to the equipment shall be suitable for use in the presence of combustible dusts and certified as such by a notified body; the installation of these devices shall not compromise the IP6X rating of the equipment enclosure. For applications that use the purge facility, the user shall provide a means to ensure that combustible dust from the hazardous area cannot enter the purge supply in such a way as to compromise the area classification. Page 26 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Quick Start via local operation For more complex setups, see Appendix E: Application Example on page 111, and for the complete range of parameters see Parameter Reference on page 51. Activating SITRANS LR260 Power up the instrument. SITRANS LR260 automatically starts up in Measurement mode. Press Mode to toggle between Measurement and Program Mode.1) The LCD Display Measurement mode Normal operation [ M] AIFB 1 18.91 21.40 °C NO DATA EXCH. 1 – toggle indicator for AIFB 1 or AIFB 2 2 – identifies which AIFB is source of displayed value 3 – measured value (level, space, or distance) 4 – units 5 – bar graph indicates level 6 – secondary region indicates on request1 electronics temperature, echo confidence, or distance 7 – text area displays status messages 8 – device status indicator Fault present S: 0 LOE 1) 7 – text area displays a fault code and an error message 8 – service required icon appears In response to a key press request. For details, see Key functions in Measurement mode on page 29. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 27 mmmmm A Quick Start Wizard provides an easy step-by-step guide to help you configure the device for a simple application. There are two ways to access the wizard: • 7-step Quick Start Wizard via the handheld programmer on page 33 • 4-step Quick Start Wizard via SIMATIC PDM on page 39 Quick Start: local SITRANS LR260 carries out its level measurement tasks according to settings made via parameters. The settings can be modified locally via the Local User Interface (LUI) which consists of an LCD display and a handheld programmer. Quick Start: local mmmmm PROGRAM mode display Navigation view • A visible menu bar indicates the menu list is too long to display all items. • A band halfway down the menu current bar indicates the current item is menu halfway down the list. • The depth and relative position of the item band on the menu bar menu bar indicates the length of the menu list, and approximate position of the current item in the list. • A deeper band indicates fewer items. current item number current item pointer Parameter view parameter name parameter number parameter value/selection Edit view Page 28 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Handheld Programmer The programmer is ordered separately. Key functions in Measurement mode Key Function Result Updates internal enclosure temperature New value is displayed in LCD secondary region. reading. A5E32337685 Updates echo confidence value. New value is displayed in LCD secondary region. Updates distance measurement. New value is displayed in LCD secondary region. Mode opens PROGRAM mode. Opens the menu level last displayed in this power cycle, unless power has been cycled since exiting PROGRAM mode or more than 30 minutes have elapsed since PROGRAM mode was used. Then top level menu will be displayed. RIGHT arrow opens PROGRAM mode. Opens the top level menu. UP or DOWN arrow toggles between AIFB 1 and AIFB 2. LCD displays measured value in configured Analog Input Function Block outputs. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 29 mmmmm Quick Start: local (Part No. 7ML5830-2AJ Quick Start: local mmmmm Programming SITRANS LR260 Note: While the device is in PROGRAM mode the output remains active and continues to respond to changes in the device. Change parameter settings and set operating conditions to suit your specific application. See Operating via SIMATIC PDM on page 37 for remote operation. • Programming via the handheld programmer Notes: • The Quick Start wizard settings are inter-related and changes apply only after you click on Apply at the end of the Quick Start steps. • Do not use the Quick Start wizard to modify individual parameter: see insteadParameter Reference on page 51. • SITRANS LR260 automatically returns to Measurement mode after a period of inactivity in PROGRAM mode (between 15 seconds and 10 minutes, depending on the menu level). Parameter menus Parameters are identified by name and organized into function groups, then arranged in a 5-level menu structure (seeLCD menu structure on page 141). Note: In Navigation mode, ARROW keys move to the next menu item in the direction of the arrow. • 1. 1. QUICK START 2. SETUP 2.1. DEVICE 2.2. INPUT 2.2.1. SENSOR CALIB. 2.2.8. ECHO PROC. For the complete list of parameters with instructions, see Parameter Reference on page 51. Enter PROGRAM mode • Point the programmer at the display (from a maximum distance of 500 mm [1.64 ft]). • RIGHT arrow activates PROGRAM mode and opens menu level 1. • Mode handheld programmer display Max. 500 mm (1.64 ft) opens the menu level last displayed in PROGRAM mode within the last 30 minutes, or menu level 1 if power has been cycled since then. Page 30 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2. Navigating: key functions in Navigation mode Menu level Function UP or DOWN arrow menu or parameter Scroll to previous or next menu or parameter. menu Go to first parameter in the selected menu, or open next menu. parameter Open Edit mode. LEFT arrow menu or parameter Open parent menu. Mode menu or parameter Change to MEASUREMENT mode. Home menu or parameter Open top level menu: menu 1. RIGHT arrow 3. Editing in PROGRAM mode Selecting a listed option parameter name a) Navigate to the desired parameter. b) Press RIGHT arrow view. c) Press RIGHT arrow again to open Edit mode. The current selection is highlighted. Scroll to a new selection. d) Press RIGHT arrow to accept it The LCD returns to parameter view and displays the new selection. parameter number current selection to open parameter parameter name Changing a numeric value a) Navigate to the desired parameter. b) Press RIGHT arrow to open parameter view. The current value is displayed. c) Press RIGHT arrow again to open Edit mode. The current value is highlighted. d) Key in a new value. e) Press RIGHT arrow to accept it. The LCD returns to parameter view and displays the new selection. A5E32337685 parameter number SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS current value Page 31 mmmmm Name Quick Start: local Key Quick Start: local mmmmm Key functions in Edit mode Key Name Selecting options Scrolls to item. Alphanumeric editing - Increments or decrements digits - Toggles plus and minus sign Selecting options - Accepts the data (writes the parameter) - Changes from Edit to Navigation mode Numeric editing - Moves cursor one space to the right - or with cursor on Enter sign, accepts the data and changes from Edit to Navigation mode Selecting options Cancels Edit mode without changing the parameter Numeric editing - Moves cursor to plus/minus sign if this is the first key pressed - or moves cursor one space to the left. - or with cursor on Cancel arrow, cancels the entry Clear Numeric editing Erases the display. Decimal point Numeric editing Enters a decimal point. Plus or minus sign Numeric editing Changes the sign of the entered value. Numeral Numeric editing Enters the corresponding character. UP or DOWN arrow RIGHT arrow LEFT arrow to Page 32 Function SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Quick Start Wizard via the handheld programmer 1. Quick Start a. Point the programmer at the display (from a maximum distance of 500 mm [1.64 ft]), then press RIGHT arrow to activate PROGRAM mode and open menu level 1. b. Press RIGHT arrow view. twice to navigate to menu item 1.1 and open parameter c. d. Press RIGHT arrow to open Edit mode or DOWN arrow to accept default values and move directly to the next item. To change a setting, scroll to the desired item or key in a new value. e. After modifying a value, press RIGHT arrow to accept it and press DOWN arrow to move to the next item. 1.1. Application Type STEEL CONCRETE Options Silo construction Default: STEEL 1.2. Response Rate Sets the reaction speed of the device to measurement changes in the target range. SLOW Options 0.1 m/minute MED 1.0 m/minute FAST 10.0 m/minute Default: FAST Use a setting just faster than the maximum filling or emptying rate (whichever is greater). 1.3. Units Select the units for the Quick Start variables (high and low calibration point, and level, distance, or space) Options A5E32337685 M, CM, MM, FT, IN Default: M SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 33 mmmmm • The Quick Start Wizard is a complete package and the settings are inter-related. • Do not use the Quick Start wizard to modify individual parameters: see instead Parameter Reference on page 51 (perform customization for your application after the quick start has been completed). Quick Start: local Notes: Quick Start: local mmmmm 1.4. Operation 1) sensor reference point (flange face) high calibration point distance space level low calibration point NO SERVICE Operation types SITRANS LR260 stops updating measurements. Last valid measurement is displayed. LEVEL Distance to material surface referenced from Low Calibration Point (process empty level). SPACE Distance to material surface referenced from High Calibration Point (process full level). DISTANCE Distance to material surface referenced from Sensor Reference Point. Default: DISTANCE 1.5. Low Calibration Point Distance from Sensor Reference to Low Calibration Point: usually process empty level. (See 1.4. Operation for an illustration.) Values Range: 0.0000 to 30.000 m Default: horn type dependent 1.6. High Calibration Point Distance from Sensor Reference to High Calibration Point: usually process full level. (See 1.4. Operation for an illustration.) Values Range: 0.0000 to 30.000 m Default: 0.0 m 1.7. Apply? (Apply changes) In order to save the Quick Start settings it is necessary to select Yes to apply changes. Options Press Mode 1) Page 34 YES, NO, DONE (Display shows DONE when Quick Start is successfully completed) to return to Measurement mode. SITRANS LR260 is now ready to operate. The point from which High and Low Calibration points are referenced: see Dimensions on page 9. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Requesting an Echo Profile b) Press RIGHT arrow to request a profile. c) In the Profile screen, press UP arrow to select the Transmit icon, and Right ARROW to update the profile. d) Press DOWN arrow to select the Exit icon, then Right ARROW to return to previous menu. transmit icon, deselected exit icon, selected transmit icon, selected exit icon, deselected Device Address The unique address of the device on the network (also called PROFIBUS address). 0 - 126. Default: 126 Values a) In PROGRAM mode, navigate to: Level Meter > Communication > Device Address. b) Press RIGHT arrow , RIGHT arrow , to open parameter view and enable Edit mode. c) If required, key in a new value and press RIGHT arrow to accept it. The LCD displays the new value. d) Press Mode to return to Measurement mode. Auto False Echo Suppression If SITRANS LR260 displays a false high level, or the reading is fluctuating between the correct level and a false high level, you can use the Auto False Echo Suppression parameters to prevent false echo detection. See TVT (Auto False Echo Suppression) setup (2.2.4.) on page 61 for instructions. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 35 mmmmm In PROGRAM mode, navigate to: LEVEL METER > DIAGNOSTICS > ECHO PROFILE (3.2) Quick Start: local a) Quick Start: local mmmmm Level application example The application is a steel silo containing flour that takes an average of 3 hours to fill and 3 weeks to empty. Using the Easy Aimer, the LR260 is oriented so that the emission cone is approximately perpendicular to the material surface. SITRANS LR260 Sensor Reference Point 0.5 m High Calibration Point 16 m level Low Calibration Point Quick Start Setting APPLICATION Description STEEL RESPONSE RATE SLOW UNITS Response rate = 0.1 m/minute. OPERATION LEVEL Material level referenced from Low Calibration Point. LOW CALIBRATION POINT 16 Process empty level. HIGH CALIBRATION POINT 0.5 Process full level. APPLY? (CHANGES) YES Save new settings. Fill rate = 0.09 m/minute (Low Cal Pt. minus High Cal Pt.) / fastest fill/empty time = (16 m – 0.5 m) / 180 min. = 15.5 m /180 min. = 0.09 m/min. Page 36 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Operating via SIMATIC PDM Note: For a complete list of parameters with instructions, see Parameter Reference starting on page 51. SIMATIC PDM is a software package used to commission and maintain SITRANS LR260 and other process devices. Please consult the operating instructions or online help for details on using SIMATIC PDM. (You can find more information at www.fielddevices.com: go to Products and Solutions > Products and Systems > Communications and Software > Process Device Manager.) • While the device is in PROGRAM mode, the output remains active and continues to respond to changes in the device. • Do not use the handheld programmer at the same time as SIMATIC PDM, or erratic operation may result. SIMATIC PDM monitors the process values, alarms and status signals of the device. It allows you to display, compare, adjust, verify, and simulate process device data. For information on adjusting parameter values and viewing the results, see Changing parameter settings using SIMATIC PDM on page 42 and Parameters accessed via pull-down menus on page 42. Features of SIMATIC PDM Rev. 6.0, SP3 (or higher) The graphic interface in SITRANS LR260 makes monitoring and adjustments easy: • The graphic Quick Start Wizard provides an easy 4-step guide to help you configure the device for a simple application. See Quick Start Wizard via SIMATIC PDM on page 39 for instructions. • See Display on page 43 to monitor process variables. • See Echo profile on page 43 for easy echo profile comparison. • See Trend on page 46 for Level trend monitoring. • See Auto False Echo Suppression on page 44 and TVT Shaper on page 45 on adjusting the TVT curve to avoid false echoes. • See Simulation on page 46 for simulating process values during commissioning/ maintenance. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 37 mmmmm Note: SIMATIC PDM Functions in SIMATIC PDM Electronic Device Description (EDD) Note: SITRANS LR260 requires the EDD for SIMATIC PDM version 6.0 with SP3 or higher. You can locate the EDD in Device Catalog, under Sensors/Level/Echo/Siemens Milltronics/ SITRANS LR260. Check the product page of our website at: www.siemens.com/LR260, under Downloads, to make sure you have the latest version of SIMATIC PDM, the most recent Service Pack (SP) and the most recent hot fix (HF). If you need to install a new EDD see Configuring a new device on page 38 SIMATIC PDM mmmmm Configuring a new device Note: Clicking on Cancel during an upload from device to SIMATIC PDM will result in some parameters being updated. 1. 2. Check that you have the most recent EDD that applies to your device version, and if necessary download it from the product page listed above. Save the files to your computer, and extract the zipped file to an easily accessed location. Launch SIMATIC PDM – Manage Device Catalog, browse to the unzipped EDD file and select it. Set Address via handheld programmer (default for PROFIBUS PA is 126). (See Device Address on page 88 to use SIMATIC PDM.) • • Point the handheld programmer at the display then press Mode PROGRAM mode, menu item 1.0. Press DOWN arrow , RIGHT arrow , RIGHT arrow to activate to navigate to 5.1.Device Address. 3. 4. 5. 6. Page 38 • Press RIGHT arrow to open Edit mode: the PROGRAM icon will flash. • If required, key in a new value and press RIGHT arrow to accept it. The LCD displays the new value and the PROGRAM icon disappears. • Press Mode to return to Measurement mode. Launch SIMATIC Manager and create a new project for LR260. Application Guides for setting up PROFIBUS PA devices with SIMATIC PDM can be downloaded from the product page of our website at: www.siemens.com/LR260. Open the menu Device – Device Reset and click on Factory Defaults. After the reset is complete click on Close, then upload parameters to the PC/PG. Calibrate the device. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Quick Start Wizard via SIMATIC PDM The graphic Quick Start Wizard provides an easy 4-step guide to help you configure the device for a simple application. Please consult the operating instructions or online help for details on using SIMATIC PDM. (Application Guides for setting up Siemens PROFIBUS PA devices with SIMATIC PDM are available on our website: www.siemens.com/processautomation.) 1. 2. Notes: • The Quick Start wizard settings are inter-related and changes apply only after you click on Transfer at the end of step 4. • Do not use the Quick Start Wizard to modify individual parameters: see instead Parameter Reference on page 51 (perform customization only after the Quick Start has been completed). • Click on BACK to return and revise setting or Cancel to exit the Quick Start. Launch SIMATIC PDM, open the menu Device – Quick Start, and follow steps 1 to 4. Quick Start A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 39 mmmmm Quick Start Wizard steps SIMATIC PDM 3. 4. If you have not already done so, check that you have the most up-to-date Electronic Device Description (EDD) for your instrument. (See Configuring a new device on page 38.) Launch SIMATIC Manager and create a new project for LR260. Application Guides for setting up PROFIBUS PA devices with SIMATIC PDM can be downloaded from the product page of our website at: www.siemens.com/LR260. Upload parameters to the PC/PG. Configure the device via the Quick Start Wizard. Step 1 – Identification Note: The layout of the dialog boxes shown may vary according to the resolution setting for your computer monitor. SIMATIC PDM mmmmm Click on NEXT to accept the default values. (Description, Message, and Installation Date fields can be left blank.) Step 2 – Application Type Select the application type and the operation, then click on NEXT. Page 40 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Step 3 – Range Setup Set the parameters, and click on NEXT. Check parameter settings, and click on BACK to return and revise values, or TRANSFER to transfer values to the device. The message Quick Start was successful will appear. Click on OK, then click on OK again to synchronize with the device. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 41 mmmmm SIMATIC PDM Step 4 – Summary Changing parameter settings using SIMATIC PDM Notes: • For a complete list of parameters, see Parameter Reference on page 51. • Clicking on Cancel during an upload from device to SIMATIC PDM will result in some parameters being updated. 1. 2. SIMATIC PDM mmmmm 3. Launch SIMATIC PDM, connect to SITRANS LR260, and upload data from the device. Adjust parameter values in the parameter value field then press Enter. The status fields read Changed. Open the Device menu, click on Download to Device, then use File – Save, to save parameter settings. The status fields are cleared. value fields Parameters accessed via pull-down menus You have access to a number of functions via pull-down menus from the menu bar. under Device or View. For a complete list, see Pull-down menus via SIMATIC PDM on page 51. pulldown menus Page 42 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Display To compare outputs in real time, open the menu View – Display. Notes: • Record the default X-Scale (horizontal axis) and Data Scale (vertical axis) values so that you can restore the default view by resetting to these values. • You can save a profile or delete a saved profile. • After saving a profile open menu View – Show echo profile. Open the menu View - Echo Profile. save delete A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 43 mmmmm SIMATIC PDM Echo profile Auto False Echo Suppression Notes: SIMATIC PDM mmmmm • If possible, adjust Auto False Echo Suppression parameters with an empty or almost empty vessel. There should be a minimum distance of 2 meters from the radar instrument to the material. • Set Auto False Echo Suppression and Auto Suppression Range during installation, if possible. • Before adjusting these parameters, rotate the instrument for best signal (minimum false-echo amplitude). SITRANS LR260 first learns the echo profile. Then the learned profile, or part of it, is used to screen out false echoes. (See Auto False Echo Suppression on page 105 for a more detailed explanation.) 1. 2. 3. 4. 5. 6. Page 44 Determine Auto Suppression Range (the distance within which the learned TVT will replace the default TVT). Measure the actual distance from the antenna reference point to the material surface using a rope or tape measure, and make allowances for the actual location of the LR260. Subtract 2 m (6.56 ft) from this distance, and use the resulting value. Open the menu Device – Auto False Echo Suppression. Enter the value for Auto Suppression Range and click on Set Range. Click on Learn. While the new curve is being learned, all buttons are inaccessible. Unless calculation is instantaneous, buttons will disappear until it is complete. When the buttons are visible, click on Close. Auto TVT is now on, and the learned TVT curve will be used. To turn Auto False Echo Suppression off or on, re-open menu Device – Auto False Echo Suppression and click on Off or On. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 TVT Shaper Note: Record the default X-Scale (horizontal axis) and Data Scale (vertical axis) values so that you can restore the default view by resetting to these values. This feature allows you to manually adjust the TVT curve to avoid false echoes caused by obstructions. (For an explanation see Auto False Echo Suppression on page 105.) Open the menu Device – TVT Shaper TVT curve echo profile • • • • • Press Measure to refresh the echo profile and load the current TVT curve from the device. Change the position of the cursor on the TVT curve using the Point+ and Point– buttons: raise and lower the curve using Offset+ and Offset– (entered in dB). Alternatively, enter values for Point and Offset directly into the dialog boxes. If desired, click on the TVT breakpoints tabs to see settings. Then press Transfer to Device. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 45 mmmmm SIMATIC PDM cursor Trend Note: Record the default X-Scale (horizontal axis) and Data Scale (vertical axis) values so that you can restore the default view by resetting to these values. SIMATIC PDM mmmmm Open the menu View – Trend trend line Simulation Note: The Simulation parameter influences output to the control system. Simulate Analog Input to AIFB1 or AIFB2 Allows you to input a simulated value in order to test the functioning of the Analog Input Function Blocks. 1. 2. 3. 4. Page 46 Open the menu Device – Simulation, and select the desired function block. Enable simulation.Click on Transfer. Enter a value, quality, status, and click on Transfer. The LCD displays the substitute value. After simulation is complete, disable simulation. AIFB 1 [PERCENT] 40.61 21.40 °C SUBSTITUTE VAL. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Simulate Input Allows you to simulate the sensor value which is input to the Level Transducer Block. This tests everything between the Level Transducer Block and Output. 1. Open the menu Device – Simulation, and select Simulation (Input). 2. To enable simulation select Fixed or Ramp. If you select Ramp, enter the Ramp start and end, step length and number of steps. Click on Transfer. If you select Fixed, enter the simulated value and click on Transfer. 3. After simulation is complete, disable simulation. Device Reset Result Factory Defaults Resets all parameters excluding Device Address , Tag, Description, Message, and Installation Date to the manufacturer’s default settings. Standard Defaults Resets all parameters excluding Device Address, Description, Message, and Installation Date to the PROFIBUS default settings Informational Resets parameter Tag Functional Resets parameters that control device behavior, such as Low Calibration Pt. Warm Start Has the same effect as recycling power to the device Reset Device Address • Resets the PROFIBUS device address to 126 to 126 • If the address lock was on, will disable the lock. To perform a reset to Factory Defaults: 1. Open the menu Device – Device Reset, and click on Factory Defaults. 2. After the reset is complete, click on Close, then upload parameters to the PC/PG. (If you are performing a reset after replacing the device with a different instrument, do not upload parameters to the PC/PG.) Write Locking If Write Locking is enabled, the data can be viewed but not modified. See Write Locking (6.1.) on page 88 for more details. To enable/disable Write Locking: 1. Open the menu Device – Write Locking and select On or Off. 2. Click on Transfer. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 47 mmmmm SIMATIC PDM Reset options Maintenance You can set schedules for: • maintenance of the device based on its projected lifetime • maintenance of the sensor based on its projected lifetime • service • calibration SIMATIC PDM mmmmm To set Device/Sensor Maintenance schedules: 1. Open the menu Device – Maintenance, and click on the Remaining Device/ Sensor Lifetime tab. 2. If desired, activate alerts for either or both of Maintenance Required/ Maintenance Demanded. 3. Modify desired values, and click on Write. 4. Click on Read, to see the effects of your modification. 5. Click on Snooze to add a year to the Total Expected Device Life. To set Service/Calibration schedules: 1. Open the menu Device – Maintenance, and click on the Service/Calibration Interval tab. 2. If desired, activate alerts. 3. Modify desired values, and click on Write. 4. Click on Read, to see the effects of your modification. 5. Click on Service Performed to reset the schedule. Page 48 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Device Status Open the menu View – Device Status and click on the appropriate tab to monitor maintenance and diagnostics conditions. Open the menu View – Wear to view: • • Powered Hours Power-on Resets Peak Values Open the menu View – Peak Values to view: • • • A5E32337685 Sensor minimum and maximum Measured Values Minimum and maximum Output Values for AIFB1 and AIFB2 Minimum and maximum Internal Temperatures SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 49 mmmmm SIMATIC PDM Wear SIMATIC PDM mmmmm Notes Page 50 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Parameter Reference Notes: • See Programming via the handheld programmer on page 30 for detailed instructions. • In Navigation mode, ARROW keys navigate the menu in the direction of the arrow. • Press RIGHT Arrow to open Edit Mode, or to save a modification. • Mode key toggles between PROGRAM and Measurement Modes. Parameters are identified by name and organized into function groups. Menus arranged on up to five levels give access to associated features and options. (See LCD menu structure on page 141 for a chart.) Parameters accessible via the handheld programmer are preceded by a number. Parameters not preceded by a number are accessible only via SIMATIC PDM. Some parameters are accessible in SIMATIC PDM via pull-down menus. Where those parameters can also be accessed via the handheld programmer, they are found in the numbered list, and directions for SIMATIC PDM are given below the individual parameter. Page references for further information on using these features via SIMATIC PDM can be found in the table below. Download to device Upload to PC/PG Update diagnostic status page page Display Trend Echo profile Show Echo profile Device Status Clear Faults Wear Peak Values 46 43 49 49 49 Tool bar Status bar Set Address Quick Start Auto False Echo Suppression TVT Shaper 39 44 45 Simulation Maintenance Device Reset Write Locking 46 48 47 47 A5E32337685 View menus Update SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 51 mmmmm Device menus Communication path Parameters Pull-down menus via SIMATIC PDM Quick Start Wizard The Quick Start wizard groups together all the settings you need to configure for a simple application. You can access it either via SIMATIC PDM, or via the handheld programmer. • • • The Quick Start wizard is a complete package and settings are inter-related. Do not use the Quick Start wizard to modify individual parameters. Perform customization of the device only after the Quick Start is completed. 1. Quick Start 1.1. Application Type STEEL CONCRETE Options Silo construction Default: STEEL 1.2. Response Rate Sets the reaction speed of the device to measurement changes in the target range. SLOW MED FAST Options 0.1 m/minute 1.0 m/minute 10.0m/minute Parameters mmmmm Default: FAST Use a setting just faster than the maximum filling or emptying rate (whichever is greater). Slower settings provide higher accuracy, faster settings allow for more level fluctuation. 1.3. Units Select the units for the Quick Start variables (high and low calibration point, and level, distance, or space). M, CM, MM, FT, IN Default: M Options 1.4. Operation NO SERVICE Options SITRANS LR260 stops updating measurements. Last valid measurement value is displayed. LEVEL Distance to material surface referenced from Low Calibration Point (process empty level). SPACE Distance to material surface referenced from High Calibration Point (process full level). DISTANCE Distance to material surface referenced from Sensor Reference Point. Default: DISTANCE Page 52 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Operation types sensor reference point (flange face) high calibration point distance space level low calibration point 1.5. Low Calibration Point (LOW CALIB. PT.) Distance from Sensor Reference to Low Calibration Point: usually process empty level. Values Range: 0.000 to 30.000 m Default: horn type dependent Range: 0.000 to 30.000 m Default: 0.0 m 1.7. Apply? (Apply changes) In order to save the Quick Start settings it is necessary to select Yes and apply changes. Options NO, YES, DONE • Display shows DONE when Quick Start is successfully completed. • Press Mode A5E32337685 to return to Measurement mode. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 53 mmmmm Values Parameters 1.6. High Calibration Point (HIGH CALIB. PT.) Distance from Sensor Reference to High Calibration Point: usually process full level. 2. Setup Notes: • See Programming via the handheld programmer on page 30 or Operating via SIMATIC PDM on page 37 for instructions. • Default settings in the parameter tables are indicated with an asterisk (*) unless explicitly stated. • Values shown in the following tables can be entered via the handheld programmer. 2.1. Device 2.1.1. Tag Text that can be used in any way. A recommended use is as a unique label for a field device in a plant. Limited to 32 ASCII characters. Read only on device, Read/Write using SIMATIC PDM. 2.1.2. Description Text that can be used in any way. Limited to 32 ASCII characters. No specific recommended use. Read only on device, Read/Write using SIMATIC PDM. 2.1.3. Message Text that can be used in any way. Limited to 32 ASCII characters. No specific recommended use. Read only on device, Read/Write using SIMATIC PDM. Parameters mmmmm 2.1.4. Firmware Revision (FIRMWARE REV.) Corresponds to the software or firmware that is embedded in the Field Device. Read only. 2.1.5. Loader Revision (LOADER REV.) Corresponds to the software used to update the Field Device. Read only. 2.1.6. Hardware Revision (HARDWARE REV.) Corresponds to the electronics hardware of the Field Device. Read only. 2.2. Input 2.2.1. Sensor Calibration (SENSOR CALIB.) 2.2.1.1. Antenna Displays antenna type. No Horn, Horn 2, Horn 3, Horn 4 Values (view only) Default is set by factory depending on horn size. 2.2.1.2. Sensor Units Sets engineering units to be used by the sensor for measurement. Values Page 54 M, CM, MM, FT, IN Default: m SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.2.1.3. Low Calibration Pt. (LOW CALIB. PT.) Distance from Sensor Reference to Low Calibration Point (corresponding to Low Level Point). Unit is defined in Sensor units.1) Values 2.2.1.4. Range: 0 to 30 m. Default: 30.000 m (dependent on horn type) High Calibration Pt. (HIGH CALIB. PT.) Distance from Sensor Reference to High Calibration Point (corresponding to High Level Point). Unit is defined in Sensor units. Values 2.2.1.5. Range: 0 to 30 m. Default: 0.000 m Limit Sensor Value When ON, limits sensor value to the range between Low Calibration Point and High Calibration Point. ON, OFF Options 2.2.1.6. Default: ON Unit (Level) Select engineering units for Level. M, CM, MM, FT, IN, Percent Options Low Level Point Values 2.2.1.8. Default: 0% High Level Point The level when the material is at High Calibration Point. The unit is defined in Level units. Values 2.2.1.9. Default: 100% Level Offset A constant offset that can be added to Level. The unit is defined in Level units. Values 1) Default: 0% The point from which level measurement is referenced (see Dimensions on page 9). A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 55 mmmmm The level when the material is at Low Calibration Point. The unit is defined in Level units. Parameters 2.2.1.7. Default: Percent 2.2.1.10. Sensor Offset A constant offset that can be added to the sensor value to compensate if the sensor has been changed. The units is defined in Sensor Units. (See Transducer block function groups on page 114 and How the LTB works on page 114 for more detail.) Values Range: - 999.99 to 999.99 m Default: 0 m 2.2.1.11. Temperature Units (TEMP UNITS) Selects the engineering unit to be displayed with the value representing temperature. Options DEG C, DEG F, RANKINE, KELVIN * DEG C 2.2.3. Echo Processing (ECHO PROC) 2.2.3.1. Echo select 2.2.3.1.1. Algorithm Selects the algorithm to be applied to the echo profile to extract the true echo. Parameters mmmmm ALF Options Area Largest First Echo Area Largest Echo First echo AL Area Largest AF Area First LF Largest First BLF Best of Largest or First echo BL Best Largest BF Best First LAST Last echo Page 56 TF True First SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.2.3.1.2. Echo Threshold Sets the minimum echo confidence that the echo must meet in order to prevent a Loss of Echo condition and the expiration of the LOE timer. When Echo Confidence (2.2.3.6.1.) exceeds the Echo Threshold (2.2.3.1.2.), the echo is accepted as a valid echo and evaluated. Values Related Parameters Range: 0 to 99 dB Default: 10 dB LOE Timer (2.4.1.) Use this feature when an incorrect material level is reported. 2.2.3.1.3. Position Defines where on the echo the distance measurement is determined. (See Echo Position Detection on page 104 for more detail.) Options 2.2.3.1.4. Rising Edge Center of Mass (COM) Hybrid (Center and CLEF) CLEF (Constrained Leading Edge Fit) Echo Marker Related Parameters Range: 5 to 95% Default: 70% Position (2.2.3.1.3.) When SITRANS LR260 is using Rising Edge, higher values will cause lower level readings and lower values will cause higher level readings. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 57 mmmmm Values Parameters The point on the selected echo from which the measured value is taken. 2.2.3.2. Sampling Provides a method of checking the reliability of a new echo before accepting it as the valid reading, based on numbers of samples above or below the currently selected echo. 2.2.3.2.1. Echo Lock Selects the measurement verification process. See Echo Lock on page 104 for more details. Lock Off (no verification) Options * Maximum Verification Material Agitator Total Locka) Related parameters a) When Echo Lock is set to Total Lock, the Echo Lock Window is preset to 0 for automatic width and cannot be changed. Up sampling (UP SAMP.) Specifies the number of consecutive echoes that must appear above the echo currently selected, before the measurement is accepted as valid. Parameters mmmmm 2.2.3.2.2. Fill Rate (FILL RATE/MIN) (2.2.6.2.) Empty rate (EMPTY RATE/MIN) (2.2.6.3.) Up sampling (UP SAMP.) (2.2.3.2.2.) Down sampling (DOWN SAMP.) (2.2.3.2.3.) Window (2.2.3.2.4.) Algorithm (2.2.3.1.1.) Values 2.2.3.2.3. Range: 1 to 50 Default: 5 Down sampling (DOWN SAMP.) Specifies the number of consecutive echoes that must appear below the echo currently selected, before the measurement is accepted as valid. Values Page 58 Range: 1 to 50 Default: 5 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.2.3.2.4. Window A “distance window” centered on the echo1) is used to derive the reading. When a new measurement is in the window, the window is re-centered and the reading is calculated. Values Range: 0 to 31.5 m Default: 0 m When the value is 0, the window is automatically calculated after each measurement. • For slower Measurement Response values, the window is narrow. For faster Measurement Response values, the window becomes progressively wider. • Note: The Echo Lock window is stored as a standard sample, but displayed in sensor units. Any value entered for the Echo Lock window will be rounded to the nearest sample. 2.2.3.3. Filtering 2.2.3.3.1. Shots The number of echo profile samples averaged to produce a measurement. Range: 1 to 25 Default: 10 2.2.3.3.2. Narrow Echo Filter (NARROW ECHO FIL.) Filters out echoes of a specific width Range: 0 to 255 Values 0 = OFF greater = wider Default: 0 (OFF) Related parameters 2.2.3.3.3. Reform Echo To remove a false echo from the Echo Profile, take its width in mm and multiply it by 0.013. Enter the result. For example, to filter out a spike with 500 mm width, enter 6 or 7 (the closest integer product of 500 x 0.013). When a value is keyed in, the nearest acceptable value is entered. 1) See Echo Lock on page 104 for more detail. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 59 mmmmm Parameters Values 2.2.3.3.3. Reform Echo Smooths jagged peaks in the echo profile. Reforms fragmented echoes into one echo. 0 = OFF greater = wider Range: 0 to 50 mS Recommended: 5 to 20 mS; higher is not recommended. Values Related parameters 2.2.3.5. Range 2.2.3.5.1. 2.2.3.1.1. Algorithm 2.2.3.3.2. Narrow Echo Filter (NARROW ECHO FIL.) 2.2.3.1.4. Echo Marker Near Range The range in front of the device (measured from the sensor reference point1)) within which any echoes will be ignored. (This is sometimes referred to as “Blanking” or “Dead Zone”.) The range is dependent on the horn type and any extensions. Values Parameters mmmmm Factory Defaults 2.2.3.5.2. 2" horn 3" horn 4" horn Range: 0 to 31.5 m 0.21 m (8.43") 0.28 m (10.95") 0.34 m (13.19") Far Range Note: Far Range can extend beyond the bottom of the vessel. Maximum distance from the reference point1), within which an echo should be considered valid. Range: Values 1) Page 60 Min. = Low Calibration Pt. Max. for 2" horn = 13 m (42.65 ft) Max. for 3" horn = 23 m (75.46 ft) Max. for 4" horn = 31.5 m (103.35 ft) Default: Value for Low Calibration Pt. + 3 m (9.43 ft) Range: 0 to 31.5 m See Dimensions on page 9. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.2.3.5.3. Min. Sensor Value (MIN. SENSOR VAL.) The minimum value the device can measure in Sensor units. 2.2.3.5.4. Max. Sensor Value (MAX. SENSOR VAL.) The maximum value the device can measure in Sensor units. 2.2.3.6. Noise 2.2.3.6.1. Echo Confidence Indicates echo reliability: higher values represent better echo quality. The display shows the echo confidence of the measurement echo from the last shot. Confidence Threshold defines the minimum criterion for echo confidence. Values (view only) Related Parameters 0 to 99 dB Echo Threshold (2.2.3.1.2.) In PDM, open the menu View – Echo Profile. 2.2.3.6.2. Echo Strength Displays the absolute strength (in dB referenced to 1 μV rms) of the echo selected as the measurement echo. Values (view only) –20 to 99 dB In PDM, open the menu View – Echo Profile. 2.2.4.1. TVT Type Selects the TVT shaping type to be applied to the echo profile to extract the true echo. Options Short Curved Short Flat Long Flat Long Smooth Front Long Smooth Slopes * Long Smooth 2 Short Curved 2 Note: Changing the TVT type will reset the value of the TVT Hover Level. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 61 mmmmm First SITRANS LR260 learns the echo profile. Then the learned profile, or part of the learned profile, is used to screen out false echoes. See Before Auto False Echo Suppression on page 63 and After Auto False Echo Suppression on page 63 for examples. Parameters 2.2.4. TVT (Auto False Echo Suppression) setup 2.2.4.2. TVT Hover Level1) Defines how high the TVT (Time Varying Threshold) curve is placed above the noise floor of the echo profile, as a percentage of the difference between the peak of the largest echo in the profile and the noise floor. When SITRANS LR260 is located in the center of the vessel, the TVT hover level may be lowered to increase the confidence level of the largest echo. (For an illustration of the TVT curve see Before Auto False Echo Suppression on page 63.) Range: 0 to 100% Values 2.2.4.3. Default: 33% Auto False Echo Suppression (AUTO ECHO SUPP) Enables a ’learned’ TVT curve to be used in place of the default TVT curve. (See Auto False Echo Suppression on page 105 for an explanation) Notes: • If possible adjust Auto False Echo Suppression parameters with an empty or almost empty vessel. • Set Auto False Echo Suppression and Auto False Echo Range during startup, if possible. • If the vessel contains an agitator, the agitator should be running. OFF * ON ’Learned’ TVT curve will be used. LEARN ’Learn’ the TVT curve. Parameters mmmmm Options Default TVT curve will be used. a) b) Determine Range (the distance within which the learned TVT will replace the default TVT). Measure the actual distance from the antenna reference point to the material surface using a rope or tape measure, and make allowances for the actual location of the device. Subtract 2 m (6.56 ft) from this distance, and use the resulting value. To use Auto False Echo Suppression via SIMATIC PDM: c) Open the menu Device – Auto False Echo Suppression and set Range. For more detail see Auto False Echo Suppression on page 44. d) Select Learn. The device will automatically revert to On (Use Learned TVT) after a few seconds. To set Auto False Echo Suppression via the handheld programmer: 1) Page 62 c. Go to Auto Suppression Range (AUTO SUPP RANGE)(2.2.4.4.) and enter new value. c. Go to Auto False Echo Suppression (AUTO ECHO SUPP)(2.2.4.3.). Press RIGHT ARROW to open Edit Mode. d) Select Learn. The device will automatically revert to On (Use Learned TVT) after a few seconds. For an illustration, see Before Auto False Echo Suppression and After Auto False Echo Suppression on page 63. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 . Before Auto False Echo Suppression default TVT echo marker After Auto False Echo Suppression level false echo 2.2.4.4. echo marker Auto Suppression Range (AUTO SUPP RANGE) Defines the endpoint of the Learned TVT distance. Units are defined in sensor units. Values A5E32337685 Range: 0.00 to 31.50 m Default: 1.00 m a) Press RIGHT ARROW to open Edit mode. b) Enter the new value and press RIGHT ARROW to accept it. c) Set Auto False Echo Suppression (AUTO ECHO SUPP)(2.2.4.3.) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 63 mmmmm Parameters learned TVT curve 2.2.4.5. Shaper Mode Enables/disables TVT Shaper(2.2.5.). Options OFF*, ON 2.2.5. TVT Shaper Note: The range is -100 to 100 bits. With 2 bits per dB, this gives a range of -50 to 50 dB. A breakpoint on the TVT curve. This allows you to reshape the TVT curve to avoid unwanted echoes. There are 40 breakpoints arranged in 5 groups. (We recommend using SIMATIC PDM to access this feature.) To use TVT shaper via LUI (local user interface): a) Go to Shaper Mode(2.2.4.5.) and select option ON. b) In TVT Shaper, go to Shaper 1-9(2.2.5.1.). c) Open Shaper 1 and enter the TVT Offset value (between -100 to 100 bits, inclusive). d) Go to the next Shaper point and repeat step (c) until all desired breakpoint values have been entered. 2.2.5.1. Shaper 1-9 Parameters mmmmm Values 2.2.5.2. Default: 0 bits Range: -100 to 100 bits Default: 0 bits Shaper 28-36 Values 2.2.5.5. Range: -100 to 100 bits Shaper 19-27 Values 2.2.5.4. Default: 0 bits Shaper 10-18 Values 2.2.5.3. Range: -100 to 100 bits Range: -100 to 100 bits Default: 0 bits Shaper 37 - 40 Values Range: -100 to 100 bits Default: 0 bits To access TVT shaper via SIMATIC PDM: • • Page 64 Open the menu Device – TVT shaper. For more details and an illustration see TVT Shaper on page 45. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.2.6. Rate 2.2.6.1. Response Rate Sets the reaction speed of the device to measurement changes.. Filter Time Constant Shots(2.2 (FILTER .3.3.1.) TIME CONST)( 2.3.1.4.)a) Fill Rate Related Response (FILL paramet Rate(2.2.6 RATE/ ers .1.) MIN)(2. 2.6.2.) Empty rate (EMPTY RATE/ MIN)(2.2. 6.3.) 0.1 m/minute 0.1 m/minute 60 s 25 medium 1 m/minute 1 m/minute 10 s 10 10 m/min10 m/minute ute 0s 10 slow Options a) fast Numbering depends on AIFB selected. Note: Changing Response Rate resets Fill Rate, Empty Rate, Filter Time Constant and Shots. Fill Rate (FILL RATE/MIN) Note: Fill Rate is automatically updated whenever Response Rate(2.2.6.1.) is altered. Defines the maximum rate at which the reported sensor value is allowed to increase. Allows you to further adjust the SITRANS LR260 response to increases in the rate at which the vessel fills. Range: 0 to 999.99 m/min Options Slow 0.1 m/min. Medium 1 m/min. Fast 10 m/min. Altered by: Response Rate (2.2.6.1.) Related parameters Unit (Level) (2.2.1.6.) Enter a value slightly greater than the maximum vessel-filling rate, in Sensor Units per minute. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 65 mmmmm 2.2.6.2. Parameters Use a setting just faster than the maximum filling or emptying rate (whichever is greater). Slower settings provide higher accuracy; faster settings allow for more level fluctuation. 2.2.6.3. Empty rate (EMPTY RATE/MIN) Note: Empty Rate is automatically updated whenever Response Rate(2.2.6.1.) is altered Defines the maximum rate at which the reported sensor value is allowed to decrease. Adjusts the SITRANS LR260 response to decreases in the rate at which the vessel empties. Range: 0 to 999.99 m/min. Options Slow 0.1 m/min. Medium 1 m/min. Fast 10 m/min. Altered by: Response Rate (2.2.6.1.) Related parameters Unit (Level) (2.2.1.6.) Enter a value slightly greater than the vessel’s maximum emptying rate, in Sensor Units per minute. 2.2.7. Transducer Block Values (for diagnostic purposes) 2.2.7.1. Main Output (PV– Primary Value) In SIMATIC PDM, open the menu View – Display, and select the tab Measured Value (Secondary Values). Refer to Level/Volume field. Parameters mmmmm The value for level/volume. Read Only. 2.2.7.2. Output, no linearization (SV1 – Secondary Value 1) The value for level. Read Only. In SIMATIC PDM, open the menu View – Display, and select the tab Measured Value (Secondary Values). Refer to Level/Volume field. 2.2.7.3. Output, no level offset (SV2 – Secondary Value 2) The value for distance. Read Only. In SIMATIC PDM, open the menu View – Display, and select the tab Measured Value (Secondary Values). Refer to Distance field. 2.3. Output 2.3.1. AIFB1 Static Revision No. The revision level of the static data associated with Analog Input Function Block 1. The Static Revision No. is updated whenever a configuration parameter is changed. Page 66 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.3.1.1. Target Mode Used to request an operating mode from the Function Block. Automatic Mode (AUTO) Manual Mode (MAN) Options Out of Service (O/S) Allows you to put the SITRANS LR260 into Out of Service Mode and then reset it to Automatic Mode. Manual Mode is used in conjunction with Simulation. See Simulation on page 46. It should be used only with SIMATIC PDM in order to benefit from all the features available. 2.3.1.2. Label User defined label 2.3.1.3. Unit Note: Additional units are available in SIMATIC PDM. Engineering unit to be displayed with the output value Options m, cm, mm, ft, in, percent, Follow out unit (device only) m, cm, mm, ft, in, L, gal, imp gal, percent, Not Used, Unknown, Special, " ", Follow out unit (SIMATIC PDM) Filter Time Constant (FILTER TIME CONST) The time constant for the damping filter. (See Damping on page 106 for more detail.) The engineering unit is always in seconds. (This is an exponential filter: when a change occurs at the input, the output will be at 63.2% of the change in one time constant, and will be at full change after 5 time constants.) Values 2.3.1.5. Range 0 to 1000 s Default: 0 s Channel Used to select between the different Level Transducer Block outputs. Options Level/Volume (PV), Level (SV1), Distance (SV2) * Distance (SV2) When volume is not supported, the Primary Variable (Level/Volume) will have alternate functionality. It is possible to configure the Transducer Block outputs so that PV/SV1 is not always a level output. 2.3.1.6. Batch Information (BATCH INFO) These 4 parameters are intended to be used in Batch Applications conforming to IEC 61512 Part 1 (ISA S88). Other applications do not require these values, which are only stored in the Function Block. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 67 mmmmm 2.3.1.4. Parameters * m 2.3.1.6.1. Batch ID Identifies a certain batch to allow assignment of equipment-related information (for example faults, alarms) to the batch. Values Range: 0 to 999999 (on unit) Default: 0 Although higher batch ID numbers may be entered via PDM, the maximum limit of 999999 should be used. 2.3.1.6.2. Batch Unit Identifies the active Control Recipe Unit Procedure or the related Unit (for example, reactor, centrifuge, drier). Values 2.3.1.6.3. Range: 0 to 65535 Default: 0 Batch operation Identifies the active Control Recipe Operation. Values 2.3.1.6.4. Range: 0 to 65535 Default: 0 Batch Phase Parameters mmmmm Identifies the active Control Recipe Phase. Values Range: 0 to 65535 Default: 0 2.3.1.7. Process Value Scale (PROC. VALUE SCAL) 2.3.1.7.1. Lower Value Defines the operational lower range value of the input value (Process Value Scale) in PV (Level) Units. Process Value Scale normalizes the input value to a customer-defined range. Values 2.3.1.7.2. Range: -999.99 to 999.99 m Default: 0 m Upper Value Defines the operational upper range value of the input value (Process Value Scale) in PV (Level) Units. Process Value Scale normalizes the input value to a customer-defined range. Values Page 68 Range: -999.99 to 999.99 m Default: 30 m (dependent on horn type) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Process Value Scale (typical Input (0 to 100%) 2.3.1.8. Out (AIFB1) Output Scale Output Scale Scales the Process Variable. The function block parameter OUT SCALE contains the values of the lower limit and upper limit effective range in AIFB1 units. 2.3.1.8.1. Lower Value Defines the operational lower range value of the output value in AIFB1 units. Values 2.3.1.8.2. Range: -999.99 to 999.99 m Default: 0 m Upper Value Defines the operational upper range value of the output value in AIFB1 units. Range: -999.99 to 999.99 m 2.3.1.9. Output Limits 2.3.1.9.1. Lower Limit Alarm (LO LIMIT ALARM) The setting for the lower alarm limit in AIFB1 units. Values 2.3.1.9.2. Range: -999.99 to 999.99 m Default: -999.99 m Lower Limit Warning (LO LIMIT WARN) The setting for the lower warning limit in AIFB1 units. Values 2.3.1.9.3. Range: -999.99 to 999.99 m Default: -999.99 m Upper Limit Warning (HI LIMIT WARN) The setting for the upper warning limit in AIFB1 units. Values 2.3.1.9.4. Range: -999.99 to 999.99 m Default: 999.99 m Upper Limit Alarm (HI LIMIT ALARM) The setting for the upper alarm limit in AIFB1 units Values A5E32337685 Range: -999.99 to 999.99 m Default: 999.99 m SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 69 mmmmm Default: 30 m (dependent on horn type) Parameters Values 2.3.1.9.5. Limit Hysteresis Hysteresis is used to adjust the sensitivity of the trigger for alarm messages. It is used to compensate when a process variable fluctuates around the same value as a limit. A high level alarm occurs when a value exceeds an upper limit. The alarm’s status remains true until the value drops below the limit minus the alarm hysteresis. The directions are reversed for low limit detection. Range: -999.99 to 999.99 m Values Default: 0.5% of output scale range Enter a value for the hysteresis here, to be used for all warnings and alarms. The units are the same as the Output scale, i.e. AIFB1 units. 2.3.1.10. Human Interface 2.3.1.10.1. Decimal Point The number of digits to display after the decimal point. (The LCD is limited to displaying two decimal places in Measurement mode. In SIMATIC PDM up to seven decimal places may be used to display measured values.) Parameters mmmmm Options Range: 0, 1, 2, 3, 4, 5, 6, 7 Default: 2 2.3.2. AIFB2 (See AIFB1: the parameters for AIFB2 are identical.) 2.4. Fail-safe 2.4.1. LOE Timer Note: The last valid reading is maintained until the LOE timer expires. After the timer expires, the reading is set based on Fail-safe Value (see below). Sets the time to elapse in minutes since the last valid reading, before Fail-safe State activates Values Page 70 Range: 0 to 720 min. Default: 10.0 min SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.4.2. Fail-safe Mode FB1 (FS MODE FB1) Fail-safe Mode occurs if the status of the input value is bad, or if the device has been put into Fail-safe mode using Simulation. One of three options can be selected for the material level to be reported when the LOE timer expires. Material level to be reported Substitute value (Default value used as output value). Options Last value (Store last valid output value). Use bad value (Calculated output value is incorrect). 2.4.3. Fail-safe Value FB1 (FS VALUE FB1) Accessible in SIMATIC PDM only after Substitute value is selected in Fail-safe Mode FB1 (FS MODE FB1)(2.4.2.). User-defined default for the Output Value, if sensor or sensor electronic fault is detected. Units are the same as the AIFB1 units. Range: -999.99 to 999.99 m Values Default: 0 m 2.4.4. Fail-safe Mode FB2 (FS MODE FB2) Fail-safe Mode occurs if the status of the input value is bad, or if the device has been put into Fail-safe mode using Simulation. One of three options can be selected for the material level to be reported when the LOE timer expires. Options Last value (Store last valid output value). Use bad value (Calculated output value is incorrect). 2.4.5. Fail-safe Value FB2 (FS VALUE FB2) Accessible in SIMATIC PDM only after Substitute value is selected in Fail-safe Mode FB2 (FS MODE FB2)(2.4.4.). User-defined default for the Output Value, if sensor or sensor electronic fault is detected. Units are the same as the AIFB2 units. Values A5E32337685 Range: -999.99 to 999.99 m Default: 0 m SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 71 mmmmm Substitute value (Default value used as output value). Parameters Material level to be reported 3. Diagnostics Use these parameters to set up schedules for calibration and maintenance. The device will track itself based on operating hours instead of a calendar-based schedule, and will monitor its predicted lifetime. The maintenance warnings and alarms are communicated via either the Status or Condensed Status bytes. This information can be integrated into any Asset Management system. We recommend that you use SIMATIC PCS7 Asset Management Software in conjunction with SIMATIC PDM. 3.1. Fault Reset Clears the following fault (known as Acknowledge Fault in PDM.) To clear a fault using the handheld programmer: • Enter the fault code number then press RIGHT Arrow. Fault Code S12 Description Internal Temperature High To clear a fault via SIMATIC PDM: Parameters mmmmm • • Open the menu View – Acknowledge Faults. Select the fault to be cleared from the pull-down menu in Extended Diagnostics. Click on Transfer to clear the fault. • Fault Code S3 S4 S6 S7 S8 S9 S17 S18 S25 Description Device Lifetime Limit 1 (Maintenance Required) Device Lifetime Limit 2 (Maintenance Demanded) Sensor Lifetime Limit 1 (Maintenance Required) Sensor Lifetime Limit 2 (Maintenance Demanded) Device Service Limit 1 (Maintenance Required) Device Service Limit 2 (Maintenance Demanded) Calibration Schedule Limit 1 (Maintenance Required Calibration Schedule Limit 2 (Maintenance Demanded) Internal Error (Maintenance Demanded) 3.2. Echo Profile You can request the current echo profile either via the handheld programmer (see next page) or via SIMATIC PDM. (For more details see Echo Processing on page 103.) To request a profile via SIMATIC PDM: a. b. c. Page 72 Open the menu View – Echo Profile. If desired, press Save. To view the saved profile, open the menu View – Show Echo Profile. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 To request a profile via the handheld programmer: Echo confidence value Algorithm selection (First echo) Distance value transmit icon, deselected TVT curve material level exit icon, selected transmit icon, selected a. b. c. d. exit icon, deselected In PROGRAM mode, navigate to ECHO PROFILE (3.2) Press RIGHT arrow to request a profile. In the Profile screen, press UP arrow to select the Transmit icon, and Right ARROW to update the profile. Press DOWN arrow to select the Exit icon, then Right ARROW to return to previous menu. 3.3. Measured Values (MEAS. VALUES) To access the following parameters via SIMATIC PDM, open the menu View – Peak Values, and click on the appropriate tab. The minimum recorded Sensor value, defined in Sensor units. 3.3.2. Max. Measured Value (MAX. MEAS. VALUE) The maximum recorded Sensor value, defined in Sensor units. 3.3.3. Minimum Output Value - AIFB1 (MIN. OUTPUT FB1) The minimum recorded Output Value from the Analog Input Function Block 1. 3.3.4. Maximum Output Value - AIFB1 (MAX. OUTPUT FB1) The maximum recorded Output Value from the Analog Input Function Block 1. 3.3.5. Minimum Output Value - AIFB2 (MIN. OUTPUT FB2) The minimum recorded Output Value from the Analog Input Function Block 2. 3.3.6. Maximum Output Value - AIFB2 (MAX. OUTPUT FB2) The maximum recorded Output Value from the Analog Input Function Block 2. 3.3.7. Minimum Internal Temperature (MIN. INTERN. TEMP) Read only. The minimum recorded electronics temperature of the SITRANS LR260. 3.3.8. Maximum Internal Temperature (MAX. INTERN. TEMP) Read only. The maximum recorded electronics temperature of the SITRANS LR260. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 73 mmmmm Parameters 3.3.1. Min. Measured Value (MIN. MEAS. VALUE) 3.4. Remaining Device Lifetime (REMAIN. DEV. LIFE) Note: Performing a reset to Factory Defaults will reset all Maintenance parameters to their factory defaults. The Remaining Device/Sensor Lifetime parameters set up schedules for calibration and maintenance. The device will track itself based on operating hours instead of a calendar-based schedule, and will monitor its predicted lifetime. • To access these parameters via SIMATIC PDM open the menu Device – Maintenance and select the Remaining Device Lifetime tab. • After modifying values/units as required, click on Write to accept the change, and Read to view the effect of the change. Click on Snooze to add a year to the Total Expected Device Life. Parameters mmmmm The maintenance warnings and alarms are communicated via either the Status or Condensed Status bytes. This information can be integrated into any Asset Management system. We recommend that you use SIMATIC PCS7 Asset Management Software in conjunction with SIMATIC PDM. • 3.4.1. Total Device Operating Time (TOTAL OP. TIME) Read only. Displays the amount of time the device has been operating in selected units. 3.4.2. Remaining Device Lifetime (REMAIN LIFETIME) Read only. Total Expected Device Life less Total Device Operating Time in selected units. Page 74 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 3.4.3. Maintenance Required Limit (MAINT REQ LIMIT) If the Total Expected Device Life less Total Device Operating Time is equal to or less than this limit, the device sets Maintenance Required. Range: 0 to 20 years Values Default: 0.164 years a) Open the menu Device – Maintenance, and click on the Remaining Device/ Sensor Lifetime tab. b) Modify limit values as required. c) Modify desired values, and click on Write. d) Click on Read to see the effects of your modification. e) Click on Snooze to add a year to the Total Expected Device Life. f) See Maintenance Alert Activation (ALERT ACTIVATION)(3.4.5.) to set the Alert Activation options. 3.4.4. Maintenance Demanded Limit (MAINT DEM LIMIT) If the Total Expected Device Life less Total Device Operating Time is equal to or less than this limit, a Maintenance Demanded status is generated. Range: 0 to 20 years Values Default: 0.019 years Select limits to be activated. Warning Limit 1 (Maintenance Required Limit) Warning Limit 2 (Maintenance Demanded Limit) Values Warning Limits 1 and 2 (Maintenance Required and Maintenance Demanded Limits) * OFF To enable or disable Maintenance Alert Activation via SIMATIC PDM: a) First set the limit values in Maintenance Required Limit (MAINT REQ LIMIT)(3.4.3.)/Maintenance Demanded Limit (MAINT DEM LIMIT)(3.4.4.) b) Modify desired values, and click on Write. c) Click on Read to see the effects of your modification. d) Click on Snooze to add a year to the Total Expected Device Life. e) Select the desired Alert Activation option. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 75 mmmmm 3.4.5. Maintenance Alert Activation (ALERT ACTIVATION) Parameters a) Open the menu Device – Maintenance, and click on the Remaining Device/ Sensor Lifetime tab. b) Modify limit values as required. c) Modify desired values, and click on Write. d) Click on Read to see the effects of your modification. e) Click on Snooze to add a year to the Total Expected Device Life. f) See Maintenance Alert Activation (ALERT ACTIVATION)(3.4.5.) to set the Alert Activation options. 3.4.6. Total Expected Device Life (TOTAL EXP. LIFE) The device tries to predict its overall lifetime. The factory default can be reset by the user. Values Range: 0 to 20 years Default: 10.00 years To modify the value via SIMATIC PDM: a) Open the menu Device – Maintenance and click on Remaining Device Lifetime. b) Modify desired values, and click on Write. c) Click on Read to see the effects of your modification. d) Click on Snooze to add a year to the Total Expected Device Life. 3.4.7. Maintenance Status (MAINT STAT) Displays the status of the Maintenance Alerts. Options (view only) Maintenance Required Alert active Maintenance Demanded Alert Active Parameters mmmmm To view via SIMATIC PDM, open the menu View - Device Status, click on the Maintenance tab, and check the Device Lifetime Status window. Page 76 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 3.4.8. Acknowledge Status (ACK STATUS) Displays the status of the Maintenance Alerts that have been acknowledged. Options (view only) Maintenance Required Alert acknowledged. Maintenance Demanded Alert acknowledged. 3.4.9. Acknowledge (ACK) Allows you to acknowledge either a Maintenance Required or a Maintenance Demanded alert. To acknowledge an alert via SIMATIC PDM: a) Open the menu View – Device Status and click on the Maintenance tab. b) In the Device Lifetime section, click on Acknowledge Warnings. 3.5. Remaining Sensor Lifetime (REMAIN SENS. LIFE)1) The device monitors the predicted lifetime of the sensor (the components exposed to the vessel environment). To access these parameters via SIMATIC PDM, open the menu Device – Maintenance and select the Remaining Sensor Lifetime tab. Read only. Displays the amount of time the sensor has been operating. Can be reset to zero via the handheld programmer (after performing a service). 1) In device, Maintenance parameters are displayed in years. In SIMATIC PDM, maintenance parameter units are user selectable. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 77 mmmmm Parameters 3.5.1. Total Sensor Operating Time (SENS OP. TIME) 3.5.2. Remaining Sensor Lifetime (REMAIN LIFETIME) Read only. The sum of Total Expected Sensor Life less Total Sensor Operating Time. 3.5.3. Maintenance Required Limit (MAINT REQ LIMIT) If the Total Expected Sensor Life less Total Sensor Operating Time is equal to or less than this limit, a Maintenance Required status is generated. Range: 0 to 20 years Values Default: 0.164 years To modify the value via SIMATIC PDM: a) b) c) d) e) Modify limit values as required. Modify desired values, and click on Write. Click on Read to see the effects of your modification. Click on Snooze to add a year to the Total Expected Device Life. Enable Maintenance Alert Activation (ALERT ACTIVATION)(3.5.5.) to set the Alert Activation options. 3.5.4. Maintenance Demanded Limit (MAINT. DEM. LIMIT) If the Total Expected Sensor Life less Total Sensor Operating Time is equal to or less than this limit, a Maintenance Demanded status is generated. Range: 0 to 20 years Parameters mmmmm Values Default: 0.019 years To modify the value via SIMATIC PDM: a) b) c) d) e) Modify limit values as required Modify desired values, and click on Write. Click on Read to see the effects of your modification. Click on Snooze to add a year to the Total Expected Device Life. Enable Maintenance Alert Activation (ALERT ACTIVATION)(3.5.5.) to set the Alert Activation options. 3.5.5. Maintenance Alert Activation (ALERT ACTIVATION) Select limits to be activated. Warning Limit 1 (Maintenance Required Limit) Warning Limit 2 (Maintenance Demanded Limit) Values Warning Limits 1 and 2 (Maintenance Required and Maintenance Demanded Limits) * OFF To enable or disable Maintenance Alert Activation via SIMATIC PDM: a) First set the limit values in Maintenance Required Limit (MAINT REQ LIMIT)(3.5.3.) and Maintenance Demanded Limit (MAINT. DEM. LIMIT)(3.5.4.). b) Modify desired values, and click on Write. c) Click on Read to see the effects of your modification. d) Click on Snooze to add a year to the Total Expected Device Life. Page 78 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 e) Select the desired Alert Activation option. 3.5.6. Total Expected Sensor Life (TOTAL EXP. LIFE) The device tries to predict its overall lifetime. You can reset the factory default. Values Range: 0 to 20 years Default: 10.00 years To modify the value via SIMATIC PDM: a) Open the menu Device – Maintenance and click on Remaining Sensor Lifetime. b) Modify the value/units as desired(or click on Snooze to add a year to the current value) then click on Write to accept the change. c) Click on Read to view the effect of the modification. 3.5.7. Maintenance Status (MAINT STAT) Displays the status of the Maintenance Alerts. Options (view only) Maintenance Required Alert active Maintenance Demanded Alert Active To view via SIMATIC PDM open the menu View - Device Status, click on the Maintenance tab, and check the Sensor Lifetime Status window. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 79 mmmmm Parameters A5E32337685 3.5.8. Acknowledge Status (ACK STATUS) Displays the status of the Maintenance Alerts that have been acknowledged. Options (view only) Maintenance Required Alert acknowledged. Maintenance Demanded Alert acknowledged. 3.5.9. Acknowledge (ACK) Allows you to acknowledge either a Maintenance Required or a Maintenance Demanded alert. To acknowledge an alert via SIMATIC PDM: a) Open the menu View – Device Status and click on the Maintenance tab. b) In the Sensor Lifetime section, click on Acknowledge Warnings. 3.6. Condensed Status Setup (COND. STAT. SETUP) When Condensed Status Mode (COND. STAT. MODE)(3.6.1.) is enabled, you can select the level of severity of errors, and tailor a device response appropriate for your particular process. • • Parameters mmmmm • In Event Index(3.7.1.), you can select a particular event or error by means of its index number. In Event Status (EVENT. STAT)(3.7.2.), you can assign a status to the selected event. In Event Diagnosis (EVENT DIAG.)(3.7.3.), you can assign a diagnosis to the selected event. 3.6.1. Condensed Status Mode (COND. STAT. MODE) Note: When cyclic communication is in progress, Condensed Status Mode cannot be changed. Options No (disabled) * Yes (enabled) Select Yes or No to enable/disable Condensed Mode. 3.6.2. Features supported (View only) (FEAT. SUPPORTED) Features supported are: • • • Condensed Diagnostics Extended Diagnostics Application Relationships 3.6.3. Features enabled (View only) (FEAT. ENABLED) Lists those features that have been enabled. Page 80 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 3.7. Condensed Status 3.7.1. Event Index The numeric component of the Event Code for a Condensed Status event. Use the index number to identify a particular event in the list below. Event Index Loss of Echo No Tech Power Level Transducer Block (LTB) Scale Internal Temperature Sensor Internal Temperature High AIFB1 PV Range AIFB2 PV Range Internal Device Error Memory RAM EEPROM damaged. Memory Flash Internal Temperature Calibration Velocity Calibration Receiver Init Calibration Receiver Calibration Technology Module Calibration Technology Module Ramp See General Fault Codes on page 95 for the meaning of each event. For example: Event Code for Loss of Echo Event Index S0 To select a particular event via the handheld programmer: a) Go to Condensed Status Mode (COND. STAT. MODE)(3.6.1.) and select Yes to enable Condensed Mode. b) Go to Event Index(3.7.1.) and enter the event index number corresponding to the event. c) Go to Event Status (EVENT. STAT)(3.7.2.) and choose a Status option. d) Go to Event Diagnosis (EVENT DIAG.)(3.7.3.) and choose a Diagnosis option. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 81 mmmmm a) S0 S2 S10 S11 S12 S14 S15 S25 S28 S29 S31 S33 S34 S35 S36 S37 S38 Parameters 10 11 12 14 15 25 28 29 31 33 34 35 36 37 38 Event Code Event Descriptiona) To select a particular event via SIMATIC PDM: a) Go to Diagnostics > Condensed Status Setup > Condensed Status Mode and select Yes to enable Condensed Mode. b) Go to Diagnostics > Condensed Status. c) For each event, you can select either the Status or the Diagnosis line, then choose a Status or Diagnosis option from the associated pull-down menu. 3.7.2. Event Status (EVENT. STAT) Event Status allows you to assign one of the status options listed below, to any of the events listed in Event Index(3.7.1.). This allows you to tailor a device response appropriate for your particular process. (Event Status affects Condensed Status1)). Event Status Options Good Good: maintenance required Good: maintenance demanded Uncertain: maintenance demanded Bad: maintenance alarm Uncertain: process related, no maintenance Bad: process related, no maintenance Bad: function check, local override Parameters mmmmm Good: function check To assign a status to a particular event via the handheld programmer: a) Go to Condensed Status Mode (COND. STAT. MODE)(3.6.1.) and select Yes to enable Condensed Mode. b) Go to Event Index(3.7.1.) and enter the event index number corresponding to a particular event. c) Go to Event Status (EVENT. STAT)(3.7.2.) and choose a Status option from the table above. d) Go to Event Diagnosis (EVENT DIAG.)(3.7.3.) and choose a Diagnosis option. To assign a status to a particular event via SIMATIC PDM: a) Go to Level Meter > Diagnostics > Condensed Status Setup, select Yes to enable Condensed Status Mode. b) Go to Level Meter > Diagnostics > Condensed Status. c) Select the Status line for the selected Event, then choose a Diagnosis option from the associated pull-down menu. 1) Page 82 See Condensed Status on page 122 for more detail. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 3.7.3. Event Diagnosis (EVENT DIAG.) Allows you to assign one of the diagnostic options listed below to any of the events listed in Event Index(3.7.1.). This allows you to tailor a device response appropriate for your particular process.(Event Diagnosis affects Condensed Acyclic Diagnostics and Cyclic Extended Diagnostics1)). Event Diagnosis Options Status OK Maintenance Required Maintenance Demanded Maintenance alarm Invalid process condition Function check or simulation To assign a diagnosis to a particular event via the handheld programmer: a) Go to Condensed Status Mode (COND. STAT. MODE)(3.6.1.) and select Yes to enable Condensed Mode. b) Go to Event Index(3.7.1.) and enter the event index number corresponding to a particular event. c) Go to Event Status (EVENT. STAT)(3.7.2.) and choose a Status option. d) Go to Event Diagnosis (EVENT DIAG.)(3.7.3.) and choose a Diagnosis option from the table above. 1) See Condensed Mode Diagnosis on page 126 for more detail. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 83 mmmmm a) Go to Level Meter > Diagnostics > Condensed Status Setup, and select Yes to enable Condensed Status Mode. b) Go to Level Meter > Diagnostics > Condensed Status. c) Select the Diagnosis line for the selected Event, then choose a Diagnosis option from the associated pull-down menu. Parameters To assign a status to a particular event via SIMATIC PDM: 4. Service 4.1. Device Reset Note: Following a Factory Reset, some degree of reprogramming may be required, depending on the option chosen below. Reset Options Result Factory Defaultsa) Resets all parameters to the manufacturer’s default settings with the following exceptions: • device addresses are not reset • Lock and Unlock values are not reset • the learned TVT curve is not lost • Description, Tag, Message, and Installation Date (in SIMATIC PDM) are not reset Standard Defaultsa Resets all parameters excluding device addresses, Description, Message, and Installation Date to the PROFIBUS default settings Informational Functional Parameters mmmmm Warm Start Reset Device Address to 126 a) Resets parameter Tag Resets parameters that control device behavior and functionality (such as calibration points) Has the same effect as re-cycling power to the device • Resets the PROFIBUS device address to 126 • If the address lock was on, will disable the lock. (See Resetting the PROFIBUS address to 126: on page 120 for details.) Differences between Factory Defaults and Standard Defaults: Factory Reset modifies the functional block outputs to measure distance in meters and to be scaled based on Low Calibration Point. To access via SIMATIC PDM, open the menu Device – Device Reset. For more detail see Device Reset on page 47. To perform a reset via the handheld programmer: a. b. Press RIGHT Arrow to open Edit Mode then scroll down to the desired Reset option and press RIGHT Arrow to select it. Press LEFT Arrow to exit. 4.2. LCD Fast Mode Note: Affects Measurement mode only: has no effect on Navigation mode. Enables a faster rate of measurement from the device by disabling most of the display area. Only the bar graph will be refreshed when LCD Fast Mode is set to ON. When Fast Mode is set to ON, there is a delay of 30 minutes with no pressed buttons before actions result. Values Page 84 ON or OFF Default: OFF SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 4.3. LCD Contrast The factory setting is for optimum visibility at room temperature and in average light conditions. Extremes of temperature will lessen the contrast. Range: 0 (High contrast) to 20 (Low contrast). Default: Matches factory calibration for best visual contrast. Values Adjust the value to improve visibility in different temperatures and luminosity. Change the LCD contrast in small steps to ensure you can continue to read the display and to prevent viewing difficulties. 4.4. PROFIBUS Ident Number (PROFIBUS IDENT) Identifies the device on the network. The Ident Number must match that in the GSD file (the GSD file provides information on the device to the master). Options STD PROFILE Standard Profile (uses generic GSD for 2 AIFB [ident # = 0x9701] MANUFACTURER Manufacturer-specific (uses Siemens EDD and GSD file, which identifies the LR260 [PROFIBUS PA]) [ident # = 0x8162] STD – AIFB 1 ONL. Standard Profile AIFB 1 only (uses generic GSD for 1 AIFB) [ident # = 0x9700] 4.6. Power-on Resets View only. The number of power cycles that have occurred since manufacture. To view via SIMATIC PDM, open the menu View – Wear. 4.17. Service Interval Allows for scheduling of service inspections. To access these parameters via SIMATIC PDM, open the menu Device – Maintenance and click on the Service Schedule tab. 4.17.1. Time Last Serviced (TIME LAST SERV) View only. Time elapsed since device was last serviced. Can be reset to zero via the handheld programmer (after performing a service). 4.17.2. Remaining Lifetime (REMAIN LIFETIME) View only. The sum of Total Service Interval less Time Last Serviced. 4.17.3. Maintenance Required Limit (MAINT REQ LIMIT) If Remaining Lifetime is equal to or less than this limit, a Maintenance Required status is generated. Values A5E32337685 Range: 0 to 20 years Default: 0.164 years SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 85 mmmmm To view via SIMATIC PDM, open the menu View – Wear. Parameters 4.5. Powered Hours View only. Number of hours the unit has been powered up since manufacture. 4.17.4. Maintenance Demanded Limit (MAINT DEM. LIMIT) If Remaining Lifetime is equal to or less than this limit, a Maintenance Demanded status is generated. Values Range: 0 to 20 years Default: 0.019 years 4.17.5. Alert Activation Select limits to be activated. * Timer off On - no limits Options On - limit 1 On - limits 1 - 2 On - limit 2 4.17.6. Service Interval Set time between scheduled service inspections. Values Range: 0 to 20 years Default: 1.0 year Parameters mmmmm 4.17.7. Maintenance Status (MAINT STAT) Displays the status of the Maintenance Alerts. Options (view only) Maintenance Required Alert active Maintenance Demanded Alert Active Open the menu View – Device Status and click on the Maintenance tab. 4.17.8. Acknowledge Status (ACK STATUS) Displays the status of the Maintenance Alerts that have been acknowledged. Options (view only) Maintenance Required Alert acknowledged Maintenance Demanded Alert acknowledged 4.17.9. Acknowledge (ACK) Allows you to acknowledge either a Maintenance Required or a Maintenance Demanded alert. In SIMATIC PDM: a) Open the menu View – Device Status and click on the Maintenance tab. b) Click on the appropriate Acknowledge Warnings button then click on Close. Page 86 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 4.18. Calibration Interval (CALIB INTERVAL) Allows you to schedule calibration. To access these parameters via SIMATIC PDM, open the menu Device –Maintenance and click on the Calibration Schedule tab. 4.18.1. Time Last Calibrated (TIME LAST CAL.) View only: time elapsed since device was last calibrated. Can be reset to zero via the handheld programmer (after performing a service). 4.18.2. Remaining Lifetime (REMAIN LIFETIME) View only. The sum of Total Calibration Interval less Time Last Calibrated. 4.18.3. Maintenance Required Limit (MAINT REQ LIMIT) If Remaining Lifetime is equal to or less than this limit, a Maintenance Required status is generated. Values Range: 0 to 20 years Default: 0.164 years 4.18.4. Maintenance Demanded Limit (MAINT DEM LIMIT) If Remaining Lifetime is equal to or less than this limit, a Maintenance Demanded status is generated. Range: 0 to 20 years Default: 0.019 years 4.18.5. Alert Activation Select limits to be activated. * Timer off On - no limits Options On - limit 1 On - limits 1 - 2 On - limit 2 4.18.6. Total Calibration Interval (TOTAL CALIB. INTRV) Set time between scheduled calibrations. Values Range: 0 to 20 years Default: 1.0 year 4.18.7. Maintenance Status (MAINT STAT) Displays the status of the Maintenance Alerts Options (view only) Maintenance Required Alert active Maintenance Demanded Alert Active In SIMATIC PDM, open the menu View – Device Status and click on the Maintenance tab. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 87 mmmmm Parameters Values 4.18.8. Acknowledge Status (ACK STAT) Displays the status of the Maintenance Alerts that have been acknowledged. Maintenance Required Alert acknowledged Options (view only) Maintenance Demanded Alert acknowledged In SIMATIC PDM, open the menu View – Device Status and click on the Maintenance tab. 4.18.9. Acknowledge (ACK) Allows you to acknowledge either a Maintenance Required or a Maintenance Demanded alert. In SIMATIC PDM: a) Open the menu View – Device Status and click on the Maintenance tab. b) Click on the appropriate Acknowledge Warnings button then click on Close. 5. Communication 5.1. Device Address Sets the unique address of the device on the network (also called PROFIBUS address). Parameters mmmmm Note: The address can be changed and locked from a remote master. See Resetting the PROFIBUS address to 126: on page 120 for details on disabling the address lock. Values 0 - 126. Default: 126 To change Device Address via SIMATIC PDM: a) Open the menu Device – Set Address. b) Enter value in New Address field and click on Assign Address button. To change Device Address via the handheld programmer: See Device Address on page 35 for details. 5.2. Remote Lockout Enables or disables programming via the network and PDM. Options Off (Remote operation enabled) On (Remote operation disabled) 6. Security 6.1. Write Locking Prevents any changes to parameters via PDM or the hand-held programmer. Hand-held programmer Values 2457 (unlock value) Off (enables programming) any other value On (disables programming) In SIMATIC PDM, open the menu Device – Write Locking, and select On or Off. Page 88 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 7. Language Selects the language to be used on the LCD. * English Options German French Spanish SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 89 mmmmm Parameters A5E32337685 Parameters mmmmm Notes Page 90 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Parameter Name (Parameter Number) Page Number Algorithm (2.2.3.1.1.) Auto False Echo Suppression (AUTO ECHO SUPP) (2.2.4.3.) Auto Suppression Range (AUTO SUPP RANGE) (2.2.4.4.) Echo Confidence (2.2.3.6.1.) Device Address (5.1.) Device Reset (4.1.) Echo Lock (2.2.3.2.1.) Echo Marker (2.2.3.1.4.) Echo Profile (3.2.) Echo Threshold (2.2.3.1.2.) Empty rate (EMPTY RATE/MIN) (2.2.6.3.) Fail-safe Mode FB1 (FS MODE FB1) (2.4.2.) Fail-safe Mode FB2 (FS MODE FB2) (2.4.4.) Fail-safe Value FB1 (FS VALUE FB1) (2.4.3.) Fail-safe Value FB2 (FS VALUE FB2) (2.4.5.) Far Range (2.2.3.5.2.) Fill Rate (FILL RATE/MIN) (2.2.6.2.) Filter Time Constant (FILTER TIME CONST) (2.3.1.4.) Firmware Revision (FIRMWARE REV.) (2.1.4.) Hardware Revision (HARDWARE REV.) (2.1.6.) High Calibration Pt. (HIGH CALIB. PT.) (2.2.1.4.) Language (7.) LCD Contrast (4.3.) LCD Fast Mode (4.2.) Level Offset (2.2.1.9.) Loader Revision (LOADER REV.) (2.1.5.) LOE Timer (2.4.1.) Low Calibration Pt. (LOW CALIB. PT.) (2.2.1.3.) Maximum Internal Temperature (MAX. INTERN. TEMP) (3.3.8.) Minimum Internal Temperature (MIN. INTERN. TEMP) (3.3.7.) Narrow Echo Filter (NARROW ECHO FIL.) (2.2.3.3.2.) A5E32337685 SITRANS LR260(PROFIBUS PA) – OPERATING INSTRUCTIONS 56 62 63 61 88 84 58 57 72 57 66 71 71 71 71 60 65 67 54 54 55 89 85 84 55 54 70 55 73 73 59 Page 91 mmmmm Note: Maintenance Parameters are not listed below. See Remaining Device Lifetime (REMAIN. DEV. LIFE) (3.4.) on page 74, Remaining Sensor Lifetime (REMAIN SENS. LIFE) (3.5.) on page 77, Service Interval (4.17.) on page 85, and Calibration Interval (CALIB INTERVAL) (4.18.) on page 87 for those parameters. A: Parameter List Appendix A: Alphabetical Parameter List A: Parameter List mmmmm Parameter Name (Parameter Number) Near Range (2.2.3.5.1.) Noise (2.2.3.6.) Position (2.2.3.1.3.) Powered Hours (4.5.) Power-on Resets (4.6.) PROFIBUS Ident Number (PROFIBUS IDENT) (4.4.) Remote Lockout (5.2.) Response Rate (2.2.6.1.) Sensor Offset (2.2.1.10.) Sensor Units (2.2.1.2.) Echo Strength (2.2.3.6.2.) Temperature Units (TEMP UNITS) (2.2.1.11.) TVT Hover Level (2.2.4.2.) TVT Type (2.2.4.1.) Unit (Level) (2.2.1.6.) Window (2.2.3.2.4.) Write Locking (6.1.) Page 92 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page Number 60 61 57 85 85 85 88 65 56 54 61 56 62 61 55 59 88 A5E32337685 Appendix B: Troubleshooting 1. Check the following: • • • • There is power at the instrument. The LCD shows the relevant data you are expecting. Check whether any fault codes are being displayed (see Acyclic Extended Diagnostics (General Fault Codes) on page 127 for a detailed list). The device can be programmed using the hand-held programmer. 3. Check the PROFIBUS address and make sure all devices are at unique PROFIBUS addresses. 4. If the device cannot be programmed via the hand-held programmer, make sure Write Locking (6.1.) on page 88 is disabled. 5. If you try to set a SITRANS LR260 parameter via remote communications, but the parameter remains unchanged, check the following parameters: • • • 6. 7. Remote Lockout (5.2.) on page 88 should be disabled Write Locking (6.1.) on page 88 should be disabled Resetting the PROFIBUS address to 126: on page 120 on how to disable an address lock If you continue to experience problems, go to our website at: www.siemens.com/processautomation, and check the FAQs for SITRANS LR260, or contact your Siemens Milltronics representative. If the PLC value equals the display value, but does not correspond to actual material level, either: • • • 8. scaling in AIFB1 is incorrect, or High Calibration Point is incorrectly entered, or the wrong echo is being selected. If the PLC value is not equal to the displayed value (regardless of actual material level), either: • • • A5E32337685 you may not be looking at the right spot in the PLC, or you may have programmed scaling into the PLC, instead of leaving all scaling to be performed in the LR260, or the PLC may not be communicating with the LR260. Check the network to verify that you are communicating. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 93 mmmmm Verify that the wiring connections are correct. B: Troubleshooting 2. Device Status Icons B: Troubleshooting mmmmm Icon Page 94 Priority Level Meaning • Maintenance alarm • Measurement values are not valid • Maintenance warning: maintenance demanded immediately • Measured signal still valid • Maintenance required • Measured signal still valid • Process value has reached an alarm limit • Process value has reached a warning limit • Process value has reached a tolerance limit • Configuration error • Device will not work because one or more parameters/ components is incorrectly configured • Configuration warning • Device can work but one or more parameters/components is incorrectly configured • Configuration changed • Device parameterization not consistent with parameterization in project. Look for info text. • Manual operation (local override) • Communication is good; device is in manual mode. • Simulation or substitute value • Communication is good; device is in simulation mode or works with substitute values. • Out of operation • Communication is good; device is out of action. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Priority Level Icon Meaning (cont’d) • Data exchanged • No data exchange • Write access enabled Notes: • If more than one fault is present, the device status indicator and text for each fault alternate at 2 second intervals. • Some faults cause the device to go to Fail-safe mode (Fault 52). These are indicated with an asterisk (*). General Fault Codes Code / Icon Meaning Corrective Action S: 0 The device was unable to get a measurement within the Fail-safe LOE Timer period. Possible causes: faulty installation, antenna material buildup, foaming/other adverse process conditions, invalid calibration range. Ensure installation details are correct. Ensure no antenna material buildup. Clean if necessary. Adjust process conditions to minimize foam or other adverse conditions. Correct range calibration. If fault persists, contact your local Siemens representative. S: 2 Unable to collect profile because of a power condition that is outside of the operating range of the device. Repair required: contact your local Siemens representative. S: 3 Device is nearing its lifetime limit according to the value set in Maintenance Required Limit. Replacement is recommended. S: 4 Device is nearing its lifetime limit according to the value set in Maintenance Demanded Limit. Replacement is recommended. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 95 mmmmm General Fault Codes B: Troubleshooting • Write access disabled General Fault Codes (cont’d) (cont’d) B: Troubleshooting mmmmm Code / Icon Meaning Corrective Action S: 6 Sensor is nearing its lifetime limit according to the value set in Maintenance Required Limit. Replacement is recommended. S: 7 Sensor is nearing its lifetime limit according to the value set in Maintenance Demanded Limit. Replacement is recommended. S: 8 Service interval as defined in Maintenance Required Limit has expired. Perform service. S: 9 Service interval as defined in Maintenance Demanded Limit has expired. Perform service. S: 10 Input parameters High Calibration Point and Low Calibration Point are the same. Check calibration settings of device. Ensure settings for High Calibration Point and Low Calibration Point are different. S: 11 Internal temperature sensor failure. Repair required: contact your local Siemens representative. S: 12 Internal temperature of device has exceeded specifications: it is operating outside its temperature range. Relocate device and/or lower process temperature enough to cool device. Inspect for heat-related damage and contact your local Siemens representative if repair is required. Fault code will persist until a manual reset is performed using PDM or the LCD interface. S:14 Upper and Lower input values (Process Value Scale) for AIFB1 are the same. Check configuration for AIFB1. Ensure that Upper Value and Lower Value (Process Value Scale) are not the same. Page 96 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 General Fault Codes (cont’d) (cont’d) Code / Icon S: 15 Upper and Lower input values (Process Value Scale) for AIFB2 are the same. Check configuration for AIFB2. Ensure that Upper Value and Lower Value (Process Value Scale) are not the same. S: 17 Calibration interval as defined in Maintenance Required Limit has expired. Perform calibration. S: 18 Calibration interval as defined in Maintenance Demanded Limit has expired. Perform calibration. S: 25 Internal device error. Reset power. If fault persists, contact your local Siemens representative. S: 28 Internal device failure caused by a RAM memory error. Repair required: contact your local Siemens representative. S: 29 EEPROM damaged. Repair required: contact your local Siemens representative. S: 31 Flash error. Repair required: contact your local Siemens representative. S: 32 IDENT number conflict Ensure value of the Ident number selector is correct for the network configuration. If it is correct, the device needs to be re-parameterized by the PLC. S: 33 Factory calibration for the internal temperature sensor has been lost. Repair required: contact your local Siemens representative. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 97 mmmmm Corrective Action B: Troubleshooting Meaning General Fault Codes (cont’d) (cont’d) B: Troubleshooting mmmmm Code / Icon Meaning Corrective Action S: 34 Factory calibration for the device has been lost. Repair required: contact your local Siemens representative. S: 35 Factory calibration for the device has been lost. Repair required: contact your local Siemens representative. S: 36 Unable to start microwave module. Cycle power. If fault persists, contact your local Siemens representative. S: 37 Measurement hardware problem. Cycle power. If fault persists, contact your local Siemens representative. S: 38 Microwave module hardware failure: unable to calculate distance measurement. Cycle power. If fault persists, contact your local Siemens representative: repair required. S: 43 Factory calibration for the radar receiver has been lost. Repair required: contact your local Siemens representative. S: 64 SPC42 Access Error Cycle power. If fault persists, contact your local Siemens representative. Page 98 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Operation Troubleshooting Operating symptoms, probable causes, and resolutions. Action level or target is out of range Display shows S: 0 LOE material build-up on antenna • check specifications • check Low Calibration Point (LOW CALIB. PT.) (1.5.) • increase Echo Confidence (2.2.3.6.1.) • clean the antenna • re-locate SITRANS LR260 Display shows S: 0 LOE location or aiming: • poor installation • flange not level Display shows S: 0 LOE antenna malfunction: • temperature too high • physical damage Reading does not change, but the level does SITRANS LR260 processing wrong echo, i.e. vessel wall, or structural member Measurement is consistently off by a constant amount • setting for Low Calibration Pt. (LOW CALIB. PT.) (2.2.1.3.) not correct • setting for Sensor Offset (2.2.1.10.) not correct power error • check nameplate rating against voltage supply • check power wiring or source Screen blank A5E32337685 • check to ensure nozzle is vertical • use Auto False Echo Suppression (AUTO ECHO SUPP) (2.2.4.3.) and check Auto Suppression Range (AUTO SUPP RANGE) (2.2.4.4.) to ensure nozzle protrudes from end of vessel nozzle. • check Maximum Internal Temperature (MAX. INTERN. TEMP) (3.3.8.) • set Algorithm (2.2.3.1.1.) to tF (trueFirst echo) • relocate • re-locate SITRANS LR260 • ensure nozzle protrudes 10 mm min. • rotate instrument 90° • use Auto False Echo Suppression (AUTO ECHO SUPP) (2.2.4.3.) and Auto Suppression Range (AUTO SUPP RANGE) (2.2.4.4.) • check distance from sensor reference point to Low Calibration Pt. (LOW CALIB. PT.) (2.2.1.3.) • check Sensor Offset (2.2.1.10.) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 99 mmmmm Cause Display shows S: 0 LOE B: Troubleshooting Symptom B: Troubleshooting mmmmm Symptom Cause Reading erratic echo confidence weak Reading response slow Reads correctly but occasionally reads high when vessel is not full Level reading lower than material level Action (cont’d) • refer to Echo Confidence (2.2.3.6.1.) • use Auto False Echo Suppression (AUTO ECHO SUPP) (2.2.4.3.) and Auto Suppression Range (AUTO SUPP RANGE) (2.2.4.4.) • use foam deflector liquid surface vortexed • decrease Fill Rate (FILL RATE/MIN) (2.2.6.2.) • increase confidence threshold in Echo Threshold (2.2.3.1.2.) material filling • re-locate SITRANS LR260 Fill Rate (FILL RATE/MIN) • increase measurement response if (2.2.6.2.) setting is incorrect possible • detecting close range • clean the antenna echo • use Auto False Echo Suppression • build up near top of (AUTO ECHO SUPP) (2.2.4.3.) and vessel or nozzle Auto Suppression Range (AUTO • nozzle problem SUPP RANGE) (2.2.4.4.) • material is within Near • decrease Near Range (2.2.3.5.1.) Range zone (minimum value depends on • multiple echoes antenna type) processed • raise SITRANS LR260 • ensure Algorithm (2.2.3.1.1.) is set to tF (trueFirst echo) • vessel near empty and • set Position (2.2.3.1.3.) to Hybrid low dK material Page 100 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Appendix C: Maintenance SITRANS LR260 requires no maintenance or cleaning under normal operating conditions. Under severe operating conditions, the antenna may require periodic cleaning. If cleaning becomes necessary: • Note the antenna material and the process medium, and select a cleaning solution that will not react adversely with either. • Remove the instrument from service and wipe the antenna clean using a cloth and suitable cleaning solution. Unit Repair and Excluded Liability All changes and repairs must be done by qualified personnel, and applicable safety regulations must be followed. Please note the following: • • • • The user is responsible for all changes and repairs made to the device. All new components must be provided by Siemens Milltronics Process Instruments Inc. Restrict repair to faulty components only. Do not re-use faulty components. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 101 mmmmm C: Maintenance A5E32337685 C: Maintenance mmmmm Notes Page 102 SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS A5E32337685 Appendix D: Technical Reference Principles of Operation SITRANS LR260 is a 2-wire 25 GHz pulse radar level transmitter for continuous monitoring of solids and liquids1). Radar level measurement uses the time of flight principle to determine distance to a material surface. The device transmits a signal and waits for the return echo. The transit time is directly proportional to the distance from the material. Pulse radar uses polarized electromagnetic waves. Microwave pulses are emitted from the antenna at a fixed repetition rate, and reflect off the interface between two materials with different dielectric constants (the atmosphere and the material being monitored). Electromagnetic wave propagation is virtually unaffected by temperature or pressure changes, or by changes in the vapor levels inside a vessel. Electromagnetic waves are not attenuated by dust. SITRANS LR260 consists of an enclosed electronic circuit coupled to an antenna and process connection. The electronic circuit generates a radar signal (25 GHz) that is directed to the horn. The signal is emitted from the horn, and the reflected echoes are digitally converted to an echo profile. The profile is analyzed to determine the distance from the material surface to the reference point on the instrument. This distance is used as a basis for the display of material level. Echo Processing Process Intelligence Process Intelligence is able to differentiate between the true microwave reflections from the surface of the material and unwanted reflections being returned from obstructions such as seam welds or supports within a vessel. The result is repeatable, fast and reliable measurement. This technology was developed as result of field data gained over some twenty years from more than 1,000,000 installations in many industries around the world. 1) The microwave output level is significantly less than that emitted from cellular phones. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 103 mmmmm Process intelligence provides high measurement reliability regardless of the dynamically changing conditions within the vessel being monitored. The embedded Process Intelligence dynamically adjusts to the constantly changing material surfaces within these vessels. D: Technical Reference The signal processing technology embedded in Siemens radar level devices is known as Process Intelligence. Higher order mathematical techniques and algorithms are used to provide intelligent processing of microwave reflection profiles. This “knowledge based” technique produces superior performance and reliability. Time Varying Threshold (TVT) Curves A Time Varying Threshold (TVT) curve hovers above the echo profile to screen out unwanted reflections (false echoes). sensor reference point High Cal. Pt. =0 obstruction at 1.2 m TVT curve material level at 2.9 m false echo true echo Low Cal. Pt. echo marker In most cases the material echo is the only one which rises above the default TVT curve. In a vessel with obstructions a large false echo may rise above the default TVT. The Auto False Echo Suppression feature (see below) can be used to screen it out. The device characterizes all echoes that rise above the TVT as potential good echoes. Each peak is assigned a rating based on its strength, area, height above the TVT, amongst other characteristics. D: Technical Reference mmmmm The true echo is selected based on the setting for the Echo selection algorithm [Algorithm (2.2.3.1.1.)]. Echo Lock If the echo selected by Algorithm is within the Echo Lock window, the window is centered about the echo, which is used to derive the measurement. • Echo Lock Off: SITRANS LR260 responds immediately to a new selected echo (within the restrictions set by the Maximum Fill / Empty Rate), but measurement reliability is affected. Echo Position Detection The echo position algorithm (2.2.3.1.3. Position) determines which point on the echo will be used to calculate the precise time of flight, and calculates the range using the calibrated propagation velocity (adjusted by a propagation factor, if necessary). The options are Center or CLEF (Constrained Leading Edge Fit), Hybrid, or Rising Edge. CLEF uses the leading edge of the echo. It can be used to compensate for materials with Page 104 SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS A5E32337685 a low dK value, which may cause the vessel bottom to be reported as the level instead of the actual material level, in low level conditions. CLEF range is the level below which the CLEF algorithm will be used: above this level the Center algorithm is used. Center of Mass selects the center of the echo for evaluation. Rising Edge selects the rising edge of the echo. Hybrid uses a combination of Center and CLEF, depending on the setting for CLEF range. Auto False Echo Suppression If an obstruction is causing a large echo before the material level echo, that echo will rise above the default TVT curve and may be selected as the true echo. Auto False-Echo Suppression modifies the TVT curve so that the false echo will not rise above the TVT curve. When you use Auto False Echo Suppression, the device first learns the echo profile at that moment1). A learned TVT curve follows the echo profile and rises above the false echo. You set Auto Suppression Range so that the learned profile replaces the default TVT curve up to a point past the obstruction. From that point on, the default TVT curve is used. The material level echo rises above this, and is selected as the true echo. Example after Auto False Echo Suppression Level (db) learned TVT curve level false echo echo marker 2.2.3.5.1. Near Range programs SITRANS LR260 to ignore the zone in front of the antenna. The default blanking distance is 50 mm (1.97") from end of horn antenna. Near Range allows you to increase the blanking value from its factory default. But 2.2.4.3. Auto False Echo Suppression (AUTO ECHO SUPP) is generally recommended in preference to extending the blanking distance from factory values. 1) Use Auto False Echo Suppression when the material level is substantially lower than process full level (ideally when the tank is empty or almost empty). A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 105 mmmmm Near Range D: Technical Reference Measurement Range Far Range In applications where the base of the vessel is conical or parabolic, a reliable echo may be available below the vessel empty distance, due to an indirect reflection path. Increasing the range extension to 30% or 40% can provide stable empty vessel readings. Measurement Response The measurement response (Response Rate (1.2.)) limits the maximum rate at which the display and output respond to changes in the measurement. Once the real process fill/ empty rate (m/s) is established, a response rate can be selected that is slightly higher than the application rate. The response rate automatically adjusts the filters that affect the output response rate. There are three preset options: slow, medium, and fast. Fill Rate (FILL RATE/ MIN) (2.2.6.2.)/ Empty rate (EMPTY RATE/MIN) (2.2.6.3.) Response Rate (1.2.) Shots (2.2.3.3.1.) Slow 0.1 m/min 60 s 25 Medium 1 m/min 10 s 10 10 m/min 0s 10 Fast a) Filter Time Constant (FILTER TIME CONST) (2.3.1.4.)a) Numbering depends on AIFB selected. Damping D: Technical Reference mmmmm A damping filter smooths out the response to a sudden change in level. This is an exponential filter and the engineering unit is always in seconds. The setting can be modified in Filter Time Constant (FILTER TIME CONST) (2.3.1.4.). Damping example time constant = 2 seconds input (level) change = 2 m In 5 time constants the output rises exponentially: from 63.2% of the change in the first time constant, to almost 100% of the change by the end of the 5th time constant. Level (m) 4.5 3.5 2.5 1.5 0.5 Time (s) input (level) Series1 smoothed output Series2 Loss of Echo (LOE) A loss of echo (LOE) occurs when the calculated measurement is judged to be unreliable because the echo confidence value has dropped below the echo confidence threshold. Page 106 SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS A5E32337685 If the LOE condition persists beyond the time limit set in 2.4.1. LOE Timer the LCD displays the Maintenance Alarm icon, and the text region displays the fault code S: 0 and the text LOE. If two faults are present at the same time, the fault code, error text, and error icon for each fault are displayed alternately. For example, Loss of Echo and Temperature Sensor Failure. S: 0 LOE S: 11 Temp. Sensor Failure LOE (Loss of Echo) Timer LOE Timer determines the time to elapse after the last valid reading before a Fail-safe state is activated. Fail-safe Material Level determines the level to be reported when the Fail-safe timer expires. Upon receiving a reliable echo, the loss of echo condition is aborted, the Service Required icon and error message are cleared, and the reading return to the current level. Fail-safe Mode The purpose of the Fail-safe setting is to put the process into a safe mode of operation in the event of a fault or failure. The value to be reported in the event of a fault is selected so that a loss of power or loss of signal triggers the same response as an unsafe level. Fail-safe mode may be triggered by a loss of echo, a bad configuration, or certain device faults. You can select on of three possible values to be reported when a Fail-safe mode is activated. Options Material level to be reported Substitute value (Default value used as output value). * Last value (Store last valid output value). Use bad value (Calculated output value is incorrect). The two Analog Input Function blocks are set separately. For example, to set a userdefined value for AIFB1: • • Set Fail-safe Mode FB1 (FS MODE FB1) (2.4.2.) to Use substitute value. Go to Fail-safe Value FB1 (FS VALUE FB1) (2.4.3.) and enter the desired value. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 107 mmmmm When the LOE Timer (2.4.1.) expires, the material level to be reported is determined by Fail-safe Mode. If the option Use substitute value is selected, a user-defined value can be reported. D: Technical Reference Fail-safe value Process Pressure/Temperature derating curves1) Notes: WARNINGS: • Never attempt to loosen, remove or disassemble process connection or instrument housing while vessel contents are under pressure. • This product is designated as a Pressure Accessory per Directive 97/ 23 / EC and is not intended for use as a safety device. • Materials of construction are chosen based on their chemical compatibility (or inertness) for general purposes. For exposure to specific environments, check with chemical compatibility charts before installing. • The user is responsible for the selection of bolting and gasket materials which will fall within the limits of the flange and its intended use and which are suitable for the service conditions. • Improper installation may result in loss of process pressure and/or release of process fluids and/or gases. D: Technical Reference mmmmm • The Process Device Tag shall remain with the process pressure boundary assembly1. In the event the instrument package is replaced, the Process Device Tag shall be transferred to the replacement unit. • SITRANS LR260 units are hydrostatically tested, meeting or exceeding the requirements of the ASME Boiler and Pressure Vessel Code and the European Pressure Equipment Directive. • The serial numbers stamped in each process connection body, (flange, threaded, or sanitary), provide a unique identification number indicating date of manufacture. Example: MMDDYY – XXX (where MM = month, DD = day, YY = year, and XXX= sequential unit produced) Further markings (space permitting) indicate flange configuration, size, equivalent pressure class, material, and material heat code. 1) The process pressure boundary assembly comprises the components that act as a barrier against pressure loss from the process vessel: that is, the combination of process connection body and emitter, but normally excluding the electrical enclosure. Page 108 SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS A5E32337685 Horn Antenna 2" (50 mm), 3" (80 mm), 4" (100 mm), and 6" (150 mm) Flanged Versions Process Connection Series: • 51262 or 51263 series flange. • Ensure your instrument has the process identification Tag showing one of this series, and 25589 stamped on flange. WARNING: Never attempt to loosen, remove or disassemble process connection or instrument housing while vessel contents are under pressure. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 109 mmmmm D: Technical Reference A5E32337685 D: Technical Reference mmmmm Notes Page 110 SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS A5E32337685 Appendix E: Application Example Note: In the applications illustrated below, values are for example purposes only. You can use this examples as setup references. Enter the values in the parameter tables to select the corresponding functions. Configure the basic settings using the Quick Start wizard parameters. (These parameters are inter-related, and changes take effect only after you select YES in step 7 (or Finish and Transfer in PDM) to apply changes.) In each example, after performing a Quick Start, navigate to the other required parameters (either via the handheld programmer, or via SIMATIC PDM) and enter the appropriate values. Flour in steel storage vessel, level measurement Note: Minimum distance from flange face to target is limited by Near Range 2.2.3.5.1. on page 60. SITRANS LR260 Sensor Reference Point High Calibration Point 0.5 m To obtain level measurement proportional to flour levels: Low Calibration Pt. = vessel bottom 16 m High Calibration Pt.= 0.5 m from sensor reference point. level Low Calibration Point Max.fill/empty rate = 0.1 m/ min. In the event of a loss of echo, SITRANS LR260 is to go into Fail-safe High after 2 minutes. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 111 mmmmm E: Special Applications A5E32337685 Parameter type Quick Start Wizard parameters Independent parameters Options/ Values Application Type (1.1.) STEEL Function Response Rate (1.2.) MED Medium =1 m/minute Units (1.3.) meters Operation (1.4.) LEVEL Level Low Calibration Point (LOW CALIB. PT.) (1.5.) 16 16 m High Calibration Point (HIGH CALIB. PT.) (1.6.) 0.5 0.5 m Apply? (Apply changes) (1.7.) YES Transfers Quick Start settings to device. LOE Timer (2.4.1.) 2 minutes Fail-safe Mode FB1 (FS MODE FB1) (2.4.2.) Substitute value User-defined value to be used. Fail-safe Value FB1 (FS VALUE FB1) (2.4.3.) 4.5 4.5 m to return to Measurement mode. E: Special Applications mmmmm Press Mode Parameter Name/No. Page 112 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 The device follows the profile block model and is implemented as a Profile 3.01, Class B, PA device. Standard profile parameters are used to program the level transducer block. Block Model for recording and processing measured values The functions of the device are divided into blocks for different areas of responsibility. They can be parameterized by acyclic data transfer via PDM. sensor sensor Transducer Block Analog Input Function Block1 Analog Input Function Block2 PROFIBUS PA electronics temperature The device is implemented with one Physical Block (PB1), one Level Transducer Block (LTB1), and two Analog Input Function Blocks (AIFB1 and AIFB2). All data is viewed from the perspective of the DCS or PLC, so information from the sensor is an input. Transducer Block (TB) The Level Transducer Block (LTB) carries out adjustments to the sensor, such as level calibration. It supplies the outputs utilized by either or both of the AIFBs. Analog Input Function Blocks AIFB1 and AIFB2 The two AIFBs are completely independent of each other. They utilize the output from the Level TB, and apply any required quality checks, scaling, and Fail-safe operation selections. The output of an Analog Input Function Block supplies the measured value and associated status information to PROFIBUS PA, via cyclic data transfer. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 113 mmmmm PROFIBUS Level Device Design F: Profile structure Appendix F: PROFIBUS PA Profile Structure F: Profile structure mmmmm Description of the blocks Transducer block function groups The figure below shows the signal flow of measured values from the sensor through the Transducer block into the output value: • • • Primary Value (PV): Level Secondary Value 1 (SV1): Level/Volume Secondary Value 2 (SV2): Distance The Level TB implements all of the basic parameters. Level Transducer Block Sensor Value Sensor Sensor technology Sensor Offset Level Level calibration Level Offset Low High Calibration Calibration Point Point High Level Low Level Point Point Calibration Type Primary Value Level (level units) Linearization Linearization Type PV SV1 Secondary Value 1 [Level] (Level Units) SV2 AIFB1 (Analog Input) AIFB2 (Analog Input) Secondary Value 2 [Distance] (Sensor Units) How the LTB works 1. The sensor technology block selects the proper echo. For an explanation of sensor technology, see Appendix D: Technical Reference, page 103 onwards. The sensor value (in sensor units) is checked to see if it is within its measuring limits. If the limit is exceeded, this results in a Bad status and the error message Failure in measurement. The sensor value is stored in Sensor Value. The analog signal from the sensor is transformed into a digital signal. A Sensor Offset (default 0) provides compensation if necessary for changes in the sensor. Page 114 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2. Level Calibration is a linear transfer function that converts a sensor value to a level value.1) 4.5 High Level Point 3.5 Level Value 2.5 1.5 Low Level Point 0.5 Low Calibration Point Sensor Value High Calibration Point Calibration Sensor Reference Point (flange face) Sensor Offset distance/SV2 High Level Point (default: 100%) High Calibration Point Sensor Value Level Level Offset1 Low Calibration Point 3. Secondary Value 1 Low Level Point (default: 0%) The LTB provides four possible outputs • • • Primary Value (PV) / Level/Volume Secondary Value 1 (SV1) / Level Secondary Value 2 (SV2) / Distance (sensor units) Electronics temperature The transducer block also monitors the internal temperature of the device electronics. If the temperature exceeds permitted limits, it does not change the sensor value, but it does change the status.The permitted limits correspond to those of the permitted ambient temperature. 1) Level Offset (default O) can compensate for specific vessel configurations. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 115 mmmmm F: Profile structure Level F: Profile structure mmmmm If a temperature limit is exceeded, the status changes. Peak indicators1) allow you to check the maximum and minimum temperatures that have occurred. Analog Input Function Blocks 1 and 2 The figure below shows how measured values are processed within the two Analog Input Function Blocks (AIFB1 and AIFB2) to produce the device outputs, which are communicated via cyclic transfer to PROFIBUS PA, and displayed on the LCD. Analog Input Function Block function groups (simulation, mode and status)2) Operator Operator Simulate Parameter OUT MAN enable simulate value and on Process Variable2 status from LTB (Function Block input) Value Status off Out of OUT Service Value FB algorithm Status Failsafe AUTO Alarm OUT Limit Value Status Check MODE and STATUS handling How the AIFBs work The Analog Input Function Blocks allow you to control modifications to the output value (PROFIBUS cyclic data). Output Conversion Values transmitted by the Level TB have a status attached. The decision on what to do with each value is made by the Analog Input Function Block. Device/ Input Simulation The input can be a simulated value instead of a TB OUT value. This allows the AI block to be tested independently of the characteristics of the environment. Fail-safe If the status of the Primary Value or Simulation Value is bad, the fault logic can output either the last usable measured value, or a given substitute value. 1) 2) Open the menu View – Peak Values. The output from the Level Transducer Block can be called the Primary Value (or Secondary Value). When it becomes the input to the AIFB, it is called the Process Variable. Page 116 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Device / Output Simulation description Output value automatic the automatically-recorded measured value MAN manual a manually-set fixed simulation value O/S function block disabled the preset safety value. One of three settings can be selected: the result is the output parameter (OUT). AIFB execution steps: The AIFBs can provide a linear conversion to any desired units. 1. The input value is normalized (Scaling Input) Process Variable range applies to any of the four LTB values. (Units of the Process Variable scale are the same as the units used for the LTB output.) Output units together with Process Variable range determine how the LTB output is converted to whatever units the customer wants. 2. The scaling output is applied. For example: Process Variable range (typical Input (0 to 100%) AIFB2 3. 4. 5. 6. 7. Out (or AIFB2 Out) straight to LCD (same values displayed on LCD as PLC) Output range: This value is filtered using a first order filter based on a time constant provided by the user. The status of the Process Variable (input value) is checked. If the status is Bad, a Fail-safe condition occurs. The output is determined by the Fail-safe Mode of the block. The target mode parameter allows the entire AI block to be overridden by a Manual Out value. The value is checked against the user parameterized warning and alarm limits. (There is an upper and lower warning limit and an upper and lower alarm limit. The unit of the limits corresponds to the unit of the output range. A hysteresis parameter prevents toggling in the Status field of the OUT value.) The OUT VALUE parameter is the value for the cyclic data transfer. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 117 mmmmm AUTO F: Profile structure Setting F: Profile structure mmmmm Notes Page 118 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Appendix G: Communications via PROFIBUS PA SITRANS LR260 (PROFIBUS PA) is a Profile Version 3.01, Class B, PA device. It supports Class 1 Master for cyclic and acyclic data exchange, and Class 2 for acyclic services. The full range of SITRANS LR260 functions is available only over a PROFIBUS PA network. Device Configuration tool SIMATIC PDM SIMATIC PDM is a software package used to commission and maintain SITRANS LR260 and other process devices. For more detail see Functions in SIMATIC PDM on page 37. Electronic Device Description In order to use Process Device Manager (PDM) with PROFIBUS PA, you will need the Electronic Device Description for SITRANS LR260. For details see Electronic Device Description (EDD) on page 38. Network Configuration To configure a PROFIBUS PA Class 1 Master (for example, a PLC), you will need a GSD file. The GSD file The GSD file SIEM8162.gsd is available from the SITRANS LR260 product page on our web site. Go to www.siemens.com/LR260 and click on Downloads. Bus Termination Note: PROFIBUS PA MUST be terminated at both extreme ends of the cable for it to work properly. Please refer to the PROFIBUS PA User and Installation Guidelines (order number 2.092), available from www.profibus.com. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 119 mmmmm To use PROFIBUS PA, you will need a PC configuration tool: we recommend SIMATIC PDM. Please consult the operating instructions or online help for details on using SIMATIC PDM. (You can find more information at www.fielddevices.com: go to Products and Solutions > Products and Systems > Communications and Software > Process Device Manager.) G: Communications PA PROFIBUS PA is an open industrial protocol. Full details about PROFIBUS PA can be obtained from PROFIBUS International at www.profibus.com. Power Demands To determine how many devices can be connected to a bus line, calculate the combined maximum current consumption of all the connected devices: 15 mA for SITRANS LR260. Allow a current reserve for safety. PROFIBUS address A unique PROFIBUS address identifies each device on the network. To set the PROFIBUS address see Device Address (5.1.) on page 88. G: Communications PA mmmmm Notes: • It is possible to change the device address via a Class 1 master (for example, a PLC) and lock the device address to prevent further changes. • If this Address Lock is on, the PA address cannot be changed. This lock can be disabled only by performing an Address Reset. Resetting the PROFIBUS address to 126: • Via SIMATIC PDM: a) Open the menu Device – Device Reset and click on Reset Address to 126. b) Click on OK: the address will be reset to 126, and if the address lock was on, it will be disabled. • Via the handheld programmer: a) Navigate to Service (4.) > Device Reset (4.1.). (You can enter the numeric value instead of navigating via the Arrow keys.) b) Press RIGHT Arrow to open Edit Mode then scroll down to DEV ADDRESS and press RIGHT Arrow to select it. The address will be reset to 126, and if the address lock was on, it will be disabled. c) Press LEFT Arrow to exit. Operating as a Profile Device Every manufactured PROFIBUS product has a unique PROFIBUS identification number which identifies it to the system. PROFIBUS Profile Standard version 3.01 also defines a Profile Model which can identify a product as a generic profile device on the network. SITRANS LR260 can be identified in one of three ways: Device Identification STD PROFILE MANUFACTURER STD – AIFB 1 ONLY Page 120 Profile Model Standard Profile (uses generic GSD for 2 AIFB [ident # = 0x9701] Manufacturer-specific (uses Siemens EDD and GSD file, which identifies the LR260 [PROFIBUS PA]) [ident # = 0x8162] Standard Profile AIFB 1 only (uses generic GSD for 1 AIFB) [ident # = 0x9700] SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Defining the device as Profile-specific as opposed to Manufacturer-specific makes it possible to exchange the device for any other device of the same profile type without changing the GSD file. To set up SITRANS LR260 as a profile device see PROFIBUS Ident Number (PROFIBUS IDENT) (4.4.) on page 85. Configuring a device See Configuring a new device on page 38. Configuring PROFIBUS PA with an S7-300/ 400 PLC 2. Add the SITRANS LR260 “rack”: click on and drag the SITRANS LR260 folder from the hardware catalog. 3. Fill the rack with desired modules, by dragging and dropping them from the hardware catalog. 4. After configuring PROFIBUS PA in steps 2 and 3, download it to the PLC. 5. Add code to the PLC program to read data consistently using the SFC14. Cyclic versus Acyclic Data When you request data from a device via PROFIBUS PA, you have two choices. Cyclic data is provided at every bus scan: acyclic data is requested and provided as needed. Input information is always requested at every bus scan and is set up as cyclic data. Configuration information is only needed periodically and is set up as acyclic data. Cyclic Data When you configure SITRANS LR260 on the PROFIBUS PA bus, there are two slots available for modules. Note: Each of the slots has to have a module defined in it. Slot 0 always transmits AIFB1 information1); slot 1 defaults to Free Place, but can be changed to AIFB2 information. If you do not wish to have data transmitted, then you must use a Free Place module in that slot. Each of the two Analog Input Function Blocks can be set up to return Level, or Distance. Within the function blocks, the values are scaled according to the user requirements (please see Analog Input Function Blocks 1 and 2 on page 116 for details). 1) For more information, please see Analog Input Function Blocks 1 and 2 on page 116. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 121 mmmmm If SITRANS LR260 is not listed in the STEP 7 device catalog, you can download the DeviceInstall file from the Siemens Milltronics Web site and run it from your computer. Go to https://pia.khe.siemens.com/index.asp?Nr=7427 and click on Downloads. G: Communications PA 1. AIFB1 and AIFB2 return 5 bytes of data each: Floating Point Status AIFB1 byte 1 byte 2 byte 3 byte 4 byte 5 AIFB2 byte 6 byte 7 byte 8 byte 9 byte10 G: Communications PA mmmmm The first 4 bytes are the floating point representation (IEEE) of the variable. The variables are the outputs of the function block. The 5th byte is the status word and the list of possible values is given in the chart below. The 5 bytes must be read consistently, in a contiguous chunk: they cannot be read byte by byte, and cannot suffer an interrupt. If you are using an S7-300 / 400, you will need to use SFC14 DPRD_DAT: Read Consistent Data of a Standard DP Slave. Status Byte In PROFIBUS PA there are two possible types of status byte: • • status byte: originally defined in Profile Standard V3.0 condensed status: an alternative status byte defined in Profile Standard V3.01 You can choose which type of status byte will be returned, by enabling or disabling Condensed Status Mode (COND. STAT. MODE) (3.6.1.). The default setting is Condensed Status enabled: Condensed Status These codes are available when Condensed Status is enabled. See Condensed Status Setup (COND. STAT. SETUP) (3.6.) on page 80 for more details. Condensed Status Hex Status – GOOD value 0x80 Description GOOD – ok No error or special condition is associated with this value. 0x84 ...0x87 GOOD – update event Set if the value is good and the block has an active Update event. (This status remains active for 20 seconds.) 0x89, 0x8A GOOD – active advisory alarm Set if the value is good and the block has an active Alarm. 0x8D, 0x8E GOOD – limit check/ update event See Status Codes for Good Quality on page 124. 0xA0 GOOD – initiate fail ...0xA3 safe This fault is not generated by the product, but can be simulated. 0xA4 GOOD – maintenance ...0xA7 required Value is valid. Maintenance is recommended within a medium-term period. 0xA8 GOOD – maintenance ...0xAB demanded Value is valid. Maintenance is demanded within a shortterm period. 0xBC GOOD – function ...0xBF check Device performs internal function check without influencing the process. Value is valid. Page 122 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Condensed Status Hex Status – value UNCERTAIN Description UNCERTAIN – substi- Output of Failsafe logic only. tute set 0x4F UNCERTAIN – initial value Default value as long as no measured value is available or until a diagnosis is made that affects the value and the status accorded to it. 0x68 UNCERTAIN – main...0x6B tenance demanded Usability of the process value depends on the application. Value is potentially invalid. Cause is a weara) detected in the device. Maintenance is demanded within a short-term period. 0x74 ...0x77 a) UNCERTAIN – simulated value, start UNCERTAIN – simulated value, end Indicates the end of a simulation. Simulation of a measured value is disabled or Input FB mode changes from MAN to AUTO. This Status remains active for 10 seconds after simulation ends. While this status is active there is no reliable process value. Measured values and their status are updated afterwards. See Wear on page 49 for more detail. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 123 mmmmm 0x73 Indicates the start of a simulation. Simulation of a measured value or Input FB mode changes from AUTO to MAN. • This status remains active for at least 10 seconds: – after enabling simulation – after setting the FB to MAN mode – after a restart (e.g. power down cycle) if the simulation is enabled or the FB is in MAN mode – after passivation is cleared if simulation is enabled or the FB is in MAN mode • In MAN mode the status remains until a subsequent write command overwrites the OUT value after the 10 seconds have expired. • In simulation mode the written status is buffered and appears in the value flow after 10 seconds. However the new written SIMULATE parameter with its status can be read before the 10 seconds have expired. G: Communications PA 0x4B G: Communications PA mmmmm Condensed Status Hex value Status BAD Description 0x00 BAD – non specific Proxy determines that a device does not communicate. 0x23 BAD – passivated (diagnostics alerts disabled) Configured failsafe value is used, accompanied by this status. 0x24 ...0x27 BAD – maintenance alarm, more diagnosis available No measurement available because of a failure. 0x2B BAD – process related, no mainte- No measurement available because of nance invalid process conditions. 0x3C ...0x3F BAD – function check / local override, value not usable Occurs during cleaning or calibration process. Status Byte When Condensed Status is disabled, Status Byte will be returned, and the following codes will be used. Status Codes for Good Quality Values in hex notation Description 0x80 Data is GOOD. A parameter in the function block has been changed: status active for 20 s Active low warning. Active high warning. Active low alarm. Active high alarm. 0x84...0x87 0x89 0x8A 0x8D 0x8E Values in hex notation 0x4B 0x4C...0x4F 0x44...0x47 Page 124 Status Codes for Uncertain Quality Description Value is a substituted value (normally used in Failsafe). Initial value. Last usable value. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Status Codes for Bad Quality Values in hex notation The LOE timer has expired: this could be caused by LOE or by a sensor malfunction: value is BAD. There is an error in the configuration of the function blocks in PROFIBUS PAa). The function block, or the transducer block, has been placed out of service. 0x10...0x1C 0x04...0x07 0x1C...0x1F a) Description Diagnostics Diagnosis reply (available cyclically) During DPV0 data exchange, the PROFIBUS PA slave will notify the Master when a serious error occurs. The Master will then send a Diagnosis request. The reply to this request is normally logged in the PLC and is referred to as the "Hex values." The reply may contain two parts. The first part is 6 bytes long and is defined by the PROFIBUS standard. If there is a second part, it is called the ’extended cyclic diagnosis’ and it is 8 bytes long. The last 4 bytes of the extended diagnostic message give the error code shown. (See Extended Mode Diagnosis on page 126 and Condensed Mode Diagnosis on page 126.) The same infomration is also available acyclically via the Diagnosis Object. Cyclic Diagnosis (6 bytes) Extended Cyclic Diagnosis (8 bytes) Diagnosis Object (last 4 bytes) Condensed Mode Diagnosis Extended Mode Diagnosis Diagnosis Object (available cyclically or acyclically) This consists of four bytes. In PROFIBUS PA there are two possible types of Acyclic Diagnostics: • • Extended Mode Diagnosis Condensed Mode Diagnosis You can choose which of these will be returned, by enabling or disabling Condensed Status Mode (COND. STAT. MODE) (3.6.1.) on page 80. The default setting is Condensed Status enabled: Extended Mode Diagnosis will be returned, and the following codes will be used. A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 125 mmmmm All diagnostic information shown below is viewable via PDM. G: Communications PA This could happen when a firmware download has been done, but a system reset has not been done. This could also happen if the function blocks are not configured properly using the handheld programmer, PDM or acyclic services. Extended Mode Diagnosis Extended Mode Diagnosis G: Communications PA mmmmm Hex values Byte Bit Indication classa) Description 0x01000000 Electronics failure 0x02000000 Mechanical failure 0x04000000 Motor Temperature too high 0x08000000 Electronics temperature too high Memory error Measurement failure 0x10000000 0X20000000 0X40000000 Device not initialized (no calibration) 0x80000000 Self calibration failed 0x00010000 Zero point error (limit position) 0x00020000 Power supply failure (electrical, pneumatic) 0x00040000 Configuration invalid 0x00080000 New startup carried out (Warm Start) 0x00100000 Restart carried out (Cold Start) Maintenance required Characterization invalid Set to 1 (one), if the Ident_Number of the running cyclic data transfer and the value of Physical Block IDENT__NUMBER_SELECTOR parameter are different. 0 to 7 Reserved for use within the PNO 0 to 6 Reserved for use within the PNO More diagnosis information is available 0X00200000 0X00400000 0X00800000 0X00000080 a) R indicates the message remains active as long as the reason for the message exists. A indicates the message will automatically reset after 10 seconds Values of the DIAGNOSIS bit: 0 = not set; 1 = set Condensed Mode Diagnosis Condensed Mode Diagnosis Hex values Byte Bit Description 0x01000000 0x02000000 0x04000000 0x08000000 0x10000000 Reserved for use within the PNO Reserved for use within the PNO Reserved for use within the PNO Reserved for use within the PNO Reserved for use within the PNO Page 126 Indication classa) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Condensed Mode Diagnosis (cont’d) Hex values Byte Bit 0x00800000 0x00010000 0x00020000 0x00040000 0x00080000 4 to 7 0 to 6 0x80000000 a) Reserved for use within the PNO Reserved for use within the PNO Reserved for use within the PNO New startup carried out (Warm Start) Restart carried out (Cold Start) Maintenance required Reserved for use within the PNO Set to 1 (one), if the Ident_Number of the running cyclic data transfer and the value of Physical Block IDENT__NUMBER_SELECTOR parameter are different. Failure of the device or armature Maintenance demanded Device is in function check mode, or simulation, or under local control e.g. maintenance The process conditions do not allow the return of valid values. (Set if a value has the quality Uncertain - Process related, no maintenance or Bad - Process related, no maintenance.) Reserved for use within the PNO Reserved for use within the PNO 0: There is no more information available 1: More diagnosis information is available in DIAGNOSIS_EXTENSION R indicates the message remains active as long as the reason for the message exists. A indicates the message will automatically reset after 10 seconds Acyclic Extended Diagnostics (General Fault Codes) In addition to the extended diagnostics available by cyclic data exchange (shown above), further extended diagnostics are available via acyclic communications. This consists of six bytes. See Acyclic Data on page 130 for information on the location of the Extended Diagnostics Note: Certain fault codes (identified by an asterisk [*] in the table below) will persist until a manual reset has been performed (see Fault Reset (3.1.) on page 72). A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 127 mmmmm 0 (cont’d) 6 Indication classa) (cont’d) G: Communications PA 0x20000000 0x40000000 0x80000000 0x00080000 0x00100000 0x00200000 0x00400000 Description (cont’d) Acyclic Extended Diagnostics /General Fault Codes G: Communications PA mmmmm LCD display Meaning Corrective Action S:0 The device was unable to get a measurement within the LOE Fail-safe Timer period. Possible causes: faulty installation, material buildup, foaming/other adverse process conditions, invalid calibration range. Ensure installation details are correct. Ensure no material buildup. Clean if necessary. Adjust process conditions to minimize foam or other adverse conditions. Correct range calibration. If fault persists, contact your local Siemens representative. S:2 Unable to collect profile because of a low power condition that is outside of the operating range of the device. Repair required. Contact your local Siemens representative. S:3 Device is nearing its lifetime Replacement is recommended. limit according to the value set in Maintenance Required Limit. S:4 Device is nearing its lifetime limit according to the value set in Maintenance Demanded Limit. S:6 Sensor is nearing its lifetime Replacement is recommended. limit according to the value set in Maintenance Required Limit. Replacement is recommended. S:7 Sensor is nearing its lifetime limit according to the value set in Maintenance Demanded Limit. Service interval as defined in Maintenance Required Limit has expired. Perform service. S:8 Service interval as defined in Maintenance Demanded Limit has expired. Perform service. S:9 S:10 Input parameters High Calibration Point and Low Calibration Point are the same. Page 128 Byte Bit Replacement is recommended. Check calibration settings of device. Ensure settings for High Calibration Point and Low Calibration Point are different. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Acyclic Extended Diagnostics /General Fault Codes (cont’d) LCD display Meaning (cont’d) Corrective Action S:11 Internal temperature sensor failure. Return the device to the factory. S:12 Internal temperature of device has exceeded specifications: it is operating outside its temperature range. Byte Bit (cont’d) Lower the ambient temperature enough to cool the device. (cont’d) S:15 Check configuration for AIFB2. Upper and lower input values Ensure that Upper Value and (Process Value Scale) for AIFB2 Lower Value (Process Value are the same. Scale) are not the same. S: 17 Calibration interval as defined in Maintenance Required Limit has expired. S: 18 Calibration interval as defined in Maintenance Demanded Limit has expired. Perform calibration. S: 25 Internal device error Reset power. If error persists, contact your local Siemens representative. S:28 Internal device failure caused by a RAM memory error. Repair required: contact your local Siemens representative. S:29 EEPROM damaged. Repair required: contact your local Siemens representative. S:31 Flash error. Repair required: contact your local Siemens representative. A5E32337685 Perform calibration. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 129 mmmmm S:14 Check configuration for AIFB1. Upper and lower input values Ensure that Upper Value and (Process Value Scale) for AIFB1 Lower Value (Process Value are the same. Scale) are not the same. G: Communications PA Fault code will persist until a manual reset is performed using PDM or the LCD interface. Acyclic Extended Diagnostics /General Fault Codes (cont’d) G: Communications PA mmmmm LCD display Byte Bit (cont’d) Meaning (cont’d) Corrective Action S: 32 The IDENT number used in communications, and number selected by the Ident Number Selector do not correspond. Ensure value of the Ident number selector is correct for the network configuration. If it is correct, the device needs to be re-parameterized by the PLC. S:33 Factory calibration for the internal temperature sensor has been lost. Repair required: contact your local Siemens representative. S:34 Factory calibration for the device has been lost. Repair required: contact your local Siemens representative. S:35 Factory calibration for the device has been lost. Repair required: contact your local Siemens representative. S:36 Unable to start microwave module. Cycle power. If error persists, contact your local Siemens representative. S:37 Measurement hardware problem. Cycle power. If error persists, contact your local Siemens representative. S:38 Microwave module hardware failure: unable to calculate distance measurement. Cycle power. If fault persists, contact your local Siemens representative: repair required. S:43 Factory calibration for the radar Repair required: contact your receiver has been lost. local Siemens representative. Acyclic Data SITRANS LR260 supports up to four simultaneous connections by a Class 2 Master (C2 connection). It supports one connection by a Class 1 Master (C1 connection). In order for a Class 1 Master to read parameters from an instrument, it needs to know the slot and absolute index of the parameter. The parameters are all listed in SIMATIC PDM under Help. If you do not have SIMATIC PDM you can download the EDD and reference the HTML help file directly. (continued on next page) Page 130 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 To find the slot and index numbers via SIMATIC PDM, go to Help > Help on Device Parameters > Communications, and select the appropriate block from the list. For each parameter, the slot and the relative index is listed. For example. Index Parameter AIFB 1 Datatype Static Revision No. UNSIGNED_INTEGER (2) Each block has a slot number and an Index Offset value. Block Name Slot Index Offset Transducer block 16 77 AIFB 1 16 AIFB 2 16 To get the absolute index for any parameter, add the Index Offset for the appropriate block to the relative index for that parameter. The parameter takes the slot number of the block in which it is located. For example: • • • Parameter Static Revision Number has relative index = 1 and is located on AIFB1. It has Absolute Index = 17 (relative index 1 + index offset 16). It is located at Slot 1 (the slot number for AIFB 1). A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 131 mmmmm G: Communications PA Physical block G: Communications PA mmmmm Notes Page 132 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Appendix H: Firmware Revision History Firmware Rev. 1.00.01 EDD Rev. 1.00.04 Date Dec. 5, 2007 Changes • Initial release SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 133 mmmmm Appendix H: Firmware rev. A5E32337685 Appendix H: Firmware rev. mmmmm Notes Page 134 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Glossary accuracy: degree of conformity of a measure to a standard or a true value. agitator: mechanical apparatus for mixing or aerating. A device for creating turbulence. algorithm: a prescribed set of well-defined rules or processes for the solution of a problem in a finite number of steps. ambient temperature: the temperature of the surrounding air that comes in contact with the enclosure of the device. antenna: an aerial which sends out and receives a signal in a specific direction. There are four basic types of antenna in radar level measurement, horn, parabolic, rod, and waveguide. attenuation: a term used to denote a decrease in signal magnitude in transmission from one point to another. Attenuation may be expressed as a scalar ratio of the input magnitude to the output magnitude or in decibels. Auto False-Echo Suppression: a technique used to adjust the level of a TVT curve to avoid the reading of false echoes. (See TVT.) Auto False-Echo Suppression Distance: defines the endpoint of the TVT distance. (See TVT.) This is used in conjunction with auto false echo suppression. beam angle: the angle diametrically subtended by the one-half power limits (-3 dB) of the microwave beam. beam spreading: the divergence of a beam as it travels through a medium. blanking: a blind zone extending away from the reference point plus any additional shield length.The instrument is programmed to ignore this zone. damping: term applied to the performance of an instrument to denote the manner in which the measurement settles to its steady indication after a change in the value of the level. dB (decibel): a unit used to measure the amplitude of signals. derating: to decrease a rating suitable for normal conditions according to guidelines specified for different conditions. dielectric: a nonconductor of direct electric current.1) A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 135 mmmmm confidence: describes the quality of an echo. Higher values represent higher quality. Confidence threshold defines the minimum value. Glossary capacitance: the property of a system of conductors and dielectrics that permits the storage of electricity when potential differences exist between the conductors. Its value is expressed as the ratio of a quantity of electricity to a potential difference, and the unit is a Farad. 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 11. 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 109 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. Glossary mmmmm 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. Page 136 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 polarization error: the error arising from the transmission or reception of an electromagnetic wave having a polarization other than that intended for the system. PROFIBUS PA: one of the PROFIBUS family of protocols, specifically tailored for the needs of process industries (PA = Process Automation). propagation factor (pf): where the maximum velocity is 1.0, pf is a value that represents a reduction in propagation velocity as a result of the wave travelling through a pipe or medium. pulse radar: a radar type that directly measures distance using short microwave pulses. Distance is determined by the return transit time. radar: radar is an acronym for RAdio Detection And Ranging. A device that radiates electromagnetic waves and utilizes the reflection of such waves from distant objects to determine their existence or position. range: distance between a transmitter and a target. range extension: the distance below the zero percent or empty point in a vessel. relative permittivity: see dielectric constant. repeatability: the closeness of agreement among repeated measurements of the same variable under the same conditions. shot: one transmit pulse or measurement. speed of light: the speed of electromagnetic waves (including microwave and light in free space. Light speed is a constant 299,792,458 meters per second. two wire radar: a low-energy radar. Can be loop powered, analog, intrinsically safe, or a digital (BUS) transmitter. TVT (time varying threshold): a time-varying curve that determines the threshold level above which echoes are determined to be valid. SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 137 mmmmm A5E32337685 Glossary waveguide antenna: a hollow, metallic tube that transmits a microwave signal to the product target. Glossary mmmmm Notes Page 138 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Index abbreviations list 3 activating SITRANS LR260 27 acyclic diagnostics fault codes 125 address 88 Auto False Echo Suppression explanation 105 setup 62 Auto False-Echo Suppression TVT shaper adjustment 45 beam angle illustration 14 values 11 blanking (see Near Range) 105 bus address (device address) 120 bus termination 119 cables requirements 21 cleaning instructions 101 conduits requirements 21 configuration 119 cyclic data 121 versus acyclic 121 device description (DD) PROFIBUS PA 119 Device Reset factory defaults 84 diagnosis reply 125 diagnostics 122 dimensions table threaded horn 11 GSD file 119 handheld programmer edit mode 31 navigation 31 hazardous area installations wiring requirements 24 identifications and abbreviations list 3 installation hazardous area requirements 24 requirements 13 warnings and notes 13 LCD display echo profile viewing 33 PROGRAM mode 28 level trend viewing via PDM 45 lid-lock set screw 21 loop voltage vs. loop resistance power supply requirements 24 Loss of Echo (LOE) explanation 106 Near Range A5E32337685 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 139 mmmmm maintenance cleaning 101 maintenance settings 72 Measurement Response explanation 106 mounting handheld programmer access 15 housing construction 15 nozzle design 14 nozzle location 14 on vessel with obstructions 15 sunshield recommended 15 Index echo profile viewing via LUI 33 edit mode handheld programmer 31 enclosure opening 21 factory defaults 84 Far Range explanation 106 fault codes acyclic diagnostics 125 acyclic extended diagnostics 127 function keys navigation mode 31 explanation 105 operating principles 103 PDM see SIMATIC PDM 37 polarization reference point 15 power consumption 120 power source requirements 21 power supply requirements loop voltage vs. loop resistance 24 Primary Value 116 Process Variable 116 PROFIBUS address 88 trend diagram level trend viewing 45 troubleshooting operation 99 TVT curve 105 TVT Shaper manual adjustment via PDM 45 wiring cables 21 hazardous areas 24 Quick Start launching via PDM 39 Quick Start Wizard via handheld programmer 30 via LUI 33 range extension see Far Range 106 repair cautions 101 excluded liability 101 resets 84 Index mmmmm safety notes 1 Secondary Value 116 settings adjust parameters via LUI 31 SIMATIC PDM features of rev. 6.0 37 overview 37, 119 Quick Start 39 SITRANS LR260 operating principles 103 overview 4 status byte status codes 122, 124 status codes 122, 124 Support contact information 2 temperature de-Rating curves 108 terminals accessing 21 Page 140 SITRANS LR260 (PROFIBUS PA) – INSTRUCTION MANUAL 7ML19985KF03 Appendix C: menu chart LCD menu structure SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS Page 141 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 Appendix C: menu chart LCD menu structure 2. SETUP (cont’d) Notes: • In Navigation mode ARROW keys navigate the menu in the direction of the arrow.. • See Parameter Reference on page 46 for detailed information and instructions. 2.2.4 1. QUICK START 1.1 1.2 1.3 1.4 1.5 1.6 1.7 2. SETUP 2.1 2.2 Page 142 APPLICATION TYPE RESPONSE RATE UNITS OPERATION LOW CALIB. PT. HIGH CALIB. PT. APPLY? DEVICE 2.1.1 2.1.2 2.1.3 2.1.4 2.1.5 2.1.6 INPUT 2.2.1 2.2.5 TAG DESCRIPTION MESSAGE FIRMWARE REV LOADER REV HARDWARE REV SENSOR CALIB. 2.2.1.1 ANTENNA 2.2.1.2 SENSOR UNITS 2.2.1.3 LOW CALIB. PT. 2.2.1.4 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 TEMP UNITS 2.2.3 ECHO PROC. 2.2.3.1 ECHO SELECT 2.2.3.1.1 ALGORITHM 2.2.3.1.2 ECHO THRESHOLD 2.2.3.1.3 POSITION 2.2.3.1.4 ECHO MARKER 2.2.3.2 SAMPLING 2.2.3.2.1 ECHO LOCK 2.2.3.2.2 UP SAMP 2.2.3.2.3 DOWN SAMP 2.2.3.2.4 WINDOW 2.2.3.3 FILTERING 2.2.3.3.1 SHOTS 2.2.3.3.2 NARROW ECHO FIL. 2.2.3.3.3 REFORM ECHO SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS 2.2.6 2.2.7 2.3 2.2.3.5 RANGE 2.2.3.5.1 NEAR RANGE 2.2.3.5.2 FAR RANGE 2.2.3.5.3 MIN SENSOR VAL 2.2.3.5.4 MAX SENSOR VAL 2.2.3.6 NOISE 2.0.0.0.1 CONFIDENCE 2.0.0.0.2 STRENGTH TVT SETUP 2.2.4.1 TVT TYPE 2.2.4.2 TVT HOVER LEVEL 2.2.4.3 AUTO ECHO SUPP 2.2.4.4 AUTO SUPP RANGE 2.2.4.5 SHAPER MODE TVT SHAPER 2.2.5.1 SHAPER 1-9 2.2.5.2 SHAPER 10-18 2.2.5.3 SHAPER 19-27 2.2.5.4 SHAPER 28-36 2.2.5.5 SHAPER 37-40 RATE 2.2.6.1 RESPONSE RATE 2.2.6.2 FILL RATE /MIN 2.2.6.3 EMPTY RATE /MIN TB VALUES 2.2.7.1 MAIN OUTPUT 2.2.7.2 O/P NO LINEAR. 2.2.7.3 O/P NO OFFSETS OUTPUT 2.3.1 AIFB 1 2.3.1.1 2.3.1.2 2.3.1.3 2.3.1.4 2.3.1.5 2.3.1.6 TARGET MODE LABEL UNIT FILTER TIME CONS CHANNEL BATCH INFO 2.3.1.6.1 BATCH ID 2.3.1.6.2 BATCH UNIT 2.3.1.6.3 BATCH OPERATION 2.3.1.6.4 BATCH PHASE 2.3.1.7 PROC VALUE SCAL. 2.3.1.7.1 LOWER VALUE 2.3.1.7.2 UPPER VALUE 2.3.1.8 OUTPUT SCALE 2.3.1.8.1 LOWER VALUE 2.3.1.8.2 UPPER VALUE 2.3.1.9 OUTPUT LIMITS 2.3.1.9.1 LO LIMIT ALARM 2.3.1.9.2 LO LIMIT WARN 2.3.1.9.3 HI LIMIT WARN 2.3.1.9.4 HI LIMIT ALARM 2.3.1.9.5 LIMIT HYSTERESI. 2.3.1.10 HUMAN INTERFAC 2.3.1.10.1 DECIMAL POINT 2.3.2 AIFB 2 (AS AIFB 1) SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 2.4 3. DIAGNOSTICS 3.1 3.2 3.3 3.4 3.5 3.6 3.7 FAULT RESET ECHO PROFILE MEAS. VALUES 3.3.1 MIN MEAS. VALUE 3.3.2 MAX MEAS. VALUE 3.3.3 MIN OUTPUT FB1 3.3.4 MAX OUTPUT FB1 3.3.5 MIN OUTPUT FB2 3.3.6 MAX OUTPUT FB2 3.3.7 MIN INTERN TEMP 3.3.8 MAX INTERN TEMP REMAIN. DEV. LIFE 3.4.1 TOTAL OP-TIME 3.4.2 REMAIN. LIFETIM 3.4.3 MAINT REQ LIMIT 3.4.4 MAINT DEM LIMIT 3.4.5 ALERT ACTIVATIO 3.4.6 TOTAL EXP. LIFE 3.4.7 MAINT STAT 3.4.8 ACK STATUS 3.4.9 ACK REMAIN. SENS. LIFE 3.5.1 SENSOR OP-TIME 3.5.2 REMAIN. LIFETIME 3.5.3 MAINT REQ LIMIT 3.5.4 MAINT DEM LIMIT 3.5.5 ALERT ACTIVATIO 3.5.6 TOTAL EXP. LIFE 3.5.7 MAINT STAT 3.5.8 ACK STATUS 3.5.9 ACK COND. STAT SETUI.. 3.6.1 COND .STAT MODE 3.6.2 FEAT. SUPPORTED 3.6.3 FEAT. ENABLED CONDENSED STAT 3.7.1 EVENT INDEX 3.7.2 EVENT STAT 3.7.3 EVENT DIAG. 4. SERVICE 4.1 4.2 4.3 4.4 4.5 4.6 A5E32337685 DEVICE RESET LCD FAST MODE LCD CONTRAST PROFIBUS IDENT POWERED HOURS POWERON RESETS (continued on next page) SITRANS LR260 (PROFIBUS PA)– OPERATING INSTRUCTIONS Page 143 mmmmm LOE TIMER FS MODE FB1 FS VALUE FB1 FS MODE FB2 FS VALUE FB2 LCD menus FAIL-SAFE 2.4.1 2.4.2 2.4.3 2.4.4 2.4.5 4. SERVICE (cont’d) LCD menus mmmmm 4.17 SERVICE INTERVA 4.17.1 TIME LAST SERV 4.17.2 REMAIN LIFETIM. 4.17.3 MAINT REQ LIMIT 4.17.4 MAINT DEM LIMIT 4.17.5 ALERT ACTIVATIO 4.17.6 SERVICE INTERVA 4.17.7 MAINT STAT 4.17.8 ACK STATUS 4.17.9 ACK 4.18 CALIB. INTERVAL 4.18.1 TIME LAST CAL. 4.18.2 REMAIN LIFETIM. 4.18.3 MAINT REQ LIMIT 4.18.4 MAINT DEM LIMIT 4.18.5 ALERT ACTIVATIO 4.18.6 TOTAL CALIB.INT 4.18.7 MAINT STAT 4.18.8 ACK STATUS 4.18.9 ACK 5. COMMUNICATION 5.1 DEVICE ADDRESS 5.2 REMOTE LOCKOUT 6. SECURITY 6.1 WRITE LOCKING 7. LANGUAGE Page 144 SITRANS LR260 (PROFIBUS PA) – OPERATING INSTRUCTIONS A5E32337685 IQ300IX.fm Page 5 Tuesday, October 2, 2001 1:43 PM www.siemens.com/processautomation For more information www.siemens.com/level www.siemens.com/continuous-weighing Siemens AG Industry Sector 1954 Technology Drive P.O. Box 4225 Peterborough, ON Canada K9J 7B1 Subject to change without prior notice A5E32337685 Rev. AA © Siemens AG 2013 email: techpubs.smpi@siemens.com www.siemens.com/processautomation *A5E32337685* Printed in Canada
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