THZ / TDZ - Moore Industries International
Contents
1. 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Analog Output The Analog Output menu will allow you to view and set Fail Mode type and Fail Mode value you can see the following menu items AO Zero AO Full AO URV AO ORV AO Fail Mode and AO Fail to Value See Figure 5 28 below for further clarification Use this portion of the menu to set the AO Zero AO Full AO URV under range value AO ORV over range value AO Fail MODE and AO Fail Mode values to trim the output and to reset the trimmed output Figure 5 28 THZ TDZ Parameters Analog Output Primary Variable Input Range Sensor Zero 0 00 DEG C Sensor 1 Full 100 00 DEGC AD Zero 3 6 23 5 4 00 mA AQ Full 3 6 23 6 2000 mA AD Under Range Value 3 6 4 0 3 80 mA AD Over Range Value 20 0 21 60 mA 23 6 AQ Fail Mode Low 3 6m x ALI Fail ta value www miinet com 90 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Display Menu TDZ3 only The Display menu allows you to select which variables are shown and also allows for custom names and engineering units EGU Refer to Figure 5 29 for further clarification Figure 5 29 TDZ 3 Display Menu Parameters Analog Output Dynamic Variables Select to Display OPV 7 SV TV Elav Z Z AO Loop Curent E Percent of Output Range PCT Denisy Dein Piss Additional D2. Status Review See Figure 4 17 Available only when Advance Settings is enabled Process Variable Menu The Process Variable menu displays the present values of parameters listed on the Communicator display which include the selected EGU PV PV Quality PV Loop current PV is PV Damping PV Range Dynamic Variables and Device Variables Dynamic Variables The Dynamic Variables menu displays the present Dynamic Variables parameter values Device Variables The Device Variables menu displays the present Device Variables parameter values If any Device Variable quality is not good this will show its data quality flag instead of its value Figure 4 3 TDZ or THZ Process Variable menu Online Menu Process PV Variables PV Quality sleet PV Loop Current Device Setup PV is ape PV Damping PV Quality Setup BV PV PV o range PV Quality PV is dd vs en Dynamic SV PV URV Custom Variables SV Quality SV Calibration SV is TV Device uality QV Variables qvis Review QV QV Quality QV is Range Alarm Status Availableonly when Advance Settings is enabled Refresh Device Vars RJC Temp Sensor 1 Sensor 2 Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select High Select www miinet com 50 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Setup Menu The Setup me
3. Moore Industries International Inc mE THZ 3 TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Custom Calibration Status Provides access to all HART status messages Additional Status Bytes Subsystem Status Input Status User Configuration Status Analog Output Status Device Variable Status Input Capture Used to match the device input and output zero and full scale to a known value Variable Trim Sensor 1 2 Trimming and Reset AO Trim Analog Output Trimming and Reset Loop Test Set Analog Output to a fixed mA value Input Simulation Clear or Set a simulated Input S1 S2 Corrosion Detection Set up corrosion detection on Sensor 1 and or 2 Unlatch Range Alarm Unlatch any of the 4 Range Alarms Review This menu is for information only It provides configuration information for Device Parameters Device Information Moore Industries International Inc 49 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Device Setup Menu The Device Setup menu allows you to access the following menus Process Variable Setup Custom Calibration and Review refer to Figure 4 2 Figure 4 2 TDZ or THZ Device Setup menu Online Menu Process Fi 4 Variables ML Model Device Setup PV is PV Quality PV PV Loop Current PV LRV PV URV Custom Sy Calibration See Figure 4 14 TV QV Range Alarm See Figure 4 4
4. 45 www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter Figure 4 1 TDZ or THZ Configuration Online menu overview Online Menu Model Device Setup PV is PV Quality PV PV Loop Current PV LRV PV URV SV TV QV Range Alarm Status Process Variables PV PV Quality PV Loop Current PV is PV Damping PV 96 rnge Dynamic Variables Device Variables Default Config Config Wizards PV PV Quality PVis SV SV Quality SV is TV TV Quality TVis QV QV Quality QV is Refresh Device Var RJC Temp Sensor 1 Sensor 2 Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Dif Low Select High Select Configure Input Types RJC Temp Sensor 1 Sensor 2 RJC Temp EGU If ohms amp Measure Mode RTD Input Type P vp If mV amp T C EGU BW Detection BW Holdoff time Running Average 2Wire Offset Sensor Information Scaling 2W 4000 ohms 3W i AW Pt3850 100 Pt3850 200 Disable Enable Sx USL Sx LSL User s Manual 238 741 00B April 2015 Sx Min Span Basic Wizard Drift Wizard Change Variable Mapping PV is Smart Range SV is TV is QV is Sx s n Filter PV Damping Configure Sensor Custom Curve PV is DVX DVX LSL DVX USL DVX Min Span DVX EGU PV LRV PV URV Ranging and Mapping Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absol
5. Figure 4 8 TDZ or THZ Ranging and Mapping within Input menu Filter Change Variable Mapping emperature PV Damping Sensor 1 Sensor 2 Configure Backup 1 2 Sensor Backup 2 1 Average Ranging and Differential 1 2 Ma pping Differential 2 1 Absolute Differential Low Select Smart Range High Select PVis Dv x Sensor 1 LSL Dv x LSL Sensor 1 USL Dv x USL Note Dv x Device Variable Sensor 1 Min span Dv x Min span mapped to Dynamic Variable s PV SV TV or QV Sensor 1 EGU Dv x EGU i e If Sensor 1 is mapped to PV then Sensor 1 will be displayed PV LRV E PV URV noun Enter URV within the Smart Range Menu kN PV LRV Enter LRV PV URV Moore Industries International Inc var www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter User s Manual 238 741 00B April 2015 Dual Input The Dual Input menu will allow you to view and set Scaling and and Custom Curve for the following Device Variables Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select and High Select Refer to Figure 4 9 for clarification menu is shown for Backup 1 2 but is the same for any of the given Device variables Figure 4 9 TDZ or THZ Dual input Default Config Config Wizards Input Dual Input Analog Output HART Settings Dis play System Config Advance Settings www miinet com Backup 1 2 Ba
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7. Ranging and Mapping The Ranging and Mapping menu will allow you to view current Device Variable assignment mapping to PV SV TV and QV It will also allow you to designate or change each one as needed To do so enter the Change Variable Mapping menu option This menu will prompt you to select from RJC Temperature Sensor 1 Sensor 2 Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select or High Select to each variable PV SV TV amp QV Smart Range Selecting this will prompt the menu shown in Figure 4 8 The Smart Range menu displays the following information PV is Sensor 1 LSL Sensor 1 USL Sensor 1 Min span Sensor 1 EGU PV LRV and PV URV This displays which Sensor is mapped to PV PV is that Sensor variable s LSL lower scale limit USL upper scale limit Min Span minimum span Sensor variable s EGU PV LRV Primary variable lower range value and the PV URV Primary variable upper range value Enter the desired 096 device variable value for the PV LRV and this is the value will set the Analog output at its 0 scale normally is 4mA Enter the desired 10096 device variable value for the PV URV and this is the value will set the Analog output at its 100 scale normally is 20mA Any value which falls within the range of the mapped device variable LSL and USL may be used for PV LRV and PV URV Note After making all desired changes enter SEND to update the unit
8. A See THI Ee TEVPERATU RE TRANSMTTER TAG 4 04 in 102 6mm CT moore INDUSTRIES cy remm cmm gm Y WAVE ee 1 11 in ad 28mm 2m Type CON go ece S d gum 7 S INDUSTRIES v SENSOR 1 Moore Industries International Inc DU www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 3 5 Dimensions of BH Housing SIDE VIEW 102mm 7 4 02 in 119mm 4 69 in 76mm Pye 2 99 in 24 in 22mm 0 87 in TOP VIEW 64mm 2 52 in 124mm 2 68 in 4 88 in DPDAI IDDADAS f 14 Ai o1 E J 68mm www miinet com 30 Moore Industries International Inc User s Manual 238 741 00B April 2015 THZ 3 TDZ Programmable Smart HART Temperature Transmitter Figure 3 6 Dimensions of LH Housing Safety Lock 87mm LH2 only 3 43 in Conduit Entry Port FRONT H1 Connection Head Shown M4 0x0 7 INSIDE nstrument br 1 56 in Instrument Mounting Holes 33mm 1 30 in Ground I D 62mm x 19mm Deep 2 44 in x 0 75 in Deep Moore Industries International Inc SIDE Metal Tag 61mm 2 40 in 30mm 1 18 in Mounting Process Connection 1 2 in NPT N and
9. Table 6 1 TDZ or THZ Display Errors Sensor Data TDZ3 Display Condition Ton Problem with the RJC Temperature Sensor BADDQ Var The referenced item Device Dynamic or Output Variable had bad data Name quality Error related to the sensor or output should follow Sie Problem with Sensor n specific error Message should follow SNSRn WIREn There is a broken wire on the previously referenced sensor If the specific BROKE broken wire cannot be detected the message will state Wires Broke ADC SAT The input is too high for the selected input range BAD RJC Reference Junction Compensation could not be applied NORM FAIL The physical measurement could not be converted to temperature sensor has failed CAN T BCKUP A Backup device variable BU1 2 or BU2 1 is mapped as PV and the backup sensor has failed ON BCKUP A Backup device variable BU1 2 or BU2 1 is mapped as PV and the primary www miinet com 110 Moore Industries International Inc eta THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Table 6 2 TDZ or THZ Display Errors System TDZ3 Display Condition ERROR FEND Communications with the front end have failed ERROR NVMEM Failure to restore configuration from non volatile storage ITRNL INVLD Stored Factory information is invalid ERROR CONFIG There is one or more configuration error CORRn Corrosion sensor n is indicating a warning error condition WARN ERROR
10. 1V change Load Effect Negligible within specified power limits Load Capability 500 ohms 24V Supply Voltage 12V 0 024A Display Ambient Temperature Weight Ohms Burnout Protection User programmable Upscale 23 6mA Downscale 3 6mA preset value or hold last output Output Current Limiting User programmable 3 6 to 4 0mA and 20 to 23 6mA for input under over range 24mA maximum hardware limit eJqT19 T C Input Impedance 40Mohms nominal RTD amp Ohms Excitation 250 microamps 10 RTD Lead Wire Resistance Maximum RTD resistance 2X lead wire resistance 4000 ohms Damping User set 0 60 seconds Resolution Input 20 bit Output 16 bit Power Supply Requirement 12 30Vdc for I S version 12 42Vdc for standard version Type Top Row 10mm 0 4 in high black digits on a reflective background Bottom Row 6mm 0 225 in high digits on a reflective background Two digit HART address indicator Format Two rows of five alphanumeric characters Decimal Points Allowed decimal places Auto 1 2 or 3 Range 99999 to 99999 Minimum Display Span 1 00 Operating Range 40 C to 85 C 40 F to 185 F Storage Range 40 C to 85 C 40 F to 185 F Relative Humidity 0 95 non condensing Ambient Temperature Effect See Table 3 Effect on Reference Cold Junction Compensation 0 005 per C change of ambient temperature Startup Time The system output reaches 90 of
11. 6 0 S EUIWIS L JGZ 02 JOSUSS Oll dnoj5 Mw oo Od VW 19 Of IPA LG 9 ON O AW O L GLY SJ9jouleJed Ayu weJbelp uonoeuuoo JO Z 1eaus ees SeeJy Snopsezey ul pesn aq jou jsnuJ Od NOD 34L NOILQVO oJoudsouny eAiso dx3 ea1y snopuezeH ulojs S ayes j e2isuiju Lu zZ 2 zZ Lu z D uDyoL M c bF SATID DW S33NION3 ddHl ZLS ZHL weibeig uornejejsu Ad O3SIA3H ONIMV8SHGO TIOH LNOO 3gllNnN S9NIMVSO AHOO3 1VO9 71 8 v8 cl 4 SONIMV8GO 3 1V9S LON OQ SAGLSNGNI Moore Industries International Inc 130 www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter User s Manual 238 741 00B April 2015 L moore INDUSTRIES CATEGORY DO NOT a DRAWING CONTROL DRAWING CHECKED See Sht 1 E ENGINEER NE pr THZ3 STZ HPP ANGLES 1 2 Installation Notes 1 The Associated Apparatus must be FM Approved for installations in the U S Canadian Approved for installations in Canada ATEX Certified for installations in Europe and IECEx Certified for IECEx installations Associated apparatus manufacturer s installation drawing must be followed when installing this equipment The control room equipment unspecified apparatus connected to the Associated Apparatus must not generate more than 250 Vrms or Vdc or the marked Um on the associated apparatus whichever is less Ins
12. by custom or usage in the trade of the buyer and of the company and that any prior dealings of the buyer with the company do not imply that the company warrants the goods or services in any way Any buyer of goods or services from the company agrees with the company that the sole and exclusive remedies for breach of any warranty concerning the goods or services shall be for the company at its option to repair or replace the goods or services or refund the purchase price The company shall in no event be liable for any consequential or incidental damages even if the company fails in any attempt to remedy defects in the goods or services but in such case the buyer shall be entitled to no more than a refund of all monies paid to the company by the buyer for purchase of the goods or services Any cause of action for breach of any warranty by the company shall be barred unless the company receives from the buyer a written notice of the alleged defect or breach within ten days from the earliest date on which the buyer could reasonably have discovered the alleged defect or breach and no action for the breach of any warranty shall be commenced by the buyer any later than twelve months from the earliest date on which the buyer could reasonably have discovered the alleged defect or breach Return Policy For a period of thirty six 36 months from the date of shipment and under normal conditions of use and service Moore Industries The Company wil
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14. 0 01 precision Accurate to 0 05 of span for the intended application Multimeter Calibrated to an accuracy of 0 025 or better such as Fluke Model 725 or similar PC with PACTware or FDT frame application Communications Cable Moore Industries P N 803 040 26 or 804 030 26 PAC Tware version 4 1 SP3 or newer For instructions on installation and setup of the THZ TDZ DTM with PACTware or another FDT frame please refer to section 5 See Section 4 of this manual to configure your THZ TDZ as appropriate for your application If possible use the exact temperature sensor RTD or thermocouple that you will be using in your final application Apply power to the THZ TDZ and see that it is reading the correct ambient temperature and providing the correct output for the given input Example If your TDZ is configured to measure a temperature range of 50 100 F and is now on your test bench and is reading an ambient temperature of 72 then you should expect an output of 11 04mA If itis not feasible for you to use the actual temperature sensor for your bench test or if your desired temperature range is nowhere near your ambient temperature then use a temperature simulator such as a Fluke 725 or similar to provide your input Once your bench setup is complete you can now use your FDT DTM software to check the transmitter s dynamic variables and analog output If using PACTware you can use the Measured value menu command to
15. 1 2 2 wire offset 2W RTD resistance only Sensor 1 2 Information Limits span serial number Sensor 1 2 Scaling Sensor 1 2 Custom Curve Ranging amp Mapping Variable Mapping assigns the Device Variables eg SEN1 BU1 2 to the HART Variables PV SV etc Smart Range sets the PV lower range and upper range values to AO 0 10096 Moore Industries International Inc 47 www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter Dual Input Configure Scaling and Custom Curve for all the calculated Device Variables Analog Output AO Zero amp Full Values AO Under Range amp Over Range Values AO Fail Mode High Low Hold Last Fail to Value HART Settings Allows configuration of HART parameters Polling Address Number of HART request preamble characters read only Number of HART response preamble characters Tag Long Tag Descriptor Message Date Final assembly number Device id Hardware revision read only Burst Configuration can be configured to send out up to 3 burst messages Display TDZ3 only Select Dynamic amp Device Variables to be displayed Number of Decimal Places Configure Custom EGU amp Custom Name System Configuration Input Quality Alarms setup Allow Measurement Out of Conformance Range Allow Limited Allow Dropping Range Alarms configure up to 4 range alarms Advanced Settings Disable Enable www miinet com 48 User s Manual 238 741 00B April 2015
16. 2816 E mail info miinet com TOLL FREE 1 800 999 2900 Www miinet com China Room 806 Block 2 Lotus International Plaza No 7866 Hu Min Road Min Hang District Shanghai 201102 P R China Tel 86 21 62491499 Fax 86 21 62490635 E mail sales mooreind sh cn www miinet com cn www miinet com www miinet com Europe 1 Lloyds Court Manor Royal Crawley W Sussex RH10 9QU United Kingdom Tel 01293 514488 Fax 01293 536852 FREE PHONE 0800 525107 sales mooreind com www miinet com uk Drie Eikenstraat 362 B 2650 Edegem Belgium Tel 03 448 10 18 Fax 03 440 17 97 info mooreind be Dutch www miinet com dbe French www miinet com fbe Burg Meslaan 98 4003 CD Tiel The Netherlands Tel 0 344 61 7971 Fax 0 344 615920 sales mooreind nl www miinet com nl Australia Sydney NSW 3 1 Resolution Drive Caringbah New South Wales 2229 Australia Tel 02 8536 7200 Fax 02 9525 7296 sales mooreind com au www miinet com au Perth WA 6 46 Angove Street North Perth Western Australia 6006 Australia Tel 08 9228 4435 Fax 08 9228 4436 sales mooreind com au www miinet com au Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Safety Messages Please read this manual in its entirety It should answer most of your questions For personal and system safety and for optimum product performance make
17. 3 4 Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to a 2 wire sensor Sensor 1 Type 4W RTD Selecting this will prompt the Sensor 1 Type menu screen Here you can select from Resistance mV Potentiometer RTD or T C Highlight the desired sensor type and hit enter Resistance 1 Choose from 2 Wire 3 Wire or 4 Wire Connection 2 Select a Resistance value from 4k 2k 1k 500 250 or 125 3 Sensor 2 Type menu will appear see below mV 1 Choose from 1k 500 250 125 62 5 or 31 25 mV 2 Sensor 2 Type menu will appear see below Potentiometer 1 Choose from 4k 2k 1k 500 250 or 1250hms 2 Sensor 2 Type menu will appear See below RTD 1 Choose from 2 Wire 3 Wire or 4 Wire Connection Configuration 2 Select temperature unit from degC degF degH or Kelvin 3 Select desired RTD and hit enter 4 Sensor 2 Type menu will appear see below T C 1 Choose between Enabled or Disabled for RJC Temperature compensation This should be enabled for the majority of cases Disable RJC ONLY if you are using a rare and old remote reference junction wiring strategy 2 Select temperature unit from the following degC degF degH or Kelvin 3 A variety of Thermocouples to choose from select desired T C and hit enter 4 Sensor 2 Type menu will appear see below Sensor 2 Type Off 1 Choose from the following menu options Off Same as Sensor 1 or Configure Independently Se
18. 741 00B Programmable Smart HART Temperature Transmitter April 2015 Select the Custom Calibration AO Loop Current Test Trim option in the configuration menu as shown in Figure 2 12 Figure 2 12 Custom Calibration AO Loop Current Test Trim Mete ms etos x File Edit View Project Device Extras Window Help Gia 5290 98eem dug P bili se 9 X 1023 HP Hockey Puck Display Parameter 4px Devicetag Addre O 5 THZ3 TDZ3 DM Lr 4 HosT PC b T MOORE y Moore Industries International Inc INDUSTRIES i MISP COM3 x 1pz3HP 0 Z j WORLDWIDE ee Loop Current Poe Configure Sensors EC Poe Ranging and Mapping Peada 4 48 as p Analog Output bs Display Status Good b HART Settings _ Custom Calibration Output Test z Input PV Capture LIT Sensor 1 Trim Set Current to 3 6 23 6mA mA a Sensor 2 Trim ee se Output Trim Trim Mode Embe 0 7 Set Output at Measured Output Current Trim Result Clear Output Test Advanced Setup Factory Defaut emm too The points that will be used for trimming will be the AO Zero and the AO Full that were configured earlier For my example these two points will be 4mA AO Zero and 20mA AO Full In the Output Trim section of the Parameter screen Set Output to Lower Output Range This will set the instrument s output to 4mA Use your voltmeter to read the voltage drop across the 2500 resistor and cal
19. AO Fail to Value Enter AO Fail to Value Advance Settings Moore Industries International Inc 59 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 HART Settings The HART Settings menu displays the following options Poll Addr Num req preams Tag Long Tag Descriptor Message Date Final asmbly num Dev id Hardware rev and Burst Configuration See Figure 4 11 for further clarification Poll Addr M This is the HART Polling Address enter a number from 0 63 Num reg preams 10 This displays the number of Preamble Characters OxFF that are sent helo any HART eae message This is set to 10 Num resp preams 5 20 5 Enter the number of Preamble Characters OxFF that are sent before any HART response message This command selects the minimum number of preambles to be sent by a device before the start of a response packet in the HART message Alonger preamble means slower communication The number of preambles may need to be manually increased for some HART hosts if there are missed messages or communication errors Tag Place a unique label that corresponds to your instruments location or specific usage 8 characters maximum Long Tag Place a unique label that corresponds to your instruments location or specific usage 32 characters maximum Descriptor Place text that is used as a description of how the instrument is being used 16 characters maximu
20. Advanced Settings for it to be displayed This is a 5 character custom string Legal characters are A Z caps only 0 9 15 gt 7 _ Configure Custom Name Each Device Variable can have a custom name string specified for it The custom name must be enabled in Advanced Settings for it to be displayed This is a 5 character custom string Legal characters are the same as those for custom EGU see above For displayed Device Variables the custom name will replace the default name Dynamic Variables cannot have a custom name However when the underlying Device Variable s name is shown the custom name is shown instead www miinet com 64 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter System Configuration Menu The System Config menu displays the following options Input Quality Alarms and Range Alarms Input Quality Alarms Directs you to a sub menu When accessed this will allow you turn On or Off the following menu options Allow Measurement out of Conformance Range Allow Limited and Allow Dropping These settings allow the user to determine how certain types of input quality issues are handled and how they can affect the Device Variables Dynamic Variables and AO See Section 6 for more information Range Alarms Directs you to a sub menu When accessed you will able to configure Range Alarms 1 4 You can also select and reset an ac
21. CurrentMeter RE coo oo Load 250 ohms To COM Port Source of TDZ3 HART Held Communicator or HART Modem connects to Serial USB COM Port of PC Moore Indusries fam P N 804 030 26 To USB Port of PC Moore Industries International Inc ee cer www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 5 3 THZ 3 DIN hook up diagram for HART or MISP DTM configurations Voltage Source Current Meter 717 12 24Vdc _ Power To COM Port HART Held of THZ3 Communicator or HART Modem connects to Serial USB COM Port of PC Moore Indusries his P N 804 030 26 To USB Port of PC www miinet com 74 Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Connecting to THZ TDZ using MISP To configure the MISP Communications DTM you will need to add necessary DTMs within the PACTware software to start your configuration You will also need to have a Moore Industries Fuse Protected USB Communications Cable sold separately P N 804 030 26 Refer to Fuse Protected USB Communications Cable documentation for installation of USB Communications Utility and configuration Follow steps below to connect and configuration your device 1 Connect TDZ THZ unit per Figures 5 1 5 3 2 Launch PACTware software 3 Right Click on the Device Tag named
22. HOST PC and select Add device Figure 5 14 MII MISP configuration adding a device rj PACTware File Edit View Project Device Extras Window Help Das d d m p mm9 9 3923 B Project ax E m a Connect EF Disconnect Topology Scan CE 4 Select the MISP Communications DTM and enter OK Figure 5 5 Adding the MII MISP Communication DTM All Devices Protocol Vendor 2 HART Communication HART CodeWrights GmbH 1 0 38 2010 04 12 m MII MISP Communications DTM Moore Industries International Inc 1 00 0000 2013 01 28 Moore Industries International Inc 75 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 5 Right Click on COM1 and select Parameter Figure 5 6 Adding the MII MISP Communication DTM n PACTware Fille Edit View Project Device Extras Window Help ipsu 884s a Connect Disconnect Get device state Load from device Store to device Measured value 6 In the Communications Port drop down menu select the actual COM port which your Fuse Protected USB Communications Cable is connected to click Apply then Ok Note You need to be certain to click apply when making these changes Once the correct COM Port is selected and you have applied it to parameters the small Pencil icon will disappear If Pencil icon is still visible it indicates that the change has not been applied to device Figure 5 7 Selecting c
23. Lil moore INDUSTRI ES WORLDWIDE Demand MOORE Reliability Doone GUS TRIES JeniusueJ eJnjyejeduia HYH Hews ejgqeuuureJ460Jg PACTware THZ TDZ X Programmable Smart HART Temperature Transmitter 238 741 00B April 2015 Customer Support THZ 3 TDZ Programmable Smart HART Temperature Transmitter Li moore INDUSTRIES WORLDWIDE Customer Support Use rs Manual 238 741 00B April 2015 Demand MOORE Reliability Moore Industries is recognized as the industry leader in delivering top quality to its customers in products and services We perform a sequence of stringent quality assurance checks on every unit we ship If any Moore Industries product fails to perform up to rated specifications call us for help Our highly skilled staff of trained technicians and engineers pride themselves on their ability to provide timely accurate and practical answers to your process instrumentation questions Our headquarters and other facilities phone numbers are listed below There are several pieces of information that can be gathered before you call the factory that will help our staff get the answers you need in the shortest time possible For fastest service gather the complete model and serial number s of the problem unit s and the job number of the original sale Locations World Headquarters 16650 Schoenborn Street North Hills California 91343 6196 U S A Tel 818 894 7111 Fax 818 891
