1734-UM004 - Rockwell Automation
Contents
1. 1 Qresistor Channel 1 0 1 0 17 01 70 1 0 1 0 1 O 1 Connectto 1and3 E 2 3 2 3 2 3 2 3 2 3 2 3 2 3 4 5 4 5 4 514 5 4 5 4 5 4 5 __ osten heer pee ae jn n la sata TT E 67 6 7 6 7 6 7 6 7 6 7 6 7 E a Re bw ar aaa SENS EESTE RNC m c 45998 Decade Resistance Box 0 0596 or better 45999 1 Double click the icon to bring up the General Parameter dialog Calibrate Your Module 49 2 Click Device Parameters to view the parameters 1734 1R2 B 2pt RTD Input Be General Device Parameter 116 Belit HESS Fite Click Device Parameters to view the parameters 3 17341R2 B 2pt RTD Input Ades e a Device Identity Primary Vendo Rockwell Automation Aller Bradiey 1 Device Rockwell Automation miscelaneous 115 Product I734R2 B 2ptRTD Input Cataog 17341R278 Revision 205 gt l The EDS editor may ask you if you want to upload the configuration from the device EDS Editor Lx Do you want to upload the configuration from the device updating the software s configuration or download the software s configuration to Q the device updating the device For more information press F1 3 From the EDS editor if it asks you about uploading the configuration from the device click Upload otherwise proceed to the next step 4 From the Device Parameters dialog click Calibration Channel Select to bri2. Upload Download existing parameters set on the module 1734 1T21 B 2pt TC m Input Tx General Device Parameters 1 0 Defaults EDS Fie Groups Oie Use this pull down menu to edit or view TME sige _UsoadFromDevice Download To Device the parameters Available choices are Belg Eear Parameter Help Start Monitor Groups ES POINTBus D Parameter Current Value fan parameters X Sequential AutoAddress Do Nothing Al Broadcast Baud Rate Do Nothing f RTA Broadcast AutoBaud Do Nothing Input Values 1 0 Input Status 17344T21 B 2pt TC m Input x Cold Junction i z Configuration General Device Parameters 1 0 Defaults EDS Fie Calibration 4 Groups Online i TE Upload From Device E TRI Single EEA Configuration Restore Default Values CA Download To Device Parameter Help J Start Monitor Cat Parameter Current Value 3 Temperature Units 0 mV Custom Scale 4 Temperature Units 1 mV Custom Scale je eT Lm 8 Thermocouple Type 1 0 General Device Parameters O Defauits EDS File n Low Scaling 0 0 12 Low Scaling 1 0 OnE ES UplsdFiomDevice 13 High Scaling 0 7000 Status EHE ipsam Dese 4 High Scaling 1 7000 Download To Device 15 Notch Filter 0 60 Hz i lotch Filter z Start Monitor 16 Notch Filter 1 60H 19 Digital Fitter 0 Oms Current Value 20 Digital Filter 1 Oms a 2 Enable Alarm Latch 0 Disable
3. Resource Description POINT 1 0 RTD and Thermocouple Input Module Information about specification and safety approval concerning 1734 IT21 Installation Instructions publication 1734 INO11 1734 IR2 and 1734 IR2E modules Analog Input Modules Installation Instructions Information about how to install the 1734 IE2C Series C POINT 1 0 Current publication 1734 IN024 Input Analog Module 1734 IE2V Series C POINT 1 0 Voltage Input Analog Module and POINT 1 0 2 Current and 2 Voltage Input Analog Module Publication 1734 UMOO4F EN E December 2012 Resource Analog Output Modules Installation Instructions publication 1734 IN002 Description Information about how to install 1734 OE2C and 1734 OE2V Series C Point I 0 Current and Voltage Output Analog Modules Cold Junction Wiring Base Assembly Installation Instruction publication 1734 IN583 Information about how to install the POINT 1 0 Cold Junction Compensation Wiring Base Assembly DeviceNet Communication Interface Installation Instructions publication 1734 IN057 Expansion Power Supply Installation Instructions publication 1734 IN058 Information about how to install the 1734 PDN Series B POINT 1 0 DeviceNet Communication Interface Module Information about how to installthe 1734 EP24DC Series B POINT I O 24V DC Expansion Power Supply Field Potential Distributor Installation Instructions publication 1734 IN058 Information about how to inst
4. ATTENTION This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment Touch a grounded object to discharge potential static Wear an approved grounding wriststrap Do not touch connectors or pins on component boards Do not touch circuit components inside the equipment e f available use a static safe workstation When not in use store the equipment in appropriate static safe packaging Publication 1734 UMOO4F EN E December 2012 8 Install the Module Environment and Enclosure ATTENTION This equipment is intended for use in a Pollution Degree 2 industrial environment in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 m 6562 ft without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well as radiated disturbance This equipment is supplied as open type equipment It must be mounted within an enclosure that is suitably designed for those specific environmental conditions that will be present and appropriately designed to prevent personal injury resulting from accessibility to live parts The interior of the enclosure must be accessi
5. Configuration singe Hestore Default Values Al Parameter Help di Start Monitor ID Sz Parameter Current Value RTD Type 0 Ohms RTD Type 1 Ohms Temperature Scale 0 Custom Scale Temperature Scale 1 Custom Scale Low Scaling 0 1000 Low Scaling 1 1000 High Scaling 0 5000 High Scaling 1 5000 N When complete download to your module by clicking the Download to Device button You can download each change as you make it using Single or download all your changes using All If you press the Apply button only the selected parameter downloads to the module Digital Filter 0 Oms Digital Filter 1 Oms Low Low Alarm 0 Low Low Alarm 1 32768 32768 3 Click here when finished Use the procedures in the figures that show basic setup and advanced setup noting that you complete steps 1 and 2 during basic setup then continue with steps 3 13 during advanced setup Publication 1734 UM004F EN E December 2012 34 Configure Your Module Basic Setup EX 1734 IR2 B 2pt RTD Input L x General Device Parameters Vo Defaults EDS File Groups Online 1 Select the type of RTD EL ALL Zl c singe ENGINE Download To Device yau are using OE Beso Defaut Values yy em channel 0 Repeat for Ee Parameter Current Value channel 1 3 RTD Type 0 o 8 4 RTD Type 1 Ohms 5 Temperature Scale 0 100ohm Pt 385 5 T
6. For This Value Select Comments Channel A push button to Click a push button for a channel to show it correspond to a channel as pushed which means the values you such as 0 1 and 2 enter on this dialog apply for the channel you selected High High 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the HH slider on this dialog Default is 32 767 High 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the HI slider on this dialog Default is 32 767 Low 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the LO slider on this dialog Default is 32 768 Low Low 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the LL slider on this dialog Default is 32 768 Publication 1734 UMOO4F EN E December 2012 66 Configure Modules in RSLogix 5000 Software For This Value Select Comments Disable All Click to check the A check in the checkbox indicates that the Alarms checkbox alarm is disabled An attempt to write a non valid any Spare value into the 1 0 Disable all Alarms field will cause a profile validation error If the alarm is disab
7. Low and High level Range Disable alatms If Alarms are Disabled all alarms for this channel show No FAULT This is useful for unused channels Level alarms low low low high and high high Configure Your Module 33 Scaling Values returned when input is at low scale value or high scale value The low and high scale points are different for each sensor input RTD Module Scaling Limits RTD Type Low Scaling High Scaling Endpoint Endpoint 0 hms 100 Q 500 Q 100 O Pto 0 00385 Euro 32 F 0 C 932 F 500 C 200 QPt a 0 00385 Euro 32 F 0 C 932 F 500 C 100 QPt 0 003916 U S 32 F 0 C 932 F 500 C 200 QPt o 0 003916 U S 32 F 0 C 932 F 500 C 10 QCu ox 0 00427 32 F 0 C 482 F 250 C 100 QNi o 0 00618 32 F 0 C 482 F 250 C 120 QNi 0 00672 32 F 0 C 482 F 250 C 120 QNi w 0 00618 32 F 0 C 482 F 250 C RTD Type 1734 IR2E Low Scaling High Scaling Endpoint Endpoint 0 hms 100 Q 200 Q 100 O Pto 0 00385 Euro 32 F 0 C 572 F 300 C To configure your RTD module select Configuration as shown in the figure EX 1734 IR2 B 2pt RTD Input 71x 1 To configure your RTD module select Configuration and modify the parameters as desired for your application General Device Parameters 1 0 Defaults EDS File Upload From Device Download To Device r Online
8. 250 C The 1734 IR2E consists of two RTD inputs 0 200 W Configure the module to do the linearization necessary for RTD inputs See the table for a list of supported input types I O messages are sent to consumed and received from produced the POINT I O modules These messages are mapped into the processor s memoty The Thermocouple input module produces 8 bytes of input data scanner Rx and fault status data It does not consume I O data scanner Tx The RTD input module produces 6 bytes of input data scanner Rx and fault status data It does not consume I O data scanner Tx Produces scanner Rx About POINT 1 0 Modules 3 Default Data Map for the Thermocouple Input Module catalog number 1734 IT21 CREE EON e LC CCC Lae Input Channel 0 High Byte Input Channel 0 Low Byte Input Channel 1 High Byte Input Channel 1 Low Byte Status Byte for Channel 1 OR UR HHA LLA HA LA cM CF Status Byte for Channel 0 OR UR HHA LLA HA LA CM CF OR UR Cold Junction Temperature Selectable Channel 0 Channel 1 or Average of both Channel 0 and 1 Consumes scanner Tx No consumed data Where Produces scanner Rx OR Overrange 0 no error 1 fault value went above selected range UR Underrange 0 no error 1 fault value went below selected range HHA High High Alarm 0 no error 1 fault value went below setpoint LLA Lo
9. Configure Your Module Table of Contents Important User Informatofc codes vida er ett 2 New and Revised Information ais 0 uu tee Y ws uua 7 Change Dati ss ies epe t ues pe eee 7 Preface Who Should Use this Manual tics Ee d cp d do een 9 Pusposedorthis Manual sse t ere ge rt t EA 9 Related Docnn ntattolioot uu pac iiS e blink Sas ater benda 9 Common Techniques Used in this Manual lesse 10 Chapter 1 SIT MN 11 Mod le Peattes ic de uc a pacc o ru us 11 Selecting a Module Input hypess aa s50M axe een iain van Su uk cid 12 Communicating with Your Module oc x vedere e Rh 12 Default Data Map for the Thermocouple Input Module catalog number L734 AD S d seas date PIG gei iH ey 13 Default Data Map for the RTD Input Module catalog numbers 1734 IR2 and 1734 IR2E 0 13 Data Format 1734 IT2I 1734 IR2 and 1734 IR2E modules 14 Use Module Arians 12 41 C Enn det ar one shed une ton trac etatis 15 Overrange Alarm 1734 IT2I 1734 IR2 and T7T94 IR2E modules ou d ope Cure dog ee E DeC RIA 15 Underrange Alarm 1734 IT2I 1734 IR2 and 1794 TRIE modules 1 oec bred eS De reor RES ER 15 Level Alarms 1734 IT2I 1734 IR2 and LTSIRSBanodules et luda ded dde A tani edu 15 Open wire Alarm 1734 IT2I 1734 IR2 and 1734 1 RoR AnOdules essri wy Gt bie rex o E EVE PME 16 Cold Junction Compensation 1734 IT2I module 16 Chapter SUMMA rraren ode voa pale du ee ta HER EV VIT LE DIM 16 Chapte
