Programmab le PR OFIB U S Temperature Transmitter
Contents
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3. appropriate part of the TPZ s configuration See corresponding sections of this manual for additional information regarding these tabs Configuration Screens Note Unless otherwise noted ensure that the PC Configuration Program is idle before making any selections or configuration changes to the program Also when attempting to download or upload monitoring must be stopped To do this click Stop in the Monitoring dropdown menu or click the Stop Monitoring icon on the Tool Bar Input Figure 12 Input Tab Input Sealing Trimming Display Alarms Simulation Custom Curve r Sensor Range Sengor Limits to 4095 Ohms r Input Type Resistance 2 Wire Minimum Span 10 Ohms 4000 Ohms Le L F lo Capture Weeer Filter s ds Captue e Beg 5 Hz Denk E e ied B0 Hz Upper Range DO Capture t DegR T Line Compensation EGLI Bhms alue z tl Ohms n Broken Wire Detection L ka cE Q OUT False iv Enabled i iip Tipe wrong Value OUT Eriginieenng Unita r Running Average Filter Settings VW Enabled 4 D I u p SE EE 25 r Sensor Limit Iridicatar 2 iri Dhms Enabled D s D I EH r P Bigg Maximum a Ohm Bias Ohms 1 Input Type Select your input type
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6. Accuracy The overall accuracy of the unit is the input accuracy It includes the combined effects of linearity hyster esis repeatability and adjustment resolution It does not include ambient Performance Power Supply Effect Continued 0 002 of span per 1V change Load Effect N A T C Input Impedance 40Mohms nominal Excitation Current RTD and Ohms 250 microamps 10 RTD Lead Wire TPZ Programmable PROFIBUS Temperature Transmitter Display Continued Format Two rows of five alphanumeric characters Decimal Points Auto matically adjusted decimal point with a user selectable maximum up to four places Range 99999 to 99999 Minimum Display Span 1 00 temperature effect For T C Resistance Maximum Ambient Operating and Storage input add the RJC error RTD resistance 2X lead Temperature Range 40 C to 85 C Reference Junction wire resistance 40 F to 185 F Compensation 0 45 C lt 4000 ohms Recom Relative Humidity 0 81 F mended lead wire 0 95 non condensing Stability Refer to Table 1 resistance for three wire Ambient Temperature Isolation 500Vrms connections lt 35 ohms Effect Refer to Table 2 between input output and wire 10 ohm copper Effect on Reference case continuous and will sensor lt 5 ohms Junction Compensa withstand a 500Vrms Sensor Lead Resis tion 0 005 C of input dielectric strength test for tance Effect 1 0 ohm in span C change of ambient one minute with no
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8. PROFIBUS Temperature Transmitter 5 After all of your data has been entered you may use the Custom Curve dropdown menu in the Menu Bar to save your newly created custom table Save Custom Curve and to download it to your TPZ Download Custom Curve or simply click the up and down arrows found in the upper right section of the Custom Curve screen Note Once you have configured all parameters download to the unit by selecting Download in the Transfer dropdown menu located in the Menu Bar Or click the amp button in the Tool Bar Cyclic Data The cyclic data telegram adheres to the structure shown in Table 6 The status byte is implemented according to the PROFIBUS PA profile for process control devices Table 6 Cyclic Data 0 4 Al function block 1 Measured value temperature 32 bit floating decimal point IEEE 754 index O Quality byte index 4 24 The Interface Solution Experts TPZ Programmable PROFIBUS Temperature Transmitter Table 7 TPZ Quality Bytes Quality Binary Le Meaning of Quality Good non cascade OK Good nc maintenance required Good nc update event Good nc active advisory alarm Good nc active critical alarm Good nc unacknowledge update event nc unacknowledge advisory event Good nc unacknowledge critical event No error Status ok Does not apply to TPZ Does not apply to TPZ ndicates high low warning limit exceeded ndicates high low alarm limit exce
9. Status Windows View Dropdown Menu The Viewdropdown menu offers several specialized screens to accompany TPZ operation Opening the menu displays the following Display Comprised of two tabs Output and Mea sured Value these windows allow you to view the as sociated values and ranges These windows also display several messages regarding the operations of the device Yt diagram This graph allows you to monitor your variables in a temperature vs time depiction You may adjust the time and temperature ranges within the view by double clicking anywhere within the graph view Characterization This graph allows you to view trending of Custom Curve variables By double click ing anywhere within the graph you are able to adjust the X and Y points and ranges as well as modifying trending views 16 The Interface Solution Experts Alarm States Utilizing this feature allows access to several alarm parameters Based on settings made in the Output Limits section of the Output configuration screen you are able to view messages and status re garding Upper Limit Warning Lower Limit Warning Up per Limit Alarm and Lower Limit Alarm There is also an Alarm Summary window which displays messages regarding all alarm parameters Use the Messages button for detailed Alarm status Device Status The General tab displays information as configured and shown in the dentification configura tion screen The Physical Block Transducer Bloc
10. T C mV 0 008 0 014 0 019 RTD Ohm Potentiometer 0 047 0 081 0 104 Table 2 Ambient Temperature Effects Table Sensor Digital Accuracy per 1 C 1 8 F Type change in Ambient 0 003 C Ni 120 ohms 500mV Cu 9 03 ohms 100mV Resistance mm Pool 250 1000 0 25 1kohms 62 5 250 250mV 0 125 0 25kohms 31 25 62 5 100mV 1 4kohms 0 003 C 0 005 of reading 0 005mV 0 005 of reading Millivolt D 0 002 ohms 0 005 of reading The Interface Solution Experts 5 TPZ Programmable PROFIBUS Temperature Transmitter Table 4 Input and Accuracy Table lt kel D Conformance Input Maximum Range Accuracy Range 20 eege 300 200 to 850 C 240 to 960 C 328 to 1562 F 400 to 1760 F 400 500 1000 10 C 18 F RTD 150 to 720 C 238 to 1328 F 100 to 650 C 148 to 1202 F 1000 0 003902 0 003916 200 to 510 C 328 to 950 240 to 580 C 400 to 1076 F 80 to 320 C 100 to 360 C 50 to 250 C 0 85 C 65 to 280 C Copper 03 ii Lind 58 to 482 F 1 53 F 85 to 536 F Direct Resistance 0 4000 ohms 0 4000 ohms 0 4000 ohms 180 to 760 C 35 C 0 25 C 210 to 770 C 292 to 1400F 63 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 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 0 36 F 454 to 1855 4 F 170 to 400 C 35 C 0 25 C 2
11. all parameters download to the unit by selecting Download in the Transfer dropdown menu located in the Menu Bar Or click the amp button in the Tool Bar The Interface Solution Experts 21 TPZ Programmable PROFIBUS Temperature Transmitter Alarms Figure 16 Alarms Tab Input Scaling Trimming Display Alarms Simulation Custom Curve r Critical Lower Limit Alarm Ohma Upper Limit Alarm 4085 Ohms Advan ass Lower Limit warming I F D Ohm Upper Limit warning 4045 Ohms Hysteresis Value Se Ohm Iq EE Lower nt Alarm jw Ohne LC Lower Limit warming ga 3708 Ohms a Upper Lint wWammg 1 H Ohms C Upper Limit Alarm T Ohms 1 Critical Allows you to set the values which will cause your transmitter to go into an alarm state Use this parameter to set your lower and upper alarm values In the Lower Limit Alarm and Upper Limit Alarm boxes enter the desired values you wish to use as your alarm values Advisory This section allows you to set warning alarm values These values will notify you that your process is approaching an alarm state In the Lower Limit Warning and Upper Limit Warning boxes enter the desired values you wish to use as warning values Hysteresis This is the range in which an relay re mains in an alarm condition even after the monitored process variable input has returned to a safe level at or below above the trip point setting Alarm
12. and the respective range of your input Temperature Use this section to select the tempera ture unit you wish to view If mV Resistance or Potentiometer are the selected Input Typethen Temperature selection is disabled 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 OUT Engineering Units This setting allows you to select how the output is displayed TPZ Programmable PROFIBUS Temperature Transmitter Broken Wire Detection During operation the TPZ sends random microamp pulses through input wiring to check for broken wiring or a burned out sensor To utilize Broken Wire Detection check the Enabled box If a failure is detected a message will appear in the TPZ Status box Running Average Filter Settings This function is for filtering the input signal The TPZ provides this filter with a user selected range between 1 and 16 Factory default is 4 Note A higher Running Average Filter setting provides smoother output transitions however reduces response time Conversely a lower setting provides a faster response time but may seem more unstable 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
13. configured damping period will determine the time response that the analog output will take to achieve a 6696 change in output in response to a stepped input To enable PV Damping select the Enabled button Use the arrows to select a value between 1sec and 30sec PV Bias This value is algebraically added to your PV reading before any trimming or custom curve have been performed Sensor Range Allows you to set your upper and lower range values within the range chosen in the nput Type section The desired Lower and Upper Range settings can be entered via your PC keyboard or captured To capture an input follow the steps below 1 Apply the desired Lower Range input and press the corresponding Capture button 2 Next apply the desired Upper Range input and press the corresponding Capture button Line Compensation This only applies to two wire resistance and two wire RTD measurements Enter a value to compensate for line resistance when using a two wire input This value is only displayed in ohms The Interface Solution Experts 19 TPZ Programmable PROFIBUS Temperature Transmitter OUT Fail Safe In the case of an output failure you have the ability to set a mode you choose to alert of the failure Fail Safe Value allows you to enter a preset value into the Value text box Last Value Out will display the last value present before the failure Wrong Value sends the output to an incorrect reading due to the fai
14. displayed once a failure was detected Output Limits This section allows you to set alarm parameters Lower Limit Alarm Allows you to enter the lower alarm limit Lower Limit Warning Allows you to enter the lower warning limit Upper Limit Warning Allows you to enter the upper warning limit Upper Limit Alarm Allows you to enter the upper alarm limit Limit Hysteresis Allows you to enter a dead band value to clear alarms and warnings Human Interface Figure 9 Human Interface Read Only Section Parameter ale Wait Status simulation Disabled Loaded Simulation Value 300 Loaded Quality Good N Status l Ladle Ok Loaded The Human Interface section is a read only screen that displays information regarding Simulation activity Simulation These fields display parameters set in the Simulation section The Simulation feature is accessed via the Device dropdown menu located on the upper left por tion of the configuration screens Use this feature to simulate a desired Measured Value and Output Analog Input Block value Using the Measured Value tab allows you to display a desired value on the TPZ s LCD and also select the quality of the signal being sent Measured Value Simulation Follow the steps below to utilize Measured Value Simulation 1 Select Enabled from the Simulation dropdown menu 2 Enter the desired value into the Simulation Val
15. reading ohm of lead temperature breakdown resistance for 2 wire RFI EMI Immunity Step Response Time sensors 1 0 ohm in 20V m 280 1000MHz 500msec maximum from reading ohm of lead of 1kHz AM when tested the time an input is applied unbalanced resistance according to IEC 1000 4 until the time the corre for 3 wire sensors no 3 1995 with 0 596 of span sponding floating point effect on 4 wire sensors or less processed variable is Resolution Input 20 bit Startup Time Perfor available to be read by other Supply Range 9 32V mance falls within PROFIBUS devices specification 8 seconds Over voltage Protection Display Type Top Row 10mm after power is applied Input 5Vdc peak maxi 0 4 in high black digits Noise Rejection mum on a reflective back Common mode Digital Input Filter ground Bottom Row 100dB 50 60Hz Normal 50 60 Hz user selectable 6mm 0 225 in high digits Mode Refer to Table 3 Power Supply Require on a reflective back ment 9 32Vdc 12 07mA ground Two digit Weight 235g 8 3 oz maximum under normal operation 18mA maximum under fault conditions PROFIBUS address indicator Specifications and information subject to change without notice Table 1 Long Term Stability Table Sensor Type Table 3 Normal Mode Rejection Ratio Table Stability Input to PROFIBUS of maximum span for 70dB at 50 60Hz T C J K N C E T C T R S B Pt RTD 100 200 300 ohms Pt RTD 400 500 1000 ohms V
16. selected value this will result in an underflow fault status Input Upper Range Enter the value that you want to use as the upper end of your input sensor If the PV rises above the selected value this will result in an overflow fault status Process Value Scale This section allows you to scale the Lower Value 0 and Upper Value 10096 ranges of the process value to a desired span The Interface Solution Experts 13 TPZ Programmable PROFIBUS Temperature Transmitter Output Figure 8 Output Configuration Section Parameter Vaue Uni Status lH M Ep e s a Output Scale Lower Value 240 C Loaded Upper Value 960 C Loaded Output Signal Ss Unit R Loaded Decimal Paint 3 Loaded Damping s Loaded Fail Safe Mode Last Out Value Loaded Fail Safe Default Value 0 a Loaded a Output Limits w s Lower Limit Alarm 240 Loaded Lower Limit Warning AU L Loaded Upper Limit Warning BED C Loaded Upper Limit Alarm 960 lC Loaded Limit Hysteresis 5000 j Loaded Use this section to configure your sensor s output pa rameters Output Scale Use these parameters to scale the Lower Value 0 and Upper Value 100 of the output signal range to a desired span Output Signal This section allows for configuration of the following parameters Unit Use this dropdown menu to select the Engineer ing Unit EGU in which you wish the O
17. was shipped Intrinsically Safe Applications This page contains information for the TPZ instrument when used within an intrinsically safe system The diagrams on the following page must be used for units that are to operate in areas requiring intrinsically safe instrumentation Refer to the Special Conditions outlined below before proceeding with installation Special Conditions of Use The following instructions must be adhered to when the TPZ is used in hazardous Classified locations and potentially explosive atmospheres L Intrinsically Safe Ex ia Applications Zones 0 and 1 1 The Model TPZ Temperature Transmitter shall be installed in a final enclosure rated for a minimum of IP20 2 ForZoneO installations the final enclosure shall not contain more than 10 in total of aluminum mag nesium titanium and zirconium or 7 596 in total of magnesium titanium and zirconium 3 For Zone 1 installations the final enclosure shall not contain 7 596 in total of magnesium 4 Wiring must be rated for 85 C TPZ Programmable PROFIBUS Temperature Transmitter ll Type N Ex n Applications Zone 2 1 As Category 3 equipment the Model TPZ Tem perature Transmitter shall be installed in an enclosure which maintains an ingress protection of IP54 and meets the enclosure requirements of EN60079 0 and EN60079 15 2 The Model TPZ Temperature Transmitter shall contain external transient protection to prevent the
18. 70 to 407 C 274 to 752 F 63 F 0 45 F 454 to 764 6 F 0 to 1760 C 50 C 0 55 C 50 to 1786 C Da 32 to 3200 F 90 F 0 99 F 58 to 3246 8 F 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 400 to 1820 C 75 C 0 75 C 200 to 1836 C 752 to 3308F 135 F 1 35 F 392 to 3336 8 F 130 to 1300 C 45 C 0 4 C 270 to 1316 C 202 to 2372F 81 F 0 72 F 454 to 2400 8 F 0 to 2300 C 100 C 0 8 C 0 to 2338 C 32 to 4172 F 180 F 1 44 F 32 to 4240 4 F The Interface Solution Experts Sensor to Transmitter Matching Up to 0 014 C 0 025 F system accuracy 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 TPZ Programmable PROFIBUS Temperature Transmitter Figure 1 TPZ Hockey Puck Housing HP Dimensions O um TPZ O Figure 2 BH Housing Dimensions SIDE VIEW 102mm 4 02 in 119mm 4 69 in 76mm 2 99 in pod 102mm sd 2 68 in 4 88 in mm X 3 31 in q 22 2222 1 00 in The Interface Solution Experts Z TPZ Programmable PROFIBUS Temperature Transmitter Figure 3 D Box Housing Dimensions 118mm 4 65 in A 4 41 in 2 52 in 83mm 3 27 in Table 5 Necessary Equipment Table Device Variable Input Simulator for Thermocouple RTD
19. 8 Configuration Sereensu EE 19 MOU Su y u ua a 19 Seele nus mua ee 20 TAMMING sete ET 21 Bier Me M 21 clc ET EC HT 22 visu p 22 CUSTOM GUY IE HC 23 CVC ING DAU Eo 24 latii tnt 26 VWleikiertoteb ne KEE 26 Making the Electrical alle le TEE 26 Recommended Ground Wiring Practices 26 C COo T E 26 DS lioo saat uya o a cee a ae 26 NIgIlilenal kruuuu 26 Customer SUDDOILL sic eu nea orbi cua S peus cav u uka Qua uquspa E EVE UIS 26 Intrinsically Safe Applications seus 27 TPZ Programmable PROFIBUS Temperature Transmitter Introduction This is the user s manual for Moore Industries TPZ Programmable PROFIBUS Temperature Transmitter It contains all of the information needed to configure install operate and maintain the TPZ About this Manual Pay particular attention wherever you see a Note Caution or WARNING Note Information that is helpful for a procedure con dition or operation of the unit Caution Hazardous procedure or condition that could damage or des
20. 94 7111 FAX 818 891 2816 INDUSTRIES uk erro Do ics 2 2006 Moore Industries International Inc Belgium info mooreind be Tel 03 448 10 18 FAX 03 440 17 97 The Netherlands sales mooreind nl Tel 0 344 617971 FAX 0 344 615920 Specifications and Information subject to change without notice China sales mooreind sh cn Tel 86 21 62491499 FAX 86 21 62490635 United Kingdom sales mooreind com Tel 01293 514488 FAX 01293 536852
21. Deanna Esterwold Quality Manager RETURN PROCEDURES 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 sure to include the RMA number on all documentation 2 Provide us with the following documentation a Anote 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 Shipthe 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
22. MPANY 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 DE FECT OR BREACH AND NO ACTION FOR THE BREACH OF ANY WAR RANTY 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 will at its option replace repair or refund the purchase price for any of its manu factured 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 notto 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 ne glect or improper application installation or operation THE COMPANY SHALL IN NO EVENT BE LIABLE FOR ANY INCIDENTAL OR CONSE QUENTIAL DAMAGES WORLDWIDE WWW miinet com e United States info miinet com MOORE Tel 818 8
23. Millivolt Potentiometer or Decade Resistance Box PROFIBUS Bus Power Personal Computer Siemens SIMATIC PDM If using Device Description for configuration Moore Industries PC Configuration Software If using Moore Industries software for configuration Communication Cable 8 The Interface Solution Experts Conduit Fitting Interior Diameter 81mm 3 2 in Specifications Variable Accurate to 0 05 of unit span 9 32Vdc Pentium based PC or equivalent with CD Drive 4Mb free RAM 8Mb recommended 20Mb free disk space on hard drive More RAM amp hard disk space is required for Windows 98 NT 2000 XP or Vista Operating System Microsoft Windows 98 NT 2000 XP or Vista 1 one serial port Version 5 1 or higher may be purchased from Siemens com or your local Siemens representative Version 1 0 or higher successfully installed onto the hard drive Part Number 803 040 26 TPZ Programmable PROFIBUS Temperature Transmitter Figure 4 Incorporating the TPZ Into Your PROFIBUS System DP to PA Coupler Note When connecting your RTD to the TPZ ensure that you are placing the same color wires at terminals 1 and 2 either red or white If configuring the TPZ for 3 or 4 Wire RTD connect the other pair of wires to terminals 3 and 4 Input Hook Up Connections Thermocouple 2 Wire RTD 3 Wire RTD 4 Wire RTD Potentiometer and Millivolt Input or Decade or Decade or Decad
24. OLLVINHOJNI AHV L3lHdOHd 34 SOILON 9PAOE 6 ejes lle91surnul opAvz e o3S14 20 20 l3 H O Nona an 03 Tem 1 ll tu X Ouest vd snqyoud boid OSd Zd L FT vs VF LJ p dsvaaH TVILINI acres ass 20D MS S a su TVAOHddV AS aiva A8 d3siA3H quu Z0 Z0 Sel H sng d3 LON SS31NN KA SJALSNANI JdDDIN ITT nmvua SHONVH3TIOL LGCC LGc 00C 38v 1 aazidalfidiWNOO YSgEINNN 9NIMVHG AYODALVO SNIMVEd 31VOS LON OG NOISIA3H LL moore EC Declaration of Conformity WORLDWIDE Moore Industries International Inc Date Issued 21 Oct 2013 16650 Schoenborn Street No 100 100 242 Rev A North Hills CA 91343 6196 U S A Page 1 of 2 Equipment Description Programmable PROFIBUS PA Temperature Transmitter Model TPZ 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 PROFIBUS PA Temperature Transmitter Model TPZ PA 9 30DC HP Indicates any input and options as stated in the product data sheet 9 24DC for FISCO Applications Directive 94 9 EC ATEX Equipment and protective systems for potentially explosive atmospheres Provisions of the Directive Fulfilled by the Equipment Group II Category 1G Ex ia IIC TA Notifie
25. PROFIBUS Temperature Transmitter Custom Curve Note The Custom Curve tab appears if the Input Type is configured for mV Resistance or Potentiometer Figure 18 Custom Curve Tab Input Scaling Trimming Display Alarms Simulation Custom Curve Custom Curve File Name n t g e 009 mo o s o o B uoo aoo 2 iso o Iv Enabled No Of Points 7 Custom Curve Y Range Lower Range fo Upper Range 4000 Custom Curve The Custom Curve feature allows you to set up your own custom curve table This allows you to tell the transmitter what it should output when it receives a certain input This feature 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 To create a custom curve Click the Enabled box 2 Select the number of points for your curve 128 points maximum and enter it into the No Of Points text box 3 Inthe Custom Curve Y Range text boxes enter the values you wish displayed when your input is at its lower and upper ranges 4 Type your individual values in the X and Y columns Source variables are inserted into the X Column while the corresponding data is inserted into the Y Column The Interface Solution Experts 23 TPZ Programmable
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27. Summary Displays alarm levels for the four alarm parameters previously configured Note Once you have configured all parameters download to the unit by selecting Download in the Transfer dropdown menu located in the Menu Bar Or click the amp button in the Tool Bar 22 The Interface Solution Experts Simulation Figure 17 Simulation Tab Input Scaling Trimming Display Alarms Simulation Custom Curve r PY Simulation Mode Disabled Value S00 Ohms Enabled gt Llualilu Status DK OUT Simulation ril ai d Value i 3 Lem f Aula i Mandal Quality ETAT I 5 IA hus d dur T Ye EF E Status Transfer Simulation allows the transducer block input PV to be disconnected so that you may set the input value and status for test purposes You can only simulate one output at a time either PV Simulation or OUT Simulation PV Simulation Allows you to simulate Transducer Block output 1 Select Enabled selecting Disabled allows you to enable OUT Simulation 2 Enter the desired test signal into the Value text box 3 Next choose both the desired Quality and Status of the signal sent by selecting from the associated dropdown menus 4 Clickthe Transfer button at the bottom of the screen The output value and quality will be calculated based on the simulated value an
28. The repaired equipment or its replacement will be returned to you in accordance with the shipping instructions furnished in your documentation WARRANTY DISCLAIMER THE COMPANY MAKES NO EXPRESS IMPLIED OR STATUTORY WARRAN TIES INCLUDING ANY WARRANTY OF MERCHANTABILITY OR OF FITNESS FOR A PARTICULAR PURPOSE WITH RESPECT TO ANY GOODS OR SER VICES SOLD BY THE COMPANY THE COMPANY DISCLAIMS ALL WARRAN TIES ARISING FROM ANY COURSE OF DEALING OR TRADE USAGE AND ANY BUYER OF GOODS OR SERVICES FROM THE COMPANY ACKNOWL EDGES THAT THERE ARE NO WARRANTIES IMPLIED 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 IM PLY 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 CO
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30. ation Program is installed onto your PC the TPZ can be connected to equipment to simulate input and monitor processes You can then change the operating parameters of the transmitter TPZ Programmable PROFIBUS Temperature Transmitter No Transmitter Needed It is not necessary to connect the TPZ to a PC to create configuration files using the software The Configuration Program can be run without connecting a transmitter and most parameters can be set without benefit of input from a sensor or TPZ This makes it easy to create a set of operating param eters save and download them to one or more instru ments at a later time Connecting the TPZ to the PC Connect the RS 232 end of the cable to the PC s COM port See Table 3 for information on the necessary equip ment The TPZ must be connected to the PC in order to trim input assign a tag set write locking perform Simula tion receive via download a configuration file and save the configuration file via upload from the TPZ s memory The Interface Solution Experts 17 TPZ Programmable PROFIBUS Temperature Transmitter PC Configuration Software Summary Figure 11 TPZ PC Configuration Software Main Screen Tij Untitled TPZ Configuration File View Transfer Communications Monitoring Custom Curve Help inl Dle 44 gt ml 1 Program Status 2 Monitoring m Input Scali
31. d will be displayed on the TPZ and in the PV box of the Process Variables section 5 To exit select the Disabled button click Transfer OUT Simulation Allows simulation of the Analog Input Block output value To use this feature follow the in structions below For ManualSimulation 1 Select Manual in the Mode section 2 Enterthe desired simulation value into the Value text box click Transfer Next choose both the desired Quality and Status of the signal sent by selecting from the associated dropdown menus The output value and quality will be sent on the bus The value will be displayed on the TPZ and in the OUT box of the Process Variables section 3 Toexit OUT simulation select Auto in the Mode box and then click Transfer For Out of Service simulation 1 Select Out of Service in the Mode section click Transfer 2 Enter a value into the Value text box to be displayed if the unit goes Out of Service OOS click Transfer The output value and quality will be sent on the bus 3 Toexit Out of Service simulation select Auto in the Mode box then click Transfer While the TPZ is in Simulation mode you can toggle and change simulation configurations The transmit ter will continue monitoring and update the unit to the changed simulation values once you click Transfer Refer to the Additional Status Information field in the View dropdown menu to view simulation details TPZ Programmable
32. d Body for EC Type Examination FM Approvals Ltd Notified Body Number 1725 1 Windsor Dials Windsor Berkshire SL41RS United Kingdom EC Type Examination Certificate FM 07ATEXO0007X Technical Standards Referenced EN 60079 0 2006 Explosive atmospheres Part 0 Equipment General requirements EN 60079 11 2007 Explosive atmospheres Part 11 Equipment protection by intrinsic safety i EN 60079 26 2004 Explosive atmospheres Part 26 Equipment with equipment protection level EPL Ga Equipment Description Programmable PROFIBUS PA Temperature Transmitter Model TPZ PA 9 32DC 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 II Category 3G Ex nA IIC T4 Technical File No TPZ TF001 Ll moore EC Declaration of Conformity WORLDWIDE Moore Industries International Inc Date Issued 21 Oct 2013 16650 Schoenborn Street No 100 100 242 Rev A North Hills CA 91343 6196 U S A Page 2 of 2 Conformity Assessment Procedure Internal Control of Production Annex VIII Module A Technical Standards Referenced EN 60079 0 2006 Explosive atmospheres Part 0 Equipment General requirements EN 60079 15 2005 Explosive atmospheres Part 15 Equipment protection by type of protection n Equipment Description Programmable PROFIBUS PA Temperature Trans
33. download to the unit by selecting Download in the Transfer dropdown menu located in the Menu Bar Or click the amp button in the Tool Bar Trimming Figure 14 Trimming Tab Input Sealing Timming Display Alarms Simulation Custom Curve Input T rimiminigg Disabled r Paint 1 Set Value 100 Input Trimming Trimming increases the measure ment accuracy of your instrument by matching 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 1 Point trimming applies an offset to the sensor reading while 2 Point trimming applies both an offset and a gain Follow the steps below in order to trim the sensor for the desired variables 1 Select either 1 Point one point trimming or 2 Points two point trimming by clicking the appropriate button Each pair consists of Set Value and Trim fields 2 Enterthe values that require trimming into the Set Value field click Set 3 Apply the targeted signal to the input wait until it settles and click Trim to capture the measured value If you chose 2 Points repeat the step above for the second point Click Disabled if not using the trimming function TPZ Programmable PROFIBUS Temperature Transmitter D
34. e Input Resistance Box Resistance Box Resistance Box The Interface Solution Experts 9 TPZ Programmable PROFIBUS Temperature Transmitter TPZ Configuration Device Description Note The following configuration and usage instructions are based on a TPZ operating in conjunction with Siemens SIMATIC PDM Once you have installed the TPZ in parallel within your PROFIBUS system and have installed the DD you are ready to configure your device All configurable pa rameters can be set using Siemens SIMATIC PDM The following section describes device installation into your system 1 To include the TPZ into an existing project skip to Step 6 2 Tocreate a new object open Simatic Manager Access the File dropdown menu and select New In the New properties box enter a name for the project to be created Select OK 3 Open the View dropdown menu and select Process Device Network View 4 Toinclude your PC into the network if it was not created automatically by the software right click on the Networks icon within the Process Device Network View page and select nsert new object then select PC 10 The Interface Solution Experts Next to include a DP interface right click on the Networks icon within the Process Device Network View page and select nsert new object then select PROFIBUS DP net You will need to insert a new PROFIBUS PA device into the PROFIBUS DP network Right click on the PROFIBUS DP net icon within
35. eed oes not apply to TPZ oes not apply to TPZ oes not apply to TPZ CH Q J O Q Q 1 Good nc initiate fail safe Does not apply to TPZ n3 Does not apply to TPZ 1 Uncertain last usable value LUV If failure occurs and Fail Saf Mode is set for Last Out Value If failure occurs and Fail Saf Mode is set for Fail Safe Value Uncertain initial value At Al initialisation C ncertain sensor conversion not accurate Input Saturation or RJC out of range when broken wire detection on Uncertain engineering unit violation PV exceeds sensor range limits Uncertain sub normal Does not apply to TPZ ES a B B m l E Uncertain configuration error EEPROM not programmable E B i E m B A l B E l Uncertain sensor calibration In calibration mode Uncertain simulated value When in simulation mode i e Al block actual mode is manual Bad non specific Custom linearization table not available Bad configuration error Transducer configuration error Bad not connected Does not apply to TPZ Bad sensor failure Broken Wire TB only RTD TC linearization error out of table range RJC broken Bad device failure Bad no communication LUV Does not apply to TPZ Does not apply to TPZ If block is in Out Of Service mode Does not apply to TPZ Bad no communication no LUV Bad out of service Good cascade OK Good c initializati
36. fety ground at the unit itself e The maximum length of unshielded input and output signal wiring should be 2 inches 26 The Interface Solution Experts CE Conformity Installation of any Moore Industries products that carry CE certification Commission Electrotechnique must adhere to the guidelines in Recommended Ground Wiring Practices in order to meet the require ments set forth in applicable EMC Electromagnetic Compatibility directives 89 336 EEC EN 61326 Con sult the factory for the most current information on products that have been CE certified Operation Once configured installed and supplied with the cor rect power the TPZ Programmable PROFIBUS Tem perature Transmitter begins to operate immediately Depending upon environmental conditions it can be expected to operate unattended for extended periods of time Maintenance Moore Industries suggests a quick check for terminal tightness and general unit condition every 6 8 months Always adhere to any site requirements for pro grammed maintenance Customer Support If service assistance is ever required for an device in your application refer to the back cover of this manual for the telephone numbers to Moore Industries cus tomer service department If possible make a note of the model number of the unit before calling For fastest assistance have the following information available serial number the job number and purchase order number under which it
37. ia a dropdown menu select a 2 3 or 4 wire connection to the sensor Line Compensation This only applies to two wire resistance and two wire RTD measurements Enter a value to compensate for line resistance when using a two wire input This value is only displayed in ohms Broken Wire Detection During operation the TPZ sends random microamp pulses through the input wir ing to check for broken wiring or a burned out sensor Enabling Broken Wire Detection allows for this feature Factory default for thermocouples is Disabled RTD default is Enabled 12 The Interface Solution Experts SENSOR TRIM MODE This feature will show the sta tus of sensor trim To perform sensor trimming follow the steps below 1 Tosettrim mode select the Device dropdown menu Sensor Trim then Select Trim Mode Choose from No action Sensor Trim disabled factory default Select 1 point Trim Method or Select 2 point Trim Method click OK 2 f 1 point or 2 point Trim Method are selected you must perform an upload to PC Program to open the new sensor trimming options 3 To enter a new trim point select Set Trim Point from the Sensor Trim submenu select Lower or Upper Trim Point then enter a new value in the nput dialog box Note Setting a new trim point will reset trimming and require all active trim points to be re applied 4 To apply a new value to a trim point select Apply new Trim Value from the Sensor Trim submenu a
38. isplay Figure 15 Display Tab Input Scalig Trimming Display lars Simulation Custom Curve gt Display Source w Transducer Block Primary Variable Custom Label Use custom label Address Display Formal e Hexadecimal x Decimal Precision x Decimal Places dr L l Display Source Allows you to select which value is is displayed on the TPZ s LCD Analog Input Block Out Value By selecting this feature the OUT value as viewed in the Process Variables section of the PC Configuration program is displayed Transducer Block Primary Variable Choosing this parameter displays the PV value as viewed in the Process Variables section of the PC Configuration program Custom Label The Custom Label is used to display any label you choose to attach to your reading Clicking the Use custom label box causes the instru ment to always display the custom label as Engineer ing Units EGU 1 Check the Use custom label box 2 Enter the label you wish viewed into the text box This value is limited to five characters Address Display Format Allows you to select how your slave addresses are displayed However Deci mal may only be used for addresses 0 99 Hexadeci mal must be used for addresses 100 126 Precision Select the number of decimal places up to three shown on the TPZ s display Note Once you have configured
39. isuoo si YIYM IGA 0S2 40 SINHA 0S7 JO SS 2xX 9 ul uue 0 p ds uM enu lod jo e24nos e suonipuoo jeuuouge Jo euuou Japun UleJUOD JO Woy paljddns eq 1ou snw 1 jeu daa payidedsun si uoiuw smejeddy L I S970 A nuDn p soj eq 1snui 19402 89JnSO 2U3 3M e211199 0 68 5 quie gt 3 0t ebuey eunyejeduie Bunejedo N pojel 23 69 esf sese payeubisap dy ui aen 10J 9 qeuins pue Do SS 91 0 04061 A 88Ot 1 Sapo e1nje1eduie L P9161 OIE ey S InSOI9u9 An99101G POAC 8P091 Zd1 ON vu xa Z41 91 7u vu x3 e9 One xa xaoar EIST S891A9P Zd 1 Z4L 94 91 SL tL Zd1 ON vu xa DOE II amp l L UOISIAIG I SSE D pJEZEeH 1SnQ YUM D 9IJISSE 9S Seale 1043 Z4 L OM 7U Vu X3 OE Il amp ON e xg OL Il X31V 3 D999X3 ION q v sdnou5 Z 9 SUOISIAIG SSE Pea puno 91 S1 bL Ol x3V 0 euoz sep l Em OAIDUSOULUON X 9jes j eoisunun1u LOLOL C GH pEUE 609 008 DAN SN SEeoJVy SUOIn0207 poljissejy SnopiezeH o c 1 1JO2S 10 xeu VII d 45 Huu 002 1 1 snjeJeddy snjejeddy EE E To eli all Q 9 45 HW 001 1 1 ha d Sech n OU g V 49 Hui SZ 0727 ouod VII a 45 Ari amp 966 09 289 3 dge2 7 4 17 07 JO e P m E pep SE9JE SnOpiezey gil q 2 45 4N es 86r AECH ui pesn eq 0 JON HI SL 11 Ou a v 49 rl amp 0z 99 e9 TUONE sous Pa memorem e im rem rm 9je nuuls 129104d 30 9 MW Z6 SS
40. k and Function Block tabs display information about the respective PROFIBUS specific parameters Device Dropdown Menu Among other features within the Device dropdown menu is an important safety capability known as Write Locking This is outlined below Write Locking Allows you to select the Write Lock between On and Off Setting Write Lock to On pre vents you from downloading any information to the TPZ You may only monitor the present activity and configuration TPZConfiguration PC Configuration Software One of the benefits of theTPZ is that there are no internal or external controls to adjust or settings to change All configurable parameters can be set using a PC and Moore Industries Intelligent PC Configura tion software In using the software program settings are down loaded to the instrument in the form of a Configuration File and stored in the instrument s memory You can save a backup copy of the file on your PC hard drive or external media The TPZ communicates with the PC through an RS 232 connection to the PC s serial port Installing the Configuration Software Refer to Table 3 for the equipment needed 1 Insert the Moore Industries Interface Solution PC Configuration Software CD into the CD drive of the PC Access the CD and open the TPZ PC Configuration Software folder 2 Double click the installation program located in the folder Follow the prompts to correctly install the program Once the Configur
41. lure Sensor Limit Indicator Displays the minimum and maximum values read by the sensor until a change in input type Note Once you have configured all parameters download to the unit by selecting Download in the Transfer dropdown menu located in the Menu Bar Or click the amp button in the Tool Bar 20 The Interface Solution Experts Scaling Figure 13 Scaling Tab Input Scaling Trimming Display Alarms Simulation Custom Curve OUT Scaling zen Full ma Ohms 5 o 3500 Dhms Sensor Hange Scaled to PY Scaling eto Full lo ap hms fo DO Ohms Sensor Range Scaled to OUT Scaling This allows you to customize the out put display of the Analog Input Block To perform OUT Scaling follow the steps below 1 The Sensor Range boxes will display the range selected in the nput Type section of the Input screen 2 Inthe Scaled to text boxes enter the values you wish displayed when your input is at its Zero and Full ranges Once downloaded your unit will display the scaled values on its LCD PV Scaling This allows you to customize the output display of the Transducer Block To perform PV Scaling follow the steps described for OUT Scaling above Note In the Display tab you can select to use a Custom Label for either the Analog Input Block Out Value OUT or Transducer Block Primary Variable PV Note Once you have configured all parameters
42. mitter in the BH or SB2 Enclosure Model TPZ BH E or SB2 E Indicates any input output power and options as stated in the product 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 II Category 2G Ex d IIC T6 Group II Category 2D Ex tD A21 IP66 T85 C Notified Body for EC Type Examination ISSeP Notified Body Number 0492 Zoning A Schweitzer 7340 Colfontaine Belguim EC Type Examination Certificate ISSePO8ATEX033X Technical Standards Referenced EN 60079 0 2006 Explosive atmospheres Part 0 Equipment General requirements EN 60079 1 2007 Explosive atmospheres Part 1 Equipment protection by flameproof enclosures d EN 61241 0 2006 Electrical apparatus for use in the presence of combustible dust Part 0 General requirements EN 61241 1 2004 Electrical apparatus for use in the presence of combustible dust Part 1 Protection by enclosures tD 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 Ce
43. nd select Lower or Upper Trim Point When prompted ensure that the sensor trimming input is set to the lower or upper trim point Click OK in order to apply trim values Sensor trim is reset whenever the trim mode or a trim point are changed After any change that leaves trimming enabled new trim values will have to be applied to all active trim points in order for trimming to occur Figure 7 Custom Curve Configuration Section n Input Input Sensor Type Custom Table mv Ohm Changed Writ Ohm Input Range and Mode 4000 Ohm Bias of channel 1 0 000 Ohm Connection Type 2 wifes Changed Line Compensation 1 0 000 ahm Broken Vire Detection Enabled Sensor Trim Sensor Trim Mode Sensor Trim disabled factary default Characterization Mlin Number of Coordinat 2 Max Number of Coordinat 128 Number of Coordinates 2 vw Custom Curve H set Number of Coordinate 10 Changed x D Ohm yIU 5 x 1 10 Ohm 1 15 GEI 20 Ohm v 2 25 x 3 a Ohm w 3 35 x 4 40 Ohm y 4 45 x 5 50 Ohm v 5 gn x R Bn Ohm y B Bs x 7 r Ohm yiz r5 GI DU Ohm vii os ll an Ohm v g a5 Characterization If Custom Curve is enabled Char acterization becomes available Here you may set X and Y parameters which can also be viewed in graph format when Characterization is accessed from the View dropdown menu Custom Curve This section will allow you to enter the X Y coordinates of the custom table to be
44. ng Trimming Display Alarms Simulation Custom Curve M TPE Status 3 Input Type r Sensor Range Resistance 4 Wire Sensor Limits 0 te 4095 Ohms Minimum Span 10 Ohms 4000 Ohms i n Capt Process Variables 4 IET Filter Lower Range apture DUT 110 105 Ohms c siu RIC 26 159 Deg C r I 60Hz 4000 Capture Pv 110 100 Ohms C Helv Ken Des L 2 Se E 4 Wed Programmed Date write Lock Address Di b 1 E mg BW 30 fug 2006 Mo v f2 E ES ocn zm Tag EGU Ohms i T TPz1 gtt A Descriptor Broken Wire Detection T TU CONTROL ROOM 1 Z Enabled E Message Type Last OUT Value i RACK G i Running Average Filter Settings n 1 we TPZ Device Into f v Enabled E D Device ID e Hw Rev 12 PV Damping S Sensor Limit Indicator FW Rev 1 0216 Minimum Ohms Enabled fo Progress 5 E PV Bi EHHHBHEHHHBHEHSHEHNHHHI Wi Communications 8 Bias O Ohms Maximum Ohms Communication OK e B Program must be idle to exit Once the default configuration has been saved to your PC or external media it is safe to program other parameters The PC Software is made up of these sections 1 Menu Bar Tool Bar Dropdown menus and corresponding icons allow you to perform various functions throughout the PC Configuration Program 2 Program Status This p
45. on acknowledged Good c initialization request Good c not invited Good c do not select Good c local override Polo 600d n initiate fail safe C Table 8 Description of TPZ Limit Bits Notes Q represents Quality QS represents Quality Substatus L represents Limits The Interface Solution Experts 25 TPZ Programmable PROFIBUS Temperature Transmitter Installation Installation consists of physically mounting the device in parallel within your existing PROFIBUS system and completing the electrical connections Mounting the TPZ The TPZ HP hockey puck housing can be mounted with rails flanges or in one of our larger housings such as a D BOX or BH Making the Electrical Connections In PROFIBUS systems the PROFIBUS Master pro vides power to the connected devices Refer to Figure 4 for a connection diagram of the TPZ into your system Recommended Ground Wiring Practices Moore Industries recommends the following ground wiring practices e Any Moore Industries product in a metal case or housing should be grounded The protective earth conductor must be connected to a system safety earth ground before making any other connections All input signals to and output signals from Moore Industries products should be wired using a shielded twisted pair technique Shields are to be connected to an earth or sa
46. ortion of the program displays the activity of the software It will display such messages as ldle Monitoring Uploading and Downloading 3 TPZ Status Indicates if there are problems or faults with the instrument 4 Process Variable OUT RJC PV Displays the present Process Variable readings The OUT box displays the output from the Analog Input Block The RJC section displays the ambient temperature The value read in the PV box represents the Trans ducer block output 18 The Interface Solution Experts 5 Write Lock Address Allows you to toggle the Write Lock between Yes and No Setting Write Lock to Yes prevents you from downloading any information to the TPZ You may only monitor the present activity and configuration Use the Address box to enter the unit s address valid addresses range from 0 125 Moore Industries default address is 126 6 Identification Parameters Use this parameter to place an identifying Tag 32 alohanumeric characters maximum Descriptor 32 alohanumeric characters maximum or Message 32 alphanumeric characters maximum to the Physical Block 7 TPZ Device Info This read only display indicates instrument configuration and device identification 8 Communications Notifies user of current PC connection communications status 9 Input Scaling Trimming Display Alarms Simula tion Custom Curve Tabs These tabs change the right side of the screen and allow you to set the
47. sical Block 5 Loaded Transducer Black 5 Loaded Function Black 10 Loaded Manufacturer Specific Parameter Input Filter BO Hz Loaded Filter Size B Loaded LCD Address hexadecimal Loaded LC Display Selector OUT Loaded CUSTOM EGU DV Precision 3 digits Loaded Total hours calibration O h Loaded Operation Unit This section allows for identifying descriptors that you may assign to your device These include a TAG De scriptor and Message Device The Device portion of the screen is primarily a read only display of the following parameters Manufacturer Product designation Serial Number Software Revi sion Hardware Revision and Profile Revision Thefollowing parameters are user configurable Installation Date The date on which the specific de vice was installed PROFIBUS Ident Number Per EN50170 each PROFIBUS DP device must have an indentifying num ber provided by the PROFIBUS User Orgnaization PNO Using the dropdown menu you may select which version of this identification number Profile Spe TPZ Programmable PROFIBUS Temperature Transmitter cific use standard GSD file PA139700 GSD or Manu facturer Specific use Moore Industries GSD file MTP2069B GSD that you choose to use Static Revision No Relating to the PROFIBUS specific Physical Trans ducer and Function Blocks these values indicate the revision level of the static data associated with the block The Static Revision No is changed b
48. splay Allowed values are 0 1 2 3 digits or Auto Total hours calibration Allows you to review the number of hours that have passed since the device was last calibrated The Interface Solution Experts 11 TPZ Programmable PROFIBUS Temperature Transmitter Input Figure 6 Input Configuration Section Parameter Malte Unit Status Input Input Sensor Type Pt3850 100 Ohm Loaded Unit Se I Loaded Bias of channel 1 0 000 zc Loaded Connection Type 2 wires Fa Loaded Line Compensation 1 0 000 ohm Loaded Disabled Sensor Trim disabled factory default Broken Wire Detection SENSOR TRIM MODE Characterization Output Limit Indicator Bariearvalue mg Loaded Loaded sensor value max 1 0 Loaded Measuring Limits Lower Value Min 240 Ko Loaded Upper Value Max Es C Loaded Input Lower Range 240 C Loaded Input Upper Range 980 C Loaded Process Value Scale Lower Value 240 s Loaded Upper Value 960 C Loaded The following section describes configuration of the TPZ sinput parameters Input Sensor Type Select your input sensor type and wiring connections from the assosciated dropdown menu Unit Choose the temperature unit to be displayed K C F or OR Bias of channel This value is algebraically added to your PV reading before any trimming or custom curve functions have been performed Connection Type V
49. supply voltage from exceeding 46 2V including toler ance 3 Wiring must be rated for 85 C Safety Concerns For your safety read the following information care fully before proceeding with installation WARNING EXPLOSION HAZARD FOR DIVISION 2 HAZARDOUS LOCATIONS DO NOT DISCONNECT EQUIPMENT WHEN A FLAMMABLE ATMOSPHERE IS PRESENT WARNING SUBSTITUTION OF COMPONENTS IS NOT ALLOWED AS IT MAY IMPAIR THE INTRINSIC SAFETY ZONES 0 amp 1 DIVISION 1 OF THE UNIT AND OR THE NON INCENDIVE TYPE N DIVISION 2 ZONE 2 CIRCUIT DO NOT OPEN THE UNIT WHEN EITHER ENERGIZED OR WHEN AN EXPLOSIVE GAS DUST ATMOSPHERE IS PRESENT DISCONNECT POWER BEFORE SERVICING READ AND UNDERSTAND THE MANUFACTURER S INSTALLATION AND OPERATING PROCEDURES AND ADHERE TO ALL APPLICABLE ELECTRICAL CODES SAFETY INSTRUCTIONS AND REGULATIONS AVERTISSEMENT RISQUE D EXPLOSION NE PAS DEBRANCHER TANT QUE LE CIRCUIT EST SOUS TENSION A MOINS QU IL NE S AGISSE D UN EMPLACEMENT NON DANGEREUX WARNING END USER MUST MARK EITHER CHECKER BOX ON THE INSTRUMENT ID LABEL WITH THE INTENDED APPLICATION INTRINSICALLY SAFE OR TYPEN NON INCENDIVE The Interface Solution Experts 27 MY OpZ xeug yri oog xeu IGA O E XeuA iae seo1e snopiezeu uou agjes ui A uo pesn eq 01 yod WO 9u1 Jo sawed 18Mod wnwxew u l SaoJnpa2oJd 6bunejedo pue uonej eysul sJeJnj2ejnueul y 0 eueupe pue puejsiepun pea os v HUIDIAJAS jJoJ q JeMod P uuoss q
50. the Process Device Network View page and select Insert new object select PROFIBUS PA device You will need to enter a device name device address valid addresses range from 0 125 Moore Industries default address is 126 and select the number of like devices that should be created Right click the PROFIBUS PA device icon in the right hand pane of your view then select Properties On the device tab click New Selection Scroll down the list to Sensors and expand the list Scroll down to Temperature and expand the associated list Select Moore Industries then TPZ Double click the PROFIBUS PA device icon and choose whether to sign in as a Maintenance engineer or Specialist You are now ready to configure the TPZ Configuration Sections The following sections describe the configuration pa rameters of your TPZ They are broken down into sub sections as viewed on the associated configuration sections Identification Figure 5 Identification Configuration Section Parameter Value Unit Status Moore TPZ Temperature Meter Identification Operation Unit TAG TPZ Loaded Descriptor Loaded Message Loaded Device Manufacturer Moore Industries Loaded Product designation TPZTPRGO a0 Loaded Serial Number Loaded Software Revision 1 02 05 Loaded Hardware Revision Loaded Installation Date Loaded Profile Revision Ox301 Loaded PROFIBUS Ident Number Profile specific Loaded n Static Revision No Phy
51. troy the unit WARNING Hazardous procedure or condition that could injure the operator 4 The Interface Solution Experts The TPZ The TPZis a2 wire loop powered user configurable PROFIBUS based temperature transmitter It allows you to network multiple transmitters on one link that utilitzes the PROFIBUS protocol The TPZ configures to accept a direct input from sensors and a wide array of transmitters and instruments It then converts the input to a two way all digital communication protocol that is ready for direct interface with an AMS DCS and other computer based SCADA systems The TPZ s size accuracy and compatibility make it the ideal solution when measurements must be made in remote or otherwise difficult to access locations Note This document describes configuration of the TPZ using both a Device Description and Moore Industries Intelligent PC Configuration Software All configurable parameters may be set using either method Please refer to the appropriate section for your configuration method Model and Serial Numbers Moore Industries uses the model and serial numbers of our instruments to track information regarding each unit that we sell and service If a problem occurs with your instrument check for a tag affixed to the unit list ing these numbers Supply the Customer Support rep resentative with this information when calling Specifications Performance Input Accuracy Refer to Table 4 Overall
52. ue text box 3 Next choose both the desired Quality and Status of the signal sent by selecting from the associated dropdown menus 4 Click Transfer The value will be displayed on the TPZ The AI block will calculate the output value and quality based on the simulated value 5 To exit select Disabled in the Simulation dropdown box and then click Transfer TPZ Programmable PROFIBUS Temperature Transmitter Al Output Simulation The Output tab allows the simulation of the Analog Input Al Block output value To use this feature follow the instructions below 1 Select Manual inthe Target Mode dropdown box click Transfer 2 Enter the desired value into the Simulation Value text box 3 Next choose both the desired Quality and Status of the signal sent by selecting from the associated dropdown menus 4 Click Transfer The value will be displayed on the TPZ The output value and quality will be sent on the bus 5 Toexit Output simulation select Auto in the Target Mode dropdown box and then click Transfer The Interface Solution Experts 15 TPZ Programmable PROFIBUS Temperature Transmitter Certificates and Approvals Figure 10 Certificates and Approvals Read Only Section Parameter Vawe Unit Status Certificates and Approvals Device Certification Loaded This section will display any certifications and or ap provals that have been issued to the device Additional
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55. used for linearization The Custom Curve feature lets you set up your own cus tom curve table This allows you to tell the transmitter what it should output when it receives a certain input Custom Curve can only be used with ohm and millivolt input types TPZ Programmable PROFIBUS Temperature Transmitter To create a custom curve 1 Select Custom Table from the Inout Sensor Type submenu found in the nput menu Next select the required nout parameters 2 Inthe Number of Coordinates box located in the Characterization section select the number of points 128 points maximum that you will use 3 Once inthe Custom Curve section type your individual values in the x data and y data rows Source variables are inserted into the x row while the corresponding data is inserted into the y row Output Limit Indicator Use this parameter to reset sensor value min and max sensor value min Saves the lowest measurement since the last configuration sensor value max Saves the highest measurement since the last configuration Measuring Limits Set values specific to your sensor s upper and lower ranges from this section of the configuration screen Lower Value Min Upper Value Max Read only fields that display the absolute minimum and maxi mum usable measurement values respectively of the sensor Input Lower Range Enter the value that you want to use as the lower end of your input sensor If the PV drops below the
56. utput Scale Output Limits and Fail Safe Value parameters dis played Decimal Point Select the desired resolution of your output display by adjusting the number of digits to the right of the decimal point Choose from 0 1 2 3 dig its and Auto Damping Output damping allows you to introduce a delay into the response time of your device in order to keep short lived spikes from appearing on the output The value entered in the Damping text box is the time constant for the rise time resulting in a value equal to 6396 of the output This rise in output results from a step change appearing on the input 14 The Interface Solution Experts Damping values are time constants thus always dis played in seconds Allowed damping values are be tween 0 and 30sec in steps of 1sec The factory default setting is zero Fail Safe Mode The setting in this section deter mines how the TPZ will react in response to a failure Settings include Fail Safe Value which is a user selected value entered in the Fail Safe Default Value field The Status dis played is Uncertain Last Out Value default setting which upon a failure will display the last valid output before the failure s oc currence The Status displayed is Uncertain Wrong Value which displays the wrong calculated value at the output and indicates Status as Bad Fail Safe Default Value Set this parameter if you have selected Fail Safe Value above This would be the value
57. y the de vice each time data is written to a static parameter i e configuration change Manufacturer Specific Parameter The Manufacturer Specific Parameter section allows you to configure the nput Filter Filter Size LCD Ad dress LC Display CUSTOM EGU and PV Precision parameters Below is a description of each parameter Input Filter This is used to configure the input filter which helps reduce mains induced noise The value selected should match the frequency of the local AC supply 50Hz or 60Hz Filter Size This function is utilized to filter the input signal The TPZ provides this filter with a user se lected range between 1 and 16 Default is 8 Note A higher filter setting provides smoother output transitions however reduces response time Conversely a lower setting provides a faster response time but may reduce noise rejection LCD Address This determines how the slave address is displayed You may select between hexadecimal and decimal In decimal you may only view ad dresses up to 99 LC Display Selector Allows you to select the numeri cal value shown on your TPZ s display Select be tween PV Process Variable OUT Output PV Custom EGU and OUT Custom EGU CUSTOM EGU Use this parameter to enter the cus tom label you wish viewed if selecting Custom EGU in the LC Display Selector section PV Precision This parameter allows you to select the precision of the value shown on the TPZ s di
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