24. M models or GY BSP C models Holes 2 DIA 72mm ibis DIA 2 83 in 2 INCH PIPE MOUNTING HARDWARE 84mm 3 31 in 2 in Pipe Bracket E Mounting Holes 4 IIT 89mm 61mm D 2 40 in 3 84 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 3 7 Dimensions of D Box Housing Conduit Fitting 130mm 5 12 in Body 116mm 4 57in 118mm EE ID 4 65 in 7 RSS 112mm 64mm 4 41 in 2 52 in 83mm 3 27 in Interior Diameter e 81mm 3 2 in www miinet com 32 Moore Industries International Inc m THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Electrical Connections When installing any Moore Industries product always follow all local regulations and standards for grounding shielding and safety WARNING Terminals on this unit may be connected to hazardous voltages Before making ANY connections to this unit always remove power from the loop or instrument power terminals Installation Category All terminals are rated CAT I Equipment Ratings The THZ and TDZ do not generate hazardous voltages they provide a low voltage 0 1V input and a 4 20mA output Products connected to the THZ and TDZ should be designed to receive this type of input WARNING If this unit is used in a manner not specified by Moore Industries th
25. PV Status See Figure 5 32 Figure 5 32 THZ 3 TDZ Custom Calibration Menu Input PV Capture PV Device Variable Sensor 1 PV Lower Limit 240 00 DEGC PV Upper Limit 960 00 DEGC PV Lower Range Value 54 51 DEGC PV Upper Range Value 5454 DEG C PV 54 50 DESC PV Status Good PV Capture Lower Capture Result www miinet com 94 Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Sensor 1 Trim Here you can select your Trim Mode select from either Disabled One Point or Two Point Also displayed are the following Values Minimum Lower Trim Value Maximum Lower Trim Value Minimum Upper Trim Value Maximum Upper Trim Value Minimum Span Sensor 1 Heading Sensor 1 Reading State and Desired Trim Point Value There are three buttons Trim Lower Point Trim Upper Point and Factory Default Finally a display field for the displaying Trim Result value Refer to Figure 5 33 Sensor 2 Trim Is identical to the Sensor 1 Trim menu when Sensor 2 is enabled Figure 5 33 THZ 3 TDZ Custom Calibration Menu Sensor 1 and Sensor 2 Trim Minimum Lower Trim Value 240 00 DEGC Maximum Lower Trim Value 950 00 DEG C Minimum Upper Trim Value 230 00 DEGC Maximum Upper Trim Value 960 00 DEGC Minimum Span 10 00 DEGC Sensor 1 Reading 240 00 DEG C Sensor 1 Reading Poor Accuracy Low Limited Desired Trim Point Value Trim Result Moore Ind
26. Range Alarm features please refer to section 1 Q Note After making all desired changes enter SEND to update the unit Figure 4 4 TDZ or THZ Setup menu Process Variables Yes Default Config No Basic Wizard Follow Wizard On Screen Instructions Config Wizards Setup Drift Wizard See Figure 4 5 Custom Input Calibration Dual Input Review See Figure 4 9 Analog Output See Figure 4 10 See Figure 4 11 HART Settings Display See Figure 4 12 System Config i See Figure 4 13 Advance Settings Moore Industries International Inc sf www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Input Menu The Setup menu allows you to access the following menus Filter PV Damping Configure Sensor and Ranging amp Mapping Filter BOHz This setting is used to configure the input filter The filter is designed to reduce the effects of mains induced noise The input filter frequency value should be set to the frequency of the local AC supply either 50Hz or 60Hz PV Damping DISABLED 0 seconds PV Damping allows you to introduce a delay 0 60 seconds into the response of your unit in order to stop short lived spikes from initiating faults and generating fault messages The damping time setting is the time PV takes to make a 63 change in response to a step change Configure Sensor The Configure Sensor menu allows you to access to the
27. Sensor 2 as follows Refer to Figure 5 26 Sensor 1 INPUT and Type Selection Resistance 1 From the Input Drop down Menu select either 2 Wire Resistance 3 Wire Resistance or 4 Wire Resistance Connection 2 From the Type Drop down Menu Select a Resistance value from 4k 2k 1k 500 250 or 125 ohms 3 Sensor 2 can also be configured in the same manner mV 1 From the Input Drop down Menu select Millivolts 2 From the Type Drop down Menu choose from 1k 500 250 125 62 5 or 31 25 mV 3 Sensor 2 can also be configured in the same manner Potentiometer 1 From the Input Drop down Menu select Potentiometer 2 From the Type Drop down Menu select either 4k 2k 1k 500 250 or 125 ohms 3 Sensor 2 can also be configured in the same manner RTD 1 From the Input Drop down Menu select either 2 Wire 3 Wire or 4 Wire Connection Configuration 2 From the Type Drop down Menu select desired RTD 4 Sensor 2 can also be configured in the same manner T C 1 From the Input Drop down Menu select either Thermocouple with RJC or Thermocouple no RJC Select TC no RJC ONLY if you are using a rare and old remote reference junction wiring strategy 2 From the Type Drop down Menu select desired T C 3 Sensor 2 can also be configured in the same manner Sensor 2 INPUT and Type Selection 1 You can choose to have Sensor 2 in Not Used mode and the parameters will be greyed out You also can configure Sensor
28. THZ 3 TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter THZ3 TDZ DTM Parameter Advanced Setup Configuration The Advanced Setup menu contains all the Basic Setup plus the advanced features please refer to the Basic Setup description in addition to this section Figure 5 36 THZ 3 TDZ Parameters Page Menu for Advanced Setup ie TDZ3 HP Hockey Puck Display Parameter dbx THZ3 TDZ3 DTM y by Moore Industries International Inc IND E WoORLOWIDE E Input Configure Sensor RJC Temperature Sensor 1 Sensor 2 i Ranging and Mapping J Configure Dual Input Sensor Backup 1 2 Sensor Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select High Select System Configuration i Custom Curves Range Alarms Analog Output Display Configure Custom EGU Configure Custom Name e 2 HART Settings Po HART Burst Message 1 HART Burst Message 2 HART Burst Message 3 3 Custom Calibration Input PV Capture Sensor 1 Trim Sensor 2 Trim AO Loop Current Test Trim Input Simulation Sensor 1 Corrosion Sensor 2 Corrosion Moore Industries International Inc 99 www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter User s Manual 238 741 00B April 2015 INPUT The Advanced Setup for the Input menu contains similar features as the Basic Setup with added features Configure Sensor Selecting will allow you to
29. Trim Trim Zero Trim Full Follow and heed the information and instructions on the screen of your HART Communicator Use your voltmeter to measure the voltage drop across the 2500 resistor A 4mA output will read as 1V across the resistor Follow the instructions on the screen of your HART Communicator and then proceed to Trim Full Use your voltmeter to measure the voltage drop across the 2500 resistor A 20mA output will read as 5V across the resistor Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Calibration using FDT DTM Software This section provides information on calibrating the TDZ THZ using a PC with PACTware an FDT frame application For users who already have an FDT Frame Application all the following information is still relevant For more information on FDT DTM please refer to www fdtgroup org To perform the Input Trimming of the THZ TDZ set up equipment in Table 2 2 as shown in Figure 2 7 Table 2 2 Necessary Equipment Device Specifications Millivolt or Resistance Source Power Supply 24Vdc 10 Accurate to 0 05 of span for the intended application Load Resistor 250 ohms with 0 01 precision Multimeter Calibrated to an accuracy of 0 025 or better such as Fluke Model 725 or similar PC with PACTware or FDT frame application Communications Cable Moore Industries P N 803 040 26 or
30. Trimming with HART Communicator Online Menu Process Status Variables Model Input PV Capture Device Setup Setup Variable Trim Device Variable Trim Sensor 1 PV is PV Quality PV PEBIOIm AO Trim Reset Display Device Variable Trim Calibration PV Loop Current PV LRV PV URV Review SV TV S1 Corrosion Det QV Range Alarm S2 Corrosion Det Status AO Trim Device Variable Trim Reset Sensor 2 Loop Test Input Simulation Unlatch RA www miinet com 16 Moore Industries International Inc m THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter From the Online menu select Device setup Select Custom Calibration Select Variable Trim Select Device variable trim pL ge ony Follow and heed the information and instructions on the screen of your HART Communicator Select Sensor 1 7 Select Trim Low You will now be setting your input resistance to match your PV LRV By example If your LRV is 32 F the input you will apply to the instrument will be 1000 00Q 9 When your reading stabilizes press the OK button to capture the value and follow the prompts 10 Follow the screen prompts to trim the PV URV 11 Save the trim values and return your instrument to loop control and verify that your input is reading correctly 12 You can then perform the Variable Trim for Sensor 2 if you are using a dual sensor configuration Trimming for a thermo
31. When the Percent of Range or Loop Current are selected for display each will be shown using two screens 12 345 AO 12 345 MA Or 12 345 PCT 12 345 PCT If there is a problem with the underlying Device Variable only one screen will be shown BADDQ Dynamic Var Name In this last case the nature of the error will be shown separately Decimal Places Auto This setting 0 3 AUTO controls the maximum number of decimal places shown For example a setting of AUTO will display 1 2345 or 12 345 Depending on the magnitude of the whole portion of the number the decimal point may be forced to the right If 3 Decimal places are selected 1 234 will be shown However the DP will be moved to allow 123 45 to be shown Moore Industries International Inc 2559 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Device Variable Display Flags These flags control if individual Device Variables are shown One or all Device Variables can be selected SEN1 SEN2 RJC T BU1 2 BU2 1 AVG DIF12 DIF21 ABDIF LOSEL HISEL When selected a Device Variable is shown using two screens 123 45 Name default or custom name 123 45 UNITS If there is a problem with the Device Variable then the following will be shown BADDQ Name default or custom name Configure Custom EGU Each Device Variable can have a custom EGU string specified for it The Custom EGU must be enabled in
32. a list of Device Variables www miinet com 108 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter This quality stamp can be one of the following values GOOD BAD POOR ACCURACY with associated flags HI LO LIMITED CONSTANT The quality stamps on the sensor readings SEN1 amp SEN2 are used in conjunction with the input quality alarms to determine the quality of Device Variables and or the AO response Input Quality Alarms The THZ3 TDZ3 also allows the user to determine how certain types of input quality issues are handled and how they can affect the Device Variables and their mapped Dynamic Variables AO There are 3 different quality alarms Measurement out of Conformance Range Allow Limited and Allow Dropping Measurement out of Conformance Range ON When a temperature reading goes outside the linear conformance range of the sensor and or when a value is applied to a custom curve outside the curve s range resulting in extrapolation the accuracy becomes degraded If Allow Measurement out of Conformance Range Alarm is set ON Default then the Device Variable will be stamped POOR ACCURACY If the alarm is OFF then the Device Variable is stamped as BAD Allow Limited OFF When a sensor s value reaches its Upper or Lower Limit it will not be allowed to go beyond the limit This typically happens in conjunction with input saturation and or RTD Th
33. and or 3 wire sensors 4 wire sensors limited to 2 wire and or 3 wire sensors RTDs cannot be used 4 wire sensors RTDs cannot be used mwi 60000 D0000 hhh Lila eddie DODOL TB1 TB2 TB4 TB5 TB1 TB4 TB5 TB4 TBS TB1 TB4 TB5 TB1 TB2 TB3 TB4A TB5 2W RTD Resistance 3W RTD Resistance 4W RTD Resistance POTENTIOMETER THERMOCOUPLE mV anor 0002 buaka SooSo TB1 TB2 TB3 TB4 TB5 TB TB2 TB3 TB1 TB2 TB3 TB4 TB TB2 TB3 TB4 TB5 2W RTD Resistance 3W RTD Resistance POTENTIOMETER THERMOCOUPLE mV www miinet com 14 Moore Industries International Inc mE THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Calibration Every THZ TDZ3 is calibrated to our specifications prior to delivery to our customers We recommend that you check the calibration every year and re calibrate only when necessary Please refer to the Long Term Stability Table in Section 8 of this manual Calibration by the end user can be performed in the field by capturing or trimming the input and or trimming the analog output Sensor trimming increases the measurement accuracy of your instrument by matching the reading of its actual input to its scaling The THZ TDZ offers the use of a trimming feature that can be accessed using a HART Communicator a HART Host or an FDT Host such as PAC Tware Likewise output trimming increases the measurement accuracy of the THZ TDZ by calibrating its analog
34. any HART response message This command selects the minimum number of preambles to be sent by a device before the start of a response packet in the HART message A longer preamble means slower communication The number of preambles may need to be manually increased for some HART hosts if there are missed messages or communication errors Tag Place a unique label that corresponds to your instruments location or specific usage 8 characters maximum Long Tag Place a unique label that corresponds to your instruments location or specific usage 32 characters maximum Descriptor Place text that is used as a description of how the instrument is being used 16 characters maximum Message Place additional information that may be helpful in describing the instrument or its use 32 characters maximum Final Assembly Number 0 You may enter a number that is used for identification purposes and is associated with the field device 8 characters maximum This is a read only value displays the date this unit was programmed at factory his is a read only value that uniquely identifies the field device when combined with the manufacturer identification and device type his is a read only value corresponds to the revision of the electronics hardware of the field device This is a read only corresponds to the HART revision installed on field device This is a read only value corresponds to the revision of the F
35. are 2 views of the configuration Basic and Advanced By default you will be shown the Basic Setup which will provide configuration for most applications If you need to configure the advanced features then you will need to select the Advanced Setup menu by clicking on the Advanced Setup icon on the bottom left of the window To view Advanced Setup features and functions see the TDZ THZ DTM Parameter Advanced Setup Configuration later in this Section Q Note The Advanced Setup menu contains all the Basic Setup plus the advanced features so the following Basic Setup description is applicable to Advanced Setup also Figure 5 25 THZ 3 TDZ Parameters Page Menu for Basic Setup PACT wore De Edi ee popa Deke kgm Window Help Duc mo narusoS3s cc NL THES TOL OTM cmm Ea erue raster tenir te Ew MISEECOMI2 TORI HF Hockey Pus 0 AG Leep Current Test Trim Simauilabesn Sensor 1 Carredien Sensor 2 Coreen Parameter Menu Configuration The Parameter Menu page consists of five main Menu options Input Analog Output Display HART Settings and Custom Calibration Q Note The Display option will only be active for the TDZ 3 It will be grayed out for the THZ www miinet com 86 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter INPUT Configure Sensor Types Select the Configure Sensors this will enable to configure Sensor 1 and
36. calculated Device Variable both sensors engineering units EGU must be compatible i e the same or both temperature units If a calculated Device Variable has different engineering units EGU from the sensors EGU scaling will need to be used to change the units Single Sensor The THZ or TDZ can be configured to use a single sensor Follow these steps 1 Configure the sensor a Use the Configure Input Types method to select SEN1 and to have SEN disabled b Navigate to the Sensor 1 Configuration menu and make any additional settings as needed 2 Assign Map the Device Variables to the HART Variables PV SV etc The only Device Variables available are SEN1 and RJC T In most cases SEN1 should be assigned to PV Default setting 3 Configure the PV Range PV URV and LRV 4 Configure the AO s Range limits and fail response Q Note A single sensor 4W RTD is the factory default configuration see Quick start guide for details www miinet com 38 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Dual with Identical Sensors The THZ or TDZ can be configured for use with two identical sensors Follow these steps 1 Configure the sensor a Use the Configure Input Types method to select SEN1 and to use the same sensor for SEN2 b Navigate to the Sensor 1 Configuration menu and make any additional settings as neede
37. current Cmd 9 Device vars w status Num resp preams Enter Num resp preams Tag Enter Tag Cmd 33 Device variables Long Tag Cmd 48 Read Additional Device Status Enter Long Tag HART Settings Descriptor Enter Descriptor Message Enter Message Date Enter Date Continuous Window Off Wired HART Enabled Rising BMsg x Mode Falling On change Final asmbly num Enter Final asmbly num Dev id Displays Dev id Hardware rev Displays Hardware Rev BMsg x Cmd BMsg x Update Per Burst Configuration Burst Message 1 BMsg x Max Update Per Burst Message 2 BMsg x Trig Mode BMsg x Trig Units BMsg x Trig Level Enter Value Note Enter Value that is within the range LRV to URV of Burst Variables the device variable the user selected from the BMSg Cmd i e if cmd 1 PV is selected and Sensor 1 is mapped to PV and Sensor 1 is RTD 3850 then the value user can enter here is 200 to 850 CMD 9 amp 33 only Burst Message 3 RJC Temp 1 BMsg 1 0 Sensor 1 2 BMsg 1 1 Sensor 2 3 BMsg 1 2 Backup 1 2 4 BMsg 1 3 Backup 2 1 Average 5 BMsg 1 4 Differential 1 2 Differential 2 1 6 BMsg 1 5 7 BMsg 1 6 Absolute Differential 8 BMsg 1 7 Low Select High Select Moore Industries International Inc zi www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Display Menu TDZ only The Display menu al
38. its value based on input in less than 5 seconds after power up Noise Rejection Common mode 100dB 50 60Hz Normal Mode Refer to Table 4 RFI EMI Immunity 20 V m 80 1000 MHz 1kHz AM for TDZ HP and THZ DIN RF and 10 V m 80 1000 MHz 1kHz AM for THZ DIN and THZ HPP when tested according to IEC61000 4 3 THZ DIN 221g 7 9 oz THZ HPP 91g 3 2 oz THZ HPP in LH1 423g 15 1 oz THZ HPP in LH2 644g 22 9 oz TDZ HP 182g 6 4 oz TDZ HP in BH 1 4kg 50 2 oz TDZ HP in D Box 672g 23 4 oz TDZ HP in SB 3 2kg 113 oz www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Table 1 THZ TDZ Dual Input and Accuracy Table Input Type Ohms Conformance Minimum Input Maximum Sensor to Range Span Accuracy Range Transmitter Matching Up to 0 014 C 0 025 F system accuracy MET MEM 30 High accuracy measurements are achieved by using a 4 wire 1000 ohm platinum RTD with a span of 100 F 50 F minimum calibrated in our sensor matching calibration bath 200 to 850 C 328 to 1562 F 240 to 960 C 0 003850 400 to 1760 F 090 0 1 C 0 18 F o w D 100 to 650 C 150 to 720 C 0 003902 s 148 to 1202 F 238 to 1328 F 200 to 510 wen m m 528 950 00 to Me nm 0 mzio eose 0 00427 9 035 i
39. must be followed when installing this equipment WARNING Substitution of components may impair Intrinsic Safety To prevent ignition of flammable or combustible atmospheres disconnect power before servicing Li moore INDUSTRIES www miinet com 0Q5 0 125 S 4 003 Q 080 MNGLES 1 2 Intrinsically Safe System the written consent of an authorized officer of MII The control room equipment unspecified apparatus connected to the Associated Apparatus must not generate more than 250 Vrms or Vdc or the marked Um on the associated apparatus whichever is less Installations in the U S shall be in accordance with ANSI ISA RP12 06 01 Installation of Intrinsically Safe Systems for Hazardous Classified Locations and the latest edition of the National Electrical Code ANSI NFPA 70 Resistance between Intrinsically Safe Ground and earth ground must be less than 1 0 Ohm D Where English is not a language of the Country in which Installation in Canada shall be in accordance with the latest edition of the C22 1 Canadian Electrical Code Part I the equipment is being used please apply to Moore Installation in Europe shall be in accordance with the latest editions of the wiring Industries International Inc MII for a suitable translation practices for the country of origin and EN 60079 14 Installation for IECEx certification shall be in accordance with the latest editions of the WIKIO pracuces 10r in
40. o p F 4153 F 85 Mos P n a Q 250 500 1k A 5 BE Pe Kd EF a 180 to 760 ee 35 Ku E 210 to 770 NN 292 to 1400 F 63 F 0 45 F 346 to 1418 F 150 to 1370 C 40 C 0 3 C 270 to 1390 C 238 to 2498 F 72 F 0 54 F 454 to 2534 F 170 to 1000 C 35 C 0 2 C 270 to 1013 C 274 to 1832 F 63 F 0 36 F 454 to 1855 4 F 170 to 400 C 35 C 0 25 C 270 to 407 C T 274 to 752 F 63 F 0 45 F 454 to 764 6 F i m 0 to 1760 C 50 C 0 55 C 50 to 1786 C 32 to 3200 F 90 F 0 99 F 58 to 3246 8 F re m 0 to 1760 C 50 C 0 55 C 50 to 1786 C 32 to 3200 F 90 F 0 99 F 58 to 3246 8 F m 400 to 1820 C 75 C 0 75 C 200 to 1836 C 752 to 3308 F 135 F 1 35 F 392 to 3336 8 F m 130 to 1300 C 45 C 0 4 C 270 to 1316 C 202 to 2372 F 81 F 0 72 F 454 to 2400 8 F 0 to 2300 C 100 C 0 8 C 0 to 2338 C C 32 to 4172 F 180 F 1 44 F 32 to 4240 4 F www miinet com 120 Moore Industries International Inc mE THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Table 8 2 Long Term Stability Table Stability of maximum span Input to Output Input to HART RTD Ohm Table 8 3 Ambient Temperature Effects Table Sensor Digital Accuracy per 1 C 1 8 F Analog Accuracy per 1 C 1 8 F Type change in Ambient change in Ambient 0 003 C 0 001 of span 16mA All T C 0 000
41. of the Certification Engineer related dwgs 2 6 0 or the Certifying Agency schedule dwgs FRONT FACE SLIT REF WARNING Explosion Hazard Do not disconnect equipment when a flammable or combustible atmosphere is present AVERTISSEMENT Risque d explosion Avant de d connecter l equipement couper le courant ou s assurer que l emplacement est d sign non dangereux Nonincendive Type n 12 42Vdc 24mA maximum Operating Temperature Range 40 C x Tamb x 85 C x Q lt u gt 3 1 55 C 9 I 3 G Ex nA IIC T4 Gc Ex nA IIC T4 Gc owes CE CI Class I Zone 2 AEx nA IIC T4 Ex nA IIC T4 FM13ATEX0096X e L Class Division 2 Groups A D T4 IECEx FMG13 0034X End user to mark protection type for specific chosen installation Model imoore t INDUSTRIES CA 91343 USA Tag E MA UNLESS OTHERWISE SPECIFIED MATERIAL 002 SILVER IDENTIPLATE MII P N 200 305 00 CUT TO SIZE AS SHOWN REFER TO LABEL SPEC DRAWING 200 305 00 ADHESIVE BACKING IS UL CSA APPROVED HIGH PERFORMANCE ACRYLIC PRINTING IS WITH BLACK UL CSA THERMAL TRANSFER RIBBON 801 003 96 2 IHE FIXED TEXT AND GRAPHIC FIELDS FOR THIS LABEL ARE STORED UNDER NO 200 251 2460 IN THE LEGI 95 LABEL MACHINE COMPUTER HARD DISK 5 TO PRINT THIS LABEL JOB SPECIFIC MODEL SERIAL AND TAG NUMBERS WILL BE DOWNLOADED FROM THE MENTOR DATA FILE AND PRINTED ALONG WITH THE FIXED TEXT AND GRAPHICS SUPPLIED BY THE LEGI 93 DATA FILE TO CREATE THE FINISH
42. state Load from device Store to device Measured value 11 You will now see the online state turn green to indicate you have a connection Now you can go ahead and configure parameters of the DTM i e TDZ HP Figure 5 13 THZ TDZ Parameters PACTware File Edit View Project Device Extras Window Help Des d p 02 80 8 33 sim 29 THZ3 TDZ3 Parameter THZ3 TDZ3 DTM by Moore Industries International Inc E Input ve Analog Output A Display HART Settings Custom Calibration Please go to THZJ TDZ3 DTM Configuration section www miinet com 78 Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Connecting to THZ3 TDZ3 using HART To configure the HART Communications DTM you will need to add necessary DTMs within the FDT frame application PACTware software to start your configuration Follow steps below to achieve this 1 Connect TDZ THZ unit per Figures 5 1 5 3 2 Launch FDT frame application PACTware software Figure 5 14 HART configuration adding a device rJ PACTware File Edit View Project Device Extras Window Help D eaae iMa B amp 20 os ai Am is Connect Disconnect Topology Scan 3 Right Click on the Device Tag named HOST PC and select Add device Figure 5 15 Adding HART Communication DTM P Device for Protocol Ven
43. sure you thoroughly understand the contents before installing using or maintaining this product Should you still have questions please visit our web site at www miinet com or contact any of our sales support offices nearest you Your safety and the safety of others is very important We have provided many important safety messages in this manual Please read these messages carefully These safety messages alert you to potential hazards that could hurt you or others or render damage to units All Moore Industries instrumentation should only be used for the purpose and in the manner described in this manual If you use this product in a manner other than that for which it was intended unpredictable behavior could ensue with possible hazardous consequences enuen Siy 1noqy Each safety message is associated with a safety alert symbol These symbols are found in the throughout the manual The definition of these symbols is described below Pay particular attention wherever you see the following symbols Note Information that is helpful for a procedure condition or operation of the unit Caution Hazardous procedure or condition that could damage or destroy the unit Warning Hazardous procedure or condition that could injure the operator Qualified Personnel The Moore Industries product systems described in this manual may be operated only by personnel qualified for the specific task in accordance with the relevant doc
44. view the transmitter s real time values see Section 5 24 of this manual Figure 2 14 Bench Check Setup 12 24Vdc Power Load 250 ohm Voltmeter ANI l l LI LEM Moore Indusries P N 804 030 26 HART Modem connects to Serial USB COM Port of PC Port of PC Moore Industries International Inc 27 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 3 Installation and Wiring Instructions in this section and others may require special precautions to ensure the safety of the personnel performing the operations Notes Cautions and Warnings that may cause potential safety issues are indicated throughout this manual by symbols please refer to Page 3 of this manual to view and familiarize yourself with these safety message symbols Figures 3 2 through 3 7 show the various housings and their dimensions Q Note Make sure to calibrate and bench check the instruments prior to installation Also install all instruments in their intended application before making any electrical connections For DIN rail mounted instruments allow enough room for pivoting instruments vertically on the rail for removal in applications involving multiple banks of units Terminal Designations Figure 3 1 Terminal Designations THZ3 HPP 4 Terminals Input Connections THZ3 HPP 2 Note THZ3 HPP see figure 3 4 When using two
45. 1 Broken Wire Detection En able System Configuration Analog Output Broken Wire Holdoff 0 0 60 0 0 00 sec Display H HART Settings Running Average Filter Setting 1 NENNEN Custom Calibration 16 i Input PV Capture qs P Sancor T Trim Two Wire Offset 10 0 250 0 Sensor 2 Trim AO Loop Current Test Trim Sensor 1 Corrosion Enable Enable Input Simulation Sensor 1 oe Sensor 1 Corrosion Base 0 00 Sensor 2 Corrosion Resistance Sensor 1 Corrosion W arning 4000 oo Tolerance Sensor 1 Corrosion Failure 4000 00 Tolerance Serial Number o 100 Moore Industries International Inc THZ TDZ User s Manual 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Scaling This allows you to customize your display for your application By example if your process is sending a 200 C to 850 C signal to the THZ or TDZ and you wish to view the input as 0 10096 then this can be accomplished with the Scaling feature Custom Curve This allows you to enable disable Custom Curve Operation and Select which Custom Curve 1 4 to assign to Sensor 1 2 Note Refer to the System Configuration Menu to configure Custom Curves 1 4 once enable and assigned Sensor 2 Configure this in the same manner as Sensor 1 same limitations apply Ranging and Mapping Refer to Basic Setup for detailed information Configure Dual Input This menu will allow you configure the scaling custom curv
46. 19 202 10 29 SJ9jouleJeg Ayyuz Jrle 01 pejyuui eq eys eouejoedeo 9 qeo e 0 eui UdU Jrie uey J9je946 si snjeseddy pojeroossy y Jo e9 H LON eoJy snopJezeng uoN II JO 129140 pezuouine ue JO juesuoo uanuMw eui jnoujM Aed puru Aue oj pesojosip Jo peonpoudai eq jou pjnous pue IN OU lPuoneuJoju seujsnpu 9J00o N Jo AWedojd Kjejeudoud y eje uray peurejuoo uogeuuojur euy pue Buweip SIUL NOLLVIAHOJNI AsV LaleidO d AY SOILON HOWELL Goa C9 LHS 87 00L 00L o v1 0l Ad 4ALVG RA NOISIASY Bunias BJOJOG JOMOd JOOUUODSIP s s aydsowze e qnsnquuoo 10 ejqeuuuJe j jo uoniuDi JUSASIG OL Ajejeg oisuuju edw Aew sjueuodujJoo Jo uonninsqng 9NINHVM SALON NOILVTIVLSNI YO4S LAAHS 33S ALON Sd Sd snjeseddy ejduuis Josueg 9 1 JO GLY Bulajqeo ejqeyns 5 06 SN JSN 2 894 5 quie s 3 0p ebuey eunjeueduje Buneiedo 99 1d3 Oll dnouo seo e AioBaye9 dnog Buppeds uoN 2I dnog z uoz sse 9 02 9L ay sdiious z AGIS 2 98 SL 2 989 vL SAIPUSOUIUON e9 1d3 Oll dnoJo seo AoB8je5 dnog ayes DI dnois 9 euoz ssej AlIeorsuuju d y sdnouo Aig SSe Bunjey L UOIEDISSE D Bay HWO 1 AU LLG O MW Gzg xeug 10 Id Sd 9 Sd yw QLL Xew JO i doo1 J 9wog SPA OE XEUJA JO If HW 4494 07 dnou vii 90979 I 6 666 09 HU 8 4 07 gil dnog na O Ea JTO B6r P9 Gite 21 HW G
47. 2 in the same manner as Sensor 1 Q Note While the THZS TDZ will accept a dual input sensor configuration the following limitations apply only when using two input sensors TDZ 3 HP 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ DIN see figure 3 2 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used Moore Industries International Inc se www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 THZ3 HPP see figure 3 4 Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to a 2 wire sensor Sensor 1 and 2 Engineering Units Figure 5 26 THZ TDZ Parameters Input Configure Sensor Types Sensor 1 Input 2W RID T 3W RTD xdi 4W RTD 2W Resistance Engineering Units 3W Resistance 4W Resistance Thermocouple no RJC Broken Wire Detection Thermocouple with RJC Millivolts Potentiometer Broken Wire Holdoff 0 0 60 0 0 00 sec Running Average Filter Setting 1 1 16 Two Wire Offset 0 0 250 0 0 00 Ohms Serial Number 0 Sensor 2 Input wRD vr Type Pt3850 100 M Engineering Units degrees Celsius x Broken Wire Detection Enable v Broken Wire Holdoff 0 0 60 0 0 00 sec a Average Filter Setting 1 1 Two Wire Offset 0 0 250 0 0 00 Ohms Serial Number 0 1 From the Engineering Units Drop down Menu select the unit of measurement desired Sen
48. 3 C 0 0015 of reading 0 001 of span 16mA T C B 0 003 C 0 0015 of reading 0 001 of span 16mA Millivolt 0 0005mV 0 0015 of reading 0 001 of span 16mA 0 002 ohms 0 0015 of reading 0 001 of span 16mA Table 8 4 Normal Mode Rejection Ratio Table Sensor Type Max p p Voltage Injection for 70dB at 50 60 Hz Moore Industries International Inc 121 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 9 Ordering Information Ordering information detailed below Field Mount Unit Unit Input Output Power Options Housing THZ PRG 4 20MA 12 42DC None HPP Hockey puck housing for mounting in standard connection Smart HART Programmable with Scalable heads Temperature standard HART to narrower 12 30DC Transmitter communicator or ranges Intrinsically LH1NS Connection head with two entry ports inch NPT HART compatible host Safe I S cable and process black PBT polyester cover program or monitor applications with any FDT compliant LH1MS Connection head with two entry ports M20 cable and iud Meuse NR iu inch NPT process black PBT polyester cover our DTM Class 1 Div 2 Zone 2 by LH1CS t Connection head with two entry ports M20 cable and RTD default G12 BSP process black PBT polyester cover 2 3 4 Wire Platinum Copper Nickel LH1NX Connection head with 72 inch NPT entry and mounting plate for customer s air du
49. 4000 ohms 50 1000mV see Table 1 for additional information To order specify Unit Input Output Power Option Housing Model Number Example THZ3 PRG 4 20MA 12 42DC DIN www miinet com 122 Moore Industries International Inc User s Manual 238 741 00B THZ TDZ April 2015 Programmable Smart HART Temperature Transmitter Field Mount Unit with Display Unit Input Output TDZ PRG 4 20MA 12 42DC Smart Programmable with Scalable HART standard HART to narrower 12 30DC Temperature communicator or ranges Intrinsically Transmitter HART compatible host Safe I S with Display program or monitor applications with any FDT compliant host or program such Non incendive as PACTware utilizing Class 1 Div our DTM 2 Zone 2 by default RTD 2 3 4 Wire Platinum Copper Nickel Thermocouple J K E T R S B N C 0 4000 ohms 50 1000mV see Table 1 in Section 7 for additional information Additional Parts The communications cables must be purchased separately P N 804 030 26 Non Isolated Fuse Protected USB Communication Cable required by IECEx and ATEX for products installed in Intrinsically Safe areas P N 803 040 26 Non Isolated Serial Configuration Cable for 2 Wire Instruments P N 804 021 26 HART to USB Smart Interface Cable with HART Modem To order specify Unit Input Output Power Housing Model Number Example TDZ PRG 4 20MA 12 42
50. 804 030 26 PAC Tware version 4 1 SP3 or newer For instructions on installation and setup of the THZ TDZ DTM with PACTware or another FDT frame please refer to section 5 See Figure 2 7 for the power supply and loop connections The TDZ is shown but the power supply and loop connections for the THZ HPP and THZ DIN will be similar Figure 2 7 Calibration Setup for PAC Tware 12 24Vdc Power Supply Load 250 ohm Moore Indusries P N 804 030 26 To USB Port of PC HART Modem connects to Serial USB COM Port of PC Moore Industries International Inc s www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Use PACTware to verify how your instrument is configured Refer to Figure 2 8 below Figure 2 8 Verify your sensor type File Edit View Project Device Extras Window Help Bug 3 e 90 9 3 5 EO Sud o5 Project X TDZ3 HP Hockey Puck Display Parameter Deicetag Addre Sb EEA nzTDZSDMM SB HOST PC TE by Moore Industries International Inc B MISP COM3 xD sees W JUSTRIES oe TDZ H 0 7 Ranging and Mapping Analog Output Display HART Settings Custom Calibration Engineering Units Broken Wire Detection Broken Wire Holdoff 0 0 60 0 Running Average Filter Setting 1 16 Two Wire Offset 0 0 250 0 Sensor Serial Number Sensor 2 Input Not Used x KI Connected Q Data set Plann
51. Additional Functions Selecting this opens a submenu N A N A N A N A Clear Configuration Changed Bit This clears the Configuration changed Bit by HART master This feature only works when using HART Communications Clear More Status Available Bit Clears the More Status available Bit when Main Systems Status indicates More Status Available Upload Custom Curves From Device This will upload any or all of custom curves available to PACTware Download Custom Curves To Device This will download any or all of custom curves available to Device Import Custom Curves This will import any Custom Curves settings external files using the CVS Format to PACTware Export Custom Curves This will allows you to export and save CVS Format files of any Custom Curves settings generated in PACTware Write device data to file N A N A Exchange Device Select this if you wish to swap devices Delete Device Select this to delete the current device PACTware will not allow you to delete device unless device is disconnected Properties Select this to view the About DTM and History Moore Industries International Inc su www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 THZ3 TDZ3 DTM Parameter Reference guide The following provides a comprehensive list of DIM configuration menus and options which can be used as a quick reference guide to identify the dif
52. Alarm error There is a configuration error in any Device Variable which has been assigned mapped to HART variables burst messages or TDZ display The following provides an overview of the different types of diagnostics For a full list of status and diagnostic messages please refer to Status Messages and HART Registers Internal diagnostics On power up the unit runs through a thorough diagnostic test RAM ROM CPU etc and an initialization process SYS INIT is displayed on the TDZ If any errors are found the unit will enter failure mode Once in operation the unit continues diagnostic tests in the background Configuration diagnostics On power up the stored configuration is validated If it is invalid the unit will enter failure mode To clear the failure reset to the factory default configuration then configure as appropriate for the application If the configuration is changed the unit will check before running and enter failure mode if it is invalid Input diagnostics The THZY TDZ has extensive hardware diagnostics of sensor input s to detect broken wire saturation out of conformance range and linearization errors In addition the unit can be configured to detect sensor corrosion sensor drift or in out of range conditions see Section 1 Sensor Diagnostics section for more information Every Device amp Dynamic Variable in the THZ TDZ has a quality stamp per the HART standard See section 1 Tables 1 1 amp 1 2 for
53. DC BH2NGPF Moore Industries International Inc 2429 Options Housing HP Hockey puck housing and spring clips DN Snap in mounting for HP case on TS 32 DIN rail FL Mounting flanges on HP for relay track or screw mounting FLD Mounting flanges on HP for 372 relay track mounting BH2NG or Explosion Proof enclosure with two 1 2 inch NPT entry ports and a glass cover BH2TG or f Explosion Proof enclosure with two 3 4 inch NPT entry ports and a glass cover BH2MG or Explosion Proof enclosure with two M20 x 1 5 NPT entry ports and a glass cover BH3NG or 1 Explosion Proof enclosure with three 1 2 inch NPT entry ports BH3TG or f Explosion Proof enclosure with two 3 4 inch side entry NPT ports one 1 2 bottom port and a glass cover BH3MG or t Explosion Proof enclosure with two M20 x 1 5 side entry ports one 1 2 bottom entry port and a glass cover SB2NG or 1 2 Hub Explosion Proof enclosure with two 72 inch NPT entry ports and a glass cover SB2MG or X 2 Hub Explosion Proof enclosure with two M20 x 1 5 entry ports and a glass cover D2LC 2 Hub low base clear cover IP66 NEMA 4X enclosure Either A or E suffix comes supplied with 2 pipe mount hardware A suffix indicates ANZEx TestSafe Ex d Flame Proof approvals i e BH2MGA E suffix indicates ATEX Ex d and tD Flame Proof approvals i e BH2MGE t P suffix indicates enclosure comes e
54. ED LABEL www miinet com 133 Moore Industries International Inc April 2015 User s Manual 238 741 00B Programmable Smart HART Temperature Transmitter THZ 3 TDZ VEREOR T ERE ddJldl ddS ASIMYSHLO SSJINN SALON SSMP poje o1 1ooutgu q uonvorno oui Jo jeaoudde eur pue uoneormou oq jnoyM H38V1 GSHSINIS 3HL 31V33O OL JM VLVG 1931 3HL A8 Q3r1adfs PSI QC SHON EON IDOURON GHIRRID SOIHdVYD QNV IXd3L 3Xl4 34HL QVO INMOG 138V SIHL LNIdd OL PNPS 10 PALJOA peronuoo v st SUL pe ASIA GYVH YSALNdWOO 3NIHOVW 138V IO941 3HL NI I9vc 1S8S6c 006 ON d3dNO GO3SMOIS 38V 138V SIHL X04 SOT1l4 2DIHavelo ANY IX3lb Q3Xil4 3Hl lt c 96 00 108 NO88lM N3JSNVMHL IWWYSHL vSo 1n MOVIE HLIM SI 9NILNISd OFIAMOV 39NVIW3OJS3d HOIH Q3AOSddv VSO 1N SI 9NDIOV8 3AIS3HQV 7 00 70 002 ONIMVYC 3dS 138V1 OL X343 MOOLS TION 00 70 002 N d IW SLVIdVYLIN YSATIS ZOO IVINALVW ANI LAO 009 091 XPE00 ELOWS X39al VK9vc eso WSN EPEL6 VO OS8 SL pl xeeooxalveina 3 Sai 3 SAIMISNONI 998 5 e1 5 0p abuey due do YOL 1 PAOL in 3u00N TT Gv sdig wg i sseo CI oll 21x3 xav 0 euoz sseo CJ e9 9j exa ex9 rii amp 3 D 18 001 00 6mq ouo Jed jejsu enbesuuu eyunoeg ejes jeorsuuju IPPON Jee Jenas Bel 3NI 1n2 43M LOS 39V4 LNO9J ope FAVS ATIVOISNIMLNI VE sss EM ScV0 S007 XXX IIN JO 139140 pezuoujne ue jo juesu
55. Enabled Disabled RA4 Enabled Disabled Differential 2 1 Absolute Dif Low Select High Select Warning Low In range High Latching Dev Var Display Flags Configure Custom EGU Configure Custom Name Enabled Source Allow Meas Out of Comfor Allow Li mited Response Allow Dropping System Config Range Alarm 1 Range Alarm 2 Range Alarm 3 Range Alarm 4 Unlatch RA System Status Addl Status Bytes Subsystem Status Inp ut Status User Cfg Status Dev Variable Status Sensor 1 Sensor 2 Sx Corr Detection Sx Corr Res Sx Corr Warn Level Advance 5i isable Settings Tag Long Tag Descriptor Message Date Dev id Final asmbly num Universal rev Fld dev rev Softwarerev Hardware rev Poll addr Num req preams Num resp preams Burst message 0 1 2 Status Input PV Capture Variable Trim AO Trim AO Trim Reset Loop Test Input Simulation S1 Corrosion Det Device Variable Trim Device Variable Trim Reset Display Device Variable Trim Disable m a The Sensor Corrosion Settings is available only when input type is T C 3W 4W RTD Custom Calibration S2 Corrosion Det Unlatch RA Device Parameters Device Information These menu options are only available when Advanced Settings is enabled Sx Corr Error Level Sx Corr Base res Capture Base Value www miinet com 46 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Progra
56. Explosive atmospheres Part 0 Equipment General requirements EN60079 11 2012 Explosive atmospheres Part 11 Equipment protection by intrinsic safety i EN60079 26 2007 Explosive atmospheres Part 26 Equipment with equipment protection level EPL Ga Equipment Description Programmable HART Temperature Transmitter with Display Model TDZ3 4 20mA 12 42DC HP Indicates any input and option as stated in the product data sheet Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmospheres Provisions of the Directive Fulfilled by the Equipment Group Il Category 3G Ex nA IIC Gc T4 Type Examination Certificate FM13ATEX0096X www miinet com 124 Moore Industries International Inc m THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter LL moore EC Declaration of Conformity WORLDWIDE Moore Industries International Inc Date Issued 22 Apr 2015 16650 Schoenborn Street No 100 100 253 Rev B North Hills CA 91343 6196 U S A Page 2 of 2 Harmonized Standards Used EN60079 0 2012 Explosive atmospheres Part 0 Equipment General requirements EN60079 15 2010 Explosive atmospheres Part 15 Equipment protection by type of protection n Equipment Description Programmable HART Temperature Transmitter with Display in the BH or SB Enclosure Model TDZ3 BH E or SB2 E Indicates any input output power and options as stated in the prod
57. GU En RJC Temp Custom EGU Sensor1 Custom EGU En Sensor1 Custom EGU Sensor2 Custom EGU En Sensor2 Custom EGU Backup 1 2 Custom EGU En Backup 1 2 Custom EGU Backup 2 1 Custom EGU En Backup 2 1 Custom EGU Average Custom EGU En Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU Disable Enable Enter EGU i Average Custom EGU Differential 1 2 Custom EGU En Differential 1 2 Custom EGU Differential 2 1 Custom EGU En Differential 2 1 Custom EGU Absolute Dif Custom EGU En Absolute Dif Custom EGU Low Select Custom EGU En Low Select Custom EGU High Select Custom EGU En High Select Custom EGU i www miinet com 62 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Dynamic Variable Display Flags These flags control which Dynamic Variables PCT AO PV SV TV QV are displayed By default PV is shown When PV SV TV or QV are selected for display each will result in three screens 123 45 Dynamic Var Name 123 45 Source Device Var Name 123 45 Units For example If the PV is 123 45 OHMS being sourced from the Average Device Variable the following will be shown 123 45 PV 123 45 AVG 123 45 OHMS
58. Guidelines The grounding and wiring practices described above must be followed in order for the unit s to meet the requirements set forth in EMC standard EN61326 Moore Industries International Inc se www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Installation in Hazardous Locations This section contains important information regarding installation of THZ and TDZ in Hazardous Area Locations Note The THZ3 DIN is suitable for Class I Division 2 Groups A D or Non Hazardous locations only WARNING Substitution of components is not allowed as it may impair the intrinsic safety AVERTISSEMENT La substitution de composants peut compromettre la s curit intrins que WARNING To prevent ignition of flammable or combustible atmospheres disconnect power before servicing AVERTISSEMENT Risque d explosion Avant de d connecter l equipement couper le courant ou s assurer que d brancher tant que l emplacement est d sign non dangereux WARNING Explosion Hazard Do not disconnect equipment when a flammable or combustible atmosphere is present AVERTISSEMENT Risque d explosion Ne pas d brancher tant que le circuit est sous tension a moins qu il ne s agisse d un emplacement non dangereux WARNING Explosion Hazard Substitution of components may impair suitability for Class I Division 2 AVERTISSEMENT Risque d explosion
59. H Q3AOSddV VSO 1n SI ONIMOVE 3AIS3HQV 700 S80 002 ONIMVYC O3dS 138V OL M3J3H NMOHS SV 3ZIS OL LNO 00 90 007 N d IW 3LV1dlLN3dl M3AT1IS ZOO IVIM3LVW 4 q3l4l23dS ASIMYSHLO SSFINA SILON ANI LAO ocz Bel YSN EvEl6 VO JE9A Jenas S3Iu LSTONI jo THOON T uonej ejsui uesouo oyioeds Jo adA uonoejoJd yew o Jesn pu3 Xv 00 9W4 X3o3l iq sens UO SIART seio C X8600X4LVELNA pl OIL 8X3 vl Olle xay 0 euoz sse J 8 90 gn AN e9 rLOIe Xx3 eovrolrerxaorine p 3 2 2 884 5 quie s 2 0p obuey eunjejeduie Bunejedo E 08 001 001 Bmq Jo3u02 Jed e su YWOLL 1 OPAOE IN enbgsujjU eyunoes ejes Ajeorsuuul enbesuijui 9yunoes e ByoWOsdWOD 3ned sjuesodwod ep uonnynsqns e7 xneJeBuep uou euBisep 1se jueueoe duie enb Jasnsse s no jueJnoo e Jednoo uaweadinba Jej2euuoo9p ep jueAy uoiso dxe p enbsrj LN3IWSISSILHSAV LLI Z l Oo Ayayes oisuuuj edw Aew sjueuoduioo jo uonninsqns uesaJd si eyeudsouue aejqnsnquuoo JO oue Ni e UBYM jueuudinbo 12euuoosip JOU oq pJezer uorso dx3 mum NV mE E 43M LOS 30V4J LNO34 S8Mp o npouos Aoussy SUIAJIVIAD ou 10 0 d c SSMP po1e o1 1oourguq uontorm1o oui jo e 0udd eurj pue uoneornou oy oyy ponruuod ore suoneorrpour ON SUIMPIP eIhpouos 10 PALJOA Poy O quoo k St st ponpotd porro II JO 1291440 pezuoujne ue jo juesuoo uayuM aui jnoui Ayed puy Aue o pesojosip 10 peonpouJdai eq jou pjnous pue II oul
60. HZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Analog Output The system will scale the PV from its LRV URV Lower Range Value Upper Range Value range to the AO s Zero Full range As the PV exceeds this range the AO will continue linearly until it reaches the AO URV AO Under Range Value or AO ORV AO Over Range Value where it flatlines At this point the output is considered saturated and will be limited to that value If the PV s data quality goes BAD or a system error is detected which should result in the programmed fail response the AO will respond as configured by either Fail High to 23 6 mA Fail Low to 3 6 mA e Hold Last Value e Fail to a Preset Value configurable between 3 6 and 23 6mA Analog Output Trimming AO Trimming increases the accuracy of your instrument by calibrating its analog output to the device that is receiving the output This ensures that the instruments are matched to each other Display TDZ only All dynamic and additional device variables in the transmitter can be selected for display If none are selected then the unit will behave as though the PV is marked for display A screen of data includes the two main rows of characters on the display Normally a floating point value is shown on the top with a text message on the bottom row Some items require more than one screen to be displayed Each screen is shown for 2 seconds If the value
61. HZ TDZ configuration using DTM Section Figure 5 43 THZ 3 TDZ Additional Functions Menu for Importing and Exporting Custom Curve settings Compare offline 3C Add device Compare online Exchange device E Delete device Set value Set HART Polling Address Clear Configuration Changed Bit Properties 0 TDZ3 HP Hockey Puck Display TDZ3 HP Hockey Puck Display Clear More Status Available Bit Upload Custom Curves From Device Download Custom Curves To Device Import Custom Curves Export Custom Curves M Write device data to file Moore Industries International Inc s109 www miinet com THZ TDZ Programmable Smart HART Temperature Transmitter Range Alarms This menu allows you to enable and configure each of the 4 Range Alarms See Section 1 more information on this feature Each alarm has the following settings see Figure 5 43 Enable Disabled Enables or Disables the Range Alarm Latching Disabled Enables or Disables latching of the alarm Non latching alarms return to a non alarm state whenever the process input returns to a non alarm level Once tripped a latching alarm remains in an alarm state until the input returns to a non alarm level and is reset Source Primary Variable The Variable to be used as a source for the Range Alarm Response Warning How to react if the specified condition occurs Warning Sends a warning message to the HART Handhe
62. La substitution de composants peut rende ce materiel inacceptable pour les emplacements de Classe l Division 2 gt gt gt o eA Maximum operating parameters of the COM port for use in Non Hazardous areas shall not exceed 3 0V 300mA and 240mW www miinet com 34 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Special Conditions of Use The following instructions must be adhered to when the THZ and TDZ is used in hazardous locations and potentially explosive atmospheres cFMus Installations Intrinsically Safe Applications Class I Division 1 Groups A D Class1 Zone 0 AEx ia IIC Ex ia lIC The THZ and TDZ shall be installed in an enclosure which maintains an ingress protection rating of at least IP20 and also meets the requirements of ANSI ISA 61010 1 or C22 2 No 1010 1 The COM port shall not be used in Hazardous areas QZ Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it shall not be changed Nonincendive Type n Applications Class I Division 2 Groups A D Class1 Zone 2 AEx nA IIC Ex nA IIC When installed as Division 2 equipment the THZ and TDZ shall be mounted within a tool secured enclosure which meets the requirements of ANSI ISA 61010 10r C22 2 No 1010 1 and be capable of accepting the app
63. Min Max and Sensor 1 Scale Min Max S1 Custom Curve Selecting this will prompt menu shown in Figure 4 7 This allows enabling disabling custom curve setting engineering units and selecting 1 of 4 predefined Custom Curves to apply to Sensor 1 Q Note The Custom Curve menu is only visible if Advance Settings is Enabled Custom Curves have to be generated and saved in the unit using the DTM before they can be assigned to the Sensor Q Note After making all desired changes enter SEND to update the unit Sensor 2 Selecting this will prompt the same menu options as previous Sensor 1 configuration The same parameters features and setting options will be made available to change update as Sensor 1 but these changes update will be made to Sensor 2 when done within this menu Refer to Figure 4 5 for clarification Hit the HOME button to return to home menu Q Note After making all desired changes enter SEND to update the unit After entering SEND you can choose to SAVE this will prompt menu allowing to choose desired Location Internal Flash or System Card Name and Config Type Q Note When selecting a Location where to save file to both locations are on the HART handheld communicator Internal Flash stores file directly into the HART handheld communicator internal flash While selecting System Card allows you to save to the installed system card SD memory card Q Note After making all desired changes
64. Op Temp Range 40 lt Ta lt 85C INDUSTRIES ce x ew13aTexoogex T4 TS 85C CA 91343 USA 2462B IECEx FMG13 0034X T6 60C pa I LINE 2 10 SANIT 1n9 3 MATERIAL 002 SILVER ULTRAPLATE MII P N 200 304 00 ROLL STOCK REFER TO LABEL SPEC DRAWING 200 304 00 ADHESIVE BACKING IS UL CSA APPROVED HIGH PERFORMANCE ACRYLIC PRINTING IS WITH BLACK UL CSA THERMAL TRANSFER RIBBON 801 003 96 2 THE FIXED TEXT AND GRAPHIC FIELDS FOR THIS LABEL ARE STORED UNDER _ NO 200 251 2462 IN THE LEGI LABEL MACHINE COMPUTER HARD DISK Certified Product eo This is a controlled Related or Schedule E Cu 1 IO PRINT THIS LABEL DOWNLOAD THE FIXED TEXT AND GRAPHICS drawing No modifications are permitted E SUPPLIED BY THE LEGI DATA FILE TO CREATE THE FINISHED LABEL e eiu Ed lt e Certification Engineer related dwgs ONN or the Certifying Agency schedule dwgs To E NOTES UNLESS OTHERWISE SPECIFIED aii co DNA lt www miinet com edo Moore Industries International Inc Warranty Disclaimer Moore Industries The Company makes no express implied or statutory warranties including any warranty of merchantability or of fitness for a particular purpose with respect to any goods or services sold by the company The company disclaims all warranties arising from any course of dealing or trade usage and any buyer of goods or services from the company acknowledges that there are no warranties implied
65. RA n WARN ERROR Range Alarm n is indicaing a warning error condition OUT SATLO SATHI The Loop Current has reached the configured Under Over Range Value and is being limited there CAL C ERROR Configuration error detection when calibration attempted CAL D ERROR An input error was detected during calibration Table 6 3 TDZ or THZ Display Errors Diagnostic Fails TDZ3 Display Condition ERROR ALU The CPU s ALU Arithmetic Logic Unit Diagnostic has detected a failure Moore Industries International Inc 111 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 HART Status Registers The THZ3 TDZ3 provides the following status registers per the HART standards Field Device Status A byte indicating the current operating status of the field device Among the bits are Device Malfunction and More Status Available This status is returned in the response to every HART command Additional Status 15 bytes containing system and diagnostic status information This status is returned by Universal Command 48 Read Additional Device Status Device Variable Status A byte associated with each Device Variable which indicates Quality and Limited Status This status is returned by Universal Command 9 Read Device Variable with Status Field Device Status Byte A byte indicating the current operating status of the field device This status is returned in the res
66. V Note After making all desired changes enter SEND to update the unit Moore Industries International Inc 65 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 4 13 TDZ 3 or THZ System Configuration and Advance Settings Menus RJC Temp Sensor 1 Sensor 2 Allow Limited me Backup 1 2 Backup 2 1 Allow Dropping On OFF Average Differential 1 2 Differential 2 1 Absolute Dif Disable Low Select RA X Enabled High Select Percent of Range PV Loop Current PV Allow Meas out of Con Input Quality Alarms Range Alarms Range Alarm 1 Range Alarm 2 RA X Source Range Alarm 3 SV System Config Ringe Alarma RA X Response Warning IV Alarm QV Unlatch RA Out of range In range RA X Low Enter Low Range RA X High Enter High Range RA X can be any RA X Latching Range Alarm Selected Enable peius Settings Enable www miinet com 66 Moore Industries International Inc User s Manual 238 741 00B April 2015 Custom Calibration Menu THZ TDZ The Custom Calibration menu allows you to access the following menus Status Input PV Capture Variable Trim AO Trim AO Trim Reset Loop Test Input Simulation S1 Corrosion Detection S2 Corrosion Detection and Unlatch RA Refer to Figure 4 14 below Status Directs you to a sub menu When accessed you will come to the following menu options Syste
67. Z DTM Parameter Advanced Setup Configuration 99 Section 6 Operation and Maintenance 108 Section 7 Applications 116 Section 8 Specifications 119 Section 9 Ordering Information 122 Section 10 Certification Information 124 Warranty Disclaimer 136 www miinet com 4 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter THZ3 TDZ3 Quick Start Guide The THZS TDZ3 is ready to install and is either set up with your specified configuration or the default configuration below If you need to change any parameters this can be done using a HART handheld configurator or FDT DTM application see Sections 4 amp 5 After programming your transmitter install the unit into your application using the connection diagrams and terminal designation table located in this manual 9pin HES YIINO Default Configuration Single Sensor Mode Sensor 1 4 Wire RTD Pt3850 100 Ohms 0 100 C Broken Wire Enabled Broken Wire Holdoff Disabled 0 seconds Sensor 2 Disabled Filter 60Hz Running Average Filter DISABLED Setting 1 PV Damping DISABLED 0 seconds TDZ Display Source Primary Variable PV TDZ Decimal Places Auto Analog Output 4 20mA Analog Output Under Range Min Value 3 8mA Analog Output Over Range Max Value 21 6mA Sensor Fail Mode High 23 6mA PV is Sensor 1 SV is RJC Temperature TV is Sensor 1 QV is Se
68. Z and TDZ have another feature referred to as BW Broken Wire Holdoff Time This allows users to add an additional time delay before the broken wire diagnostic alert is reported When enabled a Broken Wire delay of 0 60 seconds can be set This feature prevents the transmitter from going into a fault state when intermittent high levels or spikes of extraneous plant noise is conducted onto the sensor leads Moore Industries International Inc zd www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 2 Calibration and Bench Check Please refer to Figure 2 1 for proper terminal connections while calibrating or performing a bench on your THZ TDZ Figure 2 1 Terminal Designations THZ3 HPP 4 Terminals Input Connections THZ3 HPP 2 Note THZ3 HPP see figure 3 4 When using two input sensors Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to CD N a 2 wire sensor Sensor 1 TIS adhd o Tuo DDOE TB1 TB2 TB1 TB1 TB1 TB2 TB3 TB4 2W RTD Resistance 3W RTD Resistance AW RTD Resistance POTENTIOMETER THERMOCOUPLE mV Sensor 2 food o Qo 5 TB1 TB2 TB3 TB4 TB1 TB2 TB3 TB THERMOCOUPLE mV 2W RTD Resistance TDZ3 HP and THZ3 DIN 5 Terminals Input Connections 3 TDZ3 Note TDZ3 When using two input je Note THZ3 DIN see figure 3 2 When sensors you are limited to 2 wire using two input sensors you are
69. Z3 4 20mA 12 42DC HPP Indicates any input and option as stated in the product data sheet Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmosphere Provisions of the Directive Fulfilled by the Equipment Group Il Category 3G Ex nA IIC Gc T4 T5 T6 Type Examination Certificate FM13ATEX0096X www miinet com 126 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter LL moore EC Declaration of Conformity WORLDWIDE Moore Industries International Inc Date Issued 22 Apr 2015 16650 Schoenborn Street No 100 100 252 Rev B North Hills CA 91343 6196 U S A Page 2 of 2 Harmonized Standards Used EN60079 0 2012 Explosive atmospheres Part 0 Equipment General requirements EN60079 15 2010 Explosive atmospheres Part 15 Equipment protection by type of protection n Equipment Description Programmable HART Temperature Transmitter in the LH2 Enclosure Model THZ3 LH2 E Indicates any input output power and options as stated in the product data sheet Indicates any LH2 Enclosure with the E suffix Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmosphere Provisions of the Directive Fulfilled by the Equipment Group II Category 2G Ex d IIC T6 Gb Group II Category 2D Ex tb IIIC Db T85 C IP66 Notified Body for EC Type Examination ISSeP No
70. acter Format 1 Start Bit 8 Data Bits 1 Odd Parity Bit 1 Stop Bit Input Accuracy Refer to Table 1 Output Range 4 20mA Analog Output Accuracy 3pA 0 019 of 4 20mA Span Overall Accuracy The overall accuracy of the unit is the combined input and output accuracy It includes the combined effects of linearity hysteresis repeatability and adjustment resolution It does not include ambient temperature effect For T C input only add the Reference Junction Compensation error Reference Cold Junction Compensation 0 25 C 0 45 F DIN 0 45 C 40 81 F Stability Refer to Table 2 Isolation THZ3 HPP DIN and DIN RF 500Vrms input to output continuous will withstand a 1350Vac dielectric strength test for one minute with no breakdown input to output to case TDZ3 HP 500Vrms input to output continuous will withstand a 500Vac dielectric strength test for one minute with no breakdown input to output to case Response Rise Time 100msec maximum for the output to change from 1096 to 9096 for an input step change of 095 to 10096 Step Response Time 460msec single 650msec dual typical from the time an input is applied until the output reaches 90 of its final value Ripple 10mVp p measured across a 250 ohm load resistor at frequencies up to 120Hz Input Over voltage Protection 3Vdc peak to peak maximum Digital Input Filter User programmable 50 60Hz Power Supply Effect 0 002 of span per
71. afe Applications Zone 0 Ex ia IIC The THZ and TDZ shall be installed in an enclosure which maintains an ingress protection rating of at least IP20 The communications port shall be programmed through Moore Industries Fuse Protected USB Communications Cable Part No 804 030 26A as described on Control Drawing 100 100 80 TDZ or 100 100 81 THZ The Cable cannot be used in Hazardous Areas or in ambient temperatures in excess of 75 C Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it shall not be changed Type n Applications Zone 2 Ex nA IIC When installed as EPL Gc equipment the THZ and TDZ shall be mounted within a tool secured enclosure which meets the requirements of IEC60079 0 and IEC60079 15 and be capable of accepting the applicable wiring methods for the country of origin The enclosure shall at a minimum meet the requirements of IP54 On installation the THZ and TDZ shall be provided with supply transient protection external to the apparatus such that the voltage at the supply terminals of the THZ and TDZ does not exceed 119V peak or 119Vdc The COM port shall not be used in Hazardous areas Q Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it sha
72. al Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Analog Output Refer to Basic Setup for detailed information Display TDZ only The Display menu provides access to Basic Setup and additionally allows you to enable and assign both a Custom EGU and a Custom Name labels See Figure 5 44 for clarification Figure 5 44 TDZ Display Menu for Advanced Setup ips baie Dres N aibh System Coefigur ation Select bo Daiplay lv PV ODE sv Confiqure Custom EGU r W Configure Custom Name r Qv AU Loop Curent Percent of Output Range PCT Dispiay Decimal Places fu e 7 Addition al Device Variables Select to Deplay ROC Temperature Sens Sena Sensor Backup 1 2 Sensor Backup 21 Average Dilerensal 1 2 Didinsentin 21 Absobse Dilerential Low Select T High Select Noter Each variable selected wi eemain on the LOD display for 2 seconda and ther terol to the next one Configure Custom EGU The Configure Custom EGU allows you to enable and assign a custom EGU of your choice See Figure 5 45 for clarification Figure 5 45 THZ 9 TDZ Configure Custom EGU in Display Menu for Advanced Setup Moore Industries International Inc 105 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Configure Custom Name The Configure Custom Name allows you to enable and assign a cu
73. alue Adjust input sensor to 100 value to TDZ or THZ and follow the screen instructions This will set the device s output to a known 20mA value Variable Trim This menu allows you to view the following options Device Variable Trim Device Variable Trim Reset and Display Device Variable Trim Refer to Figure 4 15 AO Trim Directs you to a sub menu Here you can select Reset Trim Trim Zero or Trim Full AO Trim Reset Directs you to a sub menu Here you can select No or Yes Loop Test A loop test may be performed in order to check output performance and accuracy and to trim other instruments in the loop Your output will be a current value in mA equal to the value you input You can check the other current devices on the loop and calibrate them to this signal Input Simulation Allows you Clear or Set a simulated Input 51 Corrosion Detection This captures the nominal resistance value of Sensor 1 then allows setting 2 threshold resistances warning and alarm to identify when corrosion occurs This applies only to Thermocouples and 3W and 4W RTDs See section 1 for more information on Corrosion Detection S2 Corrosion Detection This captures the nominal resistance value of Sensor 2 then allows setting 2 threshold resistances warning and alarm to identify when corrosion occurs This applies only to Thermocouples and 3W and 4W RTDs See section 1 for more information on Corrosion Detection Unlatch Range Alarm This allo
74. ational Inc Date Issued 22 Apr 2015 16650 Schoenborn Street No 100 100 252 Rev B North Hills CA 91343 6196 U S A Page 1 of 2 Equipment Description Programmable HART Temperature Transmitter Model THZ3 Indicates any input output power options and housing as stated in the product data sheet Directive 2004 108 EC EMC Electromagnetic Compatibility Specifications Conformed To EN 61326 1 2006 Electrical equipment for measurement control and laboratory use EMC requirements Equipment Description Programmable HART Temperature Transmitter Model THZ3 4 20mA 12 30DC HPP Indicates any input and options as stated in the product data sheet Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmosphere Provisions of the Directive Fulfilled by the Equipment Group Il Category 1G Ex ia IIC Ga T4 T5 T6 Notified Body for EC Type Examination FM Approvals Ltd Notified Body Number 1725 1 Windsor Dials Windsor Berkshire SLA1RS United Kingdom EC Type Examination Certificate FM13ATEX0098X Harmonized Standards Used EN60079 0 2012 Explosive atmospheres Part 0 Equipment General requirements EN60079 11 2012 Explosive atmospheres Part 11 Equipment protection by intrinsic safety I EN60079 26 2007 Explosive atmospheres Part 26 Equipment with equipment protection level EPL Ga Equipment Description Programmable HART Temperature Transmitter Model TH
75. ature also allows you the ability to write a table in Microsoft Excel save it in a csv format and import it into the Configuration Software This makes it simple to save the custom table for downloading to multiple units or for backup purposes See Figure 5 41 Figure 5 41 THZ 3 TDZ Custom Curves 1 4 in the System Configuration Menu for Advanced Setup i i Input Custom Curve 1 Number of Points 6 E Configure Dual Input System Configuration E Custom Curves Custom Curve 1 Input Units degrees Celsius Custom Curve 1 Custom Curve 1 Data Custom Curve 1 Dutput Units degrees Celsius Custom Curve 2 Custom Curve 3 Custom Curve 4 zi Range Alarms Range Alarm 1 Range Alarm 2 Range Alarm 3 Range Alarm 4 Analog Output Display HART Settings Custom Calibration E E www miinet com 102 Moore Industries International Inc THZ 3 TDZ User s Manual 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Custom Curve Data 1 4 This will display a table with the amount of points you configured previously in the Custom Curve section values for your custom table can be entered here See Figure 5 42 Figure 5 42 THZ 3 TDZ Custom Curves Data 1 4 in the System Configuration Menu for Advanced Setup Note Importing and exporting of csv files for Custom Curves is done via the Additional Functions Menu in THZ TDZ DTM Refer to Additional Functions in the T
76. backup mode the THZ TDZ can be configured to drive the analog output upscale downscale to a preset value or will hold last output The THZ TDZ has enhanced device intelligence which includes sensor drift corrosion detection range alarms and device diagnostics These can check and alert the user when thermocouples fail unexpectedly resistance thermometers exceed set parameters or the device has failures A more detailed explanation of these features is provided later in this section For more information on the THZ TDZ diagnostics please see Section 6 HART 7 compliance provides device configuration via DD HART diagnostic data and exception based reporting In addition a DTM is provided to enable programming and monitoring with any FDT compliant host or program such as PACTware The TDZ has an additional feature an easy to read customizable display www miinet com 6 Moore Industries International Inc User s 238 741 00B April 2015 THZ TDZ Programmable Smart HART Temperature Transmitter Moore Industries International Inc 7 Model Numbers and Options The following section provides details of the Moore Industries model number and the available options for the THZ and TDZ3 Moore Industries model numbers for the THZ TDZ are structured as follows THZ PRG 4 20MA 12 30DC HPP Unit Input Output Power Options Housing Refer to Section 9 Ordering Information for a quick refe
77. being displayed changes it will be updated while that screen is being shown FLOATING POINT VALUE HART ADDRESS DO IC Message eg EGU variable name measurement mode error message Moore Industries International Inc 41 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 HART Broadcast Messaging Burst Mode When set to burst mode the THZ TDZ will proactively send out messages instead of waiting for the host to request them This enables event driven communication high low deviation of signal or change in status and or timed communication every x seconds to the host Q Note When using burst mode in the THZ TDZ the host must also be configured to communicate in burst mode Up to 3 different burst messages may be configured independently in the THZ TDZ For each burst message the following parameters need to be configured HART Command determines which parameters are sent in the message Update Periods specifies the minimum and maximum time between messages Trigger determines what triggers a message to be sent to the host Slot 1 8 For HART commands 9 and 3 only select the device variables for the message The following HART commands can be selected for the burst message Command Variables in burst message Trigger Source 1 Primary Variable PV PV 2 Loop current and Percent of Range POR POR 3 Dynamic Variables and Loop Cu
78. cee Industries International Ine THE TOZ OTM Setup oco Moore Industries International Inc Wek ome Setup well autsi Mocre Industries Irterrutonal inc THE TOZI OTM oa your computer Click instal to continue options to set the intal directory or Ciete to e t Meore inderne intematonal he THZ3 TOZ3 DTM 1e tem paree to the Boerse terms and cond ons n Free Logee J www miinet com 72 Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Using DTM s with FDT Frame Application PACTware Once you have installed all the necessary DTMs on your system you are now ready to launch the FDT frame application PACTware and configure your device There are two distinct communications methods you can choose to use Refer to Figures 5 1 5 3 for hookup diagrams for these configurations HART Communications DTM is a Communication DTM for use of HART devices via HART modem MISP Communications DTM is a Moore Industries Serial Protocol which allows communication via Fuse Protected USB Communications cable P N 804 030 26 Figure 5 1 THZ 3 HPP hook up diagram for HART or MISP DTM configurations Current Meter of THZ3 HART Held Communicator or HART Modem connects to Serial USB COM Port of PC 4 Moore Indusries a P N 804 030 26 To USB Port of PC Figure 5 2 TDZ 3 Hp hook up diagram for HART or MISP DTM configurations
79. ckup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select High Select All menus follow same format as Backup 1 2 Select your Device Variable and follow same flow Backup 1 2 Backup 1 2 EGU Scaling Custom Curve Backup 1 Backup 1 2 EGU Backup 1 2 CCID 58 Backup 1 2 EGU Backup 1 2 Input Min Backup 1 2 Input Max Backup 1 2 Scale Min Backup 1 2 Scale Max Q Note The Dual Input menu is only visible if Advance Settings is Enabled Q Note After making all desired changes enter SEND to update the unit Enabled Backup 1 2 Scl En i Enter Backup 1 2 Input Min Enter Backup 1 2 Input Max Enter Backup 1 2 Scale Min Enter Backup 1 2 Scale Min Enabled inHg ftH20 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Analog Output The Analog Output menu will allow you to view and set the following menu items AO Zero AO Full AO URV Under range value AO ORV Over range value Fail Mode and AO Fail to Value See Figure 4 10 below for further clarification Q Note After making all desired changes enter SEND to update the unit Figure 4 10 TDZ or THZ Analog Output Default Config Config Wizards Input Dual Input AO Zero AO Ful AO URV HART Settings AO ORV High Low Analog Output Display Fail Mode Hold Last Fail To Value System Config
80. configure RJC Temperature Sensor 1 and Sensor 2 together or individually and Ranging Mapping as follows Refer to Figure 5 37 Figure 5 37 THZ TDZ Input Menu for Advanced Setup 2 7 HE E Configure Sensor ZEN za FJC Temperature B Sensar1 2 M Scaling io Custom Curve B Sensor 2 b Scaling E Custom Curve Ranging and Mapping RJC Temperature This allows you to choose the EGU for RJC Temperature Sensor 1 Selecting this allows you to configure Sensor 1 much like you do in the Basic Setup with the additional feature which allows to enable and configure Sensor Corrosion You may also enable and configure Sensor Corrosion through the Custom Calibration Menu Refer to Figure 5 38 Q Note This is the only location in where you are able to enable the Sensor Corrosion feature furthermore this feature and its settings are only available when Input type is T C 3 Wire RTD or 4 Wire RTD Figure 5 38 THZ TDZ Sensor 1 2 Menu for Advanced Setup e TDZ3 HP Hockey Puck Display Parameter 4bx e THZ3jTDZ3 DTM by Moore Industries International Inc MOORE INDUSTRIES Advanced Configuration Elements are in use WORLOWIDE www miinet com Input Sensor 1 Input H Configure Sensor P 4w RTD Ss RIC Temperature 5 Sensor 1 Type Pt3850 100 Scaling Custom Curve Engineering Units degrees Celsius Sensor 2 Ranging and Mapping 5 1 Broken Wire Detecti Cirifig rs Dual input ensor
81. couple input will be similar except you will be providing an accurate millivolt signal to simulate temperature To perform the Output Trimming of the THZ TDZ set up the equipment specified in Table 2 1 then use your HART Communicator follow steps below and refer to Figure 2 5 for clarity Figure 2 5 Output Trimming 12 24Vdc Power Supply lea 22220 I Voltmeter The HART Communicator w can be connected to any point on the output side of the loop Total loop resistance must equal between 250 to 1 100 ohm for proper HART Communications Q Note You do not need to connect any sensor to the input terminals to perform the output trim Moore Industries International Inc 247 www miinet com THZ 3 TDZ Programmable Smart HART Temperature Transmitter Figure 2 6 Output Trimming with HART Communicator proc Ix www miinet com Process Variables Online Menu Model Device Setup PV is PV Quality PV PV Loop Current PV LRV PV URV SV TV QV Range Alarm Status Setup Custom Calibration Review From the Online menu select Device setup Select Custom Calibration Select AO Trim this allows you to trim the Analog Output Start with the Trim Zero function Status Input PV Capture Variable Trim AO Trim AO Trim Reset Loop Test Input Simulation S1 Corrosion Det S2 Corrosion Det Unlatch RA User s Manual 238 741 00B April 2015 Reset
82. ct opening black PBT polyester cover Thermocouple J K E T R S B LH2NS or f Explosion proof connection head with two entry N C ports 72 inch NPT cable and process black metal cover 0 4000 ohms LH2MS or 1 Explosion proof connection head with two entry ports M20 cable and 2 inch NPT process black metal cover 50 1000mV Either A or E suffix comes supplied with 2 pipe mount hardware see Table 1 for A suffix indicates ANZEx TestSafe Ex d Flame Proof approvals i e LH2NSA additional information E suffix indicates ATEX Ex d and tD Flame Proof approvals i e LH2NSE t P suffix indicates enclosure comes equipped with base plate and U bolts for mounting on a 2 inch pipe i e LH1NSP To order specify Unit Input Output Power Option Housing Model Number Example THZ PRG 4 20MA 12 30DC LH2NS DIN Style Mount Unit Unit Input Output Power Options Housing THZ PRG 4 20MA 12 42DC RF Enhanced RFI DIN DIN style aluminum housing mounts on 35mm Smart Programmable with Scalable EMI filtering provides Top Hat EN50022 rails HART standard HART to narrower protection of 20 V m Temperature communicator or ranges 80 1000 MHz Transmitter HART compatible host 1kHz AM in DIN style program or monitor housing with any FDT compliant host or program such as PACTware utilizing our DTM RTD 2 3 4 Wire Platinum Copper Nickel Thermocouple J K E T R S B N 0
83. culate the actual current going through the resistor Example A voltage reading of 1 08v equates to 4 32mA 1 08V 2500 4 32mA Enter this value in the Measured Output Current box and then push the Trim button www miinet com 24 Moore Industries International Inc THZ 3 TDZ User s Manual 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Now select the Upper Output Range This will set the instrument s output to 20mA Use your voltmeter to read the voltage drop across the 250Q resistor and calculate the actual current going through the resistor Example A voltage reading of 4 91v equates to 19 64mA 4 91V 2500 19 64mA Enter this value in the Measured Output Current box and then push the Trim button Now that the 2 point output trimming has been done you can test the results by entering an output value in the Set Current to box Enter 4 for 4mA in the box select the Set button and the instrument s output will go to 4mA and you can check for a 1V reading across the resistor You can then enter 20 and check for a 5V reading across the resistor There is no need to press the Apply button as all trim changes take immediate effect Note When complete BE SUHE to press the Clear button to return control of the output back to your THZY TDZ Moore Industries International Inc 25 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Tempe
84. current input type Enter EXIT to return to previous screen in Menu S1 EGU Units selecting this will display current 57 EGU and allow you to change from the following degC degF degR Kelvin mV ohms or Enter ESC if no change is required If you choose to change the current S1 EGU select desired unit and hit the ENTER button to return to previous screen in Menu S1 Broken Wire Detection Enabled selecting this will display whether Sensor 1 Broken Wire Detection is Disabled or Enabled f you make a change select desired parameter and hit the ENTER button to return to previous screen in Menu See Section 1 for more information on Broken wire detection S1 BW Holdoff time 0 seconds This allows users to add an additional time delay before broken wire is detected When enabled a Broken Wire delay of 0 60 seconds can be set which provides some noise immunity and prevents false alarms caused by other factors that may be misinterpreted as Broken Wire Selecting this will display current Sensor 1 Broken Wire Holdoff time and allow you to make changes as required If you make a change select desired parameter and hit the ENTER button to return to previous screen in Menu S1 Running Average 1 This function is for filtering the input signal The TDZ and THZ a running average filter with a user selected range between 1 and 16 Selecting this will display the current Sensor 1 Running Average and allow you to make changes as required If y
85. d c Repeat for Sensor 2 2 Assign Map the Device Variables to the HART Variables PV SV etc Any variable can be assigned to the PV However in most cases BU1 2 or AVG will be used as the PV 3 Configure the PV Range PV URV and LRV 4 Configure the AO s Range limits and fail response Dual with Mixed Sensors The THZ or TDZ can be configured for use with two different sensors for example T C and a RTD Follow these steps 1 Configure the sensor a Use the Configure Input Types method to select SEN1 and select Configure Independently for SEN2 Select the proper input mode type for SEN2 b Navigate to the Sensor 1 Configuration menu and make any additional settings as needed c Repeat for Sensor 2 2 Assign Map the Device Variables to the HART Variables PV SV etc Any variable can be assigned to the PV However in most cases BU 1 2 or AVG will be used as the PV 3 Configure the PV Range PV URV and LRV 4 Configure the AO s Range limits and fail response limitations apply only when using two input sensors Q Note While the THZS TDZ will accept a dual input sensor configuration the following TDZ 3 HP 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ DIN see figure 3 2 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ HPP see figure 3 4 Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to a 2 wire
86. d money by networking up to 15 of our Smart HART transmitters onto a single digital data link HART Based DCS AA Primary Master HART Communicator Secondary Master THZ HH HART Slave Slave 16 Individual Temperature Sensors CI T HART Master Slave Structure To implement two way communications between the transmitter and the device configuring or receiving its information the transmitter operates in a HART Master Slave structure The THZ or TDZ is a Slave or Slaves in a multidrop network There can be two Masters per system a Primary Master and a Secondary Master In the majority of applications the Master is a HART Hand Held Communicator but it can also be a HART based control system Operating in HART s Poll Response Normal Mode the HART Master polls the transmitter two times per second to access the current process variable status send setup data to the transmitter or remotely view its identification configuration and diagnostic data www miinet com 118 Moore Industries International Inc User s Manual 238 741 00B April 2015 THZ 3 TDZ Programmable Smart HART Temperature Transmitter Section 8 Specifications HART Specifications Performance Moore Industries International Inc Performance Continued Address Range 0 63 1 63 are for multidrop loops Transmission Speed 1200 bps Char
87. d officer of MII WARNING Substitution of components may impair Intrinsic Safety To prevent ignition of flammable or combustible atmospheres disconnect power before servicing Where English is not a language of the Country in which the equipment is being used please apply to Moore Industries International Inc MII for a suitable translation Installation may only be carried out by suitably trained personnel and in accordance with national wiring regulations or codes of practice COM Port Connection Diagram Use in Non Hazardous Area Only Certified Product This is a controlled Related or Schedule drawing No modifications are permitted without the notification and final approval of the Certification Engineer related dwgs or the Certifying Agency schedule dwgs www miinet com 31 Moore Industries International Inc User s Manual 238 741 00B April 2015 THZ 3 TDZ Programmable Smart HART Temperature Transmitter I38v1 Q3HSINIJ 3HL 31V33O OL S14 VLVG 6 I931 3HL A8 Q3l1dans SOIHdVYD ANY IX3L Q3XIl4 AHL HLIM ONOIV GSLNIdd ANY Jld VLVO YOLNSW 3HL WO4 q3QvOlNMOG 38 THM SM38ARQN OVL ANY IviM3S TSGOW OIJIO3dS GOP T38Vl SIHL LNIMd OL ASIA GYVH YSALNdWOO 3NIHOVW 138V 6 I94l 34HL NI 6Sv6c 1S8S6 006 ON AJANN G4YOLS 38V 138Vl SIHL X04 SQ13l4 OIHdVYD ANY LX3L QO3Xl4 JHL 96 900 108 NO88lM M3JSNVML 1VAWH3HL VSO 1N MOVIE HLIM SI 9NILNIHd OMAYOV jONVAMNOJH3d H9I
88. d sets the Warning and Alarm limits These can be set at different levels or the same level for both See chart below for clarification Selecting Warning will set a fault message on the TDZ3 display and send a HART message to any HART Handheld or HART monitoring HOST In addition an alert will be sent to any FDT host that is communicating with the transmitter Selecting Alarm will also drive the Analog output to Fail Mode if the sensor is assigned to the PV If the unit is in backup mode and the primary sensor has a corrosion alarm the PV will switch to the backup sensor Broken Wire Detection During operation the THZ and TDZ send random microamp pulses through input wiring to check for broken wiring or a burned out sensor By default the broken wire detection is always enabled and this feature is essential to ensure that dangerous failure of the sensor or signal input is detected by the THZ and TDZ and consequently alarmed If the THZS TDZ detects a broken wire or burned out sensor during operation the transmitter sets the output upscale or downscale to warn of trouble The transmitter is able to identify sensor wire s causing the problem and indicate the fault as a message to the HART Handheld FDT HOST TDZ display and by setting a HART status bit Specific error messages eliminate the work of removing the sensor or checking all lead wires to diagnose a problem This feature is especially valuable during startup Additionally the TH
89. dor m HART Communication odeWrights 1 0 39 2010 04 12 ud MI MISP Communications DTM WISF Moore Industries International Inc FDT 1 00 0000 2013 01 28 r3 HART Communication FDT 1 2 DTM Moore Industries International Inc lt 70 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 4 Select the HART Communications DTM and enter OK Figure 5 16 COM Port Parameters n PACTware File Edit View Project Device Extras Window Help EE Connect Disconnect Get device state Load from device Store ta device Measured value 5 Right Click on COM1 and select Parameter Figure 5 17 COM Port Parameters Device Extras Window Help i moe e BA S lt X COMI Parameter dress Conmaraon nteface Serial Interface Device VSeriz COMI Device Serial Devi ial HART protocol so Cee C Address scan www miinet com 80 Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter 6 In the Serial Interface drop down menu select the actual COM port which your HART Modem is connected to click Ok to apply Figure 5 18 COM Port Confirmation mr PACTware r PACTware File Edit View Project Device Extras Window Help File Edit View Project Device Extras Window Help D eg d 3 m Bia m eS 08Bas One 2 Re m o9 9 9 axes a 3 z Disconnect 7 Return to Device Tag Me
90. e Clear button Note If you do not click the Clear button the Analog Output will remain in manual mode and Will NOT follow the input signal 11 You are done with two point trimming Figure 5 34 THZ 3 TDZ Custom Calibration Menu AO Loop Current Test Trim Loop Current Reading 12 62 MA Status Manual or Fixed Output Test Set Current to 3 6 23 6mA mA Output Trim Set Output at j Measured Output Curent Factory Default l Trim Result Clear Output Test Moore Industries International Inc 07 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Input Simulation This menu allows you to run simulated inputs for any of Device Variables that are enabled active Select desired Device Variable enter a value within the allowed range and click Set button Use the Clear button to clear all set simulations See figure 5 35 Figure 5 35 THZ TDZ Custom Calibration Menu Input Simulation Input Simulation Device Variable to Set RJC Temperature Value to fix the device variable at I Sensor Backup 1 2 Sensor Backup 2 1 Average D ferential 1 2 D ferential 2 1 Absolute Differential 2 9g Q 9 S Q Q 9 Q Q g Note Before exiting this screen remember to hit the Clear button or the Device Variables will remain set to their simulated values www miinet com 98 Moore Industries International Inc mE
91. e As S1 Broken RJC ADC Saturated ADC Not Running Bad Lead Res Software Sat Bad Calib Bad Config Sensor Norm Fail Wrong Measurement Wrong Sensor Measurement Misma Wrong Mode Lower Unit Mismatch Upper Limit Mismatch Lower Point Limits Upper Point Limits Lower Value Limits Upper Value Limits Upper Delta Lower Delta Span Value Span Point BW Terminal 1 BW Terminal 2 BW Terminal 3 BW Terminal 4 ADC Saturated ADC Not Running Bad Lead Res Bad RJC Value Software Sat Bad Calib Bad Config Sensor Norm Fail Out put Fixed Out put Saturated Low Saturation High Saturation Low Calibration Error High Calibration Error Current Calibration E Voltage Calibration Out put Mode Config Fail Mode Config Error URV ORV Config Error Zero Full Config Error Trim Error Term Temp Sensor C Sensor 1 Config Sensor 2 Config Analog Out put Config Label Config HART Config User Misc Config Custom Curve 1 Config Custom Curve 2 Config Custom Curve 3 Config Custom Curve 4 Config Programmable Smart HART Temperature Transmitter www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Input Capture Input Capture is used to match the device input and output zero and full scale to a known value Adjust input sensor to 0 value to TDZ or THZ and follow the screen instructions This will set the device s output to known 4mA v
92. e and EGU of each of the Device Variables individually The following variables are available See Figure 5 39 for clarification Sensor X Backup 1 2 Sensor X Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select High Select Figure 5 39 THZ V TDZ Configure Dual Input Menu for Advanced Setup tees pr hockey Puck Display Farameter Egemen raz mens Cobian Moore Industries International Inc 101 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 System Configuration This menu will allow you enable and configure High Availability Integrity Flags Input Quality Alarms Custom Curves and Range Alarms features See Figure 5 40 for clarification Figure 5 40 THZ TDZ System Configuration Menu for Advanced Setup High Availability Input Quality Alarms This will allow you turn On or Off the following menu options Allow Measurement out of Conformance Range Allow Limited and Allow Dropping These settings allow the user to determine how certain types of input quality issues are handled and how they can affect the Device Variables Dynamic Variables and AO See Section 6 for more information see Figure 5 40 for Menu layout Custom Curves 1 4 Selecting this allows you to set number of points for up to 4 custom curve and allows you to select both the Input and Output units for each custom curve 1 4 This fe
93. e country OTORDIH Installation may only be carried out by suitably The Entity Concept allows interconnection of associated apparatus and intrinsically safe apparatus when the trained personnel and in accordance with national following is true Uo S Ui los li Po lt Pi Co Ci Ccable Lo Li Lcable wiring regulations or codes of practice No revision is allowed to this drawing without prior FM Approval 29 M N COM Port Connection Diagram LI moore woustres Q x Use in Non Hazardous Area Only TDZ3 STZ Moore Industrie s Unspecified ee Communication Cable Apparatus Part No 804 030 26 For programming use only 3 Certified Product This is a controlled Related or Schedule drawing No modifications are permitted without the notification and final approval of the Certification Engineer related dwgs or the Certifying Agency schedule dwgs Moore Industries International Inc User s Manual 238 741 00B April 2015 THZ 3 TDZ Programmable Smart HART Temperature Transmitter s3Mp o npouos Aouad y SurAquo 10 SSMp po1e o1 1oourgug uoneormn1o IY Jo eaoidde euy pue uoneoyyou oyy noua ponruued ore suoneorrpoui ON SurMe1p 3SIpeuos 1o peye esr pe o uoo V ST SYL jnpoJd Ponp snjejeddy snjejJeddy pojeioossy peyioedsu Joujo Jo Jeuueg Od Z Id JO OS Xew JO I 1AJ0 20A z xew Join Smeseddy giqeo7 17 z 0710 e7 Pe elvossy e qeo2
94. e protection provided by the equipment may be impaired Input Output Wiring The Input Output connections can be made with 14 to 24 AWG 2 5mm to 0 2mm wire The end of each conductor should be stripped no more than 0 25in 7mm Tighten the screws on the terminal block to 4 4 5 3 Ibf in 0 5 0 6 N m Recommended Ground Wiring Practices Moore Industries recommends the following ground wiring practices Any Moore Industries product in a metal case or housing should be grounded e The protective earth conductor must be connected to a system safety earth ground before making other connections e All input signals to and output signals from Moore Industries products should be wired using a shielded twisted pair wiring technique Shields should be connected to an earth or safety ground e For the best shielding the shield should be run all the way from the signal source to the receiving device see Note below e he maximum length of un shielded input and output signal wiring should be 2 inches Note Some of Moore Industries instruments can be classified as receivers IPT2 IPX2 etc and some can be classified as transmitters TRX TRY etc while some are both a receiver and a transmitter SPA2 HIM etc Hence your shield ground connections should be appropriate for the type of signal line being shielded The shield should be grounded at the receiver and not at the signal source CE Certification related
95. e up to 4 range alarms www miinet com 84 Moore Industries International Inc AEn THZ TDZ April 2015 Programmable Smart HART Temperature Transmitter Analog Output PV input range display only AO Zero amp Full Values AO Under Range amp Over Range Values AO Fail Mode High Low Hold Last Fail to Value Display TDZ only Select Dynamic amp Device Variables to be displayed Number of Decimal Places Configure Custom EGU amp Custom Name HART Settings Allows configuration of HART parameters Polling Address Number of HAHT response preamble characters Tag Long Tag Descriptor Message Final assembly number Programmed Date Device id Hardware revision HART Revision Firmware revision Read only Burst Configuration can be configured to send out up to 3 burst messages Custom Calibration Input PV Capture match the device input and output zero and full scale to a known value Sensor 1 2 Trim Analog Output Loop Test amp Trim Input Simulation Clear or Set a simulated Input Sensor 1 2 Corrosion Detection base value capture and monitor Moore Industries International Inc 85 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 THZ3 TDZ DTM Parameter in Basic Setup Configuration Once you have added and connected the DTM s within PACTware you are now ready to make the configuration changes to device parameters that best fit your needs There
96. ed as 0 100 6 Set your input resistance to match your Sensor 1 Full point By example If your Sensor 1 Full point is 100 C the input you apply to the instrument will be 1385 000 7 When your reading stabilizes press the Trim Upper Point button and your Sensor 1 Reading should now read the correct Trim Point Value 100 in this example www miinet com 22 Moore Industries International Inc mE THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter You can then perform Sensor 2 Trim if you are using two input sensors Your trim values will be automatically saved to your instrument The output of the THZ TDZ is accurately calibrated prior to delivery to our customers However you may wish to trim the instrument s analog output to match what you are reading on your monitoring or control system By example if the THZ is putting out 12 0mA and your DCS is reading 11 85mA you can trim the output of the THZ so that the two readings will match Note trimming of the analog output will not affect the HART digital data To perform output trimming set up your THZ TDZ as shown in Figure 2 11 Figure 2 11 Output Trimming 12 24Vdc Power Supply HART Modem connects to Serial USB COM Port of PC Moore Indusries 4 P N 804 030 26 To USB Port of PC m EC Moore Industries International Inc A cm www miinet com THZ 3 TDZ mnm 238
97. enage 1 Command Conard Rede Burt Message 1 Upelate Penca Bn ma Hunt Meise Ie avarum puw qm Update Preto Burtt Message 1 Trigg Mode Cortinas 7 Burst Message 1 Trgges Level p Burt Message 1 Trigger Unas 0M tes x end Slot 1 Dace Matted e MET Slot 2 Device hated BawiMerisoeSh 300 fuum z Gist Message 1 Sli d Deca hetu A o 0 22 0 4 Aa c NEGRAS RO www miinet com 106 Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Custom Calibration The Advanced Setup for the Custom Calibration menu contains similar features as the Basic Setup with added feature of Sensor 1 2 Corrosion Sensor 1 and Sensor 2 Corrosion The Sensor 1 2 menu is only available when Sensor 1 or 2 Corrosion are enabled in the Input Configure Sensor 1 or 2 Menu in the Advanced Setup This menu allows you to capture the nominal sensor resistance value you can also check the current resistance value and corrosion the status For a more detailed explanation refer to Corrosion Detection in Section 1 Figure 5 48 THZ 3 TDZ Custom Calibration Menu Sensor 1 Corrosion and Sensor 2 Corrosion TDZ3 HP Hockey Puck Display Parameter 1PX i THZ3 TDZ3 DTM by Moore Industries International Inc Hi moore Advanced Configuration Elements are in use Serco ta erent STE Sensor 1 Corrosion Base Value 0 00 C
98. ensor 2 LOSEL Selects the lower smaller of Sensor 1 and Sensor 2 BU2 1 Use Sensor 2 until it fails then back up to Sensor 1 AVG Calculate the average of Sensor 1 and Sensor 2 HISEL Selects the higher larger of Sensor 1 and Sensor 2 Moore Industries International Inc s www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Table 1 2 Dynamic Variables Dynamic Variable Dynamic Variable Description Percent Of Output Range PV scaled to 0 100 Analog Output Loop Current To select the measurement which appears on the Analog Output the relevant Device Variable must be assigned to the PV Primary or Process Variable By default Sensor 1 SEN1 is assigned to the PV compatible i e the same or both temperature units If a calculated Device Variable has different engineering units EGU from the Sensors EGU scaling will need to be used to change the units 4 Note To use a calculated Device Variable both sensors engineering units EGU must be HART Broadcast Messaging Burst Mode The THZ3 TDZS supports enhanced broadcast messaging more commonly referred to as burst mode When set to burst mode the THZ3 TDZ3 will proactively send out messages instead of waiting for the host to request them This enables event driven communication high low deviation of signal or change in status and or timed communication every x seconds to the host Up to 3 diffe
99. enter SEND to update the unit Moore Industries International Inc 55 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 4 6 TDZ or THZ Sensor 1 and Sensor 2 menus in Input menu degC degF SX Measure Mode Configure degR Input Types Kelvin mV ohm 96 S1 Input Type RJC Temp Sensor 1 EGU Sensor 1 Disabled Enabled SX BW Holdoff Time Enter Holdoff Time Sensor 2 Nem Enter SX Running Average SX 2Wire Offset Enter SX 2Wire Offset Sensor X USL Sensor X LSL Sensor X Min Span SX Scaling Sensor X s n Disabled Enabled SX Custom Curve Sensor X Scl En Sensor X EGU See Figure 4 7 Enter Sensor X Input Min Sensor X Input Max Enter Sensor X Input Max Enter Sensor X Scale Min SX Broken Wire Detection SX Sensor Information Sensor X Scale Max Enter Sensor X Scale Max Figure 4 7 TDZ or THZ Custom Curve for Sensor 1 and Sensor 2 in Input menu SX Measure Mode Configure S1 Input Type Input Types Disabled Sensor 1 EGU Sensor X CC En Enabled RJC Temp SX Broken Wire Detection Sensor X EGU SX BW Holdoff Time Sensor 1 SX Running Average Sensor X CC ID SX 2Wire Offset SX Sensor Information Sensor 2 SX Scaling SX Custom Curve www miinet com 56 Moore Industries International Inc User s THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter
100. ermocouple normalization failure If Allow Limited is set OFF Default then the Device Variable is stamped as BAD If the alarm is ON then it is stamped as POOR ACCURACY LIMITED Allow Dropping OFF If two sensor inputs are used the Device Variables which are calculated from the sensors reflect the quality of the inputs ie If SEN1 is BAD then the ABDIF would also be BAD even if SEN2 is GOOD The exception to this is BU1 2 and BU2 1 which will be GOOD provided either SEN1 or SEN2 are GOOD quality The Allow Dropping allows certain calculated Device Variables AVG LOSEL and HISEL to maintain the value of the GOOD sensor to provide higher availability of the reading If Allow Dropping is ON then the bad sensor data is dropped from the calculated variable and its quality shall be set to POOR ACCURACY If the alarm is OFF Default then the derived variable is quality stamped as BAD Moore Industries International Inc 109 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Status Messages Status messages are displayed on the TDZ3 or HART Handheld FDT host whenever there are events which affect the sensor measurements configuration or the unit itself When one or more failure conditions is detected all error messages will be displayed on the TDZ3 in a cyclic manner for a period of 2 seconds per message Similar information is also provided in the HART status registers
101. es will be sent every x seconds where xis the Update period Window positive value set Messages will be sent if the reading increases or decreases by the window value Rising any set Messages will be sent if the reading is above the trigger value High alarm Falling any set Messages will be sent if the reading is below the trigger value Low alarm On Change 1 0 Not used Used for command 48 to detect any status change Units must match the trigger source units If the units do not match then trigger mode becomes inactive The trigger level can be any value in the trigger source range For continuous and level modes the trigger level and units are not applicable The level is set to 1 0 by default In all cases burst messages are sent every x seconds Update Period if the trigger condition is met If the trigger condition is not met the update time will drop to the Maximum Update Period Slots 1 8 For commands 9 and 33 the Device Variables which will be sent in the message need to be selected By default all slots are set to Not Used Only Slots 1 4 can be assigned for Command 33 If a trigger condition is set Slot 1 must have a Device Variable assigned and this will be used as the trigger source Burst message examples Read PV every second Burst message settings HART command 1 Read PV Update period 1 second Maximum update period 1 second Trigger Mode Continuous Trigger Level 1 0 Trigger Un
102. evice Variables Select to Display RJC Temperature E Sensor 1 E Sensor 2 E Sensor Backup 1 2 Sensor Backup 2 1 E Average E Differential 1 2 C Differential 2 1 Absolute Differential E Low Select T High Select Vote Each variable selected will remain on the LCD display for 2 seconds and then icroll to the next one When PV SV TV or QV are selected for display each will result in three screens 123 45 Dynamic Var Name 123 45 Source Device Var Name 123 45 Units When the Percent of Range or Loop Current are selected for display each will be shown using two screens 12 345 AO 12 345 MA or 12 345 PCT 12 345 PCT When selected a Device Variable is shown using two screens 123 45 Name default or custom name 123 45 UNITS If there is a problem with the underlying Device Variable only one screen will be shown BADDQ Dynamic Var Name In this last case the nature of the error will be shown separately Moore Industries International Inc sida www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 HART Settings The HART Settings menu provides access to the following HART settings See Figure 5 30 for further clarification Poll Address 0 63 0 This is the HART Polling Address enter a number from 0 63 Number of Response Preambles 5 20 5 Enter the number of Preamble Characters OxFF that are sent before
103. ferent configuration capabilities and locate them in the menu system For more information on the specific features please refer to the Configuration Overview and the specific menu descriptions QZ Note Is used to identify advanced features which are only accessible using Advanced Setup menus in the DTM THZ TDZ Parameter Input Configure Sensor RJC Temp change engineering units EGU Sensor 1 2 Input amp Type eg Thermocouple TypeK 4W RTD Pt3850 100ohm etc EGU engineering units Broken Wire detection amp hold off Running Average filter 2 Wire offset 2W RTD resistance only Corrosion detection enable base warning and failure settings Serial Number Filter 50Hz or 60Hz input filter to reduce mains induced noise Sensor 1 2 Scaling Sensor 1 2 Custom Curve enable amp selection Ranging amp Mapping Primary Variable PV Analog Output Source selection Smart Range sets the PV Zero and Full values to AO 0 100 PV Damping set delay in the response to stop input noise from generating output errors SV TV amp QV Mapping assigns the Device Variables eg SEN1 BU1 2 Configure Dual Input Scaling settings and Custom Curve selection for all the calculated Device Variables System Configuration High Availability Input Quality Alarms setup Allow Measurement Out of Conformance Hange Allow Limited Allow Dropping Custom Curves import input 1 4 custom curves Range Alarms configur
104. following list for configuration Configure Input Types RJC Temp Sensor 1 and Sensor 2 refer to Figure 4 5 QZ Note After making all desired changes enter SEND to update the unit Figure 4 5 TDZ or THZ Input menu Enter Damping Filter Time Secs PV Damping Configure Sensor 1 TYPE Pt3850 100 ohm Input Types Pt3850 200 ohm Pt3850 400 ohm Conf 1 Resistance Pt3850 500 ohm onfigure g RJC Temp RJC Temp EGU Pt3850 1000 ohm Sensor Pt3902 100 ohm Pt3902 200 ohm Pt3902 400 ohm Sensor 1 Pt3902 500 ohm Pt3902 1000 ohm Pt3916 100 ohm Ni6720 120 ohm Cu 427 9 035 ohm Ranging and Mapping 3 Potentiometer See Figure 4 8 See Figure 4 6 degC degF degR Kelvin degC degF degR Kel vin Disabled Enabled Sensor 2 TYPE degC degF degR Kelvin 1 Off 2 Same as Senor 1 3 Configure Ind ependantly www miinet com 52 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Configure Input Types Selecting this will enable to configure Sensor 1 and Sensor 2 as follows Note While the THZS TDZ will accept a dual input sensor configuration the following limitations apply only when using two input sensors TDZ 3 HP 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ DIN see figure 3 2 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ HPP see figure
105. iendly adjustments possible because the interface for instrument adjustment is optimally adapted to each instrument Furthermore you can communicate with an FDT frame application not only via HART but also via any standard field bus system Moore Industries provides a proprietary serial communication DTM named MISP which allows faster device configuration using our USB communication cable The MISP DTM will be provided in addition to the TDZ THZ Device DTM In the FDT frame application these individual instrument DTMs and communication DTMs are installed as required FDT DTM Software Installation In order to get started you will need to either install the PACTware software and DTMs or just install the DTMs if you already have an FDT frame application installed All the files you need are included in the Moore Industries PACTware DTM CD or from our website www miinet com www miinet com 70 Moore Industries International Inc User s Manual 238 741 00B April 2015 The PACTware installer file will install PACTware and all required DTMs PACTware_vxxx_FDT_DTM_Installation_Moore_Industries exe When you run the installer you will have the option to select which components you want to install PACTware 4 1 SP3 ICS Generic HART FDT DTM This is for HART instruments which do not have a DTM HART Communication FDT DTM This is for using a HART modem to connect to TDZY THZ Mil MISP Communications DTM This is for using a Moore Indu
106. ing Engineer ien ul Ld imn ncm mu Check the Configure Sensors settings in PACTware This will help you to be sure to apply the correct input with which to trim your THZY TDZ By example If the Sensor 1 Input is 3W RTD and the Type is Pt3850 1000 and Engineering Units is degrees Celsius then you should be using an accurate resistance source such as a decade box to emulate the 3 wire Pt 3850 10000 RTD and use the Celsius temperature tables to source the correct resistances for your specific temperature range www miinet com 20 Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Figure 2 9 Verify your sensor range PACTware File Edit View Project Device Extras Window Help D as d m i9 Pr B ane ae EE Configure Sensors SET HERES PV Analog Output Source Analog Output Display HART Settings 5 amp Custom Calibration Sensor 1 Full 240 0 960 0 Sensor 1 Zero 240 0 960 0 PV Damping 0 0 and 0 5 60 0 SV D t p Disconnected Q Data set Planning Engineer DNE Check the Ranging and Mapping settings in PACTware In Figure 2 9 you can see that Sensor 1 is mapped to the Primary Variable and the range is defined as 0 100 Degrees C Now you are ready to do the actual input trimming of your THZ TDZ Proceed to Sensor 1 Trim in PACTware as seen in Figure 2 10 Moo
107. input sensors Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to KA M 3 a 2 wire sensor Senor 2 O obbo uw PE 2 2 TB2 TB3 TB4 TB1 TB2 TB3 TB4 TB2 TB3 TB4 TB1 TB1 TB2 TB3 TB4 TB1 TB2 TB3 TB4 TBI 2W RTD Resistance 3W RTD Resistance 4W RTD Resistance POTENTIOMETER THERMOCOUPLE mV Sensor 2 2 2 2 2 TBI TB2 TB3 TB4 TB1 TB2 TB3 TB4 THERMOCOUPLE mV 2W RTD Resistance TDZ3 HP and THZ3 DIN 5 Terminals Input Connections TDZ3 Note TDZ3 When using two input sensors you are limited to 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used Note THZ3 DIN see figure 3 2 When using two input sensors you are limited to 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used MERNE Sensor O O 2 2 2 2 2 oclo TBI TB2 TB3 TB4 TB5 TB1 TB2 TB3 TB4 TB5 TBI TB2 TB3 TB4 TB5 TB1 TB2 TB3 TB4 TB5 TB TB2 TB3 TB4 TBS 2W RTD Resistance 3W RTD Resistance 4W RTD Resistance POTENTIOMETER THERMOCOUPLE mV Sensor 2 220222 2 2 Qoo 220222 TB1 TB2 TB3 TB4 TB5 TBI TB2 TB3 TB4 TB5 TB1 TB2 TB3 TB4 TB5 TBI TB2 TB3 TB4 TB5 2W RTD Resistance 3W RTD Resistance POTENTIOMETER THERMOCOUPLE mV www miinet com 28 Moore Industries International Inc mE THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Dimensions Figure 3 2 Dimensions of Aluminum DIN Housing
108. irmware of the field device www miinet com 92 Moore Industries International Inc m THZ 3 TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Figure 5 30 THZ TDZ 2 HART Setting Polling Address 0 63 1 Number of Response Preambles 10 5 20 Device Information Tag Long Tag Descriptor Message Final Assembly Number D Programmed Date 11 November 2014 Device ID S N 2338763 Hardware Revision 0 HART Revision Py Firmware Revision 1 0 09 Moore Industries International Inc 299 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Custom Calibration The Custom Calibration menu displays the following Sub menus options Input PV Capture Sensor 1 Trim Sensor 2 Trim AO Loop Current Test Trim and Input Simulation See Figure 5 31 Figure 5 31 THZ 3 TDZ Custom Calibration Menu E Input Eat Analog Output Input PV Capture es Display HART Settings S Custom Calibratio be Input PV Capture QE Sensor 1 Trim liikoonCunest Kost Clam be Sensor 2 Trim dod AQ Loop Current Test Trim i Input Simulation Input PV Capture Input Capture is used to capture the actual device input zero and full scale Use the PV Capture Lower or PV Capture Upper button to achieve this Menu displays values for the following PV Device Variable PV Lower Limit PV Upper Limit PV Lower Range Value PV Upper Range Value PV and
109. its 250 Not Used Read Dynamic Variables and Loop Current every second when PV exceeds 50degC or every 5 minutes when PV does not exceed 50degC HART command 3 Read Dynamic Variables and Loop Current Update period 1 second Maximum update period 300 seconds Trigger Mode Rising Trigger Level 50 00 Trigger Units degrees Celsius Moore Industries International Inc AF www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Read Additional Device status every 0 5 second if there are any status changes or every hour if there are no status changes HART command 48 Read Additional Device Status Update period 0 5 seconds Maximum update period 3600 seconds Trigger Mode Change Trigger Level 1 0 Trigger Units 250 Not Used Sensor Diagnostics Sensor Drift Alert using Range Alarms and Sensor Corrosion Detection can also be used for predictive diagnostics to warn of future problems Broken Wire Holdoff Time allows you to add an additional time delay before a sensor broken wire is reported which provides some noise immunity and prevents false alarms caused by other factors that may be misinterpreted as Broken Wire Please refer to Section 1 for more detailed information on Sensor Diagnostics Input Quality Alarms The THZ TDZ also allows the user to determine how certain types of input quality issues are handled and how they can affect the Device Variables Dyna
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111. l at its option replace repair or refund the purchase price for any of its manufactured products found upon return to the Company transportation charges prepaid and otherwise in accordance with the return procedures established by The Company to be defective in material or workmanship This policy extends to the original Buyer only and not to Buyer s customers or the users of Buyer s products unless Buyer is an engineering contractor in which case the policy shall extend to Buyer s immediate customer only This policy shall not apply if the product has been subject to alteration misuse accident neglect or improper application installation or operation THE COMPANY SHALL IN NO EVENT BE LIABLE FOR ANY INCIDENTAL OR CONSEQUENTIAL DAMAGES To return equipment to Moore Industries for repair follow these four steps 1 Call Moore Industries and request a Returned Material Authorization RMA number Warranty Repair If you are unsure if your unit is still under warranty we can use the unit s serial number to verify the warranty status for you over the phone Be sure to include the RMA number on all documentation Non Warranty Repair If your unit is out of warranty be prepared to give us a Purchase Order number when you call In most cases we will be able to quote you the repair costs at that time The repair price you are quoted will be a Not To Exceed price which means that the actual repair costs may be less than the quote Be s
112. ld DTM TDZ display and sets a HART status bit Alarm Sends the AO into fail mode and sends an alarm message to the HART Handheld DTM TDZ display It also sets a different HART status bit Assertion Out of Range Indicates if the Range Alarm should detect if the source variable goes Out of range or goes In range Low 0 00 The defined lower limit of the Range Alarm High 100 00 The defined upper limit of the Range Alarm UnLatch Range Alarm Reset an actively latched range alarm provided that the input has returned to a non alarm level Q Note If a Range Alarm Response is set to Alarm the AO will always perform a fail response even if the Source Device Variable is not assigned to the PV Figure 5 43 THZ TDZ Range Alarms 1 4 in the System Configuration Menu for Advanced Setup www miinet com ve 1 r Configure Oud Input Range Alam 1 Enable Enable Syskem Config ater Disab Custom Curves Range 1 c t Custom Curve Pism Y Latch nabie Otom Curve 1 Deka C Disable Custom Curve 2 Custom Curve 3 Forge Alm 1 Source Fims Venable 7 Cuntom Curve 4 Rare Alertes Range Aden Repone we eu mend Range Alam 1 Aitertion mem when adao ol canc Range Alarm 3 Range Alarm Analog MAAR Range Alem T Low fo E77 Dear m ATCP Range Alim 1 High 100 00 stom Calibeakon Unlatch Range Alsa Range Alam Unistch Renk User s Manual 238 741 00B April 2015 104 Moore Industries Internation
113. lected Backup Measurement Sensor 1 fail to Sensor 2 or Sensor 2 fail to Sensor 1 If the primary sensor fails the secondary sensor will continue to drive the analog output without any interruption and a HART status flag is set Average Measurement This will output the average value of Sensor 1 and Sensor 2 Differential Measurement Select from Differential S1 S2 Differential S2 S1 Absolute Differential S1 S2 Low Select and High Select Measurements This will output the larger or smaller measurement of Sensor 1 or Sensor 2 For both single sensor and two sensor inputs there are many other variables known as Device Variables that are calculated from the inputs Most HART commands use variables known as Dynamic Variables The Device Variables need to be assigned or mapped to the Dynamic Variables The tables below define the Device Variables and Dynamic Variables Table 1 1 Device Variables Device Variable Device Variable Description RICT Reference Junction Compensation Temperature used for Thermocouple compensation N Sensor 1 reading ohms mv potentiometer temperature with optional trimming scaling or custom curve applied SEN2 Sensor 2 reading ohms mv potentiometer temperature with optional trimming scaling or custom curve applied BU1 2 Use Sensor 1 until it fails then back up to Sensor 2 DIFF 12 Sensor 1 minus Sensor 2 DIFF21 Sensor 2 minus Sensor 1 ABDIF Absolute difference of Sensor 1 and S
114. lecting Off will turn Sensor 2 off Selecting Same as Sensor 1 the configuration parameters from Sensor 1 will be copied to configure Sensor 2 Selecting Configure Independently this will allow you configure parameters of Sensor 2 separately Same menu options as Sensor 1 above Moore Industries International Inc 53 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 RJC Temp Selecting this will prompt menu displaying RJC Temp EGU select this On next menu screen the current RJC Temp EGU is displayed and you will be able to select new desired RJC Temp EGU You may choose for the following degC degF degR or Kelvin Once selecting desired RJC Temp EGU next screen will return you to previous RJC Temp EGU menu at this point you go choose from the following HELP SEND or HOME After entering SEND you can choose to SAVE this will prompt menu allowing to choose desired Location Name and Config Type Refer to Figure 4 5 for clarification 2 Note You must hit the SEND button to refresh and update the THZ TDZ unit otherwise hitting HOME or BACK arrow will not make or update the desired HJC Temp EGU change update Sensor 1 Selecting this will prompt menu displaying Refer to Figure 4 6 for clarification S1 Measure Mode selecting this will display current measuring mode Enter EXIT to return to previous screen in Menu S1 Input type selecting this will display
115. licable wiring method per the NEC or as specified in the C22 1 Canadian Electrical Code Part I When installed as Zone 2 equipment the THZ and TDZ shall be mounted within a tool secured enclosure which meets the requirements of ANSI ISA 60079 0 or CAN CSA E60079 0 and ANSI ISA 60079 15 or CAN CSA 60079 15 and be capable of accepting the applicable wiring methods per the NEC or as specified in the C22 1 Canadian Electrical Code Part The enclosure shall at a minimum meet the requirements of IP54 On installation of Zone 2 equipment the THZ and TDZ shall be provided with supply transient protection external to the apparatus such that the voltage at the supply terminals of the THZ and TDZ does not exceed 58 8V peak or 58 8Vdc The COM port shall not be used in Hazardous areas Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it shall not be changed Moore Industries International Inc 2952 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 European Union Installations ATEX 94 9 EC Directive Intrinsically Safe Applications Zone 0 Il 1 G Ex ia lic The THZ and TDZ shall be installed in an enclosure which maintains an ingress protection rating of at least IP20 The communications port shall be programmed through Moore Industries F
116. ll not be changed Moore Industries International Inc erg www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 4 Configuration The THZ TDZ can be configured using a HART communicator HART host or a PC running an FDT DTM program All functions can be configured using either method with the exception of custom curves which cannot be generated or imported using the HART communicator However once custom curves have been saved in the unit they can be selected using the HART Communicator The following Configuration Overview is applicable to both programming methods The remainder of this Section details programming with a HART communicator For details of configuring using FDT DTM please refer to Section 5 Configuration Overview The following will be an overview of configuration for the THZ3 TDZ Usage of the THZ and TDZ can be grouped into three general classifications e Single Sensor e Dual with identical sensors e Dual with diverse sensors When both sensors are being used and they both produce the same units the measurements can be combined to provide additional calculated values such as average differential low select etc The inputs can be either identical e g the same exact RTD or be different sensors producing the same measurement For a full list of available measurements please see Tables 8 2 through 8 4 in Section 8 QZ Note To use a
117. lows you to select which variables are shown and also allows for custom names and engineering units EGU Refer to Figure 4 12 for further clarification Q Note The Configure Custom EGU and Configure Custom Name menus are only visible if Advance Settings is Enabled Q Note After making all desired changes enter SEND to update the unit Q Note Both the Custom EGU and Custom Name are limited to 5 alohanumeric characters Legal characters are A Z caps only 0 9 4 lt gt 7 4_ Figure 4 12 TDZ 3 or THZ Display menu RJC Temp Note Any 2 3 4 iad eae or all can be Sensor2 selected to display Backup 1 2 in scrolling Backup 2 1 Average Dyn Var Display Flags Differential 1 2 Differential 2 1 Decimal Places Absolute Dif Low Select Dev Var Display Flags High Select RJC Temp Custom EGU En RJC Temp Custom EGU Me ert go Sensor1 Custom EGU En Sensori Custom EGU Sensor2 Custom EGU En Sensor2 Custom EGU Backup 1 2 Custom EGU En Backup 1 2 Custom EGU Backup 2 1 Custom EGU En Backup 2 1 Custom EGU Average Custom EGU En Average Custom EGU Differential 1 2 Custom EGU En Differential 1 2 Custom EGU Differential 2 1 Custom EGU En Differential 2 1 Custom EGU Absolute Dif Custom EGU En Absolute Dif Custom EGU Low Select Custom EGU En Low Select Custom EGU High Select Custom EGU En High Select Custom EGU Dis play Configure Custom EGU Configure Custom Name RJC Temp Custom E
118. lter is designed to reduce the effects of mains induced noise The input filter frequency value should be set to the frequency of the local AC supply either 50Hz or 60Hz 1 Choose either 50Hz or 60Hz filter for your the devices here Ranging and Mapping The Ranging and Mapping menu will allow you to view current Device Variable assignment mapping to PV SV TV and QV It will also allow you to designate or change each one as needed To do so enter the Change Variable Mapping menu option In this menu you will select from RJC Temperature Sensor 1 Sensor 2 Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential Low Select or High Select to each variable PV SV TV amp QV Refer to Figure 5 27 In addition to mapping the Dynamic Variables you can also set the PV lower range and upper range values to AO 0 100 and PV Damping PV Damping allows you to introduce a delay into the response of your unit in order to stop short lived spikes from initiating faults and generating fault messages The damping time setting is the time PV takes to make a 63 change in response to a step change Figure 5 27 THZ TDZ Parameters Input Ranging and Mapping Primary Variable PV Analog Output Source Sensor 1 Zero 240 0 960 0 000 DEG C Sensor 1 Full 240 0 960 0 1000 DEG C PV Damping 0 0 5 60 0 0 00 sec sv v ay Moore Industries International Inc 89 www miinet com THZ 3 TDZ mnm
119. m Message Place additional information that may be helpful in describing the instrument or its use 32 characters maximum Date Store a date that corresponds to specific system function i e instrument configuration date calibration due date preventive maintenance schedule etc Final asmbly num 0 You may enter a number that is used for identification purposes and is associated with the field device 8 characters maximum This is a read only value that uniquely identifies the field device when combined with the manufacturer identification and device type This is a read only value which corresponds to the revision of the electronics hardware of the field device Burst Configuration Burst Mode enables the device to continuously send out HART messages to any listening device This mode can be configured to send out up to 3 burst messages See HART Burst Message description in the Feature Overiew at the begiinning of Section 4 for more information Q Note The Burst Configuration menu is only visible if Advance Settings is Enabled Q Note After making all desired changes enter SEND to update the unit www miinet com 60 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Figure 4 11 TDZ or THZ HART Settings menu Poll Addr Enter Poll Addr Num req preams Displays Num req preams Cmd 1 PV Cmd 2 range Current Cmd 3 Dyn vars
120. m Status Addl Status Bytes Subsystem Status Input Status User Cfg Status and Dev Variable Status Refer to Figure 4 14 Figure 4 14 TDZ or THZ Status menu within the Custom Calibration Menu Sys Stat Summary In Errs and Warns PV Status SV Status System Stat us TV Status QV Status Ext dev status Range Alarm Status Addl Status Bytes Custom Calibration Subsystem Status Ambient Temperature Sensor Status 1 Input Status Sensor 1 Status 1 Sensor 1 Status 2 Sensor 1 Trim Status Sensor 2 Status 1 Sensor 2 Status 2 Sensor 2 Trim Status User Cfg Status User Configuration Analog Output Status See Figure 4 15 Dev Var Status RJC Temp Config Sensor1 Config Sensor2 Config BU 1 2 Config BU 2 1 Config Average Config Diff 1 2 Config Diff 2 1 Config Abs Diff Config LOSEL Config HISEL Config DV Cfg Error Summ RJC Temp Status SensoriStatus Sensor2Status Backup 1 2 Status Backup 2 1 Status Average Status Differential 1 2 Status Differential 2 1 Status Absolute Differential Low SelectStatus High SelectStatus BAD DQ S1 BAD S2 BAD S1 LIM ITED S2 LIM ITED On Backup Backup Sensor BAD Cfg S1 Units Wrong Cfg S2 Units Wrong Cfg My Out Units BAD Cfg S1 Disabled Cfg S2 Disabled Cfg CC Inject ID Moore Industries International Inc s07 System Status Sum mary Diagnostic Status Inp ut Error Summary Inp ut Warning Range Alarm Status Same As S1 Same As S1 Sam
121. ment Configuration with HART Communicator Online Menu Process Default Config Filter Configure Measure Mode Variables Config Wizards PV Damping Input Types aput Type Model l EU Device Setup Setup Input Configure RIC Temp PV is Sensor PV Quality pim x Sensor 1 BW Holdoff time PV Calibration Dual Input Ranging and PV Loop Current Review Mapping P A PV LRV Analog Output Sensor 2 iii PV URV Sensor Information SV TV HART Settings Sealing QV Range Alarm Dis play Status BW Detection Running Average Custom Curve System Config Advance Settings This will help you to be sure to apply the correct input with which to trim your THZ TDZ By example If the Sensor 1 Measure Mode is RTD 4 wire and the Sensor 1 Input Type is Pt 3850 1000 ohm and Sensor 1 EGU is deg F then you should be using an accurate resistance source such as a decade box to emulate the 4 wire Pt 3850 10000 RTD and use the Fahrenheit temperature tables to source the correct resistances for your specific temperature range Be sure to also check the HART Communicator s Online Menu to see your instrument s PV LRV Primary Variable Lower Range Value and PV URV Primary Variable Upper Range Value settings so that you know the span of temperature to be used Now you are ready to do the actual input trimming of your THZ TDZ Using your HART Communicator follow Figure 2 4 below and steps on next page for clarity Figure 2 4 Input
122. mic Variables and AO There are 3 different quality alarms Measurement out of Conformance Range Allow Limited and Allow Dropping See Section 6 for more information www miinet com 44 Moore Industries International Inc m THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Programming Device Description Menu on THZ TDZ with HART Communicator handheld devices To program your TDZ or THZ your HART communicator must be equipped with the Device Description for your instrument Please follow the steps below to configure instrument Refer to Figure 4 1 for an outline of menu options Online Menu The Online menu displays the current process value of your application the lower and upper range values and the actual output current Use the Device Setup menu to configure the TDZ or THZ as detailed in the rest of this section Note In the following configuration information all default values are shown inf Note When making changes or updates within menus you will notice the menu item is Q highlighted and an asterisk appears in front of the menu item changed updated This indicates that a change update was made yet not updated on the unit itself To insure that changes updates are implemented you must hit the SEND button to refresh and update the THZ TDZ unit Hitting the HOME button or the BACK arrow will cancel the desired change update Moore Industries International Inc
123. mited 10 Low Limited 11 Constant Process Bad Manual Fixed Poor Accuracy Good Maintenance Moore Industries suggests a quick check for terminal tightness and general unit condition every year Always adhere to any site requirements for programmed maintenance The calibration of this instrument should be checked every year and re calibrated only when necessary Moore Industries International Inc 115 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 7 Applications This section provides some examples of typical applications for the TDZ and THZ Point to Point Loops Deliver Analog Simplicity with Remote Programmability In the majority of applications the THZ or TDZ is installed on a point to point 4 20mA process loop like a regular analog transmitter Figure 7 1 A HART Communicator HART based system or FDT Host is used to configure and view the transmitter s operating parameters and diagnostic data from any point on the loop Figure 7 1 From any termination point on the 4 20mA loop you can view test and change the transmitter s operating parameters using a HART Communicator or from a PC using PACTware a HART modem is not required for PC setup Smart HART Temperature Transmitter NOTE The HART Communicator or PC with Smart HART Interface Cable may be connected at any termination HART Slave Device THZ in HPP enclosure shown point o
124. mmable Smart HART Temperature Transmitter DD Device Setup Reference Guide The following provides a comprehensive list of configuration menus and options which can be used as a quick reference guide to identify the different configuration capabilities and locate them in the menu system For more information on the specific features please refer to the Configuration Overview and the specific menu descriptions Note Is used to identify advanced features which are only accessible by enabling Advanced Settings in the SETUP menu Process Variables This menu is for information only It displays PV parameters and values and allows selection of all Dynamic and Device Variables to display their present values and quality Setup Default Config Reset to factory default see Quick Start Guide for default configuration settings Config Wizards Configuration Wizards to simplify programming Basic Wizard Configures a single sensor or dual identical sensors Drift Wizard Set up a Drift Alert between two sensors see Section 1 Sensor Diagnostics Input Filter 50Hz or 60Hz input filter to reduce mains induced noise PV Damping introduces a delay in the response to stop input noise from generating Output errors Configure Sensor Input Type eg Thermocouple TypeK 4W RTD Pt3850 1000ohm etc RJC Temp EGU Sensor 1 2 EGU engineering units Sensor 1 2 Broken Wire detection amp hold off Sensor 1 2 Running Average filter Sensor
125. mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 OPTIONS RF Applies to DIN housing only This option provides enhanced RFI EMI filtering with protection of 20 V m 80 1000 MHz 1kHz AM HOUSING HP The TDZ with display is available in an HP housing The THZ is not available in this housing The HP unit can also be ordered in an explosion proof or protective enclosure eg BH SB D Box etc or with a clip for DIN rail or track mounting HPP The THZ is available in an HPP housing The TDZ is not available in this housing Encapsulated hockey puck housing for mounting in connection heads The HPP unit can also be ordered in an explosion proof or protective enclosure eg LH1 LH2 DIN The THZ3 is available in a DIN housing The TDZ3 is not available in this housing DIN style aluminum housing mounts on 35mm Top Hat DIN rail EN50022 Please refer to Section 9 Ordering Information for all housing options www miinet com 8 Moore Industries International Inc mE THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Measurement Modes and Device Variables The THZ TDZ can support one or two sensor inputs With one input it provides an output which is proportional to the input with options for trimming custom linearization and scaling With two sensor inputs there are many other measurement modes Single Measurement Sensor 1 or Sensor 2 can be se
126. n the signal loop The HART Communicator and the signal loop must have between a 230 and H 1100 ohm load for proper communications Ium AAN DCS 3 UVV PLC d B 4 20mA Analog with Digital HART SCADA ie ie superimposed PC je A Data Recorder EN S Indicator A HART ww Power Primary Master A Supply or Non HART i n Communicating Device e i dl E HART Communicator Secondary Master E www miinet com 116 Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Dual Sensor Input Gives You Expanded Measurement Capability and Protection With Dual Input sensors the THZ and TDZ simplify your operations with advanced features that give you far more control over your temperature measurements See Figure 7 2 Each sensor is individually selectable and programmable e Backup and Fail Over Protection allows either of the sensors or inputs to be designated as the primary measurement with the secondary input acting as the backup sensor in case of primary sensor failure e Average and Differential Measurement allows you to average the two inout measurements or select the differential A B or B A or absolute differential between the two inputs e High Select and Low Select Feature enables the transmitter to continuously monitor two separate inputs and designate either the highest or lowest input to represent the anal
127. nect Load from device Store to device Parameter Measured value Simulation 10 Right click on right click on selected DTM i e TDZ HP in the Device Tag menu and select Parameters This will bring up screen for the DTM parameters You are now ready to start your configuration of the device You may also acquire the factory default settings directly form device by right clicking on selected DTM i e TDZ HP in the Device Tag menu and selecting Load from device Figure 5 22 Enabling Parameters for selected THZ TDZ DTM 9 HART Communication Connect Disconnect Load from device Store to device Measured value Simulation Diagnosis Print 11 You will now see the online state turn green to indicate you have a connection Now you can go ahead and configure parameters of the on selected DTM i e TDZ HP Figure 5 23 THZ TDZ Parameters ngu Device tay Address As Status Device type DTM Bost pc rb Jug mmu sido TOZ HP Hockey Puck Display Parameter THI3 TOZ3DTM by Masre Eneorstries international Ine aS COMI C T HART Communication Trust Analog Qutpat Display HART Settings Ir 0 Lusborn Cablbratian www miinet com 82 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter THZ TDZ configu
128. nsor 1 Input Quality Alarms Allow measurement out of conformance range On Allow Limited Off Allow Dropping Off Advanced Features Disabled Moore Industries International Inc 5 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 1 Introduction The Moore Industries THZ TDZ is the next generation of the THZ TDZ The THZ TDZ provides all the same capabilities as the THZ TDZ with additional support for 2 sensors new measurement modes backup average high select low select and differential and advanced device intelligence This is the user s manual for Moore Industries THZ TDZ Programmable Smart HART Temperature Transmitters It contains all of the information needed to configure install operate and maintain the instruments Overview The THZY TDZ has the ability to accept one or two sensor inputs The variables of the THZ TDZ can be configured as either sensor 1 sensor 2 average differential backup low or high select In backup mode the THZ TDZ automatically switches to the secondary sensor input if the primary sensor fails either sensor can be selected as the primary sensor This substantially increases the overall reliability of the measurements Upon switching to the secondary sensor an alert is available via the HART Additional Status diagnostic bit and is also sent to the TDZ display If a sensor fault occurs when not in
129. nsor 2 Corrosion Warning Range Alarm Warning Summary NUSED Sensor 1 Corrosion Error Sensor 2 Corrosion Error Range Alarm Error Summary atus atus Error Status Error Total Device Variable Failure Given the quality of the contributing sensor data and the availability flag settings a valid DV could not be produced Sensor 1 has failed Sensor 2 has failed Sensor 1 quality is LIMITED Sensor 2 quality is LIMITED Primary sensor has failed running on the backup sensor BACKUP 1 2 and 2 1 only The Backup sensor has failed it is not possible to fail over BACKUP 1 2 and 2 1 only Error Error Error Status Status Error Error Total Device Variable Failure Given the quality of the contributing sensor data and the availability flag settings a valid DV could not be produced Sensor 1 has failed Sensor 2 has failed Sensor 1 quality is LIMITED Sensor 2 quality is LIMITED Primary sensor has failed running on the Error backup sensor BACKUP 1 2 and 2 1 only The Backup sensor has failed it is not possible to fail over Error BACKUP 1 2 and 2 1 only Error Error Error Status Status 0 Status 6 Saws Z Error Lx em 4 8 Status 6 Status L7 pue 1 Ew 2 Eror 3 Staus 4 Saws BEA 1 e 2 emor 3 Staus o4 Staus E Moore Industries International Inc siae www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Tran
130. nu allows you to access the following menus Default Config Config Wizards Input Dual Input Analog Output HART Settings Display System Config and Advance Settings Default Config The Default Config menu allows user to reset to factory default settings Q Note Selecting yes will restore default factory settings to unit and is not reversible Contig Wizards This menu contains Configuration Wizards to simplify programming of commonly used features Basic Wizard Basic Wizard can be used to configure either a Single Sensor or Dual Sensors Follow the on screen prompts to set all your parameters Note Selecting the Dual Sensor option will limit your ability to customize parameters of Sensor 2 By default the wizard sets Sensor 2 parameters to be exactly the same as Sensor 1 Drift Wizard Use this wizard to setup a Drift Alert that is tracked by monitoring the absolute differential temperature between two sensors at the same point the same process temperature After selecting a specific Range Alarm 1 to 4 to configure you can select Warning or Alarm AO Fail Selecting Warning sends a message to the HART Handheld FDT host TDZ display and sets a HART status bit Selecting Alarm will also drive the Analog output to Fail Mode The absolute differential Device Variable used for the Drift Alert can also be assigned mapped to any of the HART Dynamic Variables PV SV TV or QV For more information on the Drift Alert and
131. nu the COM port you selected should now appear i e COM11 hover over it right click and select Connect You will now see the online state turn green to indicate you have a connection Figure 5 19 Adding Device to COM Port E coM11 mm A Connect Disconnect Get device state Lead from device Store ta device Parameter Measured value Simulation Diagnosis Display channels Channels Topology Scan Diagnostic Scan Up Download Manager Print Additional functions 8 Next you will right click on COM11 and select Add device Select desired TDZ3 THZ DTM and click Ok Figure 5 20 Selecting desired Device DTM for THZ TDZ All Devices Device Protocol Vendor I THZ3 DIN DIN Mount No display HART MISP Moore Industries Intemational Inc GD TOZ3 HP Hockey Puck Display HART MISP Moore Industries International Inc THZ3 HPP Hockey Puck No Display HART MISP Moore Industries International Inc 1 0 24 2015 Moore Industries International Inc sd fe www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 9 Now right click on selected DTM i e TDZ HP the Device Tag menu and select Connect You will now see the online state turn green to indicate you have a connection fbb 5 21 Connecting Device DTM for THZ SU TEST Berus Adae O Asus C ew HART Communication Device type DTM Discon
132. og output e Dynamic Variable Mapping permits the user to assign either input or the calculated result of inputs to any of the four HART variables PV SV TV or QV that can be read by any HART compatible host system Figure 7 2 When reading critical temperatures in a critical batch processing vessel fail over protection allows the secondary input of the Dual Input TDZ to act as a back up sensor when the primary sensor fails E E ARQ n 17 E RXOET SSAA SS SE 7 A 7 uU 7 Back up Sensor Y yy KLE LE _ gt Moore Industries International Inc 117 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Multidrop Networks Save Wiring Costs Any combination of up to 15 THZ and TDZ smart transmitters connect in parallel onto a HART digital communication link Figure 7 3 This means you can use a single loop instead of 15 separate loops to connect multiple transmitters In a multidrop network the transmitter s measured process variable is output digitally so the 4 20mA signal set to 4mA is not used A HART based control system uses each transmitter s individual address 1 63 to configure or view the transmitter s data A HART Communicator or a PC can be used in this configuration to access information from or transmit configuration information to the transmitter from anywhere on the HART loop Figure 7 3 Save time an
133. onfigure Sensors Ranging and Mapping Sosa TO Tm OHMS Analog Output Display HART Settings 3 Custom Calibration Input PV Capture Capture Corrosion Base Value 5 1 Tri Sensor 1 Corrosion Capture Sensor 2 Trim Resuit AQ Loop Current Test Trim Input Simulation Sensor 1 Corrosion Status Good Sensorl Corrosion Sensor 2 Corrosion Moore Industries International Inc 107 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 6 Operation and Maintenance Operation Once calibrated installed and supplied with the correct power the TDZ and THZ begins to operate immediately Depending upon environmental conditions it can be expected to operate unattended for extended periods of time THZ TDZ Diagnostics The THZ TDZ has a high level of diagnostic capability to continually monitor itself and its inputs Whenever the unit diagnoses a failure which compromises the unit operation it will enter failure mode ie Set analog output AO to fail mode Send error message to display TDZ Send error message to the HART Handheld DTM Set device malfunction status bit in HART and set the relevant HART bits in additional status The unit will enter failure mode when one of the following occurs A device diagnostic error hardware software data communications The Device Variable which is mapped to the PV is marked as BAD There is a Range
134. oo uanuM eui ynouwm ed puru Aue o pesojosip 40 peonpoudai eq jou pjnous pue IIIA Ou lPAuoneuJoju seujsnpu soo Jo Auiedoud jeyeudoud y ase uiay peurejuoo uoneuuojur eu pue Buiejp stu NOILVIASOHNI ASV LaleddO d 3H ADILON E Or L 093 LIVZ 1LG2 O0Z NN Sd3glNnN 9NIMVSMO Z1S SZAL ev EM HJJNION3 ee en sick 38v1 WINAS GOW e 9 oomo shee swios S 87 CO yas SSE dagy GSZIdsLNdWNOO SAIGLSNGNI Jd00IN D ONIMV3GO 31V29S LON OG AHOO93 1V2O Moore Industries International Inc 134 www miinet com DRAWING NUMBER i a 200 251 2462 EGO 17999 ur DO NOT SCALE DRAWING 59 SREAWN COMPUTERIZED LABEL tee Nee eno won 1 13 Fe Pn peu va V5 MOD SERIAL LABEL XX emen THZ3 STZ Li moore NOTICE RE PROPRIETARY INFORMATION This drawing and the information contained herein are the proprietary property of Moore Industries International Inc MII and should not be reproduced or disclosed to any third party without the written consent of an authorized officer of MIl INDUSTRIES XXX 005 0 125 HOLES 003 0 080 SCALE ANGLES 1 2 1 1 2 45 FRONT FACE SLIT REF CUT LINE Model Class I Div 2 Nonincendive Type n CI 113 G ExnA IIC Ex na IIC Gc Tag L Class Zone 2 AEx Ex nA IIC B 2 THZ 3 TDZ Programmable Smart HART Temperature Transmitter Serial C Class Div 2 Groups A D 12 42Vdc 24mA max LE MOORE
135. op Current Test Trim page 2 Select the Trim Mode one point 3 Click on the Apply button 4 Send the Store to device command 5 Click on the Lower Output Range button Note This puts the AO in manual mode and the actual AO value is given 6 Enter the given Analog Output value in mA in the Measured Output Current entry field 7 Click on the Trim button 8 Repeat steps 6 7 until the desired value is obtained 9 Once the desired value is obtained click on the Clear button Note If you do not click the Clear button the Analog Output will remain in manual mode and Will NOT follow the input signal 10 You are done with one point trimming www miinet com 96 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Two Point Navigate to the AO Loop Current Test Trim page Select the Trim Mode two point Click on the Apply button Send the Store to device command pr e 9 TI Click on the appropriate button for the AO level being trimmed Lower or Upper Output Range Q This puts the AO in manual mode and the actual AO value is given 6 Enter the given Analog Output value in mA in the Measured Output Current entry field 7 Click on the Trim button 8 Repeat steps 6 7 until the desired value is obtained 9 Repeat steps 5 8 for the second point to be trimmed 10 If you are done trimming click on th
136. orrect COM port for the MII MISP Communication DTM PACTware File Edit View Project Device Extras Window Help eS id B3 Ge ERI Ju at im dax ga MISP COMI Parameter MIT MISP Communications DTM by Moore Industries International Inc MISP COMI Commmunications Port Ea COM12 x Ner resto stem www miinet com 76 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter 7 Return to Device Tag Menu the MISP COM port you selected should now appear i e MISP COM12 hover over it right click and select Connect You will now see the online state turn green to indicate you have a connection Figure 5 8 COM Port Confirmation r1 PACTware p PACTware File Edit View Project Device Extras Window Help File Edit View Project Device Extras Window Help naeuasmBp msoo 95332 auaa iL a 4 amp HOST PC MISP COM12 En Disconnect Get device state ie Load from device 8 Next you will right click on MISP COM 12 and select Add device Select desired TDZ3 THZ DTM from list and click Ok See Figures 5 9 and 5 10 Figure 5 9 Adding Device to MISP COM Port iei coma l 7 af Connect Disconnect Get device state Load fram device Store to device Parameter Measured value Simulation Diagnosis Display channels Channels Topology Scan Diagnostic Scan Up Download Manager Pint Additional function
137. ou make a change select desired parameter and hit the ENTER button to return to previous screen in Menu Q Note A higher Running Average Filter setting provides smoother output transitions however increases response time Conversely a lower setting provides a faster response time but may seem more unstable www miinet com 54 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter S1 2Wire Offset This setting is to offset the wire resistance of the 2Wire sensor cable and will help the accuracy of the measurement Selecting this will display current Sensor 1 2Wire Offset and allow you to make changes as required If you make a change select desired parameter and hit the ENTER button to return to previous screen in Menu S1 Sensor Information selecting this will display the Sensor 1 Sensor Information menu The following will be displayed with your set parameters Sensor 1 USL Upper Sensor Limit Sensor 1 LSL Lower Sensor Limit Sensor 1 Min Span Minimum Span Sensor 1 s n Sensor 1 Serial Number Hit the HOME button to return to home menu S1 Scaling Selecting this will prompt menu shown in Figure 4 6 The Following options are displayed Sensor 1 Scl En Sensor 1 EGU Sensor 1 Input Min Sensor 1 Max Sensor 1 Scale Min and Sensor 1 Scale Max Here you can Enable or Disable Sensor 1 Scaling select an EGU for Sensor 1 enter Sensor 1 Input
138. output to the device that is receiving the output such as a DCS This ensures that the output of the THZ TDZ is being correctly interpreted Calibration using a HART handheld communicator To perform the Input Trimming of the THZ TDZ set up the equipment in Table 2 1 as shown in Figures 2 1 thru 2 4 Table 2 1 Necessary Equipment Device Specifications Millivolt or Resistance Source Power Supply 24Vdc 10 Accurate to 0 05 of span for the intended application Load Resistor 250 ohms with 0 01 precision Multimeter Calibrated to an accuracy of 0 025 or better such as Fluke Model 725 or similar HART Communicator Any HART HandHeld Communicator or Host with THZ3 TDZ3 Device Description loaded See Figure 2 2 for the power supply and loop connections The TDZ is shown but the power supply and loop connections for the THZ HPP and THZ DIN will be similar Figure 2 2 Power Supply and Loop connections 12 24Vdc Power Supply The HART Communicator can be connected to any point on the output side of the loop Total loop resistance must equal between 250 to 1 100 ohm for proper HART Communications Moore Industries International Inc 15 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Use your HART Communicator to verify how your instrument is configured Refer to Figure 2 3 below for clarity Figure 2 3 Verify Instru
139. ponse to every HART command Table 6 4 TDZ or THZ Field Device Status Bits Description Primary variable out of limits The PV is beyond its operating limit Non primary variable out of limits A Device Variable not mapped to the PV is beyond its operating limits Loop Current Saturated iod Loop Current has reached its upper or lower endpoint limit and cannot increase or decrease and further Loop Current Fixed The Loop Current is being held at a fixed value and is not responding to process variations More Status Available More status information is available via Command 48 Read Additional Status Information Cold Start A power failure of Device Reset has occurred Configuration Changed An operation was performed that changed the device s configuration Device Malfunction The device detected a serious error or failure that compromises device operation www miinet com 112 Moore Industries International Inc m THZ TDZ 238 741 00B l April 2015 Programmable Smart HART Temperature Transmitter Additional Status Byte HART Command 48 The TDZ3 THZ3 returns 15 bytes when the Additional Status is requested via HART command 48 Table 6 5 TDZ or THZ Additional Status Byte Diagnostic Status nput Error Summary Input Warning Summary Analog Output Status Front End Status User Config Error Summary Device Variable Config Error Summ Persistence Errors NUSED Sensor 1 Corrosion Warning Se
140. put Signal 0 Low Limit Note If a Range Alarm Response is set to Alarm the AO will always perform a fail response even if the source Device Variable is not assigned to the PV Setting the Range Alarm Response to Warning will not affect the AO Moore Industries International Inc f www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Sensor Drift Detection Drifting in sensors occurs from a number of different causes including environmental contamination vibration and extreme temperature fluctuations This can lead to false sensor readings The THZ TDZ can be configured to detect these false readings by using a Range Alarm to monitor the absolute differential between two sensors i e RTD amp T C or two RTDs or T Cs at the same point This method can provide a range alarm warning or alarm to indicate that there is an issue with one of the sensors See Chart below for clarification IV Drift Alert Activated Initial Minimal Difference USER DEFINED DRIFT LIMITS L o Typical Drift Over Time In this example a Range Alarm is set with the Absolute Differential as the source An out of range warning or alarm is configured with the low and high limits set to OC to 5C respectively creating an alarm when Sensor 1 and Sensor 2 readings drift apart by more than 50 Q Note When setting the drift limit please allow for sensor tolerances and diffe
141. quipped with base plate and U bolts for mounting on a 2 inch pipe i e BH2NGP www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 10 Certification Information LL moore EC Declaration of Conformity WORLDWIDE Moore Industries International Inc Date Issued 22 Apr 2015 16650 Schoenborn Street No 100 100 253 Rev B North Hills CA 91343 6196 U S A Page 1 of 2 Equipment Description Programmable HART Temperature Transmitter with Display Model TDZ3 Indicates any input output power options and housing as stated in the product data sheet Directive 2004 108 EC EMC Electromagnetic Compatibility Specifications Conformed To EN 61326 1 2006 Electrical equipment for measurement control and laboratory use EMC requirements Equipment Description Programmable HART Temperature Transmitter with Display Model TDZ3 4 20mA 12 30DC HP Indicates any input and options as stated in the product data sheet Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmospheres Provisions of the Directive Fulfilled by the Equipment Group Il Category 1G Ex ia IIC Ga T4 Notified Body for EC Type Examination FM Approvals Ltd Notified Body Number 1725 1 Windsor Dials Windsor Berkshire SLA1RS United Kingdom EC Type Examination Certificate FM13ATEX0098X Harmonized Standards Used EN60079 0 2012
142. ration using DTM The following menu options and terminology are specific to PACTware but other FDT frame applications have similar menus This PACTware menu is common for all device DTMs and only the Additional Functions submenu has TDZ THZ specifics Where the menu is grayed out this feature is not available for the TDZ THZ Figure 5 24 Menu Options for THZ TDZ DTM Connect Disconnect Get device state gt Load from device n Store to device Parameter Measured value Simulation Diagnosis Print Additional functions gt ut Add device Exchange device R Delete device i Properties 0 THZ3 TDZ3 THZ3 TDZ3 Right click on selected TDZ THZ DTM icon to display the following menu Connect Select this to connect to device you wish to configure Disconnect Select to disconnect from current device connected Load from device Select this to load configuration currently on device to PACTware Store to Device Select this to send current configuration from PACTware to device Parameter Select this to enter and configure the device You can also configure the device by double clicking on the device icon with the left mouse button Measured Value Select this to view the device values for the Dynamic Variables and Device Variables Simulation N A Diagnosis Select this to view Main System Status within this you can find Additional Status Bytes and Subsystem Status
143. rature Transmitter April 2015 Bench Check We highly recommend that you perform a bench check of your THZ3 TDZ prior to installing it in the field Doing this will ensure it is operating within your expectations or requirements Bench Check using a HART Handheld Communicator To perform the bench check of your THZ TDZ set up the equipment in Table 2 3 as shown in Figures 2 13 Table 2 3 Bench Check Necessary Equipment Device Specifications Millivolt or Resistance Source Accurate to 0 05 of span for the intended application Power Supply 24Vdc 10 Load Resistor 250 ohm with 0 01 precision Multimeter Calibrated to an accuracy of 0 025 or better such as Fluke Model 725 or similar HART Communicator Any HART HandHeld Communicator or Host with THZ3 TDZ3 Device Description loaded Connect your THZ TDZ as shown if figure 2 13 See Section 4 of this manual to configure your THZ TDZ as appropriate for your application If possible use the exact temperature sensor RTD or thermocouple that you will be using in your final application Apply power to the THZ TDZ and see that it is reading the correct ambient temperature and providing the correct output for the given input Example If your TDZ is configured to measure a temperature range of 50 100 F and is now on your test bench and is reading an ambient temperature of 72 then you should expect an output of 11 04mA If itis not feasible for you to use the actual
144. re Industries International Inc xD www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Figure 2 10 Sensor 1 Trim SSS e e RN I THEXTDIJDTM 1 The Trim Mode can be set for One Point or Two Point If interested in obtaining the best accuracy at one temperature point choose the One Point mode The most common Trim Mode is Two Point This mode yields greater measurement accuracy over a temperature range by trimming points on each side of a specific range or by trimming at your Zero and Full scale values as configured in the Ranging and Mapping screen The below example outlines a Two Point trim at the Zero and Full scale points Q Note The current Sensor 1 Reading is 2 53 C Perform the following steps 1 Set Trim Mode to Two Point 2 Set your input resistance to match your Sensor 1 Zero point By example If your Sensor 1 Zero point is 0 C the input you apply to the instrument will be 1000 000 3 Enter the Sensor 1 Zero value into the field entitled Desired Trim Point Value For my example will be entering O as my range is defined as 0 100 4 When your reading stabilizes press the Trim Lower Point button and your Sensor 1 Reading should now read the correct Trim Point Value 0 in this example 5 Enter the Sensor 1 Full value into the field entitled Desired Trim Point Value For my example will be entering 100 as my range is defin
145. rence table of ordering information Further details are provided for each model below INPUT PRG The THZ TDZ supports one or two RTD T C mV Potentiometer and Ohms as configurable inputs The input field of the model number string can also specify the specific sensor in a temperature transmitter assembly see RTI series data sheets for more information If a second sensor is required in the assembly then this needs to be ordered separately Note While the THZ TDZ will accept a dual input sensor configuration the following limitations apply only when using two input sensors TDZ3 HP 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ DIN see figure 3 2 2 wire and or 3 wire sensors 4 wire sensors RTDs cannot be used THZ HPP see figure 3 4 Sensor 1 can be configured as 2 wire or 3 wire sensor Sensor 2 is then restricted to a 2 wire sensor OUTPUT 4 20MA The isolated analog output provides a 4 20mA signal scalable to narrower ranges with a HART signal superimposed POWER The THZ3 and TDZ3 are 2 wire loop powered instruments They are powered either by an external power supply or by a DCS or PLC input channel that provides power to the loop 12 42DC 12 42Vdc is the standard power range 12 30DC To specify units for installation in intrinsically safe areas specify the 12 30Vdc power option This option is not applicable to DIN housing www miinet com THZ 3 TDZ
146. rences in sensor response times to avoid false drift alerts Corrosion Detection Corrosion of the sensor connections is primarily caused by oxidation or electrolysis which can lead to inaccurate readings with RTD measurements The THZ TDZ is able to detect corrosion on 3W or 4W RTDs by measuring the change in compensating lead wire resistance between terminals 3 and 4 providing an alert when preset value limits are exceeded Additionally the THZ TDZ monitors the status of T C circuits High resistance values in T C circuits could indicate a potential impending T C burnout ALARM WARNING amp ALARM WARNING ca U 400hmS d TIR CR E NM CE f 35ohms P mmo omm ia so mmo omm mm mm om 35ohms m m omm e om Uu Qua o cc cc 2ohms 2ohms CAPTURED RTD WIRE CAPTURED RTD WIRE VALUE RESISTANCE VALUE RESISTANCE Different Values Same Values www miinet com 12 Moore Industries International Inc mE THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter ALARM WARNING amp ALARM T WARNING 3 g 4 0000hms J gt 0 OU 13 3500ohms A e n 3 5000hms P U N q L c 200ohms 200ohms CAPTURED T C CIRCUIT CAPTURED T C CIRCUIT VALUE RESISTANCE VALUE RESISTANCE Different Values Same Values To setup Corrosion Detection the user captures the nominal sensor resistance value an
147. rent burst messages may be configured in the THZ3 TDZ3 Please see section 4 for more information on burst mode configuration Note When using burst mode in the THZS TDZS the host must also be configured to communicate in burst mode www miinet com 10 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Sensor Diagnostics As part of the enhanced device intelligence the THZ TDZ performs Total Sensor Diagnostics This can save you downtime by letting you know when a problem occurs what type and it s location Some of these diagnostics such as drift alert and corrosion detection can also be used for predictive diagnostics to warn of future problems This allows for planned sensor replacement and minimal process interruption Range Alarms The THZ TDZ implements 4 independently configurable Range Alarms Typical applications are outside of range detection in range detection and sensor drift Range Alarms RA can be used to detect if a Device Variable is inside or outside of an arbitrary user specified range Any Device Variable can be used as the source including the RJC Temperature Loop Current and Percent of Range POR The alarm can be set to a warning set a HART status bit or an alarm sets a different status bit plus AO fail response It can also be configured as latching or non latching High Limit S In Range 100 Process In
148. rrent PV 9 Device Variables with status Device Variable in Slot 1 33 Device Variables Device Variable in Slot 1 48 Additional Device Status Status bits Update Periods The Update and Maximum Update periods determine the minimum and maximum time interval between each message The update periods can be set to the following values 0 5 1 2 4 8 16 32 60 3600 seconds The actual frequency of messages sent will be determined by the update periods and trigger mode If the trigger mode is set to Continuous then the message will be sent every x seconds where x is the Update period If the trigger mode is set to any other value i e it is looking for a trigger then the message will be sent every x seconds update period if the trigger condition is met If the trigger condition is not met then a message will be sent every y seconds where y is the Maximum Update period This ensures that the device and host communicate regularly once per hour if y is set to the maximum value of 3600 seconds www miinet com 42 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Trigger This determines what triggers a message to be sent to the host The trigger source value depends on the HART command and is defined above There are three parameters which need to be set for the trigger mode level and units Mode Level Units Description Continuous 1 0 Not used Messag
149. s Device Protocol Vendor Group pne Sa aree e ne isn be rebrand na Coo Rae M Raby MINOS IESU RE EN E et THZ3 DIN DIN Mount No display HART MISP Moore Industries International Inc FDT 1 0 2412 amp THZ3 HPP Hockey Puck No Display HART MISP Moore Industries International Inc FDT 1 0 24 2015 1 9 Moore Industries International Inc s www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 9 Now right click on selected DTM i e TDZ HP in the Device Tag menu and select Connect You will now see the online state turn green to indicate you have a connection Figure 5 11 Connecting to selected Device DTM for THZ TDZ PACTware Fille Edit View Project Device Extras Window Help D e db d S Re 822028458 10 Right click on DTM i e TDZ HP in the Device Tag menu and select Parameters This will bring up screen for the TDZ parameters You are now ready to start your configuration of the device You may also acquire the factory default settings directly form device by right clicking on DTM i e TDZ HP in the Device Tag menu and selecting Load from device Figure 5 12 Enabling Parameters Configuration page for THZS TDZ DTM rl PACTware File Edit View Project Device Extras Window Help n d 2 Be 220 E Project Bd Eq MISP COM12 tL G THZ3 TDZ3 Connect Ti S Disconnect Get device
150. sensor Moore Industries International Inc s 90 www miinet com THZ 3 TDZ m 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 The following additional features may also be useful Sensor Trimming Sensor Trimming increases the measurement accuracy of your instrument by trimming the reading of its actual input to either a calibrated source or the device to which it is connected This verifies that the input to the transmitter is being interpreted correctly You may trim any point between 0 and 100 along the scale Note that one point trimming applies an offset to the sensor reading while two point trimming applies both an offset and a gain Trimming can be applied to one or both sensors SEN1 amp SEN2 Running Average Filter This function filters the sensor input signal with a user selected range between 1 and 16 A higher Running Average Filter setting provides smoother output transitions however increases response time Conversely a lower setting provides a faster response time but may seem more unstable Filter This setting is used to configure the input filter The filter is designed to reduce the effects of mains induced noise The input filter frequency value should be set to the frequency of the local AC supply either 50Hz or 60Hz Scaling Scaling can be applied to any Device Variable including Sensor 1 and Sensor 2 It provides for a linear transformation from the Device Variable s
151. smitter April 2015 Table 6 5 Continued E Total Device Variable Failure Given the quality of the contributing sensor iiu data and the availability flag settings a valid DV could not be produced Error Error Status Status Primary sensor has failed running on the EO backup sensor BACKUP 1 2 and 2 1 only The Backup sensor has failed it is not possible to fail over Error BACKUP 1 2 and 2 1 only Total Device Variable Failure Given the quality of the contributing sensor data and the availability flag settings a valid DV could not be produced Error Sensor 1 has failed Error Sensor 2 has failed Status Sensor 1 quality is LIMITED Status Sensor 2 quality is LIMITED Primary sensor has failed running on the backup sensor BACKUP 1 2 and 2 1 only The Backup sensor has failed it is not possible to fail over BACKUP 1 2 and 2 1 only UNUSED Status Status Status Error Eror Error Error Error Error Error N O1 3 G Po e 0O A ION o1 A ONI N www miinet com 114 Moore Industries International Inc AEn THZ TDZ April 2015 Programmable Smart HART Temperature Transmitter Device Variable Status HART Command 9 Each Device Variable has an associated status byte which provides information about the quality of the data See THZ3 TDZ3 Diagnostics for more information Table 6 6 Device Variable Status HART Command 9 Bit Description Limit Status 00 Not Limited 01 High Li
152. sor 1 and 2 Broken Wire Detection 1 From the Broken Wire Detection Drop down Menu select either Enable or Disabled Sensor 1 and 2 Broken Wire Holdoff 0 0 60 0secs This allows users to add an additional time delay before broken wire is detected When enabled a Broken Wire delay of 0 60 seconds can be set which provides some noise immunity and prevents false alarms caused by other factors that may be misinterpreted as Broken Wire 1 Enter the Broken Wire Holdoff value you desire Sensor 1 and 2 Running Average Filter Setting 1 16 This function is for filtering the input signal The TDZ and THZ has a running average filter with a user selected range between 1 and 16 1 Enter the Running Average Filter Setting value you desire Q Note A higher Running Average Filter setting provides smoother output transitions however increases response time Conversely a lower setting provides a faster response time but may seem more unstable www miinet com 88 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Sensor 1 and 2 Two Wire Offset 0 0 250 0 This setting is to offset the wire resistance of the 2 Wire sensor cable and will help the accuracy of the measurement 1 Enter the Offset value you desire Sensor 1 and 2 Serial Number 1 Enter the Serial Number for the device here Filter This setting is used to configure the input filter The fi
153. stom label for your choice Dynamic Variables cannot have a custom name However when the underlying Device Variable s name is shown the custom name is shown instead See Figure 5 46 Q Note Both the Custom EGU and Custom Name are limited to 5 alohanumeric characters Legal characters are A Z caps only 9 4 2 2 Q M Figure 5 46 THZ 3 TDZ Configure Custom Name in Display Menu for Advanced Setup m a RE momes urm nr miare Cod Pent rtm codigo tor caiog Ospa RE T empero ane Deci Conners nt Fg t t PME Srg x Custos C aller anon Sm m sama Cuna Tnm adm AM New Seren actog 2 Cota Viam Utm Serco Pachap 12 Sae Serene Fa iT tm Tama i Py rd Serco Bach 2 Mar Ac age Castor Maru Crab fret F Deu om moe Pm ferente Newer Diversas 2 Cosma m M tnt trate uil tnt Diferentes Carn hare em HART Settings The HART Settings menu provides access to Basic Setup HART settings See basic Setup for further clarification Additionally this menu allows for configuration of 3 unique HART Burst Messages Refer to HART Broadcast messaging at the beginning of Section 4 for clarification on settings and functions HART Burst Message 1 3 Here you can enable or disable and configure HART Burst messages 1 3 See Figure 5 47 for clarification Figure 5 47 THZ 3 TDZ HART Burst Messages 1 3 in HART Settings Menu for Advanced Setup Burst Message 1 Enable 7 Enable c Burit M
154. stries serial or USB cable Mil TDZ3 THZ3 DTM This is the Device DTM for the TDZ and THZ3 PACTware 4 1 SP3 Installer iz x Select the components that should be installed with PACTware moone 15e INDUSTRIES WoORLODWwWIOE PACTware 4 1 SP3 ICS Generic HART FDT 1 2 DTM R4 0 3 HART Communication FOT 1 2 DTM V1 0 44 MII MISP Communications DTM 1 00 08 WI MII THZ3 TDZ3 DTM 1 00 46 Welcome to the PACTware 4 1 SP3 Setup Wizard ICS Generic HART Release 4 FDT 1 2 DTM InstallShield Wizard xi Welcome to the InstallShield Wizard for ICS Generic HART Release 4 FDT 1 2 DTM The InstallShield Wizard will install ICS Generic HART Release 4 FDT 1 2 DTM on your computer To continue click Next Welcome to HART Communication FDT 1 2 DTM V1 0 44 Upgrade Setup Wizard 51 The Setup Wizard will upgrade the current installation with HART Communication FDT 1 2 DTM 1 0 44 on your computer Click Next to continue or Cancel to exit the Setup lt a Wizard E i Cancel You will also find individual DTM installers on the CD in Comms and Device folders Use these if you already have PACTware or another FDT frame application and just need to install or update the Moore Industries DTMs Comms Folder MISP vxxx CommsDTM Moore Industries exe Device Folder TDZ3 THZ3 vxxx DeviceDTM Moore Industries exe Moore Industries International Inc aes THZ TDZ Programmable Smar
155. t HART Temperature Transmitter www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 The USB cable driver is also available in the Comms folder on the CD if you need to install the Moore Industries USB cable on your PC for the first time Comms Folder MIIUSBCable vxxx PC Configuration Software Moore Industries exe Moore Industries MISP DTM Installation If you want to communicate with the TDZ THZ using the USB communications cable you will need to install the MISP DTM The MISP DTM can be found on the Moore Industries PACTware DTM CD or from our website www miinet com File is named MISP DTM Configuration Software Moore Industries exe To install simply locate file double click file and follow on screen instructions to install I Mocre Industries International Ine MISP DTM Setup oo moore Moore Industries International Inc INDUSTRIES WGNLUWIDS Welcome Setup veli metal Mocee Industries International Inc MES OTM cn your computer Click insta to continue options to cet the install directory ci Clese te ent Meore Industees irtermational lec MISP DTM iet trm agree to the Boerse termi and condions r Frun L ges Moore Industries THZ3 TDZ3 DTM Installation File is named THZ3 TDZ3 PC Configuration Software Moore Industries To install simply locate file double click file and follow on screen instructions to install a IT Mo
156. tallations in the U S shall be in accordance with ANSI ISA RP12 06 01 Installation of Intrinsically Safe Systems for Hazardous Classified Locations and the latest edition of the National Electrical Code ANSI NFPA 70 Resistance between Intrinsically Safe Ground and earth ground must be less than 1 0 Ohm Installation in Canada shall be in accordance with the latest edition of the C22 1 Canadian Electrical Code Part I Installation in Europe shall be in accordance with the latest editions of the wiring practices for the country of origin and EN 60079 14 Installation for IECEx certification shall be in accordance with the latest editions of the wiring practices for the country of origin The Entity Concept allows interconnection of associated apparatus and intrinsically safe apparatus when the following is true Uo lt Ui los li Po lt Pi Co Ci Ccable Lo Li Lcable No revision is allowed to this drawing without prior FM Approval Unspecified Moore Industrie s Apparatus Communication Cable Part No 804 030 26 3 For programming use only Installation Diagram Intrinsically Safe System DRAWING NUMBER 100 100 81 SHEET 2 of 2 SEE SEE 1 pem NOTICE RE PROPRIETARY INFORMATION This drawing and the information contained herein are the proprietary property of Moore Industries International Inc MII and should not be reproduced or disclosed to any third party without the written consent of an authorize
157. temperature sensor for your bench test or if your desired temperature range is nowhere near your ambient temperature then use a temperature simulator such as a Fluke 725 or similar to provide your input Once your bench setup is complete you can now use your FDT DTM software to check the transmitter s dynamic variables and analog output If using PACTware you can use the Measured value menu command to view the transmitter s real time values see Section 5 24 of this manual Figure 2 13 Bench Check Setup 12 24Vdc Power i 4 G CO 0 A Pr P 2G u A ANNAN LI PD Supply di Moore Indusries P N 804 030 26 To USB Port of PC HART Modem connects to Serial USB COM Port of PC www miinet com Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Bench Check using a FDT DTM Software This section provides information on checking the TDZ THZ using a PC with PACTware an FDT frame application For users who already have an FDT Frame Application all the following information is still relevant For more information on FDT DTM please refer to www fdtgroup org To perform the bench check of your THZ TDZ set up the equipment in Table 2 4 as shown in Figures 2 14 Table 2 4 Bench Check Necessary Equipment Device Specifications Millivolt or Resistance Source Power Supply 24Vdc 10 Load Resistor 250 ohm with
158. tified Body Number 0492 Zoning A Schweitzer 7340 Colfontaine Belguim EC Type Examination Certificate ISSeP 08 ATEX 033 X Harmonized Standards Used EN 60079 0 2012 Explosive atmospheres Part 0 Equipment General requirements EN 60079 1 2007 Explosive atmospheres Part 1 Equipment protection by flameproof enclosures d EN 60079 31 2010 Explosive atmospheres Part 31 Equipment dust ignition protection by enclosure t Notified Body for Quality Assurance SIRA Notified Body Number 0518 Rake Lane Eccleston Chester Cheshire CH4 9JN England On Behalf of Moore Industries International Inc declare that on the date the equipment accompanied by this declaration is placed on the market the equipment conforms with all technical and regulatory requirements of the above listed directives Signature uut oot Deanna Esterwold Quality Manager Moore Industries International Inc 127 www miinet com User s Manual 238 741 00B April 2015 THZ 3 TDZ Programmable Smart HART Temperature Transmitter s3mp o npouos Aouasy ZUAI oq 10 S3Mp pW 1eoeurdug uoneornmno og Jo eaoidde euy pue uoneognou og j3noqira ponruued ore suoneorrpour ON SurweIp PTAPSYIS JO pejejesr pero3juoo L ST SIL jonpo4q pono 9NINNHVM 310N 2 snjeJeddy snjejeddy pejeioossy peyioedsuf Joujo Jo JeuJeg snjeseddy ejduuis Josueg 25 L 10 GLY l l l l l l l l l l l l l l l
159. tively latched range alarm provided that the input has returned to a non alarm level See Section 1 more information on Range Alarms Each alarm has the following settings Enabled Disabled Enables or Disables the Range Alarm Source Primary Variable The Variable to be used as a source for the Range Alarm Response Warning How to react if the specified condition occurs Warning Sends a warning message to the HART Handheld FDT host TDZ display and sets a HART status bit Alarm Sends the AO into fail mode and sends an alarm message to the HART Handheld FDT host TDZ display It also sets a different HART status bit Assertion In Range Indicates if the Range Alarm should detect if the source variable goes Out of range or goes In range Low 0 00 The defined lower limit of the Range Alarm High 100 00 The defined upper limit of the Range Alarm Latching Enabled Disables or Enables latching of the alarm Non latching alarms return to a non alarm state whenever the process input returns to a non alarm level Once tripped a latching alarm remains in an alarm state until the input returns to a non alarm level and is reset Latching alarms can be reset from the Range Alarm or Custom Calibration menu Note The Range Alarms menu is only visible if Advance Settings is Enabled Note If a Range Alarm Response is set to Alarm the AO will always perform a fail response even if the Source Device Variable is not assigned to the P
160. uct data sheet Indicates any BH or SB2 Enclosure with the E suffix Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmospheres Provisions of the Directive Fulfilled by the Equipment Group ll Category 2G Ex d IIC T6 Gb Group Il Category 2D Ex tb IIIC Db T85 C IP66 Notified Body for EC Type Examination ISSeP Notified Body Number 0492 Zoning A Schweitzer 7340 Colfontaine Belguim EC Type Examination Certificate ISSeP 08 ATEX 033 X Harmonized Standards Used EN 60079 0 2012 Explosive atmospheres Part 0 Equipment General requirements EN 60079 1 2007 Explosive atmospheres Part 1 Equipment protection by flameproof enclosures d EN 60079 31 2010 Explosive atmospheres Part 31 Equipment dust ignition protection by enclosure t Notified Body for Quality Assurance SIRA Notified Body Number 0518 Rake Lane Eccleston Chester Cheshire CH4 9JN England On Behalf of Moore Industries International Inc declare that on the date the equipment accompanied by this declaration is placed on the market the equipment conforms with all technical and regulatory requirements of the above listed directives Signature DM Deanna Esterwold Quality Manager Moore Industries International Inc 2 25 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 LL moore EC Declaration of Conformity WORLDWIDE Moore Industries Intern
161. umentation in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these Moore Industries products systems Proper use of Moore Industries products Moore Industries products may only be used for the applications described in the catalog and in the relevant technical documentation If products and components from other manufacturers are used these must be recommended or approved by Moore Industries Proper transport storage installation assembly commissioning operation and maintenance are required to ensure that the products operate safely and without any problems The permissible ambient conditions must be complied with The information in the relevant documentation must be observed We have reviewed the contents of this publication to ensure consistency with the hardware and or software described Since variance cannot be precluded entirely we cannot guarantee full consistency However the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions Specifications and information are subject to change without notice All product and company names are trademarks or registered trademarks of their respective holders Use of them does not imply any affiliation with or endorsement by them unless otherwise specified Moore Ind
162. units to any other engineering unit EGU Two points are specified Input minimum Scale minimum and Input maximum Scale maximum When scaling is enabled no unit checking is done It is possible to convert the value from one unit to another by configuring for unity scaling eg 0 O and 100 100 However this should be unnecessary Custom Curve Advance Settings The unit provides the capability to program 4 independent custom curves CC1 4 which can be applied to any available Device Variable to define a non linear scaling Each Custom Curve can contain up to 128 pairs X Y where X is the input and Y the output Custom Curves cannot be entered using the HART Communicator they must be entered via the FDT DTM However once a custom curve has been saved in the unit it can be assigned and enabled or disabled using the HART Communicator PV Settings There are a few settings which apply specifically to the PV e PV Upper Range Value URV and Lower Range Value LRV Used to scale the PV to the Percent of Range and Loop Current values These settings are independent from any other scaling settings e PV Damping PV Damping allows you to introduce a delay into the response of your unit in order to stop short lived spikes from initiating faults and generating fault messages The damping time setting is the time PV takes to make a 63 change in response to a step change www miinet com 40 Moore Industries International Inc m T
163. ure to include the RMA number on all documentation 2 Provide us with the following documentation a A note listing the symptoms that indicate the unit needs repair b Complete shipping information for return of the equipment after repair c The name and phone number of the person to contact if questions arise at the factory 3 Use sufficient packing material and carefully pack the equipment in a sturdy shipping container 4 Ship the equipment to the Moore Industries location nearest you The returned equipment will be inspected and tested at the factory A Moore Industries representative will contact the person designated on your documentation if more information is needed The repaired equipment or its replacement will be returned to you in accordance with the shipping instructions furnished in your documentation e WORLDWIDE www miinet com United States info miinet com Belgium info mooreind be China sales mooreind sh cn MOORE Tel 818 894 7111 FAX 818 891 2816 Tel 03 448 10 18 FAX 03 440 17 97 Tel 86 21 62491499 FAX 86 21 62490635 IND USTRI ES Australia sales mooreind com au The Netherlands sales mooreind nl United Kingdom sales 9 mooreind com Tel 02 8536 7200 FAX 02 9525 7296 Tel 0 344 617971 FAX 0 344 615920 Tel 01293 514488 FAX 01293 536852 2015 Moore Industries International Inc Specifications and Information subject to change without notice
164. use Protected USB Communications Cable Part No 804 030 26A as described on Control Drawings 100 100 80 TDZ or 100 100 81 THZ The Cable cannot be used in Hazardous Areas or in ambient temperatures in excess of 75 C Q Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it shall not be changed Type n Applications Zone 2 Il 3 G Ex nA IIC When installed as Category 3 equipment the THZ and TDZ shall be mounted within a tool secured enclosure which meets the requirements of EN 60079 0 and EN 60079 15 and is capable of accepting the applicable wiring methods specified in EN 60079 14 The enclosure shall at a minimum meet the requirements of IP54 On installation the THZ and TDZ shall be provided with supply transient protection external to the apparatus such that the voltage at the supply terminals of the THZ and TDZ does not exceed 119V peak or 119Vdc The COM port shall not be used in Hazardous areas Note Using the box provided on nameplate the User shall permanently mark type of protection chosen for the specific installation Once the type of protection has been marked it shall not be changed www miinet com 36 Moore Industries International Inc m THZ TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter IECEx Installations Intrinsically S
165. ustries International Inc 95 www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 AO Loop Current Test Trim A loop test may be performed in order to check output performance and accuracy and to trim other instruments in the loop Your output will be a current value in mA equal to the value you input You can check the other current devices on the loop and calibrate them to this signal In this menu you will see a read only Loop Current Reading and Status this is the present output current of device The Output Test allows you to Set the Analog Output to a value between 3 6 23 6mA In the Output Trim section you can trim the Analog Output Use the Trim Mode to set to either Disabled One Point or Two Point click apply to set Once set store configuration to device There is the Lower Output Range and Upper Output Range buttons use these to set your Trim value in mA using your voltmeter to measure the voltage drop across the 2500 resistor A 4mA output will read as 1V across the resistor Use the Trim button after entering value in the Measured Output Current Field You also have the option to reset trim to Factory default Once all trim In the Clear Output Test section use the Clear button to return the Analog Output to its actual value The use the following steps to configure a One Point or Two Point Trim Refer to Figure 5 34 One Point 1 Navigate to the AO Lo
166. ustries International Inc ds www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Table of Contents THZ3 TDZ3 Quick Start Guide L 1 1 5 Section 1 Introduction 6 e Jal BRRERRRRRRRRRRRRRRRRRRRRRRRRRREREEEEEEEEERNNMNNMNMMMMMMNMWMWMWMWMWMWgy vgJqJi 6 Model Numbers and Options 1 leere lecneeuie rennen nena n nhanh nna 7 Measurement Modes and Device Variables eee eere nnn nnn nnne 9 Sensor DIAQNOSUGS ERE T 11 Section 2 Calibration and Bench Check 14 Bench Check ccccccccsccccncnscncncncscenscnsnencccenencenensacsanncansnecesannenseneceucsaensecenenesannenssnansaens 26 Section 3 Installation and Wiring 28 Ihre 28 DIMENSIONS e 29 Installation in Hazardous Locations e eere eren nennen nen nnn nnn nn 34 Special Conditions of Use 1 1 cce leeieeleeieeulece eene enne nhanh nhan anna naa 35 Section 4 Configuration 38 Programming Device Description Menu eee ee eee eee 45 DD Device Setup Reference Guide 1 cere eee eere nenne nnne 47 Section 5 Configuration using FDT DTM Software 70 THZ3 TDZ DTM Parameter in Basic Setup Configuration 86 THZ3 TD
167. ut Simulation RA1 Unlatch RA RA2 RA 3 RA4 Moore Industries International Inc 259 x www miinet com THZ 3 TDZ mnm 238 741 00B Programmable Smart HART Temperature Transmitter April 2015 Section 5 Configuration using FDT DTM Software Before reading this section on the FDT DTM configuration please read the Configuration Overview at the beginning of Section 4 for general information on configuring the TDZ THZ This section provides information on configuring the TDZ THZ using a PC with PACTware an FDT frame application For users who already have an FDT Frame Application all the following information is still relevant except for the PAC Tware installation For more information on FDT DTM please refer to www fdtgroup org FDT Frame Application Moore Industries has always provided manufacturer specific programs to operate our field instruments to the full extent TDZ THZ will require the use of an FDT frame application which allows configuration and adjustment of any and all field instruments which have a DTM For users who do not already have an FDT frame application Moore Industries provides PACTware An FDT frame application such as PACTware is a PC program which interfaces with individual software modules for instrument operation This interface is regarded as the FDT the individual software modules for instrument adjustment are called DTMs Device Type Manager This configuration makes user fr
168. ute Differential Low Select High Select Scaling Enabled DVx EGU DVx Input Min DVx Input Max DVx Scale Min DVx Scale Max DVx reading DVx EGU Scaling Custom Curve DVx CC En DVx CC EGU AO Zero DVx CCID AO Full AO URV AO ORV Fail Mode Fail AO Dual Input Analog Output Poll Addr Num req preams Num resp preams Tag Long Tag Descriptor Message Date Mode Cmd Update Per Max Update Per Trig Mode Trig Units Trig Level Model PV is SV is TV is QV is Burst Message 0 Burst Message 1 Burst Message 2 HART i i ER Fire gsm Ky pum PCT jiu me PV Source DEV LSL Devid AO PV Source DEV USL Hardware rev PV SEN2 PV Source DEV Min Span Burst Configuration sV TE REE Backup 1 2 PV LRV r alican be Backup 2 1 PV URV Dyn Var Display Flags selected to display Average PV Source DEV EGU Decimal Places OV inscolling Differential 1 2 Sensor 1 EGU Sensor 2 EGU Backup 1 2 EGU Backup 2 1 EGU Average EGU Differential 1 2 EGU Differential 2 1 EGU Absolute Differential EGU Low Select EGU High Select EGU Sensor 1 Input Type Sensor 1 s n Sensor 2 Input Type Sensor 2 s n Filter PV Damping SEN1 Broken Wire Detection SEN1 BW Threshold SEN1 BW Holdoff time SEN1 Running Average SEN2 Broken Wire Detection SEN2 BW Threshold SEN2 BW Holdoff time SEN2 Running Average AO Zero AO Full AO URV AO ORV Fail Mode AO Fail To Value RA1 Enabled Disabled RA2 Enabled Disabled RA3
169. ws you to select and reset an actively latched range alarm 1 4 provided that the input has returned to a non alarm level Note The Unlatch RA menus are only visible if Advance Settings is Enabled Q Note After making all desired changes enter SEND to update the unit www miinet com 68 Moore Industries International Inc m THZ 3 TDZ 238 741 00B April 2015 Programmable Smart HART Temperature Transmitter Figure 4 15 TDZ 3 or THZ Input PV Variable Trim AO Trim AO Trim Reset and Loop Test within the Custom Calibration Menu Status pe Sensor1 Sensor2 Device Variable Trim Sensor1 Device Variable Trim Reset Sensor2 Display Device Variable Trim Custom Input PV Capture Calibration Sensor1 Sensor2 Variable Trim Trim Zero AO Trim Trim Zero AO Trim Reset a See Figure 4 16 Figure 4 16 TDZ 3 or THZ Input Simulation S1 Corrosion Detection S2 Corrosion Detection and Unlatch Range Alarms within the Custom Calibration Menu RJC Temp Sensor 1 Custom Sensor 2 Calibration Backup 1 2 Backup 2 1 Average Differential 1 2 Differential 2 1 Absolute Differential S1 Corr Detection Low Select S1 Corr Res Current Value High Select Current Value S1 Corrosion Det S1 Corr Warn Level Enter Value S1 Corr Error Level Enter Value Sx Corr Detection S1 Corr Base Res Captured Value S2 Corrosion Det Enable P Capture Base Value YES NO Disable Enable Inp
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