10. EDS File 1 Click the I O Defaults tab to display Groups Online ETE Cameron i NE Upload From Device su characteristics for this Restore Default Values Download To Device module C Al EEN 1 Parameter Help Fe 1734182 0 2pURTD Input LET a Parameter General Device Parameters 1 0 Defaults EDS File 2 Click the EDS File tab to display 168 Input Value 0 h wae f h EDS fil d 2 InpuValue t These are the default 1 0 characteristics for this device The values are the statistics of the lle use 43 Bad Cal Status 0 fot eu tah s to configure this module 44 X BadCalStatus 1 45 Calibration Command Strobed 46 Calibration Channel Select E 17344R2 Produce size 6 Output size Baa This dialog shows the E 17341R2 Produce size input output defaults for the Brice four modes cos Ely 17344R2 Produce size Strobe Cancel 1 l Dutput size Polled Cyclic Change of state and 17344R2 Produce size 6 Input help Cyc lic t Output size 0 j NE OK Cancel Apply Help 1734 IR2 B 2pt RTD Input Tx General Device Parameters 1 0 Defaults EDS File 5 The Electronic Data Sheet EDS file is used to convey d configuration information about this device This information has been provided by the device manufacturer File information Creation time 06 30 10 Creation date 08 03 2000 Modification time m Modification date o EDS Viewer ol
11. Advanced Setup Parameters Advanced parameters you can set for the thermocouple module consist of Notch filter Select the Notch Filter for the analog to digital converter At higher frequencies faster sample rates are possible 50 Hz 60 Hz default 100 Hz 120 Hz 200 Hz 240 Hz 300 Hz 400 Hz 480 Hz If the filter value is changed the module may require calibration to meet specifications Digital filter A digital filter is available on this module You set a time constant which is used in the equation Yn Yn 1 dt dt Ta Xn Yn 1 Where Yn new data Yn 1 old data dt Channel Update Rate in milliseconds Ta digital filter time constant Xn present unfiltered data TA can be an integer from 0 to 10 000 ms If set to 0 the filter is disabled e Cold Junction Offset If you do not use a 1734 RTBCJC removable terminal block enter an estimate for the junction temperature here Enter the value in hundreths of degrees Celsius even if another scale is selected 2500 implies 25 00 C Enable alarms latch If enabled alarms for this channel latch FAULTED until a Latch Reset command is received The alarms effected are e Input Status Low and High level Range e Disable alarms If Alarms ate Disabled all alarms for this channel show No FAULT This is useful for unused channels Publication 1734 UMOO4F EN E December 2012 26
12. Input Value 0 0 Input Value 1 0 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration Calibration Command Accept High Calibration Calibration Channel Select Both Channels Cancel Engl Help If you are calibrating each channel separately repeat the procedure to calibrate the other channel Both high and low inputs must be accepted in order for the module to finish calibration Calibration is now complete If the module does not accept calibration status indicator still blinking click Calibration Command select Abort Calibration and start over Chapter Summary This chapter explained how to calibrate the modules The next chapter explains the module status indicators Publication 1734 UMOO4F EN E December 2012 Chapter 5 Overview Interpret the Status Indicators Troubleshoot the Module Read this chapter to interpret your I O module status indicators Each module has the following status indicators Module Netwotk Input 0 Input 1 Status Indicators on the Module Module Status Network Status Module status Network status Status of input 0 Status of input 1 46009 Indicator Sta tus for Module Module status Status Off Eee 46000 Description No power applied to device Green Device operating normally Flashing green Device ne
13. Thermocouple Type 1 Low Scaling 0 Low Scaling 1 C E J K N High Scaling 0 R S T 2 Then select the type High Scaling 1 Notch Filter 0 Notch Filter 1 Digital Filter 0 Digital Filter 1 or mV General Device Parameters 1 0 Defaults EDS Fie Groups Online 1 1 i n Upload From Device 3 Select cold junction ee amp Single Restore Default Values Cl Download To Device Current Value compensation if desired Parameter 35 High Alarm 0 32767 36 High Alarm 1 32767 37 Low Low Alarm 0 32768 38 Low Low Alarm 1 32768 39 High High Alarm 0 32767 40 High High Alarm 1 32767 a7 Coldvinetion Enable HO Ene E 48 Cold Junction Enable 1 Disable 49 Cold Junction Produced Data 50 Cold Junction Notch Filter 60 Hz s Cold lt lt 1734 1T21 B 2pt TC m Input 1 Tx Cold General Device Parameters 1 0 Defaults EDS File a Groups Configuration E Single Upload From Device Restore Default Values 95 Download To Device J Parameter Help Start Monitor 4 Select how the cold junction data is returned in the produced 1 0 Sz Parameter Current Value message Select None channel 0 channel High Alarm 0 32767 High Alarm 1 32767 1 or the average of both channels Low Low Alarm 0 32768 Low Low Alarm 1 32768 High High Alarm 0 32767 5 Download to the device ign High Alami T corer Cold Junction Enable
14. Workstation M44737 Address Device Type On S Rockwell Automation Reliance Electric as Linx Gateways Ether B 01 Workstation oc MEDI j 40 1734VHSC24 A Counter Module Jj 42 1734NHSCS A Counter Module j 43 173441 A Counter Module 5 The node commissioning dialog returns It displays the node number E3 1734K Counter Module muet EE and data rate E Select a device by using the browsing service 2 xj p Current 1734 HSC24 A Counter Module Settings UU 6 Change the node number and Address 40 1 Data te 500 KB Apply noting that the dialog then a p New 1734 VHSC24 A Counter Module Settings identifies the new setting ELM The network data tale should not be changed e AN network The new network data rate wil not tahoe is recycled Addess 40 Datarate 500kb F 7 Click Close to continue Messages EXT Commissioning HEI a Select a device by using the browsing service Browse Current 1734 VHSC24 4 Counter Module Settings 3 Address 41 1 Data Rate 500 KB New 1734 VHSC24 4 Counter Module Settings N The network data rate should not be changed on an active A network The new network data rate will not take effect until power LS istecycled Addess 41 Datarate 500kb v Messages Node 41 commissioned Lege He IMPORTANT If you commission a node online you must power down
15. a 3 3 a 3 Cancel Apply Help 6 Click the Download to Device button The status indicator of a channel in calibration mode flashes green The status indicator of a channel not in calibration turns off 7 Apply 0 00 mV to the input referring to the wiring diagram in this section IMPORTANT Calibration in millivolts allows the Sensor calibration to be independent of CJC The cold junction compensation is not active for the mV input regardless of the CJC setting The module must have the exact voltage at its input terminals Thermocouple wire or a voltage source that simulates a TC voltage should not be used 8 Click Accept Low Input General Parameters Configuration 1 0 Data EDS Fite f Select the parameter that you want to configure and initiate an action using the toolbar M Groups ip a Parameter CurntVae Input Value 0 0 Input Value 1 0 Cold Junction Temperature 0 0 Cold Junction Temperature 1 0 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Gand Calihration Calibration Channel Select Accept Low Input 7 A Select Accept Low Input and Accept High Input download to the device Abort Input Calibrati Begin CIC Calibration 9 Click the Download to Device button The status indicator s for the channel s being calibrated blink s green Calibrate Your Module
16. following ways Enter an estimated temperature Use a 1734 TBCJC mounting base recommended Use external cold junction compensators Entering an estimated temperature is the least accurate way for CJC compensation Using the compensation built into the 1734 TBCJC provides the easiest and most accurate way An open CJC causes the CJC input to point to the maximum temperature value for the selected input type This causes an alarm to be set Once the alarm is issued it remains active as long as the input signal is faulted above maximum In this chapter you were given an overview of the 1734 family of modules The next chapter walks you through installing your module Chapter 2 Overview Install the Module Read this chapter fot information about how to install and wire RTD and thermocouple modules The following table lists where to find specific information in this chapter Topic Page Install the Mounting Base 8 Install an I O Module Install the Removable Terminal Block Remove a Mounting Base Wire the Modules Chapter Summary a a a a a o z 99 N The RTD module uses a 1734 TB or 1734 TBS mounting base assembly with 1734 RTB removable terminal block RTB for RTD witing The thermocouple module uses a 1734 TBCJC mounting base assembly with 1734 CJCRTB removable terminal block with built in cold junction compensation for thermocouple inputs Preventing Electrostatic Discharge
17. or just the mounting base Follow this procedure to install the mounting base wiring base assembly on the DIN rail 1 Position the mounting base wiring base assembly vertically above the installed units adapter power supply or existing module 2 Slide the mounting base down so that the interlocking side pieces engage the adjacent module or adaptet interconnections on the last mounting base on the DIN rail Failure to do so could result in equipment damage or injury from electric shock Do not discard the end cap shipped with an adapter or communication interface Use this end cap to cover the exposed 1734 IT2I shown Module locking mechanism Slide in writable label Module wiring Insertable diagram 1 0 module RTB Removal DIN rail locking Handle screw orange Removable terminal Mechanical keying block 1734 RTBCJC orange Interlocking side pieces Publication 1734 UMOO4F EN E December 2012 10 Install the Module 3 Press firmly to seat the mounting base on the DIN rail The mounting base snaps into place 46003 4 Repeat this procedure for the next mounting base assembly Install an 1 0 Module Install the module before or after base installation Make sure you correctly keyed the mounting base before installing the module into the mounting base In addition make sure you positioned the mounting base locking screw horizontal referenced to the base WARNING O When you
18. s b iA 2 Enable Alarm Latch 1 Disable Under Range Alarm Status 0 No fault F 23 Disable Alarms 0 Alarms Enabled Under Range Alarm Status 1 No fault 2 Dicis Alane fi Aare Enid Over Range Alam Status 0 Over Range FAULT HONO PUSITTWE OPEN Over Range Alam Status 1 No fault 33 Low Alarm 0 32768 Gy LowAlarm Status 0 No Fault 34 Low Alarm 1 32768 Low Alam Status 1 No Fault 35 High Alarm 0 32767 HighAlarm Status 0 No Fault 36 High Alarm 1 32767 ij HighAlarm Status 1 No Fault 37 Low Low Alarm 0 32768 LowLowAlam Status 0 No Fault 38 Low Low Alarm 1 32768 LowLow Alam Status 1 No Fault 39 High High Alarm 0 32767 i HighHigh Alarm Status 0 No Fault 40 High High Alarm 1 32767 High High Alarm Status 1 No Fault 47 Cold Junction Enable 0 Enable Cold Junction Underrange 0 No Fault 48 Cold Junction Enable 1 Enable a Cold Junction Underrange 1 No Fault 48 Cold Junction Produced Data Channel 0 ColdJuncionDvemange 0 No Fault 50 Cold Junction Notch Fiter 60Hz ColdJunction Overrange 1 No Fault 5i Cold Junction Offset 0 0 Bad Cal Status 0 Calibration FAULT Cold Junction Offset 1 0 Bad Cal Status 1 Good Calibration Reset Latched Alarms Do Nothing caes o e em pee Publication 1734 UMOO4F EN E December 2012 24 Configure Your Module Configure Your Configuration can be divided into two categories Basic Set up Parameters and Thermocouple Input Advanced
19. 1 General Device Paramete 23 Disable Alarms 0 Enable Latching 4 Groups 24 Disable Alarms 1 Alarms Enabled Configuration 33 Low Alarm 0 32768 Configuration Low Alarm 1 32768 Restore Default Values 9 Enable or disable the Parameter Help alarms Enable Alarm Latch 0 Disable Enable Alarm Latch 1 Disable Disable Alarms 0 Alarms Enabled v Disable Alarms 1 Alanis Eran Low Alarm 0 Low Alarm 1 High Alarm 0 High Alarm 1 Low Low Alarm 0 Low Low Alarm 1 High High Alarm 0 10 Apply and download to fies Highlan tt the device Configure Your Module 29 Set the RTD Input Module Parameters Using RSNetWorx 1 Right click the module After adding the module to the network you must configure the modules for use IMPORTANT This chapter shows configuration in the online mode Changes set in this mode take effect when you download to the individual module Configure the modules as shown TC mV Input 2 Click Properties to configure A Cut Ctrl 7 Bs Copy aie You can also left click the module or name E amp Paste Gir Delete Del Upload from Device Download to Device IOC Graph Spreadsheet J Class Instance Editor Properties You see a dialog with a series of tabs Each tab provides options to view or edit Refer to the figure to see the tabs 2 1734 IR2 B 2pt RTD Input x General Device Parameters 1 0 Defaults
20. 3 1 7 Power is provided by the internal power bus To wire RTD modules refer to the figures 1734 IR2 1734 IR2E Module Overview m Module Status Monia Network Network Status Status RTD Input Status of Input 0 Status of Input 1 In OO Input 0 A High Input m 2 3 OOD Input 0 B Low Input OO RET 0 Fl 6 7 OO Shield m Input 1 A High Input Input 1 B Low Input RET 1 Shield 46000 Publication 1734 UMOO4F EN E December 2012 16 Install the Module Chapter Summary Publication 1734 UMOO4F EN E December 2012 Wiring Diagram 0 1 m InO A In 1 A i i bod I S j 2 3 Ind B In 1 B X 7 3 wire 12 Eod a 2 wire RTD 4 5 resistor RTD RETO RET 1 When using 2 wire RTDs Shield Shield Insert 1 G3 resistor IN B to In Input channel RET RET Sensor return Shield Sensor cable shield Input Channel Power Limits Channel High Signal Low Signal Return Shield In 0 A 0 4 6 In 0 B 2 In 1 A 1 5 7 In 1 B 3 This chapter explained how to install and wire the modules The next chapter desctibes how to configure your POINT I O Thermocouple and RTD Modules Chapter J Overview Configuration Overview Commissioning a Node Configure Y
21. 8 From the High Value dialog click Next to start calibration The Calibration Completed dialog appeats It shows that you saved the changed calibration constants of the channel Calibration Wizard Calibration Completed Calibration of the following channel s has been completed successfully Channel 0 Success The calibration constants of the channel s have been saved ses Bn ee 9 Click Finish to exit the wizard The channels can now be configured for the sensor type desired for normal operation Publication 1734 UMOO4F EN E December 2012 Appendix B Calculate Absolute Accuracy and Accuracy Drift Overview The Absolute Accuracy and Accuracy Drift with temperature specification applies only to mV input for 1734 IT2I and to ohms input for 1734 IR2 and 1734 IR2E modules These specifications are listed in the POINT I O RTD and Isolated Thermocouple Input Module Installation Instructions publication 1734 INO11 Use mV input 1734 IT2D or ohms input 1734 IR2 and 1734 IR2E to verify the Absolute Accuracy or Accuracy Drift of the POINT I O modules Calculate with Formulas Here are the formulas for calculating Absolute Accuracy and Accuracy Drift in mV or ohms Absolute Accuracy Formula Absolute Accuracy measurement is to be done at 25 C The formula to calculate Absolute Accuracy is as follows measured value expected value full scale x 100 Accuracy Drift Formula Accuracy Drift measuremen
22. Au pads been avi is Ese nd 61 Interpret the Status Indicators deese RE DOCU eR eran 61 fc a ESPERE EY cete de At doa coser e de rt e Ah 62 Appendix A Oye View renee eae eee a due va Ed eM c MC etur 63 Calculate Absolute Accuracy and Accuracy Drift Index Table of Contents v Understanding Data Connection and Communication Formats s eeraa aeaa EA e E E E E 63 Configure Your Module oU 2 dac pes iet RN CT Gn s cete ALT 64 Use the Help Button oc esa oe es dba Edo Nep WE ON dfe et tefta 65 Working with Dialogs visae d etr eria tco edere ciega 65 Work with Dialogs for RTD Modules 004 65 Work with Dialogs for Thermocouple Modules 70 Appendix B OVetVIeWheitestevigs sue EIUS dett b east o ee teu EU Es 77 Calculate with Formulas 0 0 00 cc cnet s 77 Absolute Accuracy Formula 22 quent deu Era ua 77 Accuracy Drift Formula tor eoe awed tetro b fce arbe daa 77 Publication 1734 UMOO4F EN E December 2012 vi Table of Contents Notes Publication 1734 UMOO4F EN E December 2012 Summary of Changes This publication contains new and revised information not in the last release New and Revised Information See the table for a summary of the major changes in this manual Revised to include Chapter New Appendix on Absolute Accuracy and Accuracy Drift calculation Appendix B Change Bars Change bars as shown with this paragraph show the areas in this manual that differ from previous edi
23. Cal Status 0 Good Calibration 44 BadCalStatus 1 Good Calibration 45 Calibration Command Accept Low Calibration T 46 Calibration Channel Select Both Lnannels 11 From the General Parameters dialog click the Download to Device button The status indicator s for the channel s being calibrated blinks 12 Set the resistance box to 500 Q For the 1734 IR2E set the resistance box to 200 Q 13 From the General Parameters dialog click Accept High Calibration General Device Parameters 1 0 Defaults EDS File Groups Online Caltrain Singe Upload From Device Restore Default Values F Download To Device Parameter Current Value Input Value 0 0 Input Value 1 Bad Cal Status 0 Good Calibration Bad Cal Status tt Good Calibration Calibration Command accent High Calibration s Calibration Channel Select 55 Nothing Begin Calibration cce h Calibration Abort Calibration Publication 1734 UMOO4F EN E December 2012 52 Calibrate Your Module 14 From the General Parameters dialog click the Download to Device button Calibration is done as soon as High and Low calibration for the selected channels is done successfully EX 1734 IR27B 2pt RTD Input HE General Device Parameters 1 0 Defaults EDS File Groups Ortine SS Sige Lead From Device Restore Default Values a Download To Device Parameter Help is Start Monitor 3 Current Value
24. Configure Your Module Level alarms low low low high and high high any value from 32 768 32 767 can be entered Scaling Values returned when input 1s at low scale value or high scale value The low and high scale points are different for each sensor input Thermocouple Scaling limits Thermocouple Low Scaling High Scaling Type Endpoint Endpoint mV 0 mV 70 mV Type B 212 F 100 C 1832 F 1000 C Type C 32 F 0 C 4199 F 2315 C Type E 32 F 0 C 1832 F 1000 C Type J 32 F 0 C 1832 F 1000 C Type K 32 F 0 C 1832 F 1000 C Type N 32 F 0 C 1832 F 1000 C Type R 32 F 0 C 1832 F 1000 C Type S 32 F 0 C 1832 F 1000 C To configure your module select Configuration as shown in the figure Configure a module To configure your module 1734 IT21 B 2pt TC m Input BE select Configuration and General Device Parameters 1 0 Defaults EDS File modify the parameters as ious Online desired for your application ie Upload From Device Download To Device AI When complete download to Donen Start Monitor your module by clicking the AEA Download to Device button Temperature Units 0 mV Custom Scale Temperature Units 1 mV Custom Scale You can download each Thermocouple Type 0 0 change as you make it using Thermocouple Type 1 uo Low Scaling 0 S
25. EDS File Click these tabs to view the options 17341R2 A 2pt RTD Input Name Description Address 12 m Device Identity Primary Vendor Rockwell Automation Aller Bradey 1 Device Rockwell Automation miscellaneous 115 Product 17341R2 A 2pt ATD Input SO Catalog 7344R2 B Revision 2 005 Refer to these dialogs for an explanation of features Publication 1734 UMOO4F EN E December 2012 30 Configure Your Module Setting Parameters lt lt 1734 IR2 B 2pt RTD Input General Device Parameters vro Detaute EDS rie Click the Device parameters tab to The module name appears here sratinaza2n sro ireu get to the dialog for setting the Name 7342 8 opt A pa rameters er escription Type a description here The module address appears aa z At any point click here to finish changing here This field is read only Device Identity Prima configuration parameters Vendor Rockwell Automation Allen Bradley 1 This dialog also shows the Device Rockwell Automation miscellaneous 115 ERE Product VSHRZAZMRIDWeRIU i i i i module s device identity oe n If sid x ini E Pin These fields are read only Rei 2006 EXE mode they do not take effect until the system goes online ok Cancel Esp Hee ED SiEditor X
26. Network Status Indicator should flash green Module Connection 1734 RTB CJC Shield Thermocouple 0 0 Precision Voltage Thermocouple 1 46001 1734 RTB 0 B Precision resistors 46011 Publication 1734 UMOO4F EN E December 2012 H DeviceNet Input S S A D D POINT HO 0 1 dito rlo ito fo ifo E Channel 0 Connect to 4 and 5 3 2 3 2 3j2 3 2 3 2 3j2 3 c 4 5 4 5 4 5 4 5 4 5 Channel 1 Connect to 6 and 7 e ls ve zis vle 7 6 7 Lt r Precision 0 1 Voltage Source 1734 PDN 1734 IT2l 45999 Calibrate Your Module 4 Access Calibration Parameters in RSNetWorx 1 Double click the icon of the module to be calibrated to bring up the General Parameter dialog 2 Click Device parameters EX 1734 IT217B 2pt TC m Input BE Click Device Parameters to view the parameters General Device Paral 17344T21 A 2pt TC mV Input 1734 17 21 B CIA Device Identity Primary Vendor Rockwell Automation Allen Bradley 1 Device Rockwell Automation miscellaneous 115 Product 17341727A 2pt T m Input 43 Cadog paaras oo Revision 2005 El gt The dialog box layout varies dependin
27. QPto 0 003916 U S 32 F 0 C 932 F 500 C Type K 32 F 0 C 1832 F 1000 C 10 Q Cu 0 00427 32 F 0 C 482 F 250 C Type N 32 F 0 C 1832 F 1000 C 100 O Nia 0 00618 32 F 0 C 482 F 250 C Type R 32 F 0 C 1832 F 1000 C 120 O Nia 0 00672 32 F 0 C 482 F 250 C Type S 32 F 0 C 1832 F 1000 C 120 QNic 0 00618 32 F 0 C 482 F 250 C Type T 32 F 0 C 212 F 100 C Publication 1734 UMOO4F EN E December 2012 About POINT 1 0 Modules 5 1734 IR2E RTD Input Module RTD Type Low Scaling High Scaling Endpoint Endpoint 0 hms 100 Q 200 Q 100 O Pto 0 00385 Euro 32 F 0 C 572 F 300 C Use Module Alarms POINT I O modules are capable of generating the following alarms Overrange Underrange Level low low low high high high Cold junction Compensation CJC Fault 1734 IT2 only Open wire Detection Overrange Alarm 1734 IT2I 1734 IR2 and 1734 IR2E modules The channel overrange alarm is set if the input is greater than the maximum temperature thermocouple or RTD range dependent millivolt 75 mV or resistance 600 Q range value or above the maximum range of the thermocouple or RTD The cold junction compensator has its own overrange alarm If the CJC temperature goes above 70 C the overrange alarm is set Underrange Alarm 1734 IT21 1734 IR2 and 1734 IR2E modules The
28. and close the dialog Click Cancel to return to default values Click Apply to save changes you made on any of the dialogs and continue to display the dialog noting that you enable the Apply button when you make changes to any of the dialogs Publication 1734 UMOO4F EN E December 2012 60 Configure Modules in RSLogix 5000 Software Publication 1734 UMOO4F EN E December 2012 For This Value Channel Select A push button to correspond to a channel such as 0 1 and 2 Comments Click a push button for a channel to show it as pushed which means the values you enter on this dialog apply for the channel you selected High High High 32 768 32 767 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the HH slider on this dialog Select a value so that any value out of range in this field causes a profile validation error This value also appears in the HI slider on this dialog Low 32 768 32 767 Select a value so that any value out of range in this field causes a profile validation error This value also appears in the LO slider on this dialog Low Low Disable All Alarms 32 768 32 767 Click to check the checkbox Select a value so that any value out of range in this field causes a profile validation error This value also appears in the LL slider on this dialog A check in the chec
29. dialogs for an explanation of features Configure Your Module 23 The module name appears here Type a description here The module address appears Setting Parameters 17341T21 B 2pt TC m Input HE General Device Parameters 1 0 Defaults EDS File 17341T 21 8 2pt TC mV Input T a here This field is read only This dialog also shows the 34 module s device identity These fields are read only Device Identity Primary Vendo Rockwell Automation Allen Bradey 1 Device Rockwell Automation miscellaneous 115 Product I7341T2VAQptTC mV Input 43 Catalog IE d Revision E gt EDS Editor Do you want to upload the configuration from the device updating the software s configuration or download the software s configuration to the device updating the device For more information press F1 Click the Device parameters tab to get to the dialog for setting the parameters At any point you can click here to finish changing configuration parameters IMPORTANT f configuration changes are made in offline mode they do not take effect until the system goes online I This dialog appears after clicking the Device parameters tab If you want the existing parameters uploaded from the module select Upload The following dialog then shows the
30. display the dialog noting that you enable the Apply button when you make changes to any of the dialogs For This Value Sensor Type Select mV No Linearization Type B Type C Type E Type J Type K Type N Type R Type S Type T Comments Default is Type K Temperature Units Custom Scale Celsius Fahrenheit Kelvin Rankine Default is Celsius High Engineering 32 768 32 767 Default is 7000 This is enabled when you select Custom Scale for Temperature Units Publication 1734 UMOO4F EN E December 2012 64 Publication 1734 UMOO4F EN E December 2012 Configure Modules in RSLogix 5000 Software For This Value Select Comments Default is 1000 32 768 32 767 Low Engineering This is enabled when you select Custom Scale for Temperature Units Digital Filter ms 0 10000 Default is 0 Notch Filter 50 Hz Default is 60 Hz 60 Hz 100 Hz 120 Hz 200 Hz 240 Hz 300 Hz 400 Hz 480 Hz Cold Junction Enable Click to check the If checked the Cold Junction feature is checkbox enabled Cold Junction Offset 0 00 70 00 Select a value to configure the value for C cold junction offset You enable this feature when you check Cold Junction Enable This feature is disabled in Hard Run mode Default is 0 Cold Junction Notch 50 Hz Select the value for Cold Junction Notch Filter 60 Hz Filter Default is 60 Hz Cold Junction Mode None Select a value for Cold J
31. equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Rockwell Automation Inc is prohibited Throughout this manual when necessary we use notes to make you aware of safety considerations Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you identify a hazard avoid a hazard and recognize the consequence SHOCK HAZARD Labels may be on or inside the equipment such as a drive or motor to alert people that dangerous voltage may be present BURN HAZARD Labels may be on or inside the equipment such as a drive or motor to alert people that surfaces may reach dangerous temperatures aaa Allen Bradley Rockwell Automation POINT I O RSLinx RSLogix 5000 and TechConnect are trademarks of Rockwell Automation Inc Trademarks not belonging to Rockwell Automation are property of their respective companies Publication 1734 UMOO4F EN E December 2012 Summary of Changes About POINT 1 0 Modules Install the Module
32. product is not functioning and needs to be returned follow these procedures United States Contact your distributor You must provide a Customer Support case number call the phone number above to obtain one to your distributor to complete the return process Outside United States Please contact your local Rockwell Automation representative for the return procedure Documentation Feedback Your comments will help us serve your documentation needs better If you have any suggestions on how to improve this document complete this form publication RA DU002 available at http www rockwellautomation com literature Rockwell Otomasyon Ticaret A Kar Plaza Is Merkezi E Blok Kat 6 34752 erenk y stanbul Tel 90 216 5698400 www rockwellautomation com Power Control and Information Solutions Headquarters Americas Rockwell Automation 1201 South Second Street Milwaukee WI 53204 2496 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Middle East Africa Rockwell Automation NV Pegasus Park De Kleetlaan 12a 1831 Diegem Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation Level 14 Core F Cyberport 3 100 Cyberport Road Hong Kong Tel 852 2887 4788 Fax 852 2508 1846 Publication 1734 UMO004F EN E December 2012 Supersedes Publication 1734 UM004D EN E December 2010 Copyright 2012 Rockwell Automation Inc All rights reserved Printed in the U S A
33. to the scanner If you cannot access a device because you have used its node address for another device you have to remove it from the network recommission it then reinstall it on the network Do not change the data rate of devices while they are connected to a network Erratic operation may result We recommend that if you need to change the data rate of a device you should remove it from the network establish a point to point connection between the PC which hosts the RSNetWorx for DeviceNet software and the target device recommission it and then reconnect it to the network Add the Adapter to Your Network Configure Your Module 19 Use Sequential Auto Addressing Sequential Auto Addressing SAA reassigns the node address of every module to the right of the one you select Each module changes its node address to one greater than its neighbor Make sure the node address of the selected module is the desired value before issuing the SAA command When this command is set each module to the right gets a new address one greater than its neighbor The addressing ripples through a line of POINT I O modules assigning a node number to each module installed in a mounting base Perform this procedure to Auto Address a line of POINT I O modules 1 Setthe address of the first module you want to addtess 2 Set the Auto Address command to Sequential Address 3 All modules in line reset with new sequential addresses An example i
34. 0 Enable Cold Junction Enable 1 Enable Cold Junction Produced Data Channel 0 7 Cold Junction Notch Filter Cold Junction Offset 0 Cold Junction Offset ttl hannel 1 CI Average of Both Publication 1734 UM004F EN E December 2012 28 Configure Your Module Publication 1734 UMOO4F EN E December 2012 Advanced Setup 1734 IT21 B 2pt TC m Input MES General Device Parameters 1 0 Defaults EDS File Groups Online Configuration d raices Upload From Device Restore Default Values CT Download To Device 6 Select the notch filter __Baneteticb _ EE desired 60 Hz to Ses 480 Hz High Scaling 1 Notch Filter 0 Notch Filler 1 Digital Fiter 0 Digital Fiter t1 General Dev Enable Alarm Latch 0 Enable Alarm Latch 1 sable EE Disable Alarms 0 Alarms Enabled Configuratior Disable Alarms 1 Alarms Enabled Low Alarm 0 32768 Low Alarm 1 32768 Restore Di High Scaling 1 7 Select the digital filter 15 Notch Filter 0 480 Hz select as necessary 16 Notch Fiter tt 80 Hz 18 Digital Fiter 0 20 Digital Filter 1 Oms 21 Enable Alarm Latch 0 Disable 22 Enable Alarm Latch 1 Disable 23 Disable Alarms 0 Alarms Enabled 24 Disable Alarms 1 Alarms Enabled 33 Low Alarm 0 32768 Low Alarm 1 Digital Filter amp 8 Enable or disable the 20 Digital Fiter 1 Ome 2 Enable AlamLatch 0 Dise F latching alarms 22 Enable Alarm Latch
35. 1 0 Defaults EDS File Groups Online Calibration C Single Upload From Device Restore Default Values Download To Device All Current Value Input Value 0 7813 Input Value tt 7813 Cold Junction Temperature 0 3121 Cold Junction Temperature 1 2994 Bad Cal Status 0 Calibration FAULT Bad Cal Status tt Calibration FAULT CJ Cal Status 0 Good Calibration CJ Cal Status 1 Good Calibration Calibration Channel Select Both Channels x Calibration Command Input Channel 1 re a a a a a a a a a Cold Junction 0 Select Cold Junction 0 Cold Cold Junction 1 Both Cold Junction _ Junction 1 or Both Cold Junction Publication 1734 UMOO4F EN E December 2012 46 Calibrate Your Module Publication 1734 UMOO4F EN E December 2012 2 Click Calibration Command and select Begin CJC Calibration General Device Parameters 1 0 Defaults EDS File Groups Online Calibration X C Singe Upload From Device Restore Default Values e Download To Device Parameter Help Start Monitor Parameter Current Value Input Value 0 7813 Input Value tt1 88 Cold Junction Temperature 0 5206 Cold Junction Temperature 1 2500 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Good Calibration Calibration Channel Select Input Channel 1 Calibration Command Jegin CJC Calibration Click calibration command and s
36. 10 Set the source to 70 mV Module terminal voltage must be exact 11 Click Accept High Input General Parameters Configuration 1 0 Data EDS Fife lE Select the parameter that you want to configure and initiate an action using the toolbar v Groups ip a _ Current Value Input Value 0 0 Input Value 1 a Cold Junction Temperature 0 0 Cold Junction Temperature 1 0 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Gand Calihration Calibration Channel Select Begin Input Calibrati 7 Calibration Command Begin Input Calibrati a Accept Low Input Accept High Input Abort Input Calibrati Begin CJC Calibration Cancel Apply Help 8 a a E a a 12 Click the Download to Device button 45 Input calibration is now complete The status indicator should be solid green normal or blinking red no load The channel can now be configured to the type of input desired for normal operation If an error occurred during calibration select Abort Calibration in the Calibration Command patameter to restore the previous calibration values and try again Cold Junction Compensation Calibration Perform this procedure from the Device Parameters dialog 1 Click Calibration Channel Select and select one channel or both channels at once 1734 IT21 B 2pt TC m Input 1 27x General Device Parameters
37. E December 2012 58 Configure Modules in RSLogix 5000 Software Publication 1734 UMOO4F EN E December 2012 2 Make entties on the dialog referring to the table for information on how to complete entries for the channel indicated For details on these parameters see the Configure Your RTD Input Module section on page 31 3 From the bottom of the dialog perform one of the following Click a tab at the top of the dialog to continue making entries Click OK to save changes and close the dialog Click Cancel to return to default values Click Apply to save changes you made on any of the dialogs and continue to display the dialog noting that you enable the Apply button when you make changes to any of the dialogs For This Value Sensor Type Temperature Units Select Ohms 100 Q Pt 385 200 Q Pt 385 100 Q Pt 3916 200 QPt 3916 10 QCu 427 120 QNi 672 100 QNi 618 120 QNi 618 Custom Scale Celsius Fahrenheit Kelvin Rankine Comments Default is 100 Pt 385 The 1734 IR2E module only supports Ohms and 100 Q Pt 385 Default is Celsius High Engineering Select from 32 768 32 767 Default is 5000 This is enabled when you select Custom Scale for Temperature Units Low Engineering Select from 32 768 32 767 Default is 1000 This is enabled when you select Custom Scale for Temperature Units Digital Filter ms Select from 0 10 000 Default is 0 Notc
38. IN013 Information about how to install 1734 TB3 and TB3S POINT 1 0 Wiring Base Assemblies Common Techniques Used The following conventions are used throughout this manual in this Manual Bulleted lists such as this one provide information not procedural steps Numbered lists provide sequential steps or hierarchical information Italic type is used for emphasis Publication 1734 UMOO4F EN E December 2012 Chapter 1 About POINT 1 0 Modules Overview Read this chapter to familiarize yourself with configurable features on the 1734 IT2L 1734 IR2 and 1734 IRZE modules The following table lists where to find specific information in this chapter Topic Page Module Features 1 Selecting a Module Input Type Communicating with Your Module Use Module Alarms Cold Junction Compensation 1734 IT2 module Oo MD cn N N Chapter Summary Module Features The module features include Input type Sensor type Data formats Preset temperature selection Fault mode Overrange alarms Underrange alarms Fault alarms You must use your programming software like Rockwell Automation RSNetWorx to configure these features See this chapter for a brief description of each module feature Use the online help included with your programming software to perform specific configuration You can find the EDS files for this module at www ab com networks eds Publication 1734 U
39. MOO4F EN E December 2012 2 About POINT 1 0 Modules Selecting a Module Input Type Communicating with Your Module Publication 1734 UMOO4F EN E December 2012 The 1734 IT2I module consists of two isolated millivolt inputs 70 mV Configure the module to do the linearization necessary for thermocouple inputs See the table for a list of supported thermocouple input types Supported Sensor Types Thermocouple mV default 70 70 mV B 572 3272 F 300 1800 C C 32 4199 F 0 2315 C E 418 1832 F 250 1000 C J 346 2192 F 210 1200 C K 418 42502 F 250 1372 C N 418 42372 F 250 1300 C R 32 3214 F 0 1768 C S 32 3214 F 0 1768 C T 418 752 F 250 400 C The 1734 IR2 consists of two RTD inputs 0 600 W Configure the module to do the linearization necessary for RTD inputs See the table for a list of supported input types Supportted Sensor Types RTD 100 Pt 0 00385 Euro 328 1598 F 200 870 C 200 Pt 0 00385 Euro 328 1166 F 200 630 C 100 Pt 0 003916 U S 328 1166 F 200 630 C 200 Pt w 0 003916 U S 328 1166 F 200 630 C 10Cu 0 00427 328 500 F 200 260 C 100 Ni 0 00618 76 482 F 60 250 C 120 Ni 0 00618 76 482 F 60 250 C 120 Ni 0 00672 76 482 F 60
40. MOO4F EN E December 2012 Advanced Setup 3 Select the digital filter desired Range is 0 10 000 ms 4 Enable or disable the latching alarms 5 Enable or disable the alarms 6 Select the notch filter 7 Apply and download to the device Configure Your Module 35 1734 IR2 B 2pt RTD Input 1 0 Defauts EDS Fle 0 atpaonees xli 2 cere n O aaen F Input Value 0 0 Input Value 1 RTD Type 0 RTD Type 1 Temperature Scale 0 Temperature Scale 1 Status 0 Status 1 Digital Filter 1 Low Low Alarm Status 0 Low Low Alarm Status 1 0 Ohms Ohms Custom Scale Custom Scale Normal Operation Normal Operation Oms No Fault No Fault Low Low Alarm 1 Low Alarm 0 Low Alarm 1 High Alarm 0 High Alarm 1 Disable Alarms 0 Disable Alarms 1 Enable Alarm Latch 1 Notch Filter 32768 32768 32768 32767 32767 High High Alarm 0 32767 High High Alarm 1 32767 Alarms Enabled Alarms Enabled Enable Latching Alarms Low Low Alarm 0 Low Low Alarm 1 Low Alarm 0 Low Alarm 1 High Alarm 0 High Alarm 1 High High Alarm 0 High High Alarm 1 Disable Alarms 1 Alarrr Enable Alarm Latch 0 Alarms Disabled Low Low Alarm 1 Low Alarm 0 Low Alarm 1 High Alarm 0 High Alarm 1 High High Alarm 0 High High Alarm 1 Disable Alarms 0 Disable Alarms 1 32768 32768 32768 32767 32767 32767 32767 Alarms Enab
41. POINT I O Thermocouple and RTD Allen Bradley Modules d Catalog Numbers 1734 IR2 1734 IR2E and 1734 IT21 User Manual Rockwell Allen Bradley Rockwell Software Automation N Important User information Solid state equipment has operational characteristics differing from those of electromechanical equipment Safety Guidelines for the Application Installation and Maintenance of Solid State Controls publication SGI 1 1 available from your local Rockwell Automation sales office or online at http literature rockwellautomation com describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Rockwell Automation Inc be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Rockwell Automation Inc cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Rockwell Automation Inc with respect to use of information circuits
42. Setup Parameters Module Basic Set up Parameters The basic parameters you need to set for the thermocouple module consist of Temperature units Select how the input is linearized mV Custom Scale default Celsius Fahrenheit Kelvin Rankine Thermocouple type Choose the type of sensor for this input The module performs the linearization of the selected type mV No Linearization Type B Type C Type E Type J Type K Type N Type R Type S Type T e Cold Junction Enable This bit enables or disables the cold junction linearization If enabled the proper cold junction compensation value is applied to the selected thermocouple If disabled the data CJ Temperature is still available but not applied to the input If the Cold Junction Compensation Removable Terminal Block is not available this parameter should be set to disabled A cold junction value can be added using the Cold Junction Offset parameter e Cold Junction Produced Data Selects how the Cold Junction Data is returned in the Produced IO message The last two bytes of the produced message contain one of the following None zeros Channel 0 default Channel 1 Average of both channels IMPORTANT The Over Under Range status is also included in the last two bytes along with the cold junction value Publication 1734 UMOO4F EN E December 2012 Configure Your Module 25
43. TD type that the input uses Valid types are shown in the table Copper RTD Offset If using the copper RTD this is the error of the Copper RTD 10 Q Cu427 in Ohms Enter a value between 250 and 250 in hundredths of Ohms such as 361 3 61 Q This value is added to the input reading before linearization Publication 1734 UMOO4F EN E December 2012 32 Configure Your Module Publication 1734 UMOO4F EN E December 2012 Advanced Setup Parameters Adv e e e e anced parameters you can set for the RTD module consist of Notch filter Select the Notch Filter for the analog to digital converter At higher frequencies faster sample rates are possible 50 Hz 60 Hz default 100 Hz 120 Hz 200 Hz 240 Hz 300 Hz 400 Hz 480 Hz If the filter value is changed the module may require calibration to meet specifications Digital filter A digital filter is available on this module You set a time constant that is used in the equation Yn Yn 1 dt dt Ta Xn Yn 1 Where Yn new data Yn 1 old data dt Channel Update Rate in milliseconds Ta digital filter time constant Xn present unfiltered data TA can be an integer from 0 to 10 000 ms If set to 0 the filter is disabled Enable alarms latch If enabled alarms for this channel latch FAULTED until a Latch Reset command is received The alarms effected are Input Status
44. This dialog appears after you click Do you want to upload the configuration from the device updating the the Device parameters tab If you 9 software s configuration or download the software s configuration to m Z the device updating the device want the existing parameters Pane O uploaded from the module select Upload The following dialog then Upload Download shows the existing parameters set on the module EX 1734 IR2 B 2pt RTD Input 27x General Device Parameters 1 0 Defaults EDS File Groups Dine c Use this pull down menu to edit or view the fatexeres singe _tUsedFiemevee_ 170 Input Values p BEES parameters Available choices are dead ca ERIT Calibration PointBus 7 Input Value 0 Groups rem T m 0 an parameters zl POINTBus 3 RTD Type 0 Ohms 4 RTD Type 1 Ohms All parameters n 173418270 20 ATO tout 1 0 Input Values 6 Temperatur 1 0 Input Status 7 dy statusno General Device Parameters vo Defaut EDS rie Configuration Configuration 8 d Staus Groups Onine Calibration 0 Daama oes Maree QEUS Td LovlowA BestoreDefauk Vales Download To Device 12 Qj LowlowA a Slat Monitor Parameter Help Parameter Current Value lt 17341T21 B 2pt TC m Input 21x RTD Type 0 Ohms General Device Parameters 1 0 Defaults EDS File DTD ape M1 Uie Temperature Scale 0 Custom Scale Groups Online Temperature Scale 1 Custom Scale D
45. Y your module calibrate 39 configure 56 install 10 73 Publication 1734 UMOO4F EN E December 2012 Rockwell Automation Support Rockwell Automation provides technical information on the Web to assist you in using its products At http www rockwellautomation com support you can find technical manuals a knowledge base of FAQs technical and application notes sample code and links to software service packs and a MySupport feature that you can customize to make the best use of these tools For an additional level of technical phone support for installation configuration and troubleshooting we offer TechConnect support programs For more information contact your local distributor or Rockwell Automation representative or visit http www rockwellautomation com support Installation Assistance If you experience a problem within the first 24 hours of installation review the information that is contained in this manual You can contact Customer Support for initial help in getting your product up and running United States or Canada 1 440 646 3434 Outside United States or Use the Worldwide Locator at http www rockwellautomation com support americas phone en html or contact Canada your local Rockwell Automation representative New Product Satisfaction Return Rockwell Automation tests all of its products to ensure that they are fully operational when shipped from the manufacturing facility However if your
46. all the 1734 FPD Series B POINT 1 0 Field Potential Distributor Module POINT I O Selection Guide publication 1734 SG001 A description and overview of the 1734 and 1734D series POINT 1 0 modules and compatible control platforms Also includes an overview of how to specify a POINT I O system Protected Output Modules Installation Instructions publication 1734 IN056 Relay Output Modules Installation Instructions publication 1734 IN055 Sink Input Modules Installation Instructions publication 1734 IN051 Information about how to install 1734 OB2E OB4E and OB8E Series C POINT 1 0 Protected Output Modules Information about how to install 1734 0W2 and 1734 OW4 Series C POINT I O 2 or 4 Relay Output Modules Information about how to install 1734 IB2 1734 IB4 1734 IB8 Series C POINT 1 0 Input Modules Source Output Modules Installation Instructions publication 1734 IN052 Information about how to install 1734 IV2 IV4 and IV8 Series C POINT I O Source Input Modules Very High Speed Counter Modules Installation Instructions publication 1734 IN003 Information about how to install 1734 VHSC5 and 1734 VHSC24 Series C POINT 1 0 5V DC and 24V DC Very High Speed Counter Modules Wiring Base Assembly Installation Instructions publication 1734 IN511 Information about how to install 1734 TB and TBS POINT I O Wiring Base Assemblies Wiring Base Assembly Installation Instructions publication 1734
47. ata format in your user program Select the format These are four predefined scales and one custom scale Data Formats Predefined Scale mV Custom Scale C Celsius OF Fahrenheit K Kelvin R Rankine C E R and K returns data in tenths of a degree 250 implies 25 0 For the 1734 IR2 F C F R and K returns data in hundreths of a degree 250 implies 2 50 If scaling is set to 10 000 and 20 000 the module returns hundredths of an ohm 12345 implies 123 45 For the 1734 IR2 if using ohms the default data returned is in tenths of ohms 1234 implies 123 4 Q For the 1734 IT2 if using mV the default data is returned in hundredths of a mV or tens of a UV 3500 implies 35 00 If the input scale is custom scale you can specify scaling points as shown in the table 1734 IT21l Thermocouple Input Module 1734 IR2 RTD Input Module Thermocouple Low Scaling High Scaling RTD Type Low Scaling High Scaling Type Endpoint Endpoint Endpoint Endpoint mV 0 mV 70mV Ohms 100 Q 500 Q Type B 212 F 100 C 1832 F 1000 C 100 QPt 0 00385 Euro 32 F 0 C 932 F 500 C Type C 32 F 0 C 4199 F 2315 C 200 Pto 0 00385 Euro 32 F 0 C 932 F 500 C Type E 32 F 0 C 1832 F 1000 C 100 QPto 0 003916 U S 32 F 0 C 932 F 500 C Type J 32 F 0 C 1832 F 1000 C 200
48. ber 2012 5 bere woes Counter Module EHE Vendor E Qn Rockwell Automation Allen Bradley g of H 4 gt WN Graph Spreadsheet y Maste Sk zi Onine Not Browsing Z Configure Your Module 21 The out of the box node setting for 1734 modules is 63 You can change the setting by using the node commissioning tool The node commissioning tool is available either online or offline DeviceNet4test RSNetWorx for DeviceNet 5I Ele Edt View Network Device Tools Help En S S amp amp amp elfe n Te Hardware y A734 0EOV R 1734 IEOVIR 1734 VHGC2A 2 A734 MEA ED DeviceNet 3 Node Commissioning HO Category 8 D AC Dive larcode Scanner lommuricalion Adapter leviceNet to SCANport odge EZLINK jeneral Purpose Discrete 1 0 ienetic Device Juman Machine Interface ductive Proximity Switch 4 a Select a device by using the browsing service 2 1 Go to the Tools pull down menu Current Settings Address Data Rate 2 Select Node Commissioning 3 Click Browse on an active LERI ike effect unti power lockwell Automation miscellaneous CANport Adapter mart MCC Specialy 1 0 MAC ID 54D Vendor Md EH Rockwell Automation Alen Bradley 2 5l sg B Rockwell Automation Dodge pias Ee ajii Not 4 Select the module to change 8 Rockwell Automation ElectioCraft Motion E
49. ble only by the use of a tool Subsequent sections of this publication may contain additional information regarding specific enclosure type ratings that are required to comply with certain product safety certifications See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the Allen Bradley publication 1770 4 1 Industrial Automation Wiring and Grounding Guidelines for additional installation requirements pertaining to this equipment Install the Mounting Base The wiring base assembly 1734 TB or 1734 TBS consists of the following Mounting base catalog number 1734 MB e Removable terminal block catalog number 1734 RTB or 1734 RTBS The wiring base assembly 1734 TBCJC consists of the following Mounting base catalog number 1734 MB e Removable terminal block catalog number 1734 RTBCJC Publication 1734 UMOO4F EN E December 2012 Install the Module 9 POINT 1 0 is grounded through the DIN rail to chassis ground Use zinc plated yellow chromated steel DIN rail to assure proper grounding The use of DIN rail materials such as aluminum and plastic that can corrode oxidize or are poor conductors can result in improper or intermittent grounding Secure DIN rail to mounting surface approximately every 200 mm 7 8 in You can install the assembly
50. channel s has been completed successfully Channel 0 Success The calibration constants of the channel s have been saved Retry Einish Help Work with Dialogs for Thermocouple Modules Complete entties for the following dialogs for thermocouple modules Configuration Alarm Configuration Calibration Configuration Dialog The Configuration dialog displays configuration parameters for each channel in individual rows on the grid The 1734 IT21 module has two input channels The Configuration dialog does not display for Listen Only connections To complete the entries on this dialog proceed as follows Publication 1734 UMOO4F EN E December 2012 Configure Modules in RSLogix 5000 Software 63 1 Click Configuration to display the dialog x General Connection Module Info Configuration Alarm Configuration Calibration Status Offline Cold Junction Notch Filter Cold Junction Mode 60Hz hd Channel 0 Cancel Apply Help 2 Complete entries for the channel indicated per the table For more details about these parameters see see Configure Your Thermocouple Input Module on page 24 3 From the dialog perform one of the following Click a tab at the top of the dialog to continue making entries Click OK to save changes and close the dialog Click Cancel to return to default values Click Apply to save changes you made on any of the dialogs and continue to
51. channel underrange alarm is set if the input is less than the minimum temperature thermocouple or RTD range dependent millivolt 75 mV or resistance 10 Q range value or below the minimum range of the thermocouple or RTD The cold junction compensator has its own underrange alarm If the CJC temperature goes below 0 C the underrange alarm is set Level Alarms 1734 IT2I 1734 IR2 and 1734 IR2E modules The following level alarms are available Low Publication 1734 UMOO4F EN E December 2012 6 About POINT 1 0 Modules Cold Junction Compensation 1734 IT2I module Chapter Summary Publication 1734 UMOO4F EN E December 2012 Low Low High High High When the channel input goes below a low alarm or above a high alarm a bit is set in the data table All Alarm Status bits can be read individually or by reading the Channel Status Byte Bits 2 5 for channel 0 bits 10 13 for channel 1 You can configure each channel alarm individually Open wire Alarm 1734 IT2I 1734 IR2 and 1734 IR2E modules The module has the ability to check for a broken or detached wire In any mode if a broken detached lead is detected the data value is forced to maximum and the overrange alarm is set Once the alarm is issued it remains active as long as the input signal is faulted When using thermocouples cold junction compensation is required at the termination of the thermocouple wire Accomplish a cold junction in the
52. ction types 55 conventions x D data understanding 55 Data format type 55 DIN rail locking screw position 11 E EDS files configuration 17 F formula Absolute Accuracy 69 Accuracy 69 full scale value 70 l 1 0 Status check defaults 36 install module 10 installation removable terminal block 12 wiring base assembly 9 K keyswitch position 10 1734 IT2l 11 1734 RTD 11 L Listen Only 55 manuals related ix Module 1 module 1 shipping state 39 Module Connection Formats 56 Publication 1734 UM004F EN E December 2012 72 Index Modules configure in RSLogix 5000 55 modules overview 1 mounting base assembly 8 mounting base removal 13 node commissioning tool 21 node setting out of box 21 0 Overview 1734 POINT 1 0 1 P parameter setting 22 29 position the keyswitch 10 publications related ix purpose of this manual ix Rack Optimization 55 related documentation ix related publications ix RSNetWorx commisioning tool 18 RTB install and remove 12 Publication 1734 UMOO4F EN E December 2012 S SAA 19 sequential auto addressing steps to apply 19 Sequential AutoAddress 19 set module parameters 22 29 setup calibration 40 48 T third party configuration software 19 tools calibration 48 U Understanding communication formats 55 Understanding connection 55 Understanding data 55 V value full scale 70 viewing EDS files 36 W wiring base assembly 8
53. d to a DeviceNet network connected via a point to point connection The node commissioning tool works through RSLinx RSNetWorx does not have to be online when performing the operation Before you can add any device to a DeviceNet network it must be commissioned This means that a node address and a data rate must be programmed into the device Some devices are precommissioned meaning a node address usually set to 63 and a data rate usually set to 500 Kbps are programmed into the device at the factory prior to shipment Other devices muse be commissioned in the field Once a device is commissioned and attached to a network you can use the RSNetWorx for DeviceNet node commissioning tool to edit the node address and data rate that were set previously IMPORTANT Exercise caution while editing node addresses when ona network When you apply a new node address it immediately overwrites the node address data in the device currently specified If you decide to reassign node addresses you should first determine the order you use so that all the devices still have unique node addresses when you are finished For example if two of the devices on your network are a photoelectric sensor and a hand controller and you accidentally change the node address of the hand controller to be the same as that of the photoelectric sensor then the photoelectric sensor no longer has a unique address which means that it is not be able to provide data
54. e to remove the base and replace as Terminal Block necessary without removing any of the wiring To reinsert the removable terminal block proceed as follows Publication 1734 UMOO4F EN E December 2012 Install the Module 13 1 Insert the RTB end opposite the handle into the base unit which has a curved section that engages with the mounting base r Hook the RTB end into the mounting base end and rotate until it locks into place 2 Rotate the terminal block into the mounting base until it locks itself in place 3 If an I O module is installed snap the RTB handle into place on the module WARNING When you connect or disconnect the removable terminal block RTB with field side power applied an electrical arc can occur This could cause an explosion in hazardous location installations Be sure that power is removed or the area is nonhazardous before proceeding Remove a Mounting Base To remove a mounting base you must remove any installed module and remove the removable terminal block if wired WARNING When you connect or disconnect the removable terminal block RTB with field side power applied an electrical arc can occur This could cause an explosion in hazardous location installations Be sure that power is removed or the area is nonhazardous before proceeding 1 Unlatch the RTB handle on the I O module 2 Pull on the RTB handle to remove the removable terminal block 3 Pre
55. ec ibo pa qu s 33 Basie Setup us aw Ro Vue Mos Gane an CIO RC M V ai odo i o 35 Advanced ELLs a r tieni en UM ede rer a aset Ed S era 36 Set the RTD Input Module Parameters Using RSNetWorx 37 Configure Your RTD Input Module 22e ert e a 39 Basic Setup Parameters iius io kth o ha MEME RIAM E ROREM EE 39 Advanced Setup Parameters uus o4 dee eo kae t re Bek ed arto 40 Basie Setups ot etae e eve pip A ea iuba RT Rey RA 42 Adyanced DOE ener od asd Gee stu e d RC Ne RUE 43 Check I O Status and View the EDS File 0 0 0 0 44 TY SA A2 T modules cio ste oet ut edes Rond 44 1734 IR2 and 1734 IR2E modules 0 0 0 0 ee eee 45 Chapter Sum asy vss op e etia S aeo tos ets du cael d at o 46 Chapter 4 rc CT 47 When and How to Calibrate Your Module 47 Calibration Metbad sessanta RITR ESSA 47 Tools and Equipment Required to Calibrate Your Thermocouple Module4 os ce ete red ie 47 Calibrate the Thermocouple Input Module 48 Access Calibration Parameters in RSNetWorx sss 49 Input tn VC allbE3UOfia 2a satmararny Seder he arid Parco oed todd ain dede 50 Cold Junction Compensation Calibration seus 53 Tools and Equipment Required to Calibrate Your RID Modulen ud pem Up tri etes as eb eee Oa ET ESTER 56 Calibrate the RTD Input Module isch e eere xe ds 56 Chapter Summary oues o eat nad ch re CR CN CNN DI CORE Ao ACA 60 Chapter 5 OPEV ee vetture ditate adiret cb ere
56. eds commissioning due to missing incomplete or incorrect configuration Flashing red Recoverable fault is present Red Unrecoverable fault may require device replacement Flashing Device is in self test red green Publication 1734 UMOO4F EN E December 2012 54 Troubleshoot the Module Chapter Summary Publication 1734 UMOO4F EN E December 2012 Network status Channel status IMPORTANT Indicator Sta tus for Module Status Off Description Device is not online Device has not completed dup MAC id test Device not powered check module status indicator Hashing green Device is online but has no connections in the established state Green Device online and has connections in the established state Hashing red One or more 1 0 connections are in timed out state Red Critical link failure is present with failed communication device Device detected error that prevents it from communicating on the network Flashing Communication faulted device the device red green detected a network access error and is in communication faulted state Device received and accepted an Identify Communication Faulted Request long protocol message Off Module is in CAL mode Solid green Normal state is present with channel scanning inputs Flashing green Channel being calibrated Solid ged Flashing ged Major channel fault is present Channel is at end of range
57. el Apply Help 1734 1T21 B 2pt TC m Input 27x 2 Click the EDS File tab to display the statistics of the EDS file used to configure this module General Device Parameters 1 0 Defaults EDS File The Electronic Data Sheet EDS file is used to convey configuration information about this device This information has been provided by the device manufacturer File information Creation time 06 30 10 File Edit Creation date 08 03 2000 File Modification time 14 28 00 1 8 gt 21 DescText PointIO 1734 IT2I B cies dl CreateDate 08 03 2000 f CreateTime 06 30 10 ModDate 05 21 2001 7 s r ModTime 14 28 00 3 Click View File to view Revision 2 1 the actual EDS file Device VendCode 1 shown VendName Allen Bradley Company Inc ProdType 115 ProdTypeStr Miscellaneous I O ProdCode 49 MajRev 2 MinRev 5 ProdName 1734 IT2I B 2pt TC mV Input Catalog 1734 IT2I B You can view the actual Icon i734brown ico EDS file or edit the file Params Parami 0 6 20 OA 24 01 30 03 Link Path Size Link Path 0x0030 Descriptor 3 2 Data Type Data Size Input Value 0 Value of thermocouple input scaled to chosen units 32768 32767 0 11 10 Publication 1734 UMOO4F EN E December 2012 Configure Your Module 37 1734 IR2 and 1734 IR2E modules 1734 IR2 B 2pt RTD Input MEI General Device Parameters 1 0 Defaults
58. elect Begin CJC calibration Then download to the module 5 a a a a a a a a 3 Click the Download to Device button 4 Using a 1734 RTB removable terminal block apply 1000 Q to the selected CJC channel referring to the wiring diagram in this section 5 Select Accept Low CJC and download to the device General Device Parameters 1 0 Defaults EDS File Groups Online Calibration zl Single Upload From Device Restore Default Values Cla Download To Device Parameter Help Start Monitor Parameter Current Value Input Value 0 Input Value 1 Bad Cal Status 0 Bad Cal Status 1 CJ Cal Status 0 CJ Cal Status 1 E E E E E E E E Calibration Channel Select Calibration Command selected CJC channel 7813 101 Cold Junction Temperature 0 5206 Cold Junction Temperature 1 2500 Good Calibration Good Calibration Good Calibration Good Calibration Both Channels accent Low CJC x 6 Using a 1734 RTB removable terminal block apply 3000 Q to the Calibrate Your Module 47 7 Select Accept High CJC and download to the device 8 1734 1T21 B 2pt TC m Input 21x General Device Parameters 1 0 Defaults EDS File Groups Online Calibration x C Sinde Upload From Device Bestore Default Values T7 Download To Device Parameter Current Value Input Value 0 7813 Input Value tt 101 Cold Junction Temperature 0 5206 C
59. els select One At a Time or In Groups to calibrate multiple channels 5 Click Start Calibration which is active when the system is online you selected at least one of the channels Note that you can press the F1 button on your keyboard or click Help from the wizards and warning messages that appear to get detailed information about the procedures for calibration If a Danger dialog appears the module is not inhibited Calibration for channel 0 shown d Danger Calibration should not be performed on a module currently being used for control All channels will freeze at their current values and control may be interrupted Continue with Calibration mee Cancel Help 6 From the Danger dialog for a module not currently used for control click Cancel and inhibit the module before you begin calibration The Low Value dialog appears Input Calibration Low Value xj Attach Low Reference source s to the following channel s Channel 0 Press Next to start the Low Reference Calibration 4 m Retry Finish Help 7 From the Low Value dialog click Next to start calibration The High Value dialog appeats Input Calibration High Value xi Attach High Reference source s to the following channel s Channel 0 Press Next to start the High Reference Calibration 20 m Finish Help Publication 1734 UM004F EN E December 2012 68 Configure Modules in RSLogix 5000 Software
60. emperature Scale 1 2000hm Pt 385 35 Low Scaling 0 e More 36 Low Scaling 1 UUU 37 High Scaling 0 5000 38 High Scaling 1 5000 8 Digital Filter 0 Oms 10 Digital Filter 1 D ms 19 Low Low Alarm 0 32768 BEUZITCETDDICTNHN LET General Device Parameters 1 0 Defaults EDS File 2 Then select the scale Onine Groups for channel 0 Repeat Configuation I e singe Upload From Device for channel 1 Restore Default Values T Download To Device Parameter Help B Start Monitor Current Value RTD Type 0 Ohms RTD Type 1 Ohms Temperature Scale 0 Custom Scale 7 Temperature Scale 1 Custom Scale Low Scaling 0 DegC Low Scaling 1 DegF High Scaling 0 Degk High Scaling 1 Digital Filter 0 Oms Digital Filter 1 Oms Low Low Alarm 0 32768 Low Low Alarm 1 32768 General Groups Configuration x Sinde Upload From Device Restore Default Values eit Download To Device Parameter Help Start Monitor This is the error of Copper RTD 10 Q as 77 Cu427 in O hms Enter value between High Alarm 0 32767 250 and 250 in hundredths of Ohms HAS d such as 361 3 61 Q If you are using a High High Alarm 1 32767 copper RTD this value is added to the Dials lms M Als Ended input reading before linearization Enable Alarm Latch 0 Disable Enable Alarm Latch 1 Disable Notch Filter Copper RTD Offset 0 Copper RTD Offset tt 0 Publication 1734 U
61. es for the following dialogs as explained in this appendix Configuration Alarm Configuration Calibration Use the Help Button Working with Dialogs Configure Modules in RSLogix 5000 Software 57 From the Configuration Alarm Configuration and Calibration dialogs click Help at the bottom of the dialog for information about how to complete entries on the dialogs Prom a warning dialog click Help at the bottom of the dialog to get information about that specific error Follow these procedures to complete entries for the dialogs associated with using RTD and thermocouple modules You typically display these dialogs from the General dialog Work with Dialogs for RTD Modules Complete entries for the following RTD dialogs Configuration Alarm Configuration Calibration Configuration Dialog This dialog does not appear for Listen only options The dialog displays configuration parameters for each channel in individual rows on the grid The 1734 IR2 and the 1734 IRZE modules have two input channels To complete entries on this dialog proceed as follows 1 From the General dialog click Configuration to display the following Configuration dialog imi Module Properties myAENT 2 1734 IR2 C 3 1 Temperature Channel Sensor Type Unis 0 100 ohmPt385 wf Celsius 100 ohm Pt385 Celsius gt Notch Filter 60Hz Status Offline Cancel Apply Help Publication 1734 UM004F EN
62. g on the version of RSNetWorx software you are using The EDS editor may ask you if you want to upload the configuration from the device EDS Editor x Do you want to upload the configuration from the device updating the C software s configuration or download the software s configuration to 1 the device updating the device For more information press F1 Upload Download 3 If you do not see the EDS editor dialog proceed with the next step otherwise from the EDS editor dialog click Upload Publication 1734 UMOO4F EN E December 2012 42 Calibrate Your Module Input mV Calibration Publication 1734 UMOO4F EN E December 2012 4 From the Device Parameters dialog select Calibration at the Groups pull down ESIZZETLE SEZITT ES General Device Parameters 0 Defaults EDS Fie Online e GUESS This is the Groups pull down Coitrstio Single Betws Detutvaues o py Bemi To Derer Parameter Help T Start Monitor Sz Parameter CurentVaue 1 3j Input Value 0 7813 2 InputValue tt 7813 9 3 ColdJunction Temperature 0 0 10 ColdJunction Temperature H 0 45 BadCalStatus 0 Good Calibration 46 Bad Cal Status 1 Good Calibration 17 ClCalStatus 0 Good Calibration 18 O Cal Status 1 Good Calibration 58 Calibration Channel Select None 58 Calibration Command Do Nothing Before calibrating the module you need t
63. h Filter TIP 50 Hz 60 Hz 100 Hz 120 Hz 200 Hz 240 Hz 300 Hz 400 Hz 480 Hz Default is 60 Hz The 1734 IR2E can display temperature in tenths Choose Custom Scale and set low scaling to 0 and high scaling to 3000 Configure Modules in RSLogix 5000 Software 59 Alarm Configuration Dialog This dialog does not appear for Listen Only options The dialog displays alarm configuration parameters for each channel in individual rows on the grid The 1734 IRZ module has two input channels To complete entries on this dialog proceed as follows 1 Click Alarm Configuration to display the dialog imi Module Properties myAENT 2 1734 IR2 C 3 1 General Connection Module Info Configuration Alarm Configuration Calibration r Channel Es pna Disable All Alarms EET Process Alarms Unlatch All High High P7392 Unlatch T Latch Process Alarms High se m Low 337904 Unlatch Low Low 290072 Unlatch Unlatch Status Offline Cancel Apply Help 2 From the top of the dialog at Channel click a push button to select a channel with the selected push button appearing pressed 3 From the dialog make entries referring to the table that shows how to complete entries for the channel you selected 4 From the dialog perform one of the following Click a tab at the top of the dialog to continue making entries Click OK to save changes
64. ingle or download all your Low Scaling tf changes using All If you High Scaling 0 u n High Scaling 1 press the Apply button only NO EIU the selected parameter is Notch Filter 1 Digital Filter 0 downloaded to the module Digtal Fiter 1 Click here when finished OK Cancel Apply Help Use the procedures in the figures that show basic setup and advanced setup noting that you complete steps 1 5 during basic setup then continue with steps 6 10 during advanced setup Publication 1734 UM004F EN E December 2012 Configure Your Module 27 Basic Setup 1734 1T21 B 2pt mV Input 21x General Device Parameters 1 0 Defaults EDS File Groups Online Configuration x Singe __ Upload From Device 1 Select the Besse Deinde c Download To Device temperature scale EPEE Stat Monitor Parameter Current Value Kl Temperature Units 0 v Custom Sca z 4 Temperature Units t1 WV Custom Scale 7 Thermocouple Type 0 8 Thermocouple Type 1 11 Low Scaling 0 12 Low Scaling 1 734 1T21 B 2pt TC mV Input 1 General Device Parameters i 0 Defaults EDS File Groups ooon Configuration E esine 2E From Device Download To Device of thermocouple E Beste Defaut Values yp B Parameter Hep Start Monitor Parameter Current Value Temperature Units 0 mV Custom Scale Temperature Units 1 mV Custom Scale Thermocouple Type 0 ni tno inearizaic e
65. insert or remove the module while backplane power is on an electrical arc can occur This could cause an explosion in hazardous location installations Be sure that power is removed or the area is nonhazardous before proceeding Repeated electrical arcing causes excessive wear to contacts on both the module and its mating connector Worn contacts may create electrical resistance that can affect module operation 1 Using a bladed screwdriver rotate the keyswitch on the mounting base clockwise till the number required for the type of module you are installing aligns with the notch in the base Publication 1734 UMOO4F EN E December 2012 Install the Module 11 1734 RTD Position 6 1734 IT2I Position 6 Turn the keyswitch to align the number with the notch I J Notch 2 T PO 1 co d position 6 shown I E 2 Make certain the DIN rail locking screw is in the horizontal position noting that you cannot insert the module if the locking mechanism is unlocked Make sure the DIN rail locking screw is in the horizontal position Publication 1734 UM004F EN E December 2012 12 Install the Module 3 Insert the module straight down into the mounting base and press to secure locking the module into place A removable terminal block comes with your mounting base assembly To nsta e nhemovapie y 8 y remove pull up on the RTB handl
66. ion which is active when the system is online and you selected at least one of the channels Note that you can press the F1 button on your keyboard or click Help from the wizards and warning message that appear to get detailed information about the procedures for calibration A Danger dialog appears RSLogix 5000 EN xj Danger Calibration should not be performed on a module currently being used For control All channels will freeze at their current values and control may be interrupted Continue with Calibration Gea me 5 From the Danger dialog for a module not currently used for control click Continue The Low Value dialog appears Attach Low Reference source s to the following channel s Channel 0 Press Next to start the Low Reference Calibration 100 Ohms Retry Einish Help Publication 1734 UMOO4F EN E December 2012 62 Configure Modules in RSLogix 5000 Software 6 From the Low Value dialog click Next to start calibration The High Value dialog appears x Attach High Reference source s to the following channel s Channel 0 Press Next to start the High Reference Calibration 200 Ohms Finish Help 7 From the High Value dialog click Next to start calibration The Calibration Completed dialog appears It shows that you saved the changed calibration constants of the channel Calibration Wizard Calibration Completed EI xi Calibration of the following
67. ion Command and select Begin Calibration EX 1734 IR2 B 2pt RTD Input ixi General Device Parameters 1 0 Defaults EDS File Restore Default Values CAI DownosdToDewice DownosdToDewice Device ___StatMoritor Monitor Groups Online Calibration 7 G Sinde Upload From Device Parameter Help 3 Parameter Current Value Input Value 0 Input Value 1 Bad Cal Status 0 Bad Cal Status 1 990 1002 Good Calibration Good Calibration Calibration Command Peon Calibration z Calibration Channel Select Begin Calibration Select Begin Calibration on the calibration command pull down menu Accept Low Calibration Accept High Calibration Abort Calibration 7 Click the Download to Device button Both channel status indicators turn off 8 From the General Parameters dialog click the Download to Device button 9 Using a 0 05 accurate resistance box apply 100 00 Q to the input assuming that you have selected Ohms as the RTD type for the channel being calibrated Calibrate Your Module 51 10 From the General Parameters dialog click Accept Low Calibration X 1734 IR2 B 2pt RTD Input BE General Device Parameters 0 Defaults EDS Fie Groups Online Calibration z C Singe Upload From Device Restore Defaut Values Download To Device Parameter Help ___StatMonitor Parameter Current Value 1 Input Value 0 0 2 Input Value 1 0 43 Bad
68. kbox indicates that the alarm is disabled An attempt to write a non valid any Spare value into the 1 0 Disable all Alarms field will cause a profile validation error If the alarm is disabled the whole line for the channel can be disabled for alarms Disable in Hard Run Mode only Unlatch Click the push button next to the alarm Click the Unlatch button to unlatch each alarm individually This feature is disabled when offline and in Hard Run mode Latch Process Alarms Click to check the checkbox Calibration Dialog Click to unlatch all alarms together This feature is disabled when offline and in Hard Run mode To complete entries on this dialog proceed as follows Perform calibration in Hard Run or Remote mode Configure Modules in RSLogix 5000 Software 61 1 Click Calibration to display the dialog imi Module Properties myAENT 2 1734 IR2 C 3 1 General Connection Module Info Configuration Alarm Configuration Calibration Apply power to the power supply and module for at least 10 minutes before calibrating the module Channel Calibrate Calibration Points Start Calibration Oa 100 and 500 Ohms mI 7 100 and 500 Ohms Calibrate Channels C In Groups One At a Time Status Running Cancel Apply Help 2 Check the Calibrate checkbox to specify which channel to calibrate 3 Under Calibrate Channels select One At a Time 4 Click Start Calibrat
69. led Alarms Enabled Enable Alarm Latch 0 Enable Alarm Latch 1 Disable Disable Publication 1734 UMOO4F EN E December 2012 36 Configure Your Module Check 0 Status and View View the I O defaults setup and the EDS file by clicking the appropriate tab the EDS File 1734 IT21 module EX 17341T21 B 2pt TC m Input 21x 1 Click the 1 0 Defaults tab to General Device Parameters 1 0 Defaults EDS File display the default Hos Onine characteristics for this module i parameters Gu ease tore Default Valu Download To Device e CA Aee 7 Parameter Help Star General Device Parameters 1 0 Defaults EDS File PA s Parameter Current Th Is d la og shows the Input Value 0 7813 These are the default l characteristics for this device The values are input output defaults for the Input Value 1 7813 obtained ftom the EDS fie f d Temperature Units 0 mY C our modes Temperature Units 1 mV C Slobed Strobe Status 0 FAULT 4 1734472 Produce size 8 Status 1 FAULT i Polled Thermocouple Type 0 0 Unesco Gotput he Change of state and Thermocouple Type 1 0 Polled s Cold Junction Temperature 0 0 e 17344T21 Produce size 8 Input help Cyclic Cold Junction Temperature tt1 0 QU EE ELT Low Scaling 0 0 tput size e Low Scaling 1 0 cos gj 17344TAI Produce size 8 Input help TW Oii ene SSS URS B 17344721 Produce size 8 Input help Output size 0 E OK Canc
70. led the whole line for the channel can be disabled for alarms Disable in Hard Run Mode only Unlatch Click the push button Click the Unlatch button to unlatch each next to the alarm alarm individually This feature is disabled when offline and in Hard Run mode Latch Process Click to check the Click to unlatch all alarms together Alarms checkbox This feature is disabled when offline and in Hard Run mode Calibration Dialog To complete the entries on the Calibration Dialog proceed as follows Module must be inhibited before you can begin calibration IMPORTANT Click Calibration to display the dialog Publication 1734 UMOO4F EN E December 2012 Configure channels that will be calibrated to MV Sensor Type and apply imi Module Properties myAENT 2 1734 IT2I C 3 1 E EXIT x General Connection Module Info Configuration Alarm Configuration Calibration Apply power to the power supply and module for at least 10 minutes before calibrating the module Channel Calibrate Calibration Points Type of Calibration 0 and 70 mv Input 1 mj 0 and 70 mv C Cold Junction Start Calibration Calibrate Channels n Groups C One Ata Time Status Connecting Cancel p Help Check the Calibrate checkbox to specity channels to calibrate For Type of Calibration select one of the following Input Cold Junction Configure Modules in RSLogix 5000 Software 67 4 For Calibrate Chann
71. ng up your channel selections and select a channel or select both 27 1734 IR2 B 2pt RTD Input x General Device Parameters vo Defaults EDS File Groups Online Calibration C Singe Upload From Device Restore Default Values qi Download To Device Parameter Help Start Monitor Current Value 0 Input Value 0 Input Value 1 0 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration Calibration Command Begin Calibration Calibration Channel Select None None Select the desired channel Charrelt or select Both Channels Both Channels Publication 1734 UMOO4F EN E December 2012 50 Calibrate Your Module Publication 1734 UMOO4F EN E December 2012 5 From the Device Parameters dialog select Calibration at the Groups pull down 1734 IR2 B 2pt RTD Input General Device Parameters 1 0 Defaults EDS File Groups m Online Calibration euge bea Bom Device Restore Default Values C All Parameter Help Download To Device Start Monitor S Parameter Current Value 1 Input Value 0 990 2 Input Value 1 1002 43 BadCalStatus 0 Good Calibration 44 BadCalStatus 1 Good Calibration 45 Calibration Command ES Calibration z 46 Calibration Channel Select Begin Calibration Accept Low Calibration Accept High Calibration Abort Calibration This is the Groups pull down menu 6 Click Calibrat
72. o Input Status ae Upload From Devi Low Sealing 0 1000 TEBICERETSNIM rc Ur side Low Scaling f 1000 Status Beste Defaut Values Ca BowieedToDesie High Scaling 0 5000 Start Monitor Curent Value FAULT Normal Operation No fault No fault Over Range FAULT No fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault No Fault Calibration FAULT Good Calibration Do Nothing Parameter Help B Parameter Status 0 Status tfl Under Range Alarm Status 0 Under Range Alarm Status 1 Over Range Alarm Status 0 Over Range Alarm Status 1 Low Alarm Status 0 Low Alam Status 1 High Alarm Status 0 High Alarm Status 1 Low Low Alarm Status 0 Low Low Alarm Status 1 High High Alarm Status 0 High High Alarm Status tfl Cold Junction Underrange 0 Cold Junction Underrange 1 Cold Junction Overrange 0 Cold Junction Overrange 1 Bad Cal Status 0 Bad Cal Status 1 Reset Latched Alarms E E E E E E E EP E E E E E E E E E E E E Publication 1734 UMOO4F EN E December 2012 5000 Oms Oms 32768 32768 32768 32768 32767 32767 32767 32767 Alarms Enabled Alarms Enabled Disable High Scaling 1 Digital Fiter 0 Digital Fiter 1 Low Low Alarm 0 Low Low Alarm 1 Low Alarm 0 Low Alarm 1 High Alarm 0 High Alarm 1 High High Alarm 0 High High Alarm 1 Di
73. o select the sensor type and download it to the module Perform the following procedure from the Device Parameters dialog IMPORTANT Apply power to the power supply and module for at least 10 minutes before calibrating the module Delete all 1 0 connections by removing the module from its master s scan list and inhibiting the module in RSLogix When there is no connection present the Network Status Indicator should flash green Calibrate Your Module 43 1 From the Configuration tab set the Thermocouple Type to mV no linearization for the channel s to be calibrated and download to the module 1734 1T21 B 2pt TC m Input x General Parameters Configuration o Data EDS File m Select the parameter that you want to configure and z initiate an action using the toolbar v Groups Ig QU mh Monitor We o Parameter f Configuration Temperature Units 0 Deg C Temperature Units 1 Deg C Thermocouple Type 0 m no linearization Thermocouple Type 1 mM no inearization Low Scaling 0 0 Low Scaling 1 0 High Scaling 0 7000 High Scaling 1 7000 Notch Filter 0 60 Hz Notch Filter 1 60 Hz Digital Filter 0 Oms Digital Filter 1 Oms Fnahle Alarm I atch an Disable 2 Open the Device Parameter tab and click Calibration Channel Select to bring up your channel selections 1734 1T21 B 2pt TC m Input x General Parameters Configuration 1 0 Data EDS Fite Select the
74. old Junction Temperature 1 2500 Bad Cal Status 0 Calibration FAULT Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Good Calibration Calibration Channel Select Both Cold Junction Calibration Command Accept Low CJC x E E E E E E E E Abort Input Calibratio 4 Begin CJC Calibratior 8 If RSNetWorx reports a communication error or if an error occurred during this calibration abort calibration and try again Calibration is done as soon as High and Low calibration for the selected channels is done successfully 1734 IT21 B 2pt TC m Input Tx General Device Parameters 1 0 Defaults EDS File Groups Online 7j T gu Pead Fiom Device Restore Default Values on Download To Device Parameter Help d Start Monitor Parameter Current Value Input Value 0 7813 Input Value 1 7813 Cold Junction Temperature 0 0 Cold Junction Temperature 1 0 Bad Cal Status 0 Good Calibration When the calibration is Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration accepted by the module it DES Status 1 Good Calibration sets the Bad Cal Status bit alibration Channel Select None Calibration Command Do Nothing for the channel to Good Calibration as shown here Cancel Apply Help Repeat above steps to calibrate the other channel if you chose to calibