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Users Manual | Users Manual | 2.29 MiB | June 12 2018 / May 06 2019 | |||
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1 | Cover Letter(s) | June 12 2018 / October 12 2018 | ||||||
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1 | RF Exposure Info | June 12 2018 / October 12 2018 | ||||||
1 | Test Report | June 12 2018 / October 12 2018 | ||||||
1 | Test Setup Photos | June 12 2018 / May 06 2019 |
1 | Users Manual | Users Manual | 2.29 MiB | June 12 2018 / May 06 2019 |
DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTBA01854T/09/EN/01.18714135222018-07-10Valid as of version01.00 (device version)Products Solutions ServicesOperating InstructionsiTEMP TMT71/72Temperature transmitter DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Table of contentsTable of contents1About this document . 41.1Document function . 41.2Safety Instructions (XA) . 41.3Symbols used . 41.4Tool symbols . 51.5Documentation . 61.6Registered trademarks . 62Basic safety instructions . 72.1Requirements for the personnel . 72.2Designated use . 72.3Operational safety . 73Incoming acceptance and productidentification . 83.1Incoming acceptance . 83.2Product identification . 83.3Scope of delivery . 93.4Certificates and approvals . 93.5Transport and storage . 94Installation . 104.1Installation conditions . 104.2Installation . 104.3Post-installation check . 145Electrical connection . 155.1Connection conditions . 155.2Quick wiring guide . 155.3Connecting the sensor cables . 165.4Connecting the transmitter . 165.5Special connection instructions . 165.6Post-connection check . 176Operation options . 186.1Overview of operation options . 186.2Structure and function of the operatingmenu . 216.3Access to the operating menu via theoperating tool . 236.4Access to the operating menu via theSmartBlue App . 267System integration . 287.1Overview of device description files . 287.2Measured variables via HART protocol . 288.2Switching on the transmitter . 318.3Configuring the measuring device . 318.4Protecting settings from unauthorizedaccess . 339Diagnostics and troubleshooting . 359.1General troubleshooting . 359.2Diagnostic information on local display . 379.3Diagnostic information via communicationinterface . 389.4Diagnostic list . 389.5Event logbook . 389.6Overview of diagnostic events . 399.7Firmware history . 4010Maintenance . 4111Repair . 4111.1General information . 4111.2Spare parts . 4111.3Return . 4111.4Disposal . 4112Accessories . 4112.1Device-specific accessories . 4212.2Communication-specific accessories . 4212.3Service-specific accessories . 4312.4System components . 4413Technical data . 4513.1Input . 4513.2Output . 4613.3Power supply . 4713.4Performance characteristics . 4813.5Environment . 5513.6Mechanical construction . 5613.7Certificates and approvals . 5813.8Supplementary documentation . 6014Operating menu and parameterdescription . 6114.1Menu: Diagnostics . 6514.2Menu: Application . 7114.3Menu: System . 817.3Supported HART commands . 288Commissioning . 318.1Post-installation check . 31Endress+Hauser V. 1, Rev. 2, 4-10-2018 3 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTAbout this documentiTEMP TMT71/721 About this document1.1 Document functionThese Operating Instructions contain all the information that is required in various phases of the life cycle of the device: from product identification, incoming acceptance and storage, to mounting, connection, operation and commissioning through to troubleshooting, maintenance and disposal.1.2 Safety Instructions (XA)When using in hazardous areas, compliance with national regulations is mandatory. Separate Ex-specific documentation is provided for measuring systems that are used in hazardous areas. This documentation is an integral part of these Operating Instructions. The installation specifications, connection data and safety instructions it contains must be strictly observed! Make sure that you use the right Ex-specific documentation for the right device with approval for use in hazardous areas! The number of the specific Ex documentation (XA...) is provided on the nameplate. If the two numbers (on the Ex documentation and the nameplate) are identical, then you may use this Ex-specific documentation.1.3 Symbols used1.3.1 Safety symbolsSymbol MeaningDANGERWARNINGCAUTIONNOTICEDANGER!This symbol alerts you to a dangerous situation. Failure to avoid this situation will result in serious or fatal injury.WARNING!This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in serious or fatal injury.CAUTION!This symbol alerts you to a dangerous situation. Failure to avoid this situation can result in minor or medium injury.NOTE!This symbol contains information on procedures and other facts which do not result in personal injury.1.3.2 Electrical symbolsSymbol MeaningDirect current Alternating currentDirect current and alternating current4 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72About this documentSymbol MeaningGround connectionA grounded terminal which, as far as the operator is concerned, is grounded via a grounding system.Protective Earth (PE)A terminal which must be connected to ground prior to establishing any other connections.The ground terminals are situated inside and outside the device: Inner ground terminal: Connects the protectiv earth to the mains supply. Outer ground terminal: Connects the device to the plant grounding system.1.3.3 Symbols for certain types of informationSymbol MeaningPermittedProcedures, processes or actions that are permitted.PreferredProcedures, processes or actions that are preferred.ForbiddenProcedures, processes or actions that are forbidden.TipIndicates additional information.Reference to documentationReference to page Reference to graphic, , Series of stepsResult of a stepHelp in the event of a problem Visual inspection1.4 Tool symbolsSymbol MeaningFlat blade screwdriverA0011220Phillips head screwdriverA0011219Allen keyA0011221Open-ended wrench A0011222Torx screwdriverA0013442Endress+Hauser V. 1, Rev. 2, 4-10-2018 5 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTAbout this documentiTEMP TMT71/721.5 DocumentationDocument Purpose and content of the documentTechnical Information TI01392T/09/enBrief Operating Instructions KA01384T/09/enPlanning aid for your deviceThe document contains all the technical data on the device and provides an overview of the accessories and other products that can be ordered for the device.Guide that takes you quickly to the 1st measured valueThe Brief Operating Instructions contain all the essential information from incoming acceptance to initial commissioning.The document types listed are available:In the Download Area of the Endress+Hauser Internet site: www.endress.com Download1.6 Registered trademarksHARTRegistered trademark of the HART FieldComm Group6 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Basic safety instructions2 Basic safety instructions2.1 Requirements for the personnelThe personnel for installation, commissioning, diagnostics and maintenance must fulfill the following requirements:Trained, qualified specialists must have a relevant qualification for this specific functionand taskAre authorized by the plant owner/operatorAre familiar with federal/national regulationsBefore beginning work, the specialist staff must have read and understood theinstructions in the Operating Instructions and supplementary documentation as well asin the certificates (depending on the application)Following instructions and basic conditionsThe operating personnel must fulfill the following requirements:Being instructed and authorized according to the requirements of the task by thefacility's owner-operator Following the instructions in these Operating Instructions2.2 Designated useThe device is a universal and user-configurable temperature transmitter with one sensor input for a resistance thermometer (RTD), thermocouples (TC), resistance and voltage transmitters. The head transmitter version of the device is intended for mounting in a terminal head (flat face) as per DIN EN 50446. It is also possible to mount the device on a DIN rail using the optional DIN rail clip.The manufacturer is not liable for damage caused by improper or non-designated use.2.3 Operational safetyOperate the device in proper technical condition and fail-safe condition only. The operator is responsible for interference-free operation of the device.Hazardous areaTo eliminate a danger for persons or for the facility when the device is used in the hazardous area (e.g. explosion protection or safety equipment):Based on the technical data on the nameplate, check whether the ordered device ispermitted for the intended use in the hazardous area. The nameplate can be found onthe side of the transmitter housing.Observe the specifications in the separate supplementary documentation that is anintegral part of these Instructions.Electromagnetic compatibilityThe measuring system complies with the general safety requirements as per EN 61010-1,the EMC requirements as per the IEC/EN 61326 series and the NAMUR recommendationsNE 21.NOTICE The device must only be powered by a power unit that operates using an energy-limitedelectric circuit according to IEC 61010-1, "SELV or Class 2 circuit".Endress+Hauser V. 1, Rev. 2, 4-10-2018 7 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTIncoming acceptance and product identificationiTEMP TMT71/723 Incoming acceptance and productidentification3.1 Incoming acceptance1.Unpack the temperature transmitter carefully. Is the packaging or content damaged? Damaged components may not be installed as the manufacturer can otherwisenot guarantee compliance with the original safety requirements or the materialresistance, and can therefore not be held responsible for any resulting damage.2.Is the delivery complete or is anything missing? Check the scope of delivery againstyour order.3.DELIVERY NOTEA0037102Does the nameplate match the ordering information on the delivery note?4.A0024858Are the technical documentation and all other necessary documents provided? If applicable: are the Safety Instructions (e.g. XA) for hazardous areas provided?If one of these conditions is not satisfied, contact your Endress+Hauser Sales Center.3.2 Product identificationThe following options are available for identification of the device: Nameplate specifications Extended order code with breakdown of the device features on the delivery note Enter the serial number from the nameplate in the W@M Device Viewer(www.endress.com/deviceviewer): All data relating to the device and an overview of theTechnical Documentation supplied with the device are displayed. Enter the serial number on the nameplate into the Endress+Hauser Operations App orscan the 2-D matrix code (QR code) on the nameplate with the Endress+HauserOperations App: all the information about the device and the technical documentationpertaining to the device is displayed.3.2.1 NameplateThe right device?Compare and check the data on the nameplate of the device against the requirements of the measuring point:8 V. 1, Rev. 2, 4-10-2018 Endress+HauserTMT71/72 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT11-42V012345678910xx.yy.zzTMT82- XXXXX/XXiTEMPSer.no.:FW:Input:12345678ABCDEFGH12345678ABCDEFGHDev.Rev: xExt. ord. cd.:XXXXXXXXXXXXX#0044iTEMP TMT71/72Incoming acceptance and product identification37Made in Germany 201x D-87484 NesselwangA0014561 1 Nameplate of the head transmitter (example, Ex version)1Power supply, current consumption and radio approval (Bluetooth)2Serial number, device revision, firmware version and hardware version3Data Matrix 2D code42 lines for the TAG name and extended order code5Approval in hazardous area with number of the relevant Ex documentation (XA...)6Approvals with symbols7Order code and manufacturer ID3.3 Scope of deliveryThe scope of delivery of the device comprises: Temperature transmitter Mounting material (head transmitter), optional Hard copy of multi-language Brief Operating Instructions Additional documentation for devices which are suitable for use in the hazardous area(0 1 ), such as Safety Instructions (XA...), Control or Installation Drawings (ZD...).3.4 Certificates and approvalsThe device left the factory in a safe operating condition. The device complies with the requirements of the standards EN 61 010-1 "Safety Requirements for Electrical Equipment for Measurement, Control, and Laboratory Use" and with the EMC requirements as per the IEC/EN 61326 series.3.4.1 CE/EAC mark, declaration of conformityThe device meets the legal requirements of the EU/EEU guidelines. The manufacturer confirms that the device is compliant with the relevant guidelines by applying the CE/EAC mark.3.4.2 HART protocol certificationThe temperature transmitter is registered by the HART FieldComm Group. The device meets the requirements of the HART Communication Protocol Specifications, Revision 7 (HCF 7.6).3.5 Transport and storageCarefully remove all the packaging material and protective covers that are part of the transported package.Dimensions and operating conditions: 56When storing (and transporting) the device, pack it so that it is reliably protected against impact. The original packaging offers the best protection.Storage temperatureHead transmitter: 50 to +100 C (58 to +212 F)Endress+Hauser V. 1, Rev. 2, 4-10-2018 912546 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTInstallationiTEMP TMT71/724 Installation4.1 Installation conditions4.1.1 DimensionsThe dimensions of the device are provided in the "Technical data" section 56.4.1.2 Mounting locationHead transmitter: In the terminal head, flat face, as per DIN EN 50446, direct mounting on insert withcable entry (middle hole 7 mm) In the field housing, separated from the process 41It is also possible to mount the head transmitter on a DIN rail as per IEC 60715 using the DIN rail clip 41accessory.Information about the conditions (such as the ambient temperature, degree of protection, climate class etc.) that must be present at the installation point so that the device can be mounted correctly is provided in the "Technical data" section 55.When using in hazardous areas, the limit values of the certificates and approvals must be observed (see Ex Safety Instructions).4.2 InstallationA Phillips head screwdriver is required to mount the head transmitter.NOTICEDo not overtighten the mounting screws as this could damage the head transmitter. Maximum torque = 1 Nm ( pound-feet).10V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Installation4.2.1 Mounting the head transmitterItem A Item B89Item C7654321120 mm(4.72 in)120 mm (4.72 in)1 2 3 4 5 1 2 3 4A0014269-EN 2 Head transmitter mounting (three versions)Item A Mounting in a terminal head (terminal head flat face as per DIN 43729)1Terminal head2Circlips3Insert4Connection wires5Head transmitter6Mounting springs7Mounting screws8Terminal head cover9Cable entryProcedure for mounting in a terminal head, pos. A:1.Open the terminal head cover (8) on the terminal head.2.Guide the connection wires (4) of the insert (3) through the center hole in the headtransmitter (5).3.Fit the mounting springs (6) on the mounting screws (7).4.Guide the mounting screws (7) through the side boreholes of the head transmitterand the insert (3). Then fix both mounting screws with the snap rings (2).5.Then tighten the head transmitter (5) along with the insert (3) in the terminal head.6.After wiring 15, close the terminal head cover (8) tightly again.Endress+Hauser V. 1, Rev. 2, 4-10-2018 11 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTInstallationiTEMP TMT71/72Item B Mounting in a field housing1Field housing cover2Mounting screws with springs3Head transmitter5 Field housing140 mm(5.51 in)21 mm(0.83 in)! 