Siemens LU01 instruction manual Installation, Location, Cable/Conduit Entry Requirements

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Installation

Installation shall only be performed by qualified personnel, and in accordance with local governing regulations.

The following procedure applies to all SITRANS LU01 level monitor installations. See Application Examples on page 89 for additional installation requirements. Also, refer to the instruction manuals of all other equipment connected to the SITRANS LU01 for additional installation instructions.

SITRANS LU01

Location

Recommended

Ambient temperature is always within -20 to 50 °C (-5 to 122 °F)

SITRANS LU01 display window is at shoulder level, unless most interaction is through a SCADA system

Easy access for hand programmer is provided

Cable length requirements are minimal

Mounting surface is free from vibration

Leave sufficient room to swing unit lid open and have clear access.

A place for a laptop computer is provided for on-site Dolphin Plus configuration

Avoid

Exposure to direct sunlight. (Provide a sun shield to avoid direct sunlight.)

Proximity to high voltage/current runs, contacts, SCR or variable frequency motor speed controllers

Cable/Conduit Entry Requirements

Enclosure cable/conduit entries may be required for:

Transducers

TS-3 temperature sensor (if used)

mA output (if used)

Relays (if used)

Synchronization (see Interconnection/Level System Synchronization)

Power

Communications: SmartLinx, RS-485, RS-232, bipolar.

Note: Transducer cables must be run in a grounded metal conduit, separate from other wiring, (except TS-3 temperature sensor wiring, if applicable).

Installation

7ML19985BE02

SITRANS LU01 – INSTRUCTION MANUAL

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Contents Sitrans Instrumentation described, variations Technical data subject to changeThis document is available in bound version Manual for agreement withTable of Contents Independent Relay Setpoints 100 Page Introduction IntroductionRS-232 or Local SmartLinxProgrammable Features Sitrans LU01 FeaturesUnits ManualInstallation category SpecificationsSpecifications Ambient temperatureOutputs ProgrammerRefer to associated product documentation TransducerOptions CableManual On Product Description Safety marking symbolsCable/Conduit Entry Requirements InstallationInstallation LocationTransducer Mounting Transducer TypesM 1.65 ft AC Model Communication Mode LEDSwitchterminal blockboard B RJ-11 port InterconnectionTB1 DC ModelOptional SmartLinx Module LCD CardBoard a Transducer System DiagramTo TS-3 Temperature SensorRelays MA OutputsSerial CommunicationSmartLinx Level System SynchronizationPosition. Select PowerAC Supply Wiring DC Supply WiringRJ-11 port RJ-11 cable Communications AccessProgrammer Use the hand programmer to change individual parametersDescription ProgrammingDisplay Display SegmentKeypad ProgrammingFunction keys Changing Parameters Program Mode EntryParameter Reset Features Parameters TypesProgramming Security Display in RUN Mode OperationOperation Operation Key Description BerP731 Operation Level Space or Distance Point Alarm Indicator RelaySystem Performance Evaluation Performance Test ResultsOperation Parameters Program modeParameter Reference Helpful HintsLated level P000 LockSecures the Sitrans LU01 from changes 1954 OFF programming permittedP003 Maximum Process Speed Quick Start P001 to P007P001 Operation P002 MaterialSpecifies measurement units used for dimensional values P004 TransducerP005 Units P006 Empty P007 SpanSets the range level to be measured P050 Tank Shape Application Parameters Volume P050 to P055Examples P051 Maximum VolumeDimension a as used in P050 Tank Shape P052 Tank Dimension aP053 Tank Dimension L Universal Volume CalculationTypical volume calculations Entering a Volume BreakpointEntering a Level Breakpoint Display and Reading P060 to P062 P060 Decimal PositionP061 Convert Reading P070 Failsafe Timer Failsafe P070 to P072P062 Offset Reading Selecting HI, LO, or HOLd Material level reported when a Failsafe State is initiatedP071 Failsafe Material Level Once activated, the Failsafe State initiates the followingRelays P100 to P119 P072 Failsafe Level AdvanceRelay reaction Option Relay # Point # Standard Alarm as % of Span, P007 P100 Preset ApplicationsP104 Low Low Alarm P101 High AlarmP102 Low Alarm P103 High High AlarmSets the control algorithm used to trip the relay Custom Relays P111 to P113P111 Relay Control Function FunctionIndependent Relay Setpoints Values For P111 Control Type Relay ControlRelays are energized and de-energized Action When P116 Dead Band Distance above and below the bound alarm setpointsP112 Relay on Setpoint P113 Relay OFF SetpointTo select an independent Relay Failsafe value Relay Function P111 Preset P129Independent Relay Failsafe P129 P129 Relay FailsafeP203 mA Output Value / Transducer MA Output P200 to P219P200 mA Output Range P201 mA Output FunctionP211 20 mA Output Setpoint Independent mA Setpoints P210 and P211MA Output Limits P212 and P213 P210 0/4 mA Output SetpointP215 20 mA Output Trim MA Output Trim P214 to P215P213 mA Output Max Limit P214 4 mA Output TrimStandard Data Logging P300 to P321 Record Temperatures P300 to P303P300 Temperature, Transducer Maximum MA Output Failsafe P219Code Description P302 Temperature, Sensor MaximumProfile Records P330 to P337 P330 Profile RecordP331 Auto Record Enable P333 Auto Record IntervalAuto Record on and OFF Setpoints P334 to P337 P337 Auto Record LOE Time P334 Auto Record on SetpointP335 Auto Record OFF Setpoint P336 Auto Record Filling / EmptyingRange Calibration P650 to P654 Installation Records P340 to P342Offset Calibration Condition for use of this featureUsing Sound Velocity Calibration P651 Sound Velocity CalibrationP654 Velocity at 20C Value altered when an Offset Calibration is performedP652 Offset Correction P653 VelocityP660 Temp Source Temperature Compensation P660 to P664P664 Temperature View the transducer temperature in CP003 Value Meters/Minute Rate P700 to P707P700 Max Fill Rate P701 Max Empty RateP702 Filling Indicator P703 Emptying IndicatorP704 Rate Filter P707 Rate Value P705 Rate Update TimeP706 Rate Update Distance Measurement Verification P710 to P713P711 value P712 preset value P711 Echo LockP712 Echo Lock Sampling P726 Level System Sync P727 Scan DelayTransducer Scanning P725 to P729 P713 Echo Lock WindowP730 Auxiliary Reading P728 Shot DelayDisplay P730 to P733 P729 Scan TimeP731 Auxiliary Reading Key P732 Display DelayP733 Scroll Access Adjusts the Point Number display scroll speedP748 RS-485 Termination Peripheral Communication Support Parameters P740 to P749SmartLinx Reserved 750 to P740 Peripheral CommunicationsP772 Baud Rate SmartLinx Hardware TestingP790 Hardware Error Communications P772P794 SmartLinx Module Type P795 SmartLinx Protocol P791 Bus ErrorP792 Bus Error Count Echo Processing P800 to P807Determines what type of ultrasonic shots are fired P803 Shot / Pulse ModeP801 Range Extension P802 Transducer with Submergence ShieldDetermines which echoes are evaluated by software P804 Confidence ThresholdP805 Echo Confidence Display DescriptionAnatomy of an Echo Profile Advanced Echo Processing P810 to P825P806 Echo Strength P807 NoiseValues Display SymbolP810 Scope Displays ScrollingP818 Profile Pointer Distance Profile Pointer P817 to P825P816 Echo Time Raw P817 Profile Pointer TimeP820 Algorithm P819 Profile Pointer AmplitudeDampens spikes in the echo profile to reduce false readings P821 Spike FilterP822 Narrow Echo Filter P823 Reform EchoSelects the TVT Curve used Advanced TVT Adjustment P830 to P835P825 Echo Marker Trigger P830 TVT TypeTo change a breakpoint P832 TVT Shaper AdjustAllows manual adjustment of the TVT curve P831 TVT ShaperRange -30 to P833 TVT Start MinP834 TVT Start Duration P835 TVT Slope MinP841 Long Shot Number Advanced Shot Adjustment P840 to P852Adjust the short shot transmit pulse frequency in kHz P840 Short Shot NumberP850 Short Shot Bias P843 Long Shot FrequencyP844 Short Shot Width P845 Long Shot WidthP900 Software Revision Number Test P900 to P913P851 Short Shot Floor P852 Short Shot RangeP905 Transmit Pulse P902 WatchdogP903 Display P904 KeypadP910 Relay P912 Transducer TemperatureP913 Sensor Temperature P907 Programmer InterfaceP922 Space Measurement Measurement P920 to P927P920 Reading Measurement P921 Material MeasurementP927 Distance Percent P924 Volume MeasurementMaster Reset P999 This feature resets all parameters to original valuesTechnical Reference Technical ReferenceTransmit Pulse Echo ProcessingDolphin Plus Display Distance CalculationSound Velocity Echo Processing Displays Scope Displays, P810Volume Calculation Volume LevelUniversal, Linear P050 = Universal, Curved P050 = Maximum Process SpeedP003 Value Ment P728 Shot Delay s P803Application Examples ParameterMaterial Level Example 1 Level MeasurementWhen satisfied with system performance and programming NumberInstructions Description Instructions Material VolumeP051 Max Volume Enter 1457 for 1457 m Example 2 Space MeasurementNo entry required. preset for 20 mA = low level, P001 = P001 P002 P003 P004 P005 P006 P007 P070P200 MA Range P213 MA Max Limit P219 MA Failsafe Technical Communication SupportApplication Assistance Reference NumberMT-00 Measurement Message Technical Reference Field NameDefinition Start of message Message type # # = rate alarm = band alarmMT-01 Hold Message Temp Percent End Of MessageSTX $02 MT-03 Point Not ScannedStart of message Message Type Point # End Of MessageMaintenance MaintenanceUnit Repair and Excluded Liability Troubleshooting Guide Symptom Cause ActionTroubleshooting Flashing LOE Display To display Echo Confidence in the RUN modeTo update the value displayed after each aiming adjustment Measurement DifficultiesFixed Reading Wrong Reading Troubleshooting P000 Lock G Programming ChartsProgramming Charts NameP202 MA Allocation P203 P116 Bound Alarm Deadband P129 Relay FailsafeP330 Profile Record P331 Auto Record Enable G P332 P200 MA Range P201Programming Charts Parameter Advanced Echo Processing 7ml19985BE02

LU01 specifications

The Siemens LU01 is a state-of-the-art train control and signaling system designed to enhance the safety and efficiency of rail networks. This sophisticated system leverages advanced technologies and innovative features to ensure seamless train operations, lower maintenance costs, and improved overall performance.

One of the main features of the Siemens LU01 is its implementation of the European Train Control System (ETCS). ETCS is a vital component in modernizing rail infrastructure across Europe, aiming to standardize various train control systems for enhanced interoperability among different national networks. The LU01 facilitates the integration of ETCS Level 1 and Level 2, allowing for both trackside equipment and onboard systems to work in harmony to manage train movements effectively.

Additionally, the LU01 employs a decentralized architecture that enhances system reliability and minimizes downtime. This design means that it can operate even in the case of individual component failures, ensuring that train operations remain uninterrupted. Furthermore, the LU01 utilizes advanced diagnostic tools and predictive maintenance technologies to monitor system performance continuously. This proactive approach allows for early identification of potential issues and timely maintenance, which contributes to reducing operational costs.

Another critical characteristic of the Siemens LU01 is its capability for real-time data transmission. The system integrates wireless communication technologies, enabling constant connectivity between trains and control centers. This feature allows for real-time updates on train positions, speeds, and other critical operational data, thereby enhancing situational awareness for train operators and maintaining optimal schedules.

Moreover, the LU01 is designed to be compatible with existing rail infrastructure, ensuring a smooth transition for railway operators looking to upgrade their signaling systems without extensive overhauls. This adaptability makes it an appealing choice for both new projects and retrofitting existing rail networks.

In summary, the Siemens LU01 stands out for its cutting-edge features, including support for ETCS, decentralized architecture, real-time data communication, and compatibility with legacy systems. With these technologies and characteristics, the LU01 significantly contributes to the safety, efficiency, and sustainability of modern rail transport systems, making it a pivotal solution in the evolution of railway operations.