6.5 mm (0.25 in)120 mm(4.72 in)A0024604 3 Dimensions of angle bracket for wall mount (complete wall mounting set available as accessory)Procedure for mounting in a field housing, pos. B:1.Open the cover (1) of the field housing (4).2.Guide the mounting screws (2) through the lateral bores in the head transmitter (3).3.Screw the head transmitter to the field housing.4.After wiring, close the field housing cover (1) 15again.Item C Mounting on DIN rail (DIN rail as per IEC 60715)1Mounting screws with springs2Head transmitter3Circlips4DIN rail clip5DIN railProcedure for mounting on a DIN rail, pos. C:1.Press the DIN rail clip (4) onto the DIN rail (5) until it engages with a click.2.Fit the mounting springs on the mounting screws (1) and guide the screws throughthe side boreholes of the head transmitter (2). Then fix both mounting screws withthe snap rings (3).3.Screw the head transmitter (2) onto the DIN rail clip (4).12V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72InstallationMounting typical of North America1 2 3 4 5656A0008520 4 Head transmitter mounting1Thermowell2Insert3Adapter, coupling4Terminal head5Head transmitter6Mounting screwsThermometer design with thermocouples or RTD sensors and head transmitter:1.Fit the thermowell (1) on the process pipe or the container wall. Secure thethermowell according to the instructions before the process pressure is applied.2.Fit the necessary neck tube nipples and adapter (3) on the thermowell.3.Make sure sealing rings are installed if such rings are needed for harshenvironmental conditions or special regulations.4.Guide the mounting screws (6) through the lateral bores of the head transmitter (5).5.Position the head transmitter (5) in the terminal head (4) in such a way that the buscable (terminals 1 and 2) point to the cable entry.6.Using a screwdriver, screw down the head transmitter (5) in the terminal head (4).7.Guide the connection wires of the insert (3) through the lower cable entry of theterminal head (4) and through the middle hole in the head transmitter (5). Wire theconnection wires up to the transmitter 15.8.Screw the terminal head (4), with the integrated and wired head transmitter, ontothe ready-mounted nipple and adapter (3).NOTICEThe terminal head cover must be secured properly to meet the requirements for explosion protection. After wiring, securely screw the terminal head cover back on.Endress+Hauser V. 1, Rev. 2, 4-10-2018 13 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTInstallationiTEMP TMT71/72Mounting the display on the head transmitterA0009852 5 Mounting the display1.Loosen the screw on the terminal head cover. Flip back the terminal head cover.2.Remove the cover of the display connection area.3.Fit the display module onto the mounted and wired head transmitter. The fasteningpins must click securely into place on the head transmitter. After mounting, securelytighten the terminal head cover.The display can be used only with the appropriate terminal heads - cover with viewing window (e.g. TA30 from Endress+Hauser).4.3 Post-installation checkAfter installing the device, always run the following final checks:Device condition and specifications NotesIs the device undamaged (visual inspection)? -Do the ambient conditions match the device specification (e.g. ambient temperature, measuring range, etc.)?See 'Technical data' section14V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT-++-iTEMP TMT71/72Electrical connection5 Electrical connection5.1 Connection conditionsL CAUTIONSwitch off the power supply before installing or connecting the device. Failure to observe this may result in the destruction of parts of the electronics.When connecting Ex-certified devices, please take special note of the instructions andconnection schematics in the Ex-specific supplement to these Operating Instructions.Your supplier is available for assistance if required.Do not occupy the display connection. An incorrect connection can destroy theelectronics.NOTICEDo not overtighten the screw terminals, as this could damage the transmitter. Use a suitable screwdriver.Maximum torque for securing screws = 1 Nm ( foot-pound), screwdriver: Pozidriv Z2Maximum torque for screw terminals = 0.35 Nm ( foot-pound), screwdriver: PozidrivZ1Proceed as follows to wire a mounted head transmitter:1.Open the cable gland and the housing cover on the terminal head or the fieldhousing.2.Feed the cables through the opening in the cable gland.3.Connect the cables as shown in 15.4.Tighten the cable gland again and close the housing cover.In order to avoid connection errors always follow the instructions in the post-connection check section before commissioning!5.2 Quick wiring guideredredTC, mVwhitewhiteSensor inputRTD, ! : 4-, 3- and 2-wire65435463Bus connection and supply voltage1122Display connection/ service interfaceA0036348-EN 6 Terminal assignment of head transmitterTo operate the device via the HART protocol (terminals 1 and 2), a minimum load of 250 is required in the signal circuit.Endress+Hauser V. 1, Rev. 2, 4-10-2018 15 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTElectrical connectioniTEMP TMT71/72In the event of a thermocouple (TC) measurement, a 2-wire RTD can be connected to measure the reference junction temperature. This is connected to terminals 4 and 6.NOTICE ESD - electrostatic discharge. Protect the terminals from electrostatic discharge.Failure to observe this may result in the destruction or malfunction of parts of theelectronics.5.3 Connecting the sensor cablesTerminal assignment of the sensor connections 6, 15.5.4 Connecting the transmitterL CAUTION Switch off power supply before installing or connecting the transmitter. Failure toobserve this may result in the destruction of parts of the electronics.Cable specification A normal device cable suffices if only the analog signal is used. A shielded cable is recommended for HART communication. Observe groundingconcept of the plant.Please also observe the general procedure on 15.1 2 32-1+2- 1+2- 1+!4567!47!5A0017841 7 Connecting the signal cables and power supply1Head transmitter installed in field housing2Head transmitter installed in terminal head3DIN rail transmitter mounted on DIN rail4Terminals for HART protocol and power supply5Internal ground connection6External ground connection7Shielded signal cable (recommended for HART protocol) The terminals for connecting the signal cable (1+ and 2-) are protected againstreverse polarity. Conductor cross-section:Max. 2.5 mm2 for screw terminals5.5 Special connection instructionsShielding and grounding16 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Electrical connectionThe specifications of the HART FieldComm Group must be observed during installation.312- .4A0014463 8 Shielding and grounding the signal cable at one end with HART communication1Optional grounding of the field device, isolated from cable shielding2Grounding of the cable shield at one end3Supply unit4Grounding point for HART communication cable shield5.6 Post-connection checkDevice condition and specifications NotesIs the device or cable undamaged (visual check)? --Electrical connection NotesDoes the supply voltage match the specifications on the nameplate? Head transmitter: U = e.g. 10 to 36 VDC Other values apply in the hazardous area, see thecorresponding Ex Safety Instructions (XA).Do the cables have adequate strain relief? --Are the power supply and signal cables correctly 15connected?Are all the screw terminals well tightened? --Are all the cable entries installed, tightened and --sealed?Are all housing covers installed and firmly tightened? --Endress+Hauser V. 1, Rev. 2, 4-10-2018 17 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperation optionsiTEMP TMT71/726 Operation options6.1 Overview of operation optionsSmartBlue AppFieldCare PLCTMT71/72RN221NHART ModemA0036305 9 Operation options for the head transmitterFor the head transmitter, display and operating elements are available locally only if the head transmitter was ordered with an attachable display unit!The transmitter's optional Bluetooth interface is only active if a display unit is not attached or the CDI interface is not used for device configuration.6.1.1 Measured value display and operating elementsOption: display TID10 with transmitterThe display may also be subsequently ordered at any time after purchasing the transmitter, see the 'Accessories' section in the Operating Instructions for the device.A0010227 10 Attach the display to the transmitter18 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operation optionsDisplay elementsHead transmitter1234567A0008549 11 Optional LC display for head transmitterItem No. Function Description1Displays the TAG TAG, 32 characters long.2'Communication' symbol The communication symbol appears when read and write-accessing viathe fieldbus protocol.3Unit display Unit display for the measured value displayed.4Measured value display Displays the current measured value.5Value/channel displayDT, PV, I, %6'Configuration locked'symbol7Status signalse.g. PV for a measured value from channel 1 or DT for the device temperatureThe 'configuration locked' symbol appears when configuration is locked via the hardware.Symbols MeaningError message "Failure detected"An operating error has occurred. The measured value is no longer valid.The display alternates between the error message and "- - - -" (no valid measured value present), see "Diagnostics events" section 37. The display alternates between the error message and "- - - -" (no valid measured value present).Detailed information on the error messages can be found in theOperating Instructions."Service mode"The device is in service mode (e.g. during a simulation)."Out of specification"The device is being operated outside its technical specifications (e.g. during warm-up or cleaning processes)."Maintenance required"Maintenance is required. The measured value is still valid.The display alternates between the measured value and the status message.Local operationYou can make hardware settings for the fieldbus interface using miniature switches (DIP switches) on the rear of the optional display .The user has the option of ordering the display with the head transmitter, or as an accessory for subsequent mounting. 41NOTICE ESD - electrostatic discharge. Protect the terminals from electrostatic discharge.Failure to observe this may result in the destruction or malfunction of parts of theelectronics.Endress+Hauser V. 1, Rev. 2, 4-10-2018 19 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperation optionsiTEMP TMT71/723264HW SWADDR ACTIVESIMWRITE LOCKDISPL. 1801231: Connection to head transmitter2: DIP switches (1 - 64, SW/HW, ADDR and SIM = simulationmode) no function for this head transmitter3: DIP switch (WRITE LOCK = write protection; DISPL. 180 =switch, turn the display monitor 180)A0014562 12 Hardware settings via DIP switchesProcedure for setting the DIP switch:1.Open the cover of the terminal head or field housing.2.Remove the attached display from the head transmitter.3.Configure the DIP switch on the rear of the display accordingly. In general: switch toON = function enabled, switch to OFF = function disabled.4.Fit the display onto the head transmitter in the correct position. The head transmitteraccepts the settings within one second.5.Secure the cover back onto the terminal head or field housing.Switching write protection on/offWrite protection is switched on and off via a DIP switch on the rear of the optional attachable display. When write protection is active, parameters cannot be modified. A lock symbol on the display indicates that the write protection is on. Write protection prevents any write access to the parameters. The write protection remains active even when the display is removed. To deactivate the write protection, the display must be attached to the transmitter with the DIP switch switched off (WRITE LOCK = OFF). The transmitter adopts the setting during operation and does not need to be restarted.Turning the displayThe display can be rotated 180 using the "DISPL. 180" DIP switch. The setting is retained when the display is removed.20 V. 1, Rev. 2, 4-10-2018 Endress+HauserOFFON124816 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operation options6.2 Structure and function of the operating menu6.2.1 Structure of the operating menuActual DiagnosticsActual diagnostics list Previous diagnostics nDiagnostic event simulationPropertiesSensor min valueSensor valueUnit4 mA valueAssign current output (PV)HART short tagBluetoothDisplay intervalAlarm delayCall./ v. Dusen coeff. R0...New passwordPasswordRecover passwordOld passwordSquawkDevice typeLatitudeA0037574-ENUser rolesEndress+Hauser's role-based access concept consists of two hierarchical levels for the user and presents the various user roles with defined read/write authorizations, derived from the NAMUR shell model.Endress+Hauser V. 1, Rev. 2, 4-10-2018 21DiagnosticsActual diagnosticsGuidance+-+CommissioningDiagnostic listEvent logbookSimulationDiagnostic settingsMin/ max valuesApplicationMeasured valuesSensorLinearizationCurrent outputHART configurationSystemDevice managementUser managementDefine passwordEnter passwordRecover passwordChange passwordDelete passwordBluetooth config.InformationDeviceHART-InfoDevice locationDisplayDelete password DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperation optionsiTEMP TMT71/72 OperatorThe plant operator can only change settings that do not affect the application - andparticularly the measuring path - and simple, application-specific functions that are usedduring operation. The operator is able to read all the parameters, however. MaintenanceThe Maintenance user role refers to configuration situations: commissioning andprocess adaptations as well as troubleshooting. It allows the user to configure andmodify all available parameters. In contrast to the Operator user role, in theMaintenance role the user has read and write access to all the parameters. Changing the user roleA user role - and therefore existing read and write authorization - is changed byselecting the desired user role (already pre-selected depending on the operating tool)and entering the correct password when subsequently prompted. When a user logs out,system access always returns to the lowest level in the hierarchy. A user is logged outeither by actively selecting the logout function when operating the device or is loggedout automatically if the device is not operated for a period of over 600 seconds.Irrespective of this, actions that are already in progress (e.g. active upload/download,data logging, etc.) continue to be executed in the background. As-delivered stateThe Operator user role is not enabled when the device is delivered from the factory, i.e.the Maintenance role is the lowest level in the hierarchy ex-works. This state makes itpossible to commission the device and make other process adaptations without having toenter a password. Afterwards, a password can be assigned for the Maintenance userrole to protect this configuration. The Operator user role is not visible when the device isdelivered from the factory. PasswordThe Maintenance user role can assign a password in order to restrict access to devicefunctions. This activates the Operator user role, which is now the lowest hierarchy levelwhere the user is not asked to enter a password. The password can only be changed ordisabled in the Maintenance user role. A password can be defined at different points inthe operation of the device:In the menu Guidance Commissioning wizard: as part of guided device operation In the menu: System User management22 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operation optionsSubmenusMenu Typical tasks Content/meaning"Diagnostics" Fault elimination: Diagnosing and eliminating process errors. Error diagnostics in difficult cases. Interpretation of device error messages andcorrecting associated errors."Application" Commissioning: Configuration of the measurement. Configuration of data processing (scaling,linearization, etc.). Configuration of the analog measured value output.Tasks during operation: Reading measured values."System" Tasks that require detailed knowledge of the systemadministration of the device: Optimum adaptation of the measurement forsystem integration. Detailed configuration of the communicationinterface. User and access administration, password control Information concerning the device identification,HART information and display configurationContains all parameters for detecting and analyzing errors: Diagnostic listContains up to 3 error messages currently pending Event logbookContains the last 10 error messages (no longer pending) "Simulation" submenuUsed to simulate measured values, output values or diagnostic messages "Diagnostic settings" submenuContains all the parameters for configuring error events "Min/max values" submenuContains the minimum/maximum indicator and the reset optionContains all parameters for commissioning: "Measured values" submenuContains all the current measured values "Sensor" submenuContains all the parameters for configuring the measurement "Output" submenuContains all the parameters for configuring the analog current output "HART configuration" submenuContains the settings and the most important parameters for HARTcommunicationContains all the higher-level device parameters that are assigned for system, device and user management, including Bluetooth configuration. "Device management" submenuContains parameters for general device management "Bluetooth configuration" submenu (option)Contains the function for enabling/disabling the Bluetooth interface "Device and user management" submenusParameters for access authorization, password assignment, etc. "Information" submenuContains all the parameters for the unique identification of the device "Display" submenuConfiguration of the display6.3 Access to the operating menu via the operating tool6.3.1 DeviceCareFunction scopeDeviceCare is a free configuration tool for Endress+Hauser devices. It supports devices with the following protocols, provided a suitable device driver (DTM) is installed: HART, PROFIBUS, FOUNDATION Fieldbus, Ethernet/IP, Modbus, CDI, ISS, IPC and PCP. The tool is aimed at customers without a digital network in plants and workshops and Endress +Hauser service technicians. The devices can be connected directly via a modem (point-to- point) or a bus system. DeviceCare is fast, easy and intuitive to use. It can run on a PC, laptop or tablet with a Windows operating system.Source for device description filesSee information 28Endress+Hauser V. 1, Rev. 2, 4-10-2018 23 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperation optionsiTEMP TMT71/726.3.2 FieldCareFunction scopeFDT/DTM-based plant asset management tool from Endress+Hauser. It can configure all smart field units in a system and help you manage them. By using the status information, it is also a simple but effective way of checking their status and condition. Access takes place via the HART protocol or CDI (= Endress+Hauser Common Data Interface).Typical functions: Configuring parameters of transmitters Loading and saving device data (upload/download) Documentation of the measuring point Visualization of the measured value memory (line recorder) and event logbookFor details, see Operating Instructions BA027S/04/xx and BA059AS/04/xxSource for device description filesSee information 28Establishing a connectionExample: via HART modem Commubox FXA195 (USB)1.Make sure that the DTM library is updated for all the connected devices (e.g.FXA19x, TMTxy).2.Start FieldCare and create a project.3.Go to View --> Network: right-click Host PC Add device... The Add device window opens.4.Select the HART communication option from the list and press OK to confirm.5.Double-click HART communication DTM instance. Check whether the correct modem is connected to the serial interface and pressOK to confirm.6.Right-click HART communication and select the Add device option in the contextmenu that opens.7.Select the desired device from the list and press OK to confirm. The device now appears in the network list.8.Right-click the device and select the Connect option in the context menu. The CommDTM is displayed in green.9.Double-click the device in the network to establish the online connection to thedevice. The online configuration is available.If transferring the device parameters following an offline configuration, the password for Maintenance - if assigned -must first be entered in the "User management" menu.24 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operation optionsUser interface1 2 3 4 5 6 789 10 11A0037232-EN 13 User interface with device information via HART communication1Network view2Header3Extended header4Tag name and device name5Status signal6Measured values with device and measured value status information, simple presentation, e.g. PV, outputcurrent, % span, device temperature7Current user role (with direct link to user management)8Navigation area with operating menu structure9Working area with fade in/fade out help area10Navigation arrows for fade in/fade out the extended header11Extended display of device and measured value information, e.g. sensor value, SV (TV, QV)6.3.3 Field XpertFunction scopeField Xpert for mobile plant asset management is available as both a tablet PC and an industrial PDA with an integrated touch screen for the commissioning and maintenance of field devices in hazardous and non-hazardous areas. It enables the efficient configuration of FOUNDATION fieldbus, HART and WirelessHART devices. Communication is wireless via Bluetooth or WiFi interfaces.Source for device description filesSee information 28.6.3.4 AMS Device ManagerFunction scopeProgram from Emerson Process Management for operating and configuring measuring devices via the HART protocol.Endress+Hauser V. 1, Rev. 2, 4-10-2018 25 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperation optionsiTEMP TMT71/72Source for device description filesSee information 28.6.3.5 SIMATIC PDMFunction scopeSIMATIC PDM is a standardized, manufacturer-independent program from Siemens for the operation, configuration, maintenance and diagnosis of intelligent field devices via the HART protocol.Source for device description filesSee information 28.6.3.6 Field Communicator 375/475Function scopeIndustrial handheld terminal from Emerson Process Management for remote configuration and measured value display via the HART protocol.Source for device description filesSee information 28.6.4 Access to the operating menu via the SmartBlue AppThe device can be operated and configured via the SmartBlue App. The connection is established via the Bluetooth wireless technology interface.Prerequisite: The device has the optional Bluetooth interface: order code "Communication; outputsignal; operation", option P: "HART; 4-20 mA; HART/Bluetooth (App) configuration" A smartphone or tablet with the SmartBlue App installed.Supported functions Device selection in Live List and access to the device (login) Configuration of the device Access to measured values, device status and diagnostics informationThe SmartBlue App is available for free download for Android devices (Google Playstore) and iOS devices (iTunes Apple Shop) : Endress+Hauser SmartBlueDirectly to the app with the QR code:A003320226 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operation optionsSystem requirements Devices with iOS: iPhone 4S or higher, from iOS9.0 iPad2 or higher, from iOS9.0 iPod Touch 5th generation or higher, from iOS9.0 Devices with Android:Android 4.4 KitKat or higherDownload the SmartBlue App:1.Install and start the SmartBlue App. A Live List shows all the devices available.2.Select the device from the Live List. The Login dialog box opens.Logging in:3.Enter the user name: admin4.Enter the initial password: serial number of the device.5.Confirm your entry. The device information opens.Navigate through the various items of information about the device: swipe the screen to the side. The range under reference conditions is: 10 m (33 ft) when installed in the terminal head or field housing with a displaywindow 5 m (16.4 ft) when installed in the terminal head or field housing Incorrect operation by unauthorized persons is prevented by means of encryptedcommunication and password encryption. The Bluetooth wireless technology interface can be deactivatedThe transmitter's optional Bluetooth interface is only active if a display unit is not attached or the CDI interface is not used for device configuration.Endress+Hauser V. 1, Rev. 2, 4-10-2018 27 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTSystem integrationiTEMP TMT71/727 System integration7.1 Overview of device description filesVersion data for the deviceFirmware version 01.01.zz On the title page of the Operating instructions On the nameplate 1, 9 Parameter firmware versionDiagnostics Device info Firmware VersionManufacturer ID 0x11 Manufacturer ID parameterDiagnostics Device info Manufacturer IDDevice type ID 0x11D0 Device type parameterDiagnostics Device info Device typeHART protocol revision 7 ---Device revision 1 On the transmitter nameplate 1, 9 Device revision parameterDiagnostics Device info Device revisionThe suitable device driver software (DD/DTM) for the individual operating tools can be acquired from a variety of sources: www.endress.com --> Downloads --> Search field: Software --> Software type: Devicedriver www.endress.com --> Products: individual product page, e.g. TMTx2 --> Documents /Manuals / Software: Electronic Data Description (EDD) or Device Type Manager (DTM). Via DVD (please contact your local Endress+Hauser Sales Center)Endress+Hauser supports all common operating tools from a variety of manufacturers (e.g. Emerson Process Management, ABB, Siemens, Yokogawa, Honeywell and many others).Endress+Hauser's FieldCare and DeviceCare operating tools are available for download(www. endress.com --> Downloads --> Search field: Software --> Application software) oron the optical data storage medium (DVD) which you can obtain from your local Endress+Hauser Sales Center.7.2 Measured variables via HART protocolThe following measured values are assigned to the device variables at the factory:Device variable Measured valuePrimary device variable (PV) SensorSecondary device variable (SV) Device temperatureTertiary device variable (TV) SensorQuaternary device variable (QV) Sensor7.3 Supported HART commandsThe HART protocol enables the transfer of measuring data and device data between the HART master and the field device for configuration and diagnostics purposes. HART masters such as the handheld terminal or PC-based operating programs (e.g. FieldCare) need device description files (DD, DTM) which are used to access all the information in a HART device. This information is transmitted exclusively via "commands".28 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72System integrationThere are three different types of command Universal commands:All HART devices support and use universal commands. These are associated with thefollowing functionalities for example: Recognition of HART devices Reading digital measured values Common practice commands:Common practice commands offer functions which are supported and can be executed bymany but not all field devices. Device-specific commands:These commands allow access to device-specific functions which are not HARTstandard. Such commands access individual field device information, among otherthings.Command No. DesignationUniversal commands0, Cmd0 Read unique identifier1, Cmd001 Read primary variable2, Cmd002 Read loop current and percent of range3, Cmd003 Read dynamic variables and loop current6, Cmd006 Write polling address7, Cmd007 Read loop configuration8, Cmd008 Read dynamic variable classifications9, Cmd009 Read device variables with status11, Cmd011 Read unique identifier associated with TAG12, Cmd012 Read message13, Cmd013 Read TAG, descriptor, date14, Cmd014 Read primary variable transducer information15, Cmd015 Read device information16, Cmd016 Read final assembly number17, Cmd017 Write message18, Cmd018 Write TAG, descriptor, date19, Cmd019 Write final assembly number20, Cmd020 Read long TAG (32-byte TAG)21, Cmd021 Read unique identifier associated with long TAG22, Cmd022 Write long TAG (32-byte TAG)38, Cmd038 Reset configuration changed flag48, Cmd048 Read additional device statusCommon practice commands33, Cmd033 Read device variables34, Cmd034 Write primary variable damping value35, Cmd035 Write primary variable range values40, Cmd040 Enter/Exit fixed current mode42, Cmd042 Perform device reset44, Cmd044 Write primary variable units45, Cmd045 Trim loop current zero46, Cmd046 Trim loop current gainEndress+Hauser V. 1, Rev. 2, 4-10-2018 29 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTSystem integrationiTEMP TMT71/72Command No. Designation50, Cmd050 Read dynamic variable assignments54, Cmd054 Read device variable information59, Cmd059 Write number of response preambles72, Cmd072 Squawk95, Cmd095 Read device communications statistics100, Cmd100 Write primary variable alarm code516, Cmd516 Read device location517, Cmd517 Write device location518, Cmd518 Read location description519, Cmd519 Write location description520, Cmd520 Read process unit tag521, Cmd521 Write process unit tag523, Cmd523 Read condensed status mapping array524, Cmd524 Write condensed status mapping array525, Cmd525 Reset condensed status mapping array526, Cmd526 Write simulation mode527, Cmd527 Simulate status bit30 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Commissioning8 Commissioning8.1 Post-installation checkBefore commissioning the measuring point make sure that all final checks have been carried out: "Post-installation check" checklist 14 "Post-connection check" checklist 178.2 Switching on the transmitterOnce you have completed the post-connection checks, switch on the supply voltage. The transmitter performs a number of internal test functions after power-up. As this procedure progresses, the following sequence of messages appears on the display:Step Display1"Display" text and firmware version of the display2Firm logo3Device name with firmware version, hardware version and device revision4Displays the sensor configuration (sensor type and type of connection) along with the configuredmeasuring range5a Current measured value or5b Current status messageIf the switch-on procedure is not successful, the relevant diagnostic event, depending on the cause, is displayed. A detailed list of diagnostic events and the corresponding troubleshooting instructions can be found in the "Diagnostics and troubleshooting" section 35.The device operates in normal mode after approx. 7 seconds, including the attached display. Normal measuring mode commences as soon as the switch-on procedure is completed. Measured values and status values appear on the display.If the display is attached when the Bluetooth interface is activated, display initialization is performed twice and Bluetooth communication is disabled simultaneously.8.3 Configuring the measuring deviceWizardsThe Guidance menu contains various wizards. Wizards not only query individual parameters but also guide the user through the configuration and/or verification of entire sets of parameters with step-by-step instructions, including questions, that are comprehensible for the user. The "Start" button can be disabled for wizards that require specific access authorization (keyhole symbol appears on the screen).Endress+Hauser V. 1, Rev. 2, 4-10-2018 31 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTCommissioningiTEMP TMT71/72The following five operating elements are supported for navigation in the wizards: StartOnly on the initial page: start the wizard and go to the first section NextGo to the next page of the wizard. Is not enabled until parameters are entered orconfirmed. BackReturn to the previous page CancelIf Cancel is selected, the status before the wizard was started is restored FinishCloses the wizard and possibility of making additional parameter settings on the device.Only enabled on the final page.8.3.1 Commissioning wizardCommissioning is the first step towards using the device for the designated application. The Commissioning wizard contains an introductory page (with the "Start" operating element) and a short description of the content. The wizard consists of several sections in which the user is guided step-by-step through the commissioning of the device."Device management" is the first section that appears when the user runs the wizard, and contains the following parameters. Its main purpose is to provide information about thedevice:Navigation Guidance Commissioning Start+-+A0037378-ENDevice TAGDevice nameSerial numberExtended order code (n) 1)HART short tagHART date codeHART descriptorHART message1) n = placeholder for 1, 2, 3The second section, "Sensor", takes the user through all the relevant settings for the sensor. The number of parameters displayed depends on the corresponding settings. The followingparameters can be configured:Navigation Guidance Commissioning Sensor+-+A0037389-ENUnitSensor typeConnection type2-wire compensationReference junctionRJ preset value32 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72CommissioningIn the third section, the settings are made for the analog output and the output's alarmresponse. The following parameters can be configured:Navigation Guidance Commissioning Current output+-+A0037390-EN4 mA value20 mA valueFailure modeFailure currentIn the final section, a password can be defined for the "Maintenance" user role. This is strongly recommended to protect the device against unauthorized access. The following steps describe how to configure a password for the "Maintenance" role for the first time.Navigation Guidance Commissioning User management+-+A0037391-ENAccess statusNew passwordConfirm new password1.The Maintenance role appears in the "Access status" picklist. The Maintenance userrole must first be selected when operating with the SmartBlue App. Afterwards, the New password and Confirm new password input boxes appear.2.Enter a user-defined password that meets the password rules indicated in the onlinehelp.3.Enter the password again in the Confirm new password input box.Once the password has been entered successfully, parameter changes, particularly those that are needed for commissioning, process adaptation/optimization and troubleshooting, can only be implemented in the Maintenance user role and if the password is entered successfully.8.4 Protecting settings from unauthorized access8.4.1 Hardware lockingThe device can be protected against unauthorized access by hardware locking. In the locking and access concept, hardware locking always has top priority. The device is write- protected if the keyhole symbol appears in the header of the measured value display. To disable write protection, switch the write protection switch on the back of the display to the "OFF" position (hardware write protection). 198.4.2 Software lockingBy assigning a password for the Maintenance user role, it is possible to restrict access authorization and protect the device against unauthorized access. See the Commissioning wizard 32Commissioning wizard 32Endress+Hauser V. 1, Rev. 2, 4-10-2018 33 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTCommissioningiTEMP TMT71/72The parameters are also protected against modification if the user logs out of the Maintenance user role and the system switches to the Operator role. No keyhole symbol is displayed, however.To disable the write protection, the user must log on with the Maintenance user role via the relevant operating tool.User role concept 2134 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Diagnostics and troubleshooting9 Diagnostics and troubleshooting9.1 General troubleshootingAlways start troubleshooting with the checklists below if faults occur after start up or during operation. The checklists take you directly (via various queries) to the cause of the problem and the appropriate remedial measures.Due to its design, the device cannot be repaired. However, it is possible to send the device in for examination. See the information in the "Return" section. 41General errorsProblem Possible cause RemedyDevice is not responding. Supply voltage does not match thatspecified on the nameplate.Connecting cables are not in contact with the terminals.Check the voltage at the transmitter directly using a voltmeter and correct.Check the contacting of the cables and correct if necessary.Electronics unit is defective. Replace the device.Output current < 3.6 mA Signal line is not wired correctly. Check wiring.Electronics unit is defective. Replace the device.HART communication is not working.Missing or incorrectly installed communication resistor.Install the communication resistor (250 ) correctly.Commubox is connected incorrectly. Connect Commubox correctly.Commubox is not set to "HART". Set Commubox selector switch to"HART".Check display (optional in conjunction with head transmitter)Problem Possible cause RemedyNo supply voltage Check the supply voltage at the headtransmitter, terminals + and -. Ensure that the display moduleholders are correctly seated and that the display module is properly connected to the head transmitter 10.No display visible If possible, test the display modulewith other suitable head transmitters,e.g. an Endress+Hauser head transmitter.The display module is defective. Replace the module.The electronics of the head Replace the head transmitter.transmitter are defective.Local error messages on the display 37Endress+Hauser V. 1, Rev. 2, 4-10-2018 35 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTDiagnostics and troubleshootingiTEMP TMT71/72Faulty connection to the fieldbus host systemProblem Possible cause RemedyDevice is not responding.Supply voltage does not match that specified on the nameplate.Connecting cables are not in contact with the terminals.Check the voltage at the transmitter directly using a voltmeter and correct.Check the contacting of the cables and correct if necessary.Output current < 3.6 mAElectronics unit is defective. Replace the device.Signal line is not wired correctly. Check wiring.Electronics unit is defective. Replace the device.HARTcommunication is not working.Missing or incorrectly installed communication resistor.Install the communication resistor (250 ) correctly.Error messages in the configuration software 38Application errors without status messages for RTD sensor connectionProblem Possible cause RemedyIncorrect sensor orientation. Install the sensor correctly.Heat conducted by sensor. Observe the face-to-face length of theMeasured value is incorrect/ inaccurateDevice programming is incorrect (number of wires).Device programming is incorrect (scaling).sensor.Change the Connection type device function.Change scaling.Incorrect RTD configured. Change the Sensor type device function.Sensor connection. Check that the sensor is connectedThe cable resistance of the sensor (2- wire) was not compensated.correctly.Compensate the cable resistance.Offset incorrectly set. Check offset.Faulty sensor. Check the sensor.RTD connected incorrectly. Connect the connecting cables correctlyFailure current ( 3.6 mA or 21 mA)Device programming is incorrect (e.g. number of wires).(terminal diagram).Change the Connection type device function.Incorrect programming. Incorrect sensor type set in the Sensortype device function. Set the correct sensor type.36 V. 1, Rev. 2, 4-10-2018 Endress+HauserCommubox is connected incorrectly. Connect Commubox correctly. DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Diagnostics and troubleshootingApplication errors without status messages for TC sensor connectionProblem Possible cause RemedyIncorrect sensor orientation. Install the sensor correctly.Heat conducted by sensor. Observe the face-to-face length of theDevice programming is incorrect (scaling).sensor.Change scaling.Measured value is incorrect/ inaccurateIncorrect thermocouple type (TC) configured.Incorrect reference measuring point set.Interference via the thermocouple wire welded in the thermowell (interference voltage coupling).Change the Sensor type device function.Set the correct reference measuring point .Use a sensor where the thermocouple wire is not welded.Failure current ( 3.6 mA or 21 mA)Offset incorrectly set. Check offset.Faulty sensor. Check the sensor.Sensor is connected incorrectly. Connect the connecting cables correctly(terminal diagram).Incorrect programming. Incorrect sensor type set in the Sensortype device function. Set the correct sensor type.9.2 Diagnostic information on local display1A21B3A0014837A Display in the event of a warningB Display in the event of an alarm1Status signal in the header2The display alternates between the primary measured value and the status - indicated by the appropriateletter (M, C or S) - plus the defined error number.3The display alternates between "- - - -" (no valid measured value) and the status - indicated by the appropriateletter (F) - plus the defined error number.Endress+Hauser V. 1, Rev. 2, 4-10-2018 37 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTDiagnostics and troubleshootingiTEMP TMT71/729.3 Diagnostic information via communication interfaceNOTICEStatus signals and diagnostic behavior can be configured manually for certain diagnostic events. If a diagnostic event occurs, however, it is not guaranteed that the measured values are valid for the event and comply with the process for the status signals S and M and the diagnostic behavior: 'Warning' and Disabled'. Reset the status signal assignment to the factory setting.Status signalsSymbol EventcategoryF OperatingerrorMeaningAn operating error has occurred.C Service mode The device is in service mode (e.g. during a simulation).S Out ofspecificationM MaintenancerequiredN NotcategorizedThe device is being operated outside its technical specifications (e.g. during warm- up or cleaning processes).Maintenance is required.Diagnostic behaviorAlarm Measurement is interrupted. The signal outputs assume the defined alarmcondition. A diagnostic message is generated.Warning The device continues to measure. A diagnostic message is generated.Disabled The diagnosis is completely disabled even if the device is not recording a measuredvalue.9.4 Diagnostic listIf two or more diagnostics events are pending simultaneously, only the message with the highest priority is shown. Additional pending diagnostic messages are shown in the Diagnostic list submenu . The status signal dictates the priority in which the diagnostic messages are displayed. The following order of priority applies: F, C, S, M. If two or more diagnostic events with the same status signal are active simultaneously, the numerical order of the event number dictates the order of priority in which the events are displayed, e.g.: F042 appears before F044 and before S044.9.5 Event logbookPast diagnostic messages that are no longer pending are shown in the Event logbook submenu. 6638 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Diagnostics and troubleshooting9.6 Overview of diagnostic eventsEach diagnostic event is assigned a certain event behavior at the factory. The user can change this assignment for certain diagnostic events.Example:Settings Device behaviorConfiguration examples DiagnosticnumberStatussignalDiagnostic behavior from the factoryStatus signal (output via HART communication)Current PV, status Displayoutput1. Default setting 047 S Warning S MeasuredvalueMeasured value, S047UNCERTAIN2. Manual setting: status signal S changed to F3. Manual setting: Warning diagnostic behavior changed to Alarm4. Manual setting: Warning changed to Disabled1)Setting is not relevant.047 F Warning F Measuredvalue047 S Alarm S Configuredfailurecurrent047 S 1) Disabled - 2) Last validmeasured value 3)Measured value, UNCERTAINMeasured value, BADLast valid measured value, GOODF047S047S0472)Status signal is not displayed.3)The failure current is output if no valid measured value is available.DiagnosticnumberShort text Corrective measureStatussignalfrom thefactoryCustomizable1)NotcustomizableDiagnosticbehaviorfrom thefactoryCustomizable2)NotcustomizableDiagnostics for the sensor41Sensor interrupted 1. Check electrical wiring.2. Replace sensor.3. Check connection type.42Sensor corroded 1. Check sensor.2. Replace sensor.43Short-circuit 1. Check electrical connection.2. Check sensor.3. Replace sensor or cable.047 Sensor limit reached sensor n 1. Check sensor.2. Check process conditions.145 Compensation reference point 1. Check terminal temperature.2. Check external reference point.Diagnostics for the electronics201 Electronics faulty 1. Restart device.2. Replace electronics.F AlarmM WarningF AlarmS WarningF AlarmF Alarm221 Reference sensor defective Replace device. M AlarmDiagnostics for the configuration401Factory reset active Factory reset active, please wait. C WarningEndress+Hauser V. 1, Rev. 2, 4-10-2018 39 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTDiagnostics and troubleshootingiTEMP TMT71/72DiagnosticnumberShort text Corrective measureStatussignalfrom thefactoryCustomizable1)NotcustomizableDiagnosticbehaviorfrom thefactoryCustomizable2)Notcustomizable402Initialization active Initialization active, please wait. C Warning410Data transfer failed 1. Check connection. F Alarm2. Retry data transfer.411Up-/download active Up-/download active, please wait. C Warning435 Linearization faulty Check linearization. F Alarm485 Process variable simulationactive491 Current output simulation495 Diagnostic event simulationactiveDeactivate simulation. C WarningDeactivate simulation. C WarningDeactivate simulation. C Warning531 Factory adjustment missing 1. Contact service.2. Replace device.537 Configuration 1. Check device configuration2. Upload and download new configuration. (In case of current output: check configuration of analog output.)F AlarmF Alarm582 Sensor diagnostics TCdeactivatedSwitch on diagnostics for thermocouple C WarningmeasurementDiagnostics for the process801 Supply voltage too low 3) Increase supply voltage. S Alarm825 Operating temperature 1. Check ambient temperature. S Warning2. Check process temperature.844 Process value outsidespecification1)Can be set to F, C, S, M, N1. Check process value. S Warning2. Check application.Check sensor.2)Can be set to 'Alarm', 'Warning' and 'Disabled'3)In the case of this diagnostic event, the device always outputs a "low" alarm status (output current 3.6 mA).9.7 Firmware historyRevision historyThe firmware version (FW) on the nameplate and in the Operating Instructions indicates the device release: XX.YY.ZZ (example 01.02.01).XX Change to main version. No longer compatible. The device andOperating Instructions change.YY Change to functions and operation. Compatible. The OperatingInstructions change.ZZ Fixes and internal changes. No changes to the Operating Instructions.40 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72MaintenanceDate Firmware version Changes Documentation11/2018 01.01.zz Original firmware BA01854T/09/en/01.1810 MaintenanceIn general, no specific maintenance is required for this device.11 Repair11.1 General informationRepairs that are not described in these Operating Instructions must only be carried out directly by the manufacturer or by the service department.11.2 Spare partsSpare parts currently available for the device can be found online at:http://www.products.endress.com/spareparts_consumables. Always quote the serialnumber of the device when ordering spare parts!Type Order numberStandard - DIN securing set (2 screws and springs, 4 shaft lock-down rings, 1 plug for the display interface)71044061US - M4 securing set (2 screws and 1 plug for the display interface) 71044062Commubox FXA195 HART, For intrinsically safe HART communication with FieldCare via FXA195-.......the USB interface.11.3 ReturnThe measuring device must be returned if it is need of repair or a factory calibration, or if the wrong measuring device has been delivered or ordered. Legal specifications require Endress+Hauser, as an ISO-certified company, to follow certain procedures when handling products that are in contact with the medium.To ensure safe, swift and professional device returns, please refer to the procedure and conditions for returning devices provided on the Endress+Hauser website athttp://www.endress.com/support/return-material11.4 DisposalThe device contains electronic components and must, therefore, be disposed of as electronic waste in the event of disposal. Pay particular attention to the local regulations governing waste disposal in your country.12 AccessoriesVarious accessories, which can be ordered with the device or subsequently from Endress +Hauser, are available for the device. Detailed information on the order code in question isEndress+Hauser V. 1, Rev. 2, 4-10-2018 41 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTAccessoriesiTEMP TMT71/72available from your local Endress+Hauser sales center or on the product page of the Endress+Hauser website: www.endress.com.Accessories included in the scope of delivery: Multilingual Brief Operating Instructions as hard copy ATEX supplementary documentation: ATEX Safety instructions (XA), Control Drawings(CD) Mounting material for head transmitter12.1 Device-specific accessoriesAccessoriesTID10 display unit for Endress+Hauser head transmitter iTEMP TMT8x 1) or TMT7x, attachable TID10 service cable; connecting cable for service interface, 40 cmField housing TA30x for Endress+Hauser head transmitterAdapter for DIN rail mounting, clip as per IEC 60715 (TH35) without securing screwsStandard - DIN mounting set (2 screws + springs, 4 securing disks and 1 display connector cover) US - M4 Mounting screws (2 M4 screws and 1 display connector cover)Stainless steel wall mounting bracketStainless steel pipe mounting bracket1) without TMT8012.2 Communication-specific accessoriesAccessories DescriptionCommubox FXA195 For intrinsically safe HART communication with FieldCare via the USB interface.HARTCommubox FXA291 Connects Endress+Hauser field devices with a CDI interface (= Endress+HauserCommon Data Interface) and the USB port of a computer or laptop.For details, see Technical Information TI405C/07WirelessHART adapter Is used for the wireless connection of field devices.The WirelessHART adapter can be easily integrated into field devices and existinginfrastructures, offers data protection and transmission safety and can be operated in parallel with other wireless networks.For details, see Operating Instructions BA061S/04Field Xpert SMT70 Universal, high-performance tablet PC for device configurationThe tablet PC enables mobile plant asset management in hazardous and non- hazardous areas. It is suitable for commissioning and maintenance staff to manage field instruments with a digital communication interface and to record progress. This tablet PC is designed as a comprehensive, all-in-one solution. With a pre- installed driver library, it is an easy-to-use, touch-sensitive tool which can be used to manage field instruments throughout their entire life cycle.For details, see Technical Information TI01342S/0442 V. 1, Rev. 2, 4-10-2018 Endress+HauserFor details, see Technical Information TI404F/00 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Accessories12.3 Service-specific accessoriesAccessories DescriptionApplicator Software for selecting and sizing Endress+Hauser measuring devices: Calculation of all the necessary data for identifying the optimum measuringdevice: e.g. pressure loss, accuracy or process connections. Graphic illustration of the calculation resultsAdministration, documentation and access to all project-related data and parameters over the entire life cycle of a project.Applicator is available:Via the Internet: https://portal.endress.com/webapp/applicatorConfigurator Product Configurator - the tool for individual product configuration Up-to-the-minute configuration data Depending on the device: Direct input of measuring point-specific informationsuch as measuring range or operating language Automatic verification of exclusion criteria Automatic creation of the order code and its breakdown in PDF or Excel outputformat Ability to order directly in the Endress+Hauser Online ShopThe Configurator is available on the Endress+Hauser website: www.endress.com -> Click "Corporate" -> Select your country -> Click "Products" -> Select the product using the filters and the search field -> Open the product page -> The "Configure" button to the right of the product image opens the Product Configurator.DeviceCare SFE100 Configuration tool for devices via fieldbus protocols and Endress+Hauser serviceprotocols.DeviceCare is the tool developed by Endress+Hauser for the configuration of Endress+Hauser devices. All smart devices in a plant can be configured via a point-to-point or point-to-bus connection. The user-friendly menus enable transparentand intuitive access to the field devices.For details, see Operating Instructions BA00027SFieldCare SFE500 FDT-based plant asset management tool from Endress+Hauser.It can configure all smart field units in your system and helps you manage them. By using the status information, it is also a simple but effective way of checking their status and condition.For details, see Operating Instructions BA00027S and BA00065SW@M Life cycle management for your plantW@M supports you with a wide range of software applications over the entire process: from planning and procurement, to the installation, commissioning and operation of the measuring devices. All the relevant device information, such as the device status, spare parts and device-specific documentation, is available for every device over the entire life cycle.The application already contains the data of your Endress+Hauser device. Endress+Hauser also takes care of maintaining and updating the data records.W@M is available:Via the Internet: www.endress.com/lifecyclemanagementEndress+Hauser V. 1, Rev. 2, 4-10-2018 43 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTAccessoriesiTEMP TMT71/7212.4 System componentsAccessories DescriptionRN221N Active barrier with power supply for safe separation of 4 to 20 mA standard signalcircuits. Has bidirectional HART transmission and optional HART diagnosis iftransmitters are connected with monitoring of 4 to 20 mA signal or HART statusbyte analysis and an E+H-specific diagnostic command.For details, see Technical Information TI073R/09RIA15 Process display, digital loop-powered display for 4 to 20 mA circuit, panelmounting, with optional HART communication. Displays 4 to 20 mA or up to 4HART process variablesFor details, see Technical Information TI01043K/09Graphic Data Manager Memograph MThe Advanced Data Manager Memograph M is a flexible and powerful system for organizing process values. The measured process values are clearly presented on the display and logged safely, monitored for limit values and analyzed. Via common communication protocols, the measured and calculated values can be easily communicated to higher-level systems or individual plant modules can be interconnected.For details, see Technical Information TI01180R/0944 V. 1, Rev. 2, 4-10-2018 Endress+Hauser Measuring range DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical data13 Technical data13.1 InputMeasured variable Temperature (temperature-linear transmission behavior), resistance and voltage.Resistance thermometer (RTD) as per standardDesignation Measuring range limits Min. spanIEC 60751:2008Pt100 (1)Pt200 (2)Pt500 (3) Pt1000 (4)0.003851200 to +850 C (328 to +1 562 F)200 to +850 C (328 to +1 562 F)200 to +500 C (328 to +932 F)200 to +250 C (328 to +482 F)10 K(18 F)JIS C1604:1984 Pt100 (5) 0.003916 200 to +510 C (328 to +950 F)10 K(18 F)DIN 43760 IPTS-68 GOST 6651-94OIML R84: 2003, GOST 6651-2009Ni100 (6)Ni120 (7)Pt50 (8)Pt100 (9)Cu50 (10) Cu100 (11)Ni100 (12)Ni120 (13)0.0061800.0039100.0042800.00617060 to +250 C (76 to +482 F)60 to +250 C (76 to +482 F)185 to +1 100 C (301 to +2 012 F)200 to +850 C (328 to +1 562 F)180 to +200 C (292 to +392 F)180 to +200 C (292 to +392 F)60 to +180 C (76 to +356 F)60 to +180 C (76 to +356 F)10 K(18 F)10 K(18 F)10 K(18 F)10 K(18 F)OIML R84: 2003, GOST 6651-94Cu50 (14) 0.004260 50 to +200 C (58 to +392 F)10 K(18 F)- Pt100 (Callendar van Dusen)Nickel polynomial Copper polynomial- The measuring range limits are specified by entering thelimit values that depend on the coefficients A to C and R0.10 K(18 F) Type of connection: 2-wire, 3-wire or 4-wire connection, sensor current: 0.3 mA With 2-wire circuit, compensation of wire resistance possible (0 to 30 ) With 3-wire and 4-wire connection, sensor wire resistance up to max. 50 per wireResistance transmitter Resistance 10 to 400 10 to 2 000 10 10 Thermocouples as per standardDesignation Measuring range limits Min. spanRecommended temperature range:IEC 60584, Part 1Type A (W5Re-W20Re) (30) Type B (PtRh30-PtRh6) (31) Type E (NiCr-CuNi) (34) Type J (Fe-CuNi) (35)Type K (NiCr-Ni) (36)Type N (NiCrSi-NiSi) (37) Type R (PtRh13-Pt) (38) Type S (PtRh10-Pt) (39) Type T (Cu-CuNi) (40)0 to +2 500 C (+32 to +4 532 F)+40 to +1 820 C (+104 to +3 308 F) 270 to +1 000 C (454 to +1 832 F)210 to +1 200 C (346 to +2 192 F)270 to +1 372 C (454 to +2 501 F)270 to +1 300 C (454 to +2 372 F)50 to +1 768 C (58 to +3 214 F)50 to +1 768 C (58 to +3 214 F)260 to +400 C (436 to +752 F)0 to +2 500 C (+32 to +4 532 F) +500 to +1 820 C (+932 to +3 308 F)150 to +1 000 C (238 to +1 832 F)150 to +1 200 C (238 to +2 192 F)150 to +1 200 C (238 to +2 192 F)150 to +1 300 C (238 to +2 372 F) +50 to +1 768 C (+122 to +3 214 F)+50 to +1 768 C (+122 to +3 214 F)150 to +400 C (238 to +752 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)50 K (90 F)IEC 60584, Part 1; ASTM E988-96Type C (W5Re-W26Re) (32) 0 to +2 315 C (+32 to +4 199 F) 0 to +2 000 C (+32 to +3 632 F) 50 K (90 F)ASTM E988-96 Type D (W3Re-W25Re) (33) 0 to +2 315 C (+32 to +4 199 F) 0 to +2 000 C (+32 to +3 632 F) 50 K (90 F)DIN 43710Type L (Fe-CuNi) (41) Type U (Cu-CuNi) (42)200 to +900 C (328 to +1 652 F)200 to +600 C (328 to +1 112 F)150 to +900 C (238 to +1 652 F)150 to +600 C (238 to +1 112 F)50 K (90 F)GOSTR8.8585-2001Type L (NiCr-CuNi) (43) 200 to +800 C (328 to +1 472 F) 200 to +800 C (+328 to +1 472 F) 50 K (90 F)Endress+Hauser V. 1, Rev. 2, 4-10-2018 45 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTTechnical dataiTEMP TMT71/72Thermocouples as per standardVoltagetransmitter (mV)Designation Measuring range limits Min. span Internal cold junction (Pt100) External cold junction: configurable value 40 to +85 C (40 to +185 F) Maximum sensor wire resistance 10 k (If the sensor wire resistance is greater than 10 k, an error message is output inaccordance with NAMUR NE89.)Millivolt transmitter (mV) 20 to 100 mV 5 mV13.2 OutputOutput signal Analog output 4 to 20 mA, 20 to 4 mA (can be inverted)Signal encoding FSK 0.5 mA via current signalData transmission rate 1200 baudGalvanic isolation U = 2 kV AC (input/output)Failure information Failure information as per NAMUR NE43:Failure information is created if the measuring information is missing or not valid. A complete list of all the errors occurring in the measuring system is created.Underranging Linear drop from 4.0 to 3.8 mAOverranging Linear increase from 20.0 to 20.5 mAFailure e.g. sensor failure; sensor short-circuit 3.6 mA ("low") or 21 mA ("high"), can be selectedThe "high" alarm setting can be set between 21.5 mA and 23 mA, thus providing the flexibility needed to meet therequirements of various control systems. Only the "low" alarmsetting is possible in the SIL mode.LoadRb max.= (Ub max. - 10 V) / 0.023 A (current output). Valid for head transmitterLoad (! )1130880250010 V 15.75 V 30.25 V 36 VUbSupply voltage (V DC)A0036051-ENLinearization/transmission Temperature-linear, resistance-linear, voltage-linearbehaviorNetwork frequency filter 50/60 HzFilter 1st order digital filter: 0 to 120 sProtocol-specific data Manufacturer ID 17 (0x11)Device type ID 0x11D046 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical dataHART specification 7Device address in multi-drop mode Software setting addresses0 to 63Device description files (DTM, DD) Information and files under:www.endress.com www.fieldcommgroup.orgHART load min. 250 HART device variables Measured value for primary process value (PV)Sensor (measured value)Measured values for SV, TV, QV (second, third and fourth device variable) SV: Device temperature TV: Sensor (measured value) QV: Sensor (measured value)Supported functions Squawk Condensed statusWireless HART dataMinimum starting voltage 10 VDCStart-up current 3.58 mAStarting time 7 sMinimum operating voltage 10 VACMultidrop current 4.0 mATime for connection setup 9 sWrite protection for device parameters Hardware: Write protection for head transmitter on optional display using DIP switch Software: User role concept (password definition)Switch-on delay 7 s until the first valid measured value signal is present at the current output and untilstart of HART communication. While switch-on delay = Ia 3.8 mA13.3 Power supplySupply voltage Values for non-hazardous areas, protected against polarity reversal:Head transmitter: 10 V Vcc 36 VValues for hazardous areas, see Ex documentation .Current consumption 3.6 to 23 mA Minimum current consumption 3.5 mA Current limit 23 mATerminals Terminal version Cable version Cable cross-sectionScrew terminals Rigid or flexible 2.5 mm (14 AWG)Endress+Hauser V. 1, Rev. 2, 4-10-2018 47 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTTechnical dataiTEMP TMT71/7213.4 Performance characteristicsResponse time The measured value update depends on the type of sensor and connection method andmoves within the following ranges:Resistance thermometer (RTD) 1 sThermocouples (TC) 1 sReference temperature 0.9 sReference operating conditionsWhen recording step responses, it must be taken into account that the times the internal reference measuring point are added to the specified times where applicable. Calibration temperature: +25 C 3 K (77 F 5.4 F) Supply voltage: 24 V DC 4-wire circuit for resistance adjustmentMaximum measured error In accordance with DIN EN 60770 and the reference conditions specified above. Themeasured error data correspond to 2 s (Gaussian distribution). The data include non-linearities and repeatability.TypicalStandard Designation Measuring range Typical measured error ()Resistance thermometer (RTD) as per standard Digital value 1)Value at currentoutputIEC 60751:2008 Pt100 (1)IEC 60751:2008 Pt1000 (4) 0 to +200 C (32 to +392 F)0.07 C (0.13 F) 0.10 C (0.18 F)0.05 C (0.09 F) 0.08 C (0.14 F)GOST 6651-94 Pt100 (9) 0.06 C (0.11 F) 0.09 C (0.16 F)Thermocouples (TC) as per standard Digital valueValue at currentoutputIEC 60584, Part 1 Type K (NiCr-Ni) (36)IEC 60584, Part 1 Type S (PtRh10-Pt) (39) 0 to +800 C (32 to +1 472 F)0.60 C (1.08 F) 0.64 C (1.15 F)1.83 C (3.29 F) 1.84 C (3.31 F)GOST R8.8585-2001 Type L (NiCr-CuNi) (43) 2.45 C (4.41 F) 2.46 C (4.43 F)1) Measured value transmitted via HART.Measured error for resistance thermometers (RTD) and resistance transmittersStandard Designation Measuring range Measured error ()Pt100 (1)200 to +850 C(328 to +1 562 F)Maximum 3) 0.1 C (0.19 F)Digital 1) D/A 2)In relation to measuredvalue 4)ME = (0.05 C (0.09 F) +0.006% * (MV - LRV))IEC 60751:2008Pt200 (2) 0.20 C (0.36 F)Pt500 (3) 200 to +510 C (328 to +950 F) 0.1 C (0.19 F)Pt1000 (4) 200 to +250 C (328 to +482 F) 0.06 C (0.11 F)0.011% * (MV - LRV))ME = (0.035 C (0.063 F)+ 0.008% * (MV - LRV))ME = (0.02 C (0.04 F) +0.007% * (MV - LRV))0.03 % (4.8 A)48 V. 1, Rev. 2, 4-10-2018 Endress+HauserME = (0.08 C (0.14 F) +DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical dataStandard Designation Measuring range Measured error ()JIS C1604:1984 Pt100 (5) 200 to +510 C (328 to +950 F) 0.09 C (0.16 F)Digital 1) D/A 2)ME = (0.05 C (0.09 F) +0.006% * (MV - LRV))Pt50 (8)Pt100 (9) Ni100 (6)185 to +1 100 C (301 to +2 012 F)200 to +850 C(328 to +1 562 F) 0.18 C (0.32 F) 0.11 C (0.2 F)ME = (0.07 C (0.13 F) +0.008% * (MV - LRV))ME = (0.05 C (0.09 F) +0.006% * (MV - LRV))DIN 43760 IPTS-68Ni120 (7)60 to +250 C (76 to +482 F) 0.04 C (0.07 F)0.004% * (MV - LRV))OIML R84: 2003 /GOST 6651-2009Cu50 (10) 180 to +200 C (292 to +392 F) 0.06 C (0.11 F)Cu100 (11) 180 to +200 C (292 to +392 F) 0.04 C (0.07 F)ME = (0.08 C (0.14 F) +0.006% * (MV - LRV))ME = (0.04 C (0.07 F) +0.003% * (MV - LRV))0.03 % (4.8 A)Ni100 (12)60 to +180 C (76 to +356 F) 0.10 C (0.18 F) ME = (0.04 C (0.07 F) -0.004% * (MV - LRV))ME = (0.09 C (0.16 F) +0.004% * (MV - LRV))Resistance transmitterResistance 10 to 400 29.5m ME = (17 m + 0.0034 %* (MV - LRV))10 to 2 000 179.4m ME = (60 m + 0.006 % *(MV - LRV))0.03 % (4.8 A)1)Measured value transmitted via HART.2)Percentages based on the configured span of the analog output signal.3)Maximum measured error for the specified measuring range.4)Deviations from maximum measured error possible due to rounding.Measured error for thermocouples (TC) and voltage transmittersStandard Designation Measuring range Measured error ()Maximum 3)Type A (30) 0 to +2 500 C (+32 to +4 532 F) 1.65 C (2.97 F)Digital 1) D/A 2)In relation to measuredvalue 4)ME = (1.0 C (1.8 F) +0.018% * (MV - LRV))IEC 60584-1 / ASTME988-96Type B (31) Type C (32)+500 to +1 820 C (+932 to +3 308 F)0 to +2 000 C (+32 to +3 632 F) 2.1 C (3.8 F) 0.86 C (1.55 F)ME = (2.1 C (3.8 F) -0.055% * (MV - LRV))ME = (0.75 C (1.35 F) +0.0055% * (MV - LRV))Type E (34)Type J (35)Type N (37) Type R (38)150 to +1 000 C (238 to +1 832 F)150 to +1 200 C (238 to +2 192 F)150 to +1 300 C (238 to +2 372 F)+50 to +1 768 C (+122 to +3 214 F) 0.16 C (0.29 F) 0.23 C (0.41 F) 0.34 C (0.61 F) 0.9 C (1.62 F)0.008% * (MV - LRV))ME = (0.3 C (0.54 F) -0.006% * (MV - LRV))ME = (0.36 C (0.65 F) -0.005% * (MV - LRV))0.005% * (MV - LRV))ME = (0.7 C (1.26 F) -0.014% * (MV - LRV))ME = (1.6 C (2.88 F) -0.026% * (MV - LRV))0.03 % (4.8 A)0.03 % (4.8 A)Endress+Hauser V. 1, Rev. 2, 4-10-2018 49GOST 6651-94ME = (0.04 C (0.07 F) -OIML R84: 2003, GOST6651-94Ni120 (13) 0.05 C (0.09 F)Cu50 (14) 50 to +200 C (58 to +392 F) 0.11 C (0.2 F)IEC 60584-1ASTM E988-96 Type D (33) 0.78 C (1.4 F)ME = (1.1 C (1.98 F) -IEC 60584-1 Type K (36) 0.37 C (0.67 F)ME = (0.5 C (0.9 F) -DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTTechnical dataiTEMP TMT71/72Standard Designation Measuring range Measured error ()Type S (39) 1.08 C (1.94 F)Type T (40) 150 to +400 C (238 to +752 F) 0.23 C (0.41 F)Digital 1) D/A 2)ME = (1.60 C (2.88 F) -0.022% * (MV - LRV))ME = (0.5 C (0.9 F) -0.04% * (MV - LRV))Type L (41) DIN 43710Type U (42)GOST R8.8585-2001 Type L (43)150 to +900 C(238 to +1 652 F)150 to +600 C(238 to +1 112 F)200 to +800 C(328 to +1 472 F) 0.22 C (0.4 F) 0.15 C (0.27 F) 2.15 C (3.87 F)ME = (0.39 C (0.7 F) -0.008% * (MV - LRV))ME = (0.45 C (0.81 F) -0.025% * (MV - LRV))ME = (2.3 C (4.14 F) -0.015% * (MV - LRV))Voltage transmitter(mV)1)Measured value transmitted via HART.20 to +100 mV 10.0 V ME = (10.0 V + 0.0018%* (MV - LRV))4.8 A2)Percentages based on the configured span of the analog output signal.3)Maximum measured error for the specified measuring range.4)Deviations from maximum measured error possible due to rounding.MV = Measured valueLRV = Lower range value of relevant sensorTotal measured error of transmitter at current output = (Measured error digital + Measured error D/A)Sample calculation with Pt100, measuring range 0 to +200 C (+32 to +392 F), ambient temperature +25 C (+77 F), supply voltage 24 V:Measured error digital = 0.05 C + 0.006% x (200 C - (-200 C)): 0.07 C (0.126 F)Measured error D/A = 0.003 % x 200 C (360 F) 0.06 C (0.108 F)Measured error digital value (HART): 0.07 C (0.126 F)Measured error analog value (current output): (Measured error digital + 0.10 C (0.18 F)Measured error D/A)Sample calculation with Pt100, measuring range 0 to +200 C (+32 to +392 F), ambient temperature +35 C (+95 F), supply voltage 30 V:Measured error digital = 0.04 C + 0.006% x (200 C - (-200 C)): 0.07 C (0.126 F)Measured error D/A = 0.03 % x 200 C (360 F) 0.06 C (0.108 F)Influence of ambient temperature (digital) = (35 - 25) x (0.013% x 200 C - 0.05 C (0.09 F)(-200 C)), min. 0.003 CInfluence of ambient temperature (D/A) = (35 - 25) x (0.003% x 200 C) 0.06 C (0.108 F)Influence of supply voltage (digital) = (30 - 24) x (0.007% x 200 C - (-200 C)), 0.02 C (0.036 F)min. 0.005 CInfluence of supply voltage (D/A) = (30 - 24) x (0.003% x 200 C) 0.04 C (0.72 F)50 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical dataMeasured error digital value (HART):(Measured error digital + Influence of ambient temperature (digital) + Influence of supply voltage (digital)Measured error analog value (current output):(Measured error digital + Measured error D/A + Influence of ambient temperature (digital) + Influence of ambient temperature (D/A) + Influence of supply voltage (digital) + Influence of supply voltage (D/A)0.10 C (0.18 F)0.13 C (0.23 F)The measured error data correspond to 2 s (Gaussian distribution). MV = Measured valueLRV = Lower range value of relevant sensorPhysical input measuring range of sensors10 to 400 Cu50, Cu100, polynomial RTD, Pt50, Pt100, Ni100, Ni12010 to 2 000 Pt200, Pt500, Pt100020 to 100 mV Thermocouples type: A, B, C, D, E, J, K, L, N, R, S, T, USensor adjustment Sensor transmitter matchingRTD sensors are one of the most linear temperature measuring elements. Nevertheless, the output must be linearized. To significantly improve temperature measurement accuracy, the device allows the use of two methods: Callendar-Van-Dusen coefficients (Pt100 resistance thermometer)The Callendar-Van-Dusen equation is described as:RT = R0[1+AT+BT+C(T-100)T]The coefficients A, B and C are used to match the sensor (platinum) and transmitter in order to improve the accuracy of the measuring system. The coefficients for a standard sensor are specified in IEC 751. If no standard sensor is available or if greater accuracy is required, the coefficients for each sensor can be determined specifically with the aid of sensor calibration. Linearization for copper/nickel resistance thermometers (RTD)The polynomial equation for copper/nickel is as follows:RT = R0(1+AT+BT)The coefficients A and B are used for the linearization of nickel or copper resistance thermometers (RTD). The exact values of the coefficients derive from the calibration data and are specific to each sensor. The sensor-specific coefficients are then sent to the transmitter.Sensor transmitter matching using one of the methods explained above significantly improves the temperature measurement accuracy of the entire system. This is because the transmitter uses the specific data pertaining to the connected sensor to calculate the measured temperature, instead of using the standardized sensor curve data.1-point adjustment (offset)Shifts the sensor valueCurrent output adjustment Correction of 4 or 20 mA current output value.Endress+Hauser V. 1, Rev. 2, 4-10-2018 51 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTTechnical dataiTEMP TMT71/72Operating influences The measured error data correspond to 2 s (Gaussian distribution).Influence of ambient temperature and supply voltage on operation for resistance thermometers (RTD) and resistance transmittersDesignation StandardAmbient temperature:Influence () per 1 C (1.8 F) changeSupply voltage:Influence () per V changeDigital 1) D/A 2) Digital D/AMaximum Based on measured value Maximum Based on measured valuePt100 (1)Pt200 (2)Pt500 (3) Pt1000 (4)IEC60751:2008 0.013 C (0.023 F) 0.017 C (0.031 F) 0.008 C (0.014 F) 0.005 C (0.009 F)0.0013% * (MV - LRV),at least 0.003 C (0.005 F)-0.0013% * (MV - LRV),at least 0.006 C (0.011 F)- 0.003 % 0.007 C (0.013 F) 0.009 C (0.016 F) 0.004 C (0.007 F) 0.003 C (0.005 F)0.007% * (MV - LRV),at least 0.003 C (0.005 F)-0.007% * (MV - LRV),at least 0.006 C (0.011 F)- 0.003 %Pt100 (5) JIS C1604:1984Pt50 (8)GOST 6651-94 0.009 C (0.016 F) 0.017 C (0.031 F)0.0013% * (MV - LRV),at least 0.003 C (0.005 F)0.0015% * (MV - LRV), at least 0.01 C (0.018 F) 0.004 C (0.007 F) 0.009 C (0.016 F)0.007% * (MV - LRV),at least 0.003 C (0.005 F)0.007% * (MV - LRV),at least 0.01 C (0.018 F)Pt100 (9)Ni100 (6)Ni120 (7) Cu50 (10)Cu100 (11)Ni100 (12)Ni120 (13)Cu50 (14)DIN 43760IPTS-68OIML R84:2003 /GOST6651-2009OIML R84:2003 /GOST 6651-94 0.013 C(0.023 F) 0.003 C (0.005 F) 0.005 C (0.009 F) 0.004 C (0.007 F) 0.003 C (0.005 F) 0.005 C (0.009 F)0.0013% * (MV - LRV),at least 0.003 C (0.005 F)------- 0.007 C(0.013 F) 0.001 C (0.002 F) 0.005 C (0.009 F) 0.004 C0.003 % (0.007 F) 0.003 C (0.005 F) 0.005 C (0.009 F)0.007% * (MV - LRV),at least 0.003 C (0.005 F)-------0.003 %Resistance transmitter ()10 to 400 4 m0.001% * MV,at least 1 m0.003 % 2 m0.0005% * MV,at least 1 m0.003 %at least 15 m at least 5 m1)Measured value transmitted via HART.2)Percentages based on the configured span of the analog output signalInfluence of ambient temperature and supply voltage on operation for thermocouples (TC) and voltage transmittersDesignation StandardAmbient temperature:Influence () per 1 C (1.8 F) changeSupply voltage:Influence () per V changeDigital 1) D/A 2) Digital D/AMaximum Based on measured value Maximum Based on measured valueType A (30) Type B (31)IEC 60584-1 0.07 C(0.126 F) 0.04 C(0.072 F)0.003% * (MV - LRV),at least 0.013 C (0.023 F)-0.003 % 0.03 C(0.054 F) 0.02 C(0.036 F)0.0012% * (MV - LRV),at least 0.013 C (0.023 F)-0.003 %52 V. 1, Rev. 2, 4-10-2018 Endress+Hauser10 to 2 000 20 m 0.001% * MV, 10 m 0.0005% * MV, DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical dataDesignation StandardAmbient temperature:Influence () per 1 C (1.8 F) changeSupply voltage:Influence () per V changeDigital 1) D/A 2) Digital D/AType C (32)Type N (37) Type R (38)Type S (39) Type T (40)Type L (41)Type L (43)IEC 60584-1 / ASTM E988-96IEC 60584-1DIN 43710orGOSTR8.8585-2001 0.04 C(0.072 F) 0.04 C(0.072 F) 0.02 C(0.036 F) 0.02 C(0.036 F) 0.03 C(0.054 F) 0.01 C(0.018 F)0.0021% * (MV - LRV),at least 0.012 C (0.022 F)0.0019% * (MV - LRV),at least 0.016 C (0.029 F)0.0014% * (MV - LRV),at least 0.005 C (0.009 F)0.0014% * (MV - LRV), at least 0.01 C (0.018 F)0.0015% * (MV - LRV),at least 0.007 C (0.013 F)0.0014% * (MV - LRV),at least 0.010 C (0.018 F)----- 0.02 C(0.036 F) 0.02 C(0.036 F) 0.01 C(0.018 F) 0.01 C(0.018 F) 0.02 C(0.036 F)0.0 C(0.0 F) 0.01 C(0.018 F)(0.0 F) 0.01 C(0.018 F)0.0012% * (MV - LRV),at least 0.013 C (0.023 F)0.0011% * (MV - LRV),at least 0.0 C (0.0 F)0.0008% * (MV - LRV),at least 0.0 C (0.0 F)0.0008% * MV,at least 0.0 C (0.0 F)0.0009% * (MV - LRV),at least 0.0 C (0.0 F)0.0008% * MV,at least 0.0 C (0.0 F)-----Voltage transmitter (mV)0.003 % 0.003 %20 to 100 mV - 1,5 V 0.0015% * MV 0,8 V 0.0008% * MV1)Measured value transmitted via HART.2)Percentages based on the configured span of the analog output signalMV = Measured valueLRV = Lower range value of relevant sensorTotal measured error of transmitter at current output = (Measured error digital + Measured error D/A)Long-term drift, resistance thermometers (RTD) and resistance transmittersDesignation Standard Long-term drift () 1)after 1 month after 6 months after 1 year after 3 years after 5 yearsbased on measured valuesPt100 (1) 0.039% * (MV - LRV) or 0.01 C (0.02 F) 0.061% * (MV - LRV) or 0.02 C (0.04 F) 0.007% * (MV - LRV) or0.02 C (0.04 F) 0.0093% * (MV - LRV) or0.03 C (0.05 F) 0.0102% * (MV - LRV) or0.03 C (0.05 F)Pt200 (2) 0.05 C (0.09 F) 0.05 C (0.09 F) 0.09 C (0.17 F) 0.12 C (0.27 F) 0.13 C (0.24 F)Pt500 (3)Pt1000 (4)IEC60751:2008 0.048% * (MV - LRV) or 0.01 C (0.02 F) 0.0075% * (MV - LRV) or0.02 C (0.04 F) 0.0077% * (MV - LRV) or0.02 C (0.04 F) 0.068% * (MV - LRV) or0.03 C (0.06 F) 0.0088% * (MV - LRV) or0.02 C (0.04 F) 0.011% * (MV - LRV) or0.03 C (0.05 F) 0.0114% * (MV - LRV) or0.03 C (0.05 F) 0.0124% * (MV - LRV) or0.04 C (0.07 F) 0.013% * (MV - LRV) or0.03 C (0.05 F)Endress+Hauser V. 1, Rev. 2, 4-10-2018 53Type D (33) ASTM E988-96Type E (34)Type J (35)Type K (36)Type U (42) -0.003 %0.0 C0.003 %-DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTTechnical dataiTEMP TMT71/72Designation Standard Long-term drift () 1)Pt100 (5)Pt50 (8)Pt100 (9) Ni100 (6)JISC1604:1984GOST6651-94 0.039% * (MV - LRV) or 0.01 C (0.02 F) 0.042% * (MV - LRV) or 0.02 C (0.04 F) 0.016% * (MV - LRV) or 0.04 C (0.07 F) 0.0061% * (MV - LRV) or0.02 C (0.04 F) 0.0068% * (MV - LRV) or0.04 C (0.07 F) 0.0061% * (MV - LRV) or0.02 C (0.04 F) 0.007% * (MV - LRV) or0.02 C (0.04 F) 0.0076% * (MV - LRV) or0.04 C (0.08 F) 0.007% * (MV - LRV) or0.02 C (0.04 F) 0.0093% * (MV - LRV) or0.03 C (0.05 F) 0.01% * (MV - LRV) or0.06 C (0.11 F) 0.0093% * (MV - LRV) or0.03 C (0.05 F) 0.0102% * (MV - LRV) or0.03 C (0.05 F) 0.011% * (MV - LRV) or0.07 C (0.12 F) 0.0102% * (MV - LRV) or0.03 C (0.05 F)Ni120 (7) Cu50 (10)Cu100 (11)Ni100 (12)Ni120 (13)Cu50 (14)IPTS-68OIML R84:2003 /GOST6651-2009OIML R84:2003 /GOST6651-940.01 C (0.02 F) 0.01 C (0.02 F) 0.02 C (0.04 F) 0.02 C (0.04 F) 0.02 C (0.04 F)0.02 C (0.04 F) 0.03 C (0.05 F) 0.04 C (0.07 F) 0.05 C (0.09 F) 0.05 C (0.09 F)0.02 C (0.04 F) 0.02 C (0.04 F) 0.03 C (0.05 F) 0.04 C (0.07 F)0.01 C (0.02 F)0.01 C (0.02 F) 0.02 C (0.04 F) 0.02 C (0.04 F) 0.02 C (0.04 F)0.02 C (0.04 F) 0.03 C (0.05 F) 0.04 C (0.07 F) 0.05 C (0.09 F) 0.05 C (0.09 F)Resistance transmitters10 to 400 0.003% * MV or 4 m 0.0048% * MV or 6 m 0.0055% * MV or 7 m 0.0073% * MV or 10 m 0.008% * (MV - LRV) or 11 m10 to 2 000 0.0038% * MV or25 m1) Whichever is greater 0.006% * MV or 40 m 0.007% * (MV - LRV) or 47 m 0.009% * (MV - LRV) or 60 m 0.0067% * (MV - LRV) or 67 mLong-term drift, thermocouples (TC) and voltage transmittersDesignation Standard Long-term drift () 1)after 1 month after 6 months after 1 year after 3 years after 5 yearsType A (30)based on measured values 0.021% * (MV - LRV)IEC 60584-1 or 0.34 C (0.61 F) 0.037% * (MV - LRV) or 0.59 C (1.06 F) 0.044% * (MV - LRV) or0.70 C (1.26 F) 0.058% * (MV - LRV) or0.93 C (1.67 F) 0.063% * (MV - LRV) or1.01 C (1.82 F)Type B (31) 0.80 C (1.44 F) 1.40 C (2.52 F) 1.66 C (2.99 F) 2.19 C (3.94 F) 2.39 C (4.30 F)Type C (32)IEC60584-1 /ASTME988-960.34 C (0.61 F) 0.58 C (1.04 F) 0.70 C (1.26 F) 0.92 C (1.66 F) 1.00 C (1.80 F)Type D (33) Type E (34)ASTME988-960.42 C (0.76 F) 0.73 C (1.31 F) 0.87 C (1.57 F) 1.15 C (2.07 F) 1.26 C (2.27 F)0.13 C (0.23 F) 0.22 C (0.40 F) 0.26 C (0.47 F) 0.34 C (0.61 F) 0.37 C (0.67 F)Type J (35) 0.15 C (0.27 F) 0.26 C (0.47 F) 0.31 C (0.56 F) 0.41 C (0.74 F) 0.44 C (0.79 F)Type K (36) 0.17 C (0.31 F) 0.30 C (0.54 F) 0.36 C (0.65 F) 0.47 C (0.85 F) 0.51 C (0.92 F)Type N (37) IEC 60584-1Type R (38)0.25 C (0.45 F) 0.44 C (0.79 F) 0.52 C (0.94 F) 0.69 C (1.24 F) 0.75 C (1.35 F)1.28 C (2.30 F) 1.69 C (3.04 F)0.62 C (1.12 F) 1.08 C (1.94 F) 1.85 C (3.33 F)Type S (39) 1.29 C (2.32 F) 1.70 C (3.06 F)Type T (40) 0.18 C (0.32 F) 0.32 C (0.58 F) 0.38 C (0.68 F) 0.50 C (0.90 F) 0.54 C (0.97 F)Type L (41) DIN 43710 0.12 C (0.22 F) 0.21 C (0.38 F) 0.25 C (0.45 F) 0.33 C (0.59 F) 0.36 C (0.65 F)54 V. 1, Rev. 2, 4-10-2018 Endress+HauserDIN 43760 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Technical dataDesignation Standard Long-term drift () 1)Type U (42) 0.18 C (0.32 F) 0.31 C (0.56 F) 0.37 C (0.67 F) 0.49 C (0.88 F) 0.53 C (0.95 F)GOSTType L (43) R8.8585-200 0.15 C (0.27 F) 0.26 C (0.47 F) 0.31 C (0.56 F) 0.41 C (0.74 F) 0.44 C (0.79 F)Voltage transmitters (mV)20 to 100 mV1) Whichever is greater 0.012% * MV or 4 V 0.021% * MV or 7 V 0.025% * MV or 8 V 0.033% * MV or 11 V 0.036% * MV or 12 VAnalog output long-term driftInfluence of the cold junctionAmbient temperature rangeD/A long-term drift 1) ()after 1 month after 6 months after 1 year after 3 years after 5 years0.018% 0.026% 0.030% 0.036% 0.038%1) Percentages based on the configured span of the analog output signal.Pt100 DIN IEC 60751 Cl. B (internal cold junction with thermocouples TC)If an external 2-wire RTD is used for the cold junction measurement, the measured error caused by the transmitter is < 0.5 C (0.9 F). The measured error of the sensor element also needs to be added.13.5 Environment40 to +85 C (40 to +185 F), for hazardous areas see Ex documentationStorage temperature Head transmitter: 50 to +100 C (58 to +212 F)Altitude Up to 4000 m (4374.5 yards) above mean sea level as per IEC 61010-1, CAN/CSA C22.2No. 61010-1Humidity Condensation as per IEC 60 068-2-33:Head transmitter permitted Max. rel. humidity: 95% as per IEC 60068-2-30Climate class Head transmitter: climate class C1 as per EN 60654-1Degree of protection Head transmitter with screw terminals: IP 00. In installed state, depends on the terminalShock and vibration resistancehead or field housing used. When installing in field housing TA30A, TA30D or TA30H: IP 66/67 (NEMA Type 4xencl.)Vibration resistance as per DNVGL-CG-0339 : 2015 and DIN EN 60068-2-27Head transmitter: 2 to 100 Hz at 4g (increased vibration stress)Shock resistance as per KTA 3505 (section 5.8.4 Shock test)Endress+Hauser V. 1, Rev. 2, 4-10-2018 55 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT24.1(0.95)33(1.3)44(1.73)7(0.28)Technical dataiTEMP TMT71/72Electromagnetic compatibility (EMC)CE complianceElectromagnetic compatibility in accordance with all the relevant requirements of the IEC/EN 61326 series and NAMUR Recommendation EMC (NE21). For details, refer to the Declaration of Conformity. All tests were passed both with and without ongoing digital HART communication.Maximum measured error <1% of measuring range.Interference immunity as per IEC/EN 61326 series, industrial requirementsInterference emission as per IEC/EN 61326 series, Class B equipmentMeasuring category Measuring category II as per IEC 61010-1. The measuring category is provided formeasuring on power circuits that are directly connected electrically with the low-voltagenetwork.Degree of contamination Pollution degree 2 as per IEC 61010-1.13.6 Mechanical constructionDesign, dimensions Dimensions in mm (in)Head transmitter! 5 (0.2)CABA0036303 14 Version with screw terminalsA Spring travel L 5 mm (not for US - M4 securing screws)B Mounting elements for attachable measured value display TID10C Service interface for connecting measured value display or configuration toolField housingAll field housings have an internal geometry in accordance with DIN EN 50446, form B (flat face). Cable glands in the diagrams: M20x1.5Maximum ambient temperatures for cable glandsType Temperature rangePolyamide cable gland " NPT, M20x1.5 (non-Ex) 40 to +100 C (40 to 212 F)Polyamide cable gland M20x1.5 (for dust ignition-proof area) 20 to +95 C (4 to 203 F)Brass cable gland " NPT, M20x1.5 (for dust ignition-proof area) 20 to +130 C (4 to +266 F)56 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT68.5 (2.7)15.5 (0.6)91.6 (3.61)15.5 (0.6)89.5 (3.52)20.5 (0.8)iTEMP TMT71/72Technical dataTA30A Specification107.5 (4.23) Two cable entries Temperature: 50 to +150 C (58 to +302 F) without cablegland Material: aluminum, polyester powder coatedSeals: silicone Cable entry glands: 1/2" NPT and M20x1.5 Color of head: blue, RAL 5012 Color of cap: gray, RAL 7035 Weight: 330 g (11.64 oz)28(1.1) 78 (3.1)A0009820TA30A with display window in cover Specification107.5 (4.23) Two cable entries Temperature: 50 to +150 C (58 to +302 F) without cablegland Material: aluminum, polyester powder coatedSeals: silicone Cable entry glands: 1/2" NPT and M20x1.5 Color of head: blue, RAL 5012 Color of cap: gray, RAL 7035 Weight: 420 g (14.81 oz)28(1.1)78 (3.1)A0009821TA30H Specification125 (4.92)78 (3.01) Flameproof (XP) version, explosion-protected, captive screwcap, with two cable entries Temperature: 50 to +150 C (58 to +302 F) for rubber sealwithout cable gland (observe max. permitted temperature of cable gland!) Material: Aluminum with polyester powder coating Stainless steel 316L without coating Cable entry glands: " NPT, M20x1.5 Color of aluminum head: blue, RAL 5012 Color of aluminum cap: gray, RAL 7035 Weight: Aluminum: approx. 640 g (22.6 oz) Stainless steel: approx. 2 400 g (84.7 oz)A0009832Endress+Hauser V. 1, Rev. 2, 4-10-2018 5728(1.1) DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT115 (4.53)20.5 (0.8)110 (4.3)15.5 (0.6)Technical dataiTEMP TMT71/72TA30H with display window in cover Specification125 (4.92)28(1.1) 78 (3.01) Flameproof (XP) version, explosion-protected, captive screwcap, with two cable entries Temperature: 50 to +150 C (58 to +302 F) for rubber sealwithout cable gland (observe max. permitted temperature of cable gland!) Material: Aluminum with polyester powder coating Stainless steel 316L without coating Cable entry glands: " NPT, M20x1.5 Color of aluminum head: blue, RAL 5012 Color of aluminum cap: gray, RAL 7035 Weight: Aluminum: approx. 860 g (30.33 oz) Stainless steel: approx. 2 900 g (102.3 oz)A0009831TA30D Specification107.5 (4.23) 2 cable entries Temperature: 50 to +150 C (58 to +302 F) without cablegland Material: aluminum, polyester powder coatedSeals: silicone Cable entry glands: 1/2" NPT and M20x1.5 Two head transmitters can be mounted. In the standardconfiguration one transmitter is mounted in the terminal head cover and an additional terminal block is installed directly on the insert. Color of head: blue, RAL 5012 Color of cap: gray, RAL 7035 Weight: 390 g (13.75 oz)28(1.1) 78 (3.1)A0009822Weight Head transmitter: approx. 40 to 50 g (1.4 to 1.8 oz) Field housing: see specificationsMaterials All the materials used are RoHS-compliant. Housing: polycarbonate (PC), corresponds to UL94, V-2 UL recognized Terminals:Screw terminals: nickel-plated brass and gold-plated contacts Potting (head transmitter): QSIL 553Field housing: see specifications13.7 Certificates and approvalsCE mark The product meets the requirements of the harmonized European standards. As such, itcomplies with the legal specifications of the EC directives. The manufacturer confirmssuccessful testing of the product by affixing to it the CE-mark.58 V. 1, Rev. 2, 4-10-2018 Endress+Hauser T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D iTEMP TMT71/72 Ex approval Technical data Information about currently available Ex versions (ATEX, FM, CSA, etc.) can be supplied by your E+H Sales Center on request. All explosion protection data are given in separate documentation which is available upon request. UL approval UL recognized component (see www.ul.com/database, search for Keyword "E225237") CSA GP CAN/CSA-C22.2 No. 61010-1, 2nd edition HART certification The temperature transmitter is registered by the HART Communication Foundation. The device meets the requirements of the HART Communication Protocol Specifications, Revision 7.0. Marine approvals For the type approval certificates (GL, BV etc.) currently available, please contact your Endress+Hauser Sales Center for information. All data relating to shipbuilding can be found in separate type approval certificates which can be requested as needed. Radio approval The device has Bluetooth radio approval in accordance with the Radio Equipment Directive (RED) and the Federal Communications Commission (FCC) 15.247 for the USA. Europe This device meets the requirements of the Radio Equipment Directive RED 2014/53/EU:
EN 300 328 EN 301 489-1 EN 301 489-17 Kanada and USA English:
This device complies with Part 15 of the FCC Rules and with Industry Canada licenceexempt RSS standard(s). Franais:
Le prsent appareil est conforme aux CNR d'industrie Canada applicables aux appareils radio exempts de licence. Operation is subject to the following two conditions: L'exploitation est autorise aux deux conditions This device may not cause harmful interference, and This device must accept any interference received, suivantes :
L'appareil ne doit pas produire de brouillage, et L'utilisateur de l'appareil doit accepter tout brouillage including interference that may cause undesired operation. radiolectrique subi, mme si le brouillage est susceptible d'en compromettre le fonctionnement. Changes or modifications made to this equipment Les changements ou modifications apportes cet not expressly approved by Endress+Hauser may void appareil non expressment approuve par Endress the user's authorization to operate this equipment.
+Hauser peut annuler l'autorisation de l'utilisateur d'oprer cet appareil. Dclaration dexposition aux radiations:
Cet quipement est conforme aux limites dexposition aux rayonnements IC tablies pour un environnement non contrl. Cet quipement doit tre install et utilis avec un minimum de 20 cm de distance entre la source de rayonnement et votre corps. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Endress+Hauser V. 1, Rev. 2, 4-10-2018 59 Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. This equipment complies with FCC and IC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator and your body. MTTF Without Bluetooth wireless technology: 168 years With Bluetooth wireless technology: 123 years according to EN ISO 13849-1 Other standards and guidelines IEC 60529:
Degree of protection provided by housing (IP code) IEC/EN 61010-1:
Safety requirements for electrical equipment for measurement, control and laboratory use IEC/EN 61326 Series:
Electromagnetic compatibility (EMC requirements) This Class B digital apparatus complies with Canadian ICES-003 Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. Compliance Label: CAN ICES-3 (B)/NMB-3(B) 13.8 Supplementary documentation Supplementary ATEX documentation:
ATEX: II1G Ex ia IIC T6...T4 Ga: XA01736T/09/a3 ATEX II2G Ex d IIC: XA0xxxxT/09/a3 (transmitter in field housing) ATEX II2(1)G Ex ia IIC: XA0xxxxT/09/a3 (transmitter in field housing) V. 1, Rev. 2, 4-10-2018 Endress+Hauser T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D T F A R D 60 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter description14 Operating menu and parameter descriptionThe following tables list all the parameters in the "Guidance, Diagnostics, Application and System" operating menus. The page number refers to where a description of the parameter can be found.Depending on the parameter configuration, not all submenus and parameters are available in every device. Information on this can be found in the parameter description under "Prerequisite".This symbol indicates how to navigate to the parameter using operating tools (e.g.FieldCare).Guidance Commissioning Guidance Create documentation 1)Save / Restore 1) Compare 1)StartCommissioning wizard 321) These parameters only appear in FDT/DTM-based operating tools, such as Endress+Hauser's FieldCare and DeviceCareDiagnostics Actual diagnostics Actual diagnostics 1 65Operating time 65Diagnostics Diagnostic list Actual diagnostics 1, 2, 3 65Actual diag channel 1, 2, 3 65Time stamp 1, 2, 3 66Diagnostics Event logbook Previous diagnostics n 66Previous diag n channel 66Time stamp n 67Diagnostics Simulation Diagnostic event simulation 67Current output simulation 67Value current output 67Sensor simulation 68Sensor simulation value 68Diagnostics Diagnostic settings Properties Alarm delay 68Sensor line resistance 69Limit corrosion detection 69Thermocouple diagnostic 69Diagnostic behaviorSensor, electronics, process, configurationStatus signal Sensor, electronics, process, configuration 69 70Endress+Hauser V. 1, Rev. 2, 4-10-2018 61 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Diagnostics Min/max values Sensor min value 70Sensor max. value 70Reset sensor min/max values 71Device temperature min. 71Device temperature max. 71Reset device temp. min/max values 71Application Measured values Sensor value 71Sensor raw value 71Output current 71Percent of range 71Device temperature 71PV 72SV 72TV 73QV 73Application Sensor Unit 73Sensor type 73Connection type 742-wire compensation 74Reference junction 74RJ preset value 75Sensor offset 75Application Sensor Linearization Call./v. Dusen coeff. R0, A, B, C 75Polynomial coeff. R0, A, B 76Sensor lower limit 76Sensor upper limit 77Application Current output 4mA value 7720mA value 77Failure mode 77Failure current 78Current trimming 4 mA 79Current trimming 20 mA 79Damping 79Application HART configuration Assign current output (PV) 80Assign SV 80Assign TV 80Assign QV 8062 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionHART address 81No. of preambles 81System Device management HART short tag 81Device tag 81Mains filter 82Locking status 82Device reset 82Configuration counter 83Configuration changed 83System User management Define password New password 84Confirm new password 84Status password entry 85Change user role Password 1) 85Status password entry 85Recover password Recover password 85Status password entry 86Change password Old password 86New Password 86Confirm new password 86Status password entry 86Delete password Delete password 871) The preferred user role must be chosen here in the operating menu via the SmartBlue App.System Bluetooth configuration Bluetooth 87Change Bluetooth password 1) 871) Function is only visible in the SmartBlue AppSystem Information Device Squawk 88Serial number 88Order code 88Firmware version 88Hardware revision 93Extended order code (n) 1) 89Device name 89Manufacturer 891) n = 1, 2, 3System Information Device location Latitude 90Longitude 90Altitude 90Endress+Hauser V. 1, Rev. 2, 4-10-2018 63 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Location method 90Location description 91Process unit TAG 91System Information HART info Device type 91Device revision 92HART revision 92HART descriptor 92HART message 92Hardware revision 93Software revision 93HART date code 93Manufacturer ID 93Device ID 93System Display Display interval 94Format display 94Value 1 display 95Decimal places 1 95Value 2 display 95Decimal places 2 95Value 3 display 95Decimal places 3 9564 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter description14.1 Menu: Diagnostics14.1.1 Submenu: Actual diagnosticsActual diagnostics 1Navigation Diagnostics Actual diagnostics Actual diagnostics 1Description Displays the current diagnostic message. If two or more messages occur simultaneously,the message with the highest priority is shown on the display.Additional information Example for display format:F041-Sensor interruptedOperating timeNavigation Diagnostics Actual diagnostics Operating timeDescription Displays the length of time the device has been in operation.User interface Hours (h)14.1.2 "Diagnostic list" submenun = Number of diagnostic messages (n = 1 to 3)Actual diagnostics nNavigation Diagnostics Actual diagnostics Actual diagnostics nDescription Displays the current diagnostic message. If two or more messages occur simultaneously,the message with the highest priority is shown on the display.Additional information Example for display format:F041-Sensor interruptedActual diag channel nNavigation Diagnostics Actual diagnostics Actual diag channel nDescription Displays the function module to which the diagnostic message refers.Endress+Hauser V. 1, Rev. 2, 4-10-2018 65 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72User interface Device Sensor Device temperature Current output Sensor RJTime stamp nNavigation Diagnostics Actual diagnostics Time stamp nDescription Displays the time stamp of the current diagnostic message in relation to the operatingtime.User interface Hours (h)14.1.3 "Event logbook" submenun = Number of diagnostic messages (n = 1 to 10). The last 10 messages are listed in chronological order.Previous diagnostics nNavigation Diagnostics Event logbook Previous diagnostics nDescription Displays the diagnostic messages that occurred in the past. The last 10 messages are listedin chronological order.User interface Symbol for event behavior and diagnostic event.Additional information Example for display format:F201-Electronics faultyPrevious diag n channelNavigation Diagnostics Event logbook Previous diag n channelDescription Displays the function module to which the diagnostic message refers.User interface Device Sensor Device temperature Current output Sensor RJ66 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionTime stamp nNavigation Diagnostics Event logbook Time stamp nDescription Displays the time stamp of the current diagnostic message in relation to the operatingtime.User interface Hours (h)14.1.4 "Simulation" submenuDiagnostic simulationNavigation Diagnostics Simulation Diagnostic simulationDescription Switches diagnostic simulation on and off.Selection Enter one of the diagnostic events using the dropdown menu 39. The assignedstatus signals and diagnostic behaviors are used in the simulation mode. Select 'Off' to quitthe simulation.Example: x043 Short circuitFactory setting OffCurrent output simulationNavigation Diagnostics Simulation Current output simulationDescription Use this function to switch simulation of the current output on and off. The status signalindicates a category "C" diagnostic message ("function check") while the simulation isrunning.Selection Off OnFactory setting OffValue current outputNavigation Diagnostics Simulation Value current outputEndress+Hauser V. 1, Rev. 2, 4-10-2018 67 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Description Use this function to set a current value for the simulation. In this way, users can verify thecorrect adjustment of the current output and the correct function of downstream switchingunits.User entry 3.58 to 23 mAFactory setting 3.58 mASensor simulationNavigation Diagnostics Simulation Sensor simulationDescription Use this function to enable the simulation of the process variable. The simulation value ofthe selected process variable is defined in the Sensor simulation value parameter.Selection Off OnFactory setting OffSensor simulation valueNavigation Diagnostics Simulation Sensor simulation valueDescription Use this function to enter a simulation value for the process variable. Subsequentmeasured value processing and the signal output use this simulation value. In this way,users can verify whether the measuring device has been configured correctly.User entry 1.0 1020 to +1.0 1020 CFactory setting 0.00 C14.1.5 "Diagnostic settings" submenu Submenu: PropertiesAlarm delayNavigation Diagnostics Diagnostic settings Properties Alarm delayDescription Use this function to set the delay time during which a diagnostics signal is suppressedbefore it is output.User entry 0 to 5 s68 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionFactory setting 2 sSensor line resistanceNavigation Diagnostics Diagnostic settings Properties Sensor line resistancePrerequisite A 4-wire RTD or TC must be selected as the sensor type or connection type. 73Description Displays the highest measured resistance value of a sensor line.User interface 1.0 1020 to +1.0 1020 Limit corrosion detectionNavigation Diagnostics Diagnostic settings Properties Limit corrosion detectionPrerequisite A 4-wire RTD or TC must be selected as the sensor type or connection type. 73Description Use this function to enter the limit value for corrosion detection. If this value is exceeded,the device behaves as defined in the diagnostic settings.User entry 5 to 10 000 Factory setting 50.0 for connection type 4-wire RTD5 000 for connection type TCThermocouple diagnosticNavigation Diagnostics Diagnostic settings Properties Thermocouple diagnosticDescription Use this function to switch off the "Sensor corrosion" and "Sensor break" diagnosticfunctions during thermocouple measurement.This may be necessary in order to connect electronic simulators (e.g. calibrators) during a thermocouple measurement. The accuracy of the transmitter is not influenced by either the activation or deactivation of the thermocouple diagnostics function.Selection On OffDiagnostic behaviorEndress+Hauser V. 1, Rev. 2, 4-10-2018 69 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Navigation Diagnostics Diagnostic settings Diagnostic behaviorDescription Each diagnostic event is assigned a certain diagnostic behavior. The user can change thisassignment for certain diagnostic events. 39Selection Alarm Warning DisabledFactory setting See the list of diagnostic events 39Status signalNavigation Diagnostics Diagnostic settings Status signalDescription Each diagnostic event is assigned a certain status signal at the factory 1). The user canchange this assignment for certain diagnostic events. 391) Digital information available via HART communicationSelection Failure (F) Function check (C) Out of specification (S) Maintenance required (M) No effect (N)Factory setting See the list of diagnostic events 3914.1.6 "Min/max values" submenuSensor min valueNavigation Diagnostics Min/max values Sensor min valueDescription Displays the minimum temperature measured in the past at the sensor input (minimumindicator).Sensor max. valueNavigation Diagnostics Min/max values Sensor max valueDescription Displays the maximum temperature measured in the past at the sensor input (maximumindicator).70 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionReset sensor min/max valuesNavigation Diagnostics Min/max values Reset sensor min/max valuesDescription Resets the min/max values of the sensor to their default values.User entry Clicking the Reset sensor min/max values activates the reset function. As a result of thisaction, the min/max values of the sensor only display the reset, temporary values.Device temperature min.Navigation Diagnostics Min/max values Device temperature min.Description Displays the minimum electronics temperature measured in the past (minimum indicator).Device temperature max.Navigation Diagnostics Min/max values Device temperature max.Description Displays the maximum electronics temperature measured in the past (maximumindicator).Reset device temp. min/max valuesNavigation Diagnostics Min/max values Reset device temp. min/max valuesDescription Resets the peakhold indicators for the minimum and maximum electronic temperaturesmeasured.User entry Clicking the Reset device temperature min/max values activates the reset function. As aresult of this action, the min/max values for the device temperature only display the reset,temporary values.14.2 Menu: Application14.2.1 Submenu: Measured valuesSensor valueEndress+Hauser V. 1, Rev. 2, 4-10-2018 71 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Navigation Application Measured values Sensor valueDescription Displays the current measured value at the sensor input.Sensor raw valueNavigation Application Measured values Sensor raw valueDescription Displays the non-linearized mV/Ohm value at the specific sensor input.Output currentNavigation Application Measured values Output currentDescription Displays the calculated output current in mA.Percent of rangeNavigation Application Measured values Percent of rangeDescription Displays the measured value in percentage of the spanDevice temperatureNavigation Application Measured values Device temperatureDescription Displays the current electronics temperature.PVNavigation Application Measured values PVDescription Displays the primary HART valueSV72 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionNavigation Application Measured values SVDescription Displays the secondary HART valueTVNavigation Application Measured values TVDescription Displays the tertiary HART valueQVNavigation Application Measured values QVDescription Displays the quaternary HART value14.2.2 Submenu: SensorUnitNavigation Application Sensor UnitDescription Use this function to select the engineering unit for all the measured values.Selection C F K mVFactory setting CAdditional information Please note: if another unit has been selected instead of the factory setting (C), allthe set temperature values are converted to correspond to the configuredtemperature unit.Example: 150 C is set as the upper range value. Following the selection of F as theengineering unit, the new (converted) upper range value = 302 F.Sensor typeNavigation Application Sensor Sensor typeEndress+Hauser V. 1, Rev. 2, 4-10-2018 73 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Description Use this function to select the sensor type for the sensor input.Please observe the terminal assignment when connecting the sensors. 15Selection A list of all the possible sensor types is provided in the "Technical data" section. 45Factory setting Sensor type 1: Pt100 IEC751Connection typeNavigation Application Sensor Connection typePrerequisite An RTD sensor must be specified as the sensor type.Description Use this function to select the connection type for the sensor.Selection 2-wire, 3-wire, 4-wireFactory setting 4-wire2-wire compensationNavigation Application Sensor 2-wire compensationPrerequisite An RTD sensor with a 2-wire connection type must be specified as the sensor type.Description Use this function to specify the resistance value for two-wire compensation in RTDs.User entry 0 to 30 Factory setting 0 Reference junctionNavigation Application Sensor Reference junctionPrerequisite A thermocouple (TC) sensor must be selected as the sensor type.Description Use this function to select reference junction measurement for temperature compensationof thermocouples (TC).If Preset value is selected, the compensation value is specified via the RJ preset value parameter.74 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionSelection Internal measurement: the internal reference junction temperature is used. Fixed value: a fixed value is used. Measured value of the external sensor: the measured value of the connected sensor isused.Factory setting Internal measurementRJ preset valueNavigation Application Sensor RJ preset valuePrerequisite The Preset value parameter must be set if the Fixed value option is selected.Description Use this function to define the fixed preset value for temperature compensation.User entry 58 to +360Factory setting 0.00Sensor offsetNavigation Application Sensor Sensor offsetDescription Use this function to set the zero point correction (offset) of the sensor measured value.The value indicated is added to the measured value.User entry 18.0 to +18.0Factory setting 0.014.2.3 Submenu: LinearizationCall./v. Dusen coeff. R0Navigation Application Sensor Linearization Call./v. Dusen coeff. R0Prerequisite The RTD platinum (Callendar/Van Duse) option is enabled in the Sensor type parameter.Description Use this function to set the R0 Value only for linearization with the Callendar/Van Dusenpolynomial.User entry 1 to 2 000Factory setting 100,000 Endress+Hauser V. 1, Rev. 2, 4-10-2018 75 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Call./v. Dusen coeff. A, B and CNavigation Application Sensor Linearization Call./v. Dusen coeff. A, B and CPrerequisite The RTD platinum (Callendar/Van Dusen) option is enabled in the Sensor type parameter.Description Use this function to set the coefficients for sensor linearization based on theCallendar/Van Dusen method.Factory setting A: 3,90830e-003 B: -5.77500e-007 C: -4,18300e-012Polynomial coeff. R0Navigation Application Sensor Linearization Polynomial coeff. R0Prerequisite The RTD poly nickel or RTD copper polynomial option is enabled in the Sensor typeparameter.Description Use this function to set the R0 Value only for linearization of nickel/copper sensors.User entry 1 to 20 000 Factory setting 100.00 Polynomial coeff. A, BNavigation Application Sensor Linearization Polynomial coeff. Polynomial coeff. A, BPrerequisite The RTD poly nickel or RTD copper polynomial option is enabled in the Sensor typeparameter.Description Use this function to set the coefficients for sensor linearization of copper/nickel resistancethermometers.Factory setting Polynomial coeff. A = 5.49630e-003Polynomial coeff. B = 6.75560e-006Sensor lower limitNavigation Application Sensor Linearization Sensor lower limit76 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionPrerequisite The RTD platinum, RTD poly nickel or RTD copper polynomial option is enabled in theSensor type parameter.Description Use this function to set the lower calculation limit for special sensor linearization.User entry Depends on the sensor type selected.Factory setting Depends on the sensor type selected.Sensor upper limitNavigation Application Sensor Linearization Sensor upper limitPrerequisite The RTD platinum, RTD poly nickel or RTD copper polynomial option is enabled in theSensor type parameter.Description Use this function to set the upper calculation limit for special sensor linearization.User entry Depends on the sensor type selected.Factory setting Depends on the sensor type selected.14.2.4 Submenu: Current output4mA valueNavigation Application Current output 4mA valueDescription Use this function to assign a measured value to the current value 4 mA.Factory setting 0 C20mA valueNavigation Application Current output 20mA valueDescription Use this function to assign a measured value to the current value 20 mA.Factory setting 100 CFailure modeEndress+Hauser V. 1, Rev. 2, 4-10-2018 77 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Navigation Application Current output Failure modeDescription Use this function to select the signal on alarm level of the current output in the event of anerror.Selection High alarm Low alarmFactory setting Low alarmFailure currentNavigation Application Current output Failure currentPrerequisite The High alarm option is enabled in the "Failure mode" parameter.Description Use this function to set the value the current output adopts in an alarm condition.User entry 21.5 to 23 mAFactory setting 22.5Adjustment of the analog output (4 and 20 mA current trimming)Current trimming is used to compensate the analog output (D/A conversion). Here, the output current of the transmitter must be adapted so that it suits the value expected at the higher-level system.Current trimming does not affect the digital HART value. This can cause the measured value shown on the locally installed display to differ marginally from the value displayed in the higher-level system.Procedure1. Start2. Install an accurate ammeter (more accurate than the transmitter) in the current loop.3. Switch on current output simulation and set the simulation value to 4 mA.4. Measure the loop current with the ammeter and make a note of the value.5. Set the simulation value to 20 mA.6. Measure the loop current with the ammeter and make a note of the value.7. Enter the current values determined as adjustment values in the Current trimming 4 mA / 20 mAparameters8. End78 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionCurrent trimming 4 mANavigation Application Current output Current trimming 4 mADescription Use this function to set the correction value for the current output at the start of themeasuring range at 4 mA.User entry 3.5 to 4.25 mAFactory setting 4 mAAdditional information The trimming only affects the current loop values from 3.8 to 20.5 mA. The failure modewith low alarm and high alarm current values is not subject to trimming.Current trimming 20 mANavigation Application Current output Current trimming 20 mADescription Use this function to set the correction value for the current output at the end of themeasuring range at 20 mA.User entry 19.50 to 20.5 mAFactory setting 20.000 mAAdditional information The trimming only affects the current loop values from 3.8 to 20.5 mA. The failure modewith low alarm and high alarm current values is not subject to trimming.DampingNavigation Application Current output DampingDescription Use this function to set the time constant for current output damping.User entry 0 to 120 sFactory setting 0 sAdditional information The current output responds to fluctuations in the measured value with an exponentialdelay. The time constant of this delay is defined by this parameter. If a low time constant isentered, the current output responds quickly to the measured value. On the other hand,the response of the current output is delayed if a high time constant is entered.Endress+Hauser V. 1, Rev. 2, 4-10-2018 79 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/7214.2.5 Submenu: HART configurationAssign current output (PV)Navigation Application HART configuration Assign current output (PV)Description Use this function to assign the measured variables to the primary HART value (PV).User interface SensorFactory setting Sensor (fixed assignment)Assign SVNavigation Application HART configuration Assign SVDescription Use this function to assign the measured variable to the secondary HART value (SV).User interface Device temperature (fixed assignment)Factory setting Device temperature (fixed assignment)Assign TVNavigation Application HART configuration Assign TVDescription Use this function to assign the measured variable to the tertiary HART value (TV).User interface Sensor (fixed assignment)Factory setting Sensor (fixed assignment)Assign QVNavigation Application HART configuration Assign QVDescription Use this function to assign the measured variable to the quaternary (fourth) HART value(QV).User interface Sensor (fixed assignment)Factory setting Sensor (fixed assignment)80 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionHART addressNavigation Application HART configuration HART addressDescription Use this function to define the HART address of the device.User entry 0 to 63Factory setting 0Additional information The measured value can only be transmitted via the current value is the address is set to"0". The current is fixed at 4.0 mA for all other addresses (Multidrop mode). 1)1) Can only be entered with FDT/DTM-based operating tools, e. g. FieldCare, DeviceCare from Endress+Hauser, but not via SmartBlue App.No. of preamblesNavigation Application HART configuration No. of preamblesDescription Use this function to define the number of preambles in the HART telegram.User entry 5 to 20Factory setting 514.3 Menu: System14.3.1 Submenu: Device managementHART short tagNavigation System Device management HART short tagDescription Use this function to define a short tag for the measuring point.User entry Up to 8 alphanumeric characters (letters, numbers and special characters).Factory setting 8 x '?'Device tagNavigation System Device management Device tagEndress+Hauser V. 1, Rev. 2, 4-10-2018 81 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Description Use this function to enter a unique name for the measuring point so it can be identifiedquickly within the plant.User entry Max. 32 characters, such as letters, numbers or special characters (e.g. @, %, /)Factory setting Depends on the product root and serial numberMains filterNavigation System Device management Mains filterDescription Use this function to select the mains filter for A/D conversion.Selection 50 Hz 60 HzFactory setting 50 HzLocking statusNavigation System Device management Locking statusDescription Displays the device locking status. When write protection is activated, write access to theparameters is disabled.User interface Enabled or disabled check box: Locked by hardwareDevice resetNavigation System Device management Device resetDescription Use this function to reset the device configuration - either entirely or in part - to a definedstate.Selection Not activeNo action is executed and the user exits the parameter. To factory defaultsAll the parameters are reset to the factory setting. To delivery settingsAll parameters are reset to the order configuration. The order configuration can differfrom the factory setting if customer-specific parameter values were defined when thedevice was ordered. Restart deviceThe device is restarted but the device configuration remains unchanged.Factory setting Not active82 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionConfiguration counterNavigation System Device management Configuration counterDescription Displays the counter reading for changes to device parameters.Static parameters, whose values change during optimization or configuration, cause this parameter to increment by 1. This support parameter version management. If several parameters change, e.g. as a result of loading parameters from FieldCare etc. to the device, the counter can show a higher value. The counter cannot be reset and is also not reset to the default value when the device is reset. If the counter overflows, (16 bit), it starts again at 1.Configuration changedNavigation System Device management Configuration changedDescription Displays whether the configuration of the device has been changed by a master (primaryor secondary).14.3.2 User management submenuDefine password MaintenanceChange user role OperatorRecover password OperatorChange password MaintenanceDelete password MaintenanceNew password Confirm new passwordStatus password entry Password 1)Status password entry Recover passwordStatus password entry Old passwordNew Password Confirm new password Status password entry Delete password1) The preferred user role must be chosen here in the operating menu via the SmartBlue App.Endress+Hauser V. 1, Rev. 2, 4-10-2018 83 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Navigation in the submenu is supported by the following operating elements: BackReturn to the previous page CancelIf Cancel is selected, the status before the submenu was started is restoredDefine passwordNavigation System User management Define passwordDescription Starts the definition of the passwordUser entry Activate the buttonNew passwordNavigation System User management Define password New passwordDescription Use this function to enter a password for the Maintenance user role to gain access to therelevant functions.Additional information If the factory setting is not changed, the device is set to the Maintenance user role. Thismeans that the device's configuration data are not write-protected and can be edited at alltimes.Once a password has been defined, devices can be switched to the Maintenance user roleif the correct password is entered in the Password parameter. A new password becomesvalid once it has been verified after being entered in the Confirm new passwordparameter.The password must contain a minimum of 4 and a maximum of 16 characters and canconsist of both letters and numbers. If you lose your password, please contact your Endress+Hauser Sales Center.User entry . (enter the password)Confirm new passwordNavigation System User management Define password Confirm new passwordDescription Confirms the new password that has been defined.Additional information A new password becomes valid once it has been verified after being entered in theConfirm new password parameter.The password must contain a minimum of 4 and a maximum of 16 characters and canconsist of both letters and numbers. If you lose your password, please contact your Endress+Hauser Sales Center.User entry . (enter the password)84 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionStatus password entryNavigation System User management Define password Status password entryDescription Displays the status of the password verification. Password accepted Wrong password Password rule violated Permission denied Wrong order of entry User role invalid Confirm PW mismatch Reset password acceptedEnter passwordNavigation System User management Enter passwordPrerequisite The Operator user role is active and a password has been defined.Description Use this function to enter a password for the selected user role to gain access to thefunctions of this role.User entry Enter the defined password.Status password entryNavigation System User management Enter password Status password entryDescription 85Recover passwordNavigation System User management Recover passwordPrerequisite The Operator user role is active and a password has already been defined.Description Use this function to enter the reset code to reset the current password.L CAUTIONCurrent password is lost Only use the reset code if you have lost the current password. Contact the Endress+Hauser Sales Center.Endress+Hauser V. 1, Rev. 2, 4-10-2018 85 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72User entry Activate the text box and enter the reset code.Status password entryNavigation System User management Recover password Status password entryDescription 85LogoutNavigation System User management LogoutPrerequisite The Maintenance user role must be active.Description The Maintenance user role is exited and the system switches to the Operator user role.User entry Activate the button.Change passwordNavigation System User management Change passwordPrerequisite The Maintenance user role must be active.Description Old password:Use this function to enter the current password to then be able to make changes to theexisting password. New password: 83 Confirm new password: 83User entry . (enter the old password) . (enter the new password) . (confirm the new password)Status password entryNavigation System User management Change password Status password entryDescription 8586 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionDelete passwordNavigation System User management Delete passwordPrerequisite The Maintenance user role must be active.Description The password currently valid is deleted.The Define password button appears.User entry Activate the Delete password button.14.3.3 Bluetooth configuration submenuBluetoothNavigation System Bluetooth configuration BluetoothDescription Use this function to enable or disable the Bluetooth function. Off: The Bluetooth interface is disabled immediately. On: The Bluetooth interface is enabled and a connection to the device can be established.Bluetooth communication is only possible if the CDI and display interface is not used.Selection Off OnFactory setting OnChange Bluetooth password 1)1) Function is only visible in the SmartBlue AppNavigation System Bluetooth configuration Change Bluetooth passwordDescription Option of changing the Bluetooth password. This function is visible in the SmartBlue Apponly.Prerequisite The Bluetooth interface is enabled (ON) and a connection to the device is established.User entry Enter: User name Current password New password Confirm new passwordPress OK to confirm your entries.Endress+Hauser V. 1, Rev. 2, 4-10-2018 87 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/7214.3.4 Information submenu Device submenuSquawkNavigation System Information Device SquawkDescription This function can be used locally to facilitate the identification of the device in the field.Once the Squawk function has been activated, all the segments flash on the display.Selection Squawk once: Display of device flashes for 60 seconds and then returns to normaloperation. Squawk on: Display of device flashes continuously. Squawk off: Squawk is switched off and the display returns to normal operation.User entry Activate the relevant buttonSerial numberNavigation System Information Device Serial numberDescription Displays the serial number of the device. It can also be found on the nameplate.Uses of the serial number To identify the measuring device quickly, e.g. when contacting Endress+Hauser. To obtain specific information on the measuring device using the Device Viewer:www.endress.com/deviceviewerUser interface Max. 11-digit character string comprising letters and numbers.Order codeNavigation System Information Device Order codeDescription Displays the order code of the device. It can also be found on the nameplate. The ordercode is generated from the extended order code, which defines all the device features ofthe product structure. In contrast, the device features cannot be read directly from theorder code.Uses of the order code To order an identical spare device. To identify the device quickly and easily, e.g. when contacting Endress+Hauser.Firmware version88 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionNavigation System Information Device Firmware versionDescription Displays the device firmware version installed.User interface Max. 6-digit character string in the format xx.yy.zzHardware revisionNavigation System Information Device Hardware reversionDescription Displays the hardware revision of the device.Extended order code (n)n = Number of parts of the extended order code (n = 1 to 3)Navigation System Information Device Extended order code nDescription Displays the first, second and/or third part of the extended order code. On account oflength restrictions, the extended order code is split into a maximum of 3 parameters. Theextended order code indicates the version of all the features of the product structure forthe device and thus uniquely identifies the device. It can also be found on the nameplate. Uses of the extended order code To order an identical spare device. To check the ordered device features using the delivery note.Device nameNavigation System Information Device Device nameDescription Displays the device name. It can also be found on the nameplate.ManufacturerNavigation System Information Device ManufacturerDescription Displays the name of the manufacturer.Endress+Hauser V. 1, Rev. 2, 4-10-2018 89 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Device location submenuLatitudeNavigation System Information Device location LatitudeDescription Use this function to enter the latitude coordinates that describe the device location.User entry 90.000 to +90.000 Factory setting 0LongitudeNavigation System Information Device location LongitudeDescription Use this function to enter the longitude coordinates that describe the device location.User entry 180.000 to +180.000 Factory setting 0AltitudeNavigation System Information Device location AltitudeDescription Use this function to enter the altitude data that describe the device location.User entry 1.0 10+20 to +1.0 10+20 mFactory setting 0 mLocation methodNavigation System Information Device location Location methodDescription Use this function to select the data format for specifying the geographic location. Thecodes for specifying the location are based on the US National Marine ElectronicsAssociation (NMEA) Standard NMEA 0183.90 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionSelection No fix GPS or Standard Positioning Service (SPS) fix Differential PGS fix Precise positioning service (PPS) Real Time Kinetic (RTK) fixed solution Real Time Kinetic (RTK) float solution Estimated dead reckoning Manual input mode Simulation modeFactory setting Manual input modeLocation descriptionNavigation System Information Device location Location descriptionDescription Use this function to enter a description of the location so that the device can be located inthe plant.User entry Up to 32 alphanumeric characters (letters, numbers and special characters)Factory setting 32 x '?'Process unit tagNavigation System Information Device location Process unit tagDescription Use this function to enter the process unit in which the device is installed.User entry Up to 32 alphanumeric characters (letters, numbers and special characters)Factory setting 32 x '?'HART info submenuDevice typeNavigation System Information HART info Device typeDescription Displays the device type with which the device is registered with the HART FieldCommGroup. The device type is specified by the manufacturer. It is needed to assign theappropriate device description file (DD) to the device.User interface 4-digit hexadecimal numberFactory setting 0x11D0Endress+Hauser V. 1, Rev. 2, 4-10-2018 91 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Device revisionNavigation System Information HART info Device revisionDescription Displays the device revision with which the device is registered with the HART FieldCommGroup. It is needed to assign the appropriate device description file (DD) to the device.User interface Revision in hexadecimal formatFactory setting 0x01HART revisionNavigation System Information HART info HART revisionDescription Displays the HART revision of the device.HART descriptorNavigation System Information HART info HART descriptorDescription Use this function to define a description for the measuring point.User entry Up to 16 alphanumeric characters (upper case letters, numbers and diverse specialcharacters)Factory setting 16 x '?'HART messageNavigation System Information HART info HART messageDescription Use this function to define a HART message which is sent via the HART protocol whenrequested by the master.User entry Up to 32 alphanumeric characters (upper case letters, numbers and diverse specialcharacters)Factory setting 32 x '?'92 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionHardware revision 89Navigation System Information HART info Hardware revisionSoftware revisionNavigation System Information HART info Software revisionDescription Displays the software revision of the device.HART date codeNavigation System Information HART info HART dateDescription Use this function to define date information for individual use.User entry Date in the format year-month-day (YYYY-MM-DD)Factory setting 2010-01-01 1)1) Also 01.01.2010 depending on the operating toolManufacturer IDNavigation System Information HART info Manufacturer IDDescription Displays the manufacturer ID under which the device is registered with the HARTFieldComm Group.User interface 4-digit hexadecimal numberFactory setting 0x0011Device IDNavigation System Information HART info Device IDDescription A unique HART identifier is saved in the device ID and used by the control systems toidentify the device. The device ID is also transmitted in command 0. The device ID isdetermined unambiguously from the serial number of the device.Endress+Hauser V. 1, Rev. 2, 4-10-2018 93 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72User interface ID generated for specific serial number14.3.5 Submenu: DisplayDisplay intervalNavigation System Display Display intervalDescription Use this function to set the length of time the measured values are displayed if the valuesalternate on the local display. This type of change is only generated automatically ifseveral measured values are specified. The Value 1 display - Value 3 display parameters are used to specify whichmeasured values are shown on the local display. The display format of the displayed measured values is specified using the Formatdisplay parameter.User entry 4 to 20 sFactory setting 4 sFormat displayNavigation System Display Format displayDescription Use this function to select how the measured value is shown on the local display. Thedisplay format Measured value or Measured value with bar graph can be configured.Selection Value Value + bar graphFactory setting Value94 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTiTEMP TMT71/72Operating menu and parameter descriptionAdditional information ValueA0014564Value + bar graphA0014563Value 1 display (Value 2 or 3 display)Navigation System Display Format display Value 1 display (Value 2 or 3 display)Description Use this function to select one of the measured values to be shown on the local display.The Format display parameter is used to specify how the measured values are displayed.Selection Process value Device temperature Output current Percent of range OffFactory setting Process valueDecimal places 1 (decimal places 2 or 3)Navigation System Display Format display Decimal places 1 (Decimal places 2 or 3)Prerequisite A measured value is defined in the parameter Value 1 display (Value 2 or 3 display).Description Use this function to select the number of decimal places for the display value. This settingdoes not affect the accuracy of the device for measuring or calculating the value.If Automatic is selected, the maximum possible number of decimal places is always shown on the display.Endress+Hauser V. 1, Rev. 2, 4-10-2018 95 DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTOperating menu and parameter descriptioniTEMP TMT71/72Selection x x.x x.xx x.xxx x.xxxx AutomaticFactory setting Automatic96 V. 1, Rev. 2, 4-10-2018 Endress+Hauser DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFT DRAFT DRAFT DRAFTDRAFT DRAFT DRAFTwww.addresses.endress.com
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2018-12-10 | 2402 ~ 2480 | DTS - Digital Transmission System | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2018-12-10
|
||||
1 | Applicant's complete, legal business name |
Endress and Hauser Wetzer GmbH and Co. KG
|
||||
1 | FCC Registration Number (FRN) |
0028003390
|
||||
1 | Physical Address |
Obere Wank 1
|
||||
1 |
Nesselwang, N/A 87484
|
|||||
1 |
Germany
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
c******@telefication.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
2ARRT
|
||||
1 | Equipment Product Code |
TMT7X0301
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
D****** W********
|
||||
1 | Telephone Number |
+4983******** Extension:
|
||||
1 | Fax Number |
+4983********
|
||||
1 |
d******@endress.com
|
|||||
app s | Technical Contact | |||||
1 | Firm Name |
Endress and Hauser Wetzer GmbH and Co. KG
|
||||
1 | Name |
D****** W******
|
||||
1 | Physical Address |
Obere Wank 1
|
||||
1 |
Nesselwang
|
|||||
1 |
Germany
|
|||||
1 | Telephone Number |
49836********
|
||||
1 | Fax Number |
49836********
|
||||
1 |
d******@endress.com
|
|||||
app s | Non Technical Contact | |||||
1 | Firm Name |
Endress and Hauser Wetzer GmbH and Co. KG
|
||||
1 | Name |
D******** W********
|
||||
1 | Physical Address |
Obere Wank 1
|
||||
1 |
Nesselwang
|
|||||
1 |
Germany
|
|||||
1 | Telephone Number |
49836********
|
||||
1 | Fax Number |
49836********
|
||||
1 |
d******@endress.com
|
|||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 06/05/2019 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DTS - Digital Transmission System | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Temperature Transmitter | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Grant Comments | Output power listed is conducted. | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
7layers GmbH
|
||||
1 | Name |
B******** R******
|
||||
1 | Telephone Number |
0049 ********
|
||||
1 | Fax Number |
0049 ********
|
||||
1 |
B******@7layers.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 2402.00000000 | 2480.00000000 | 0.0008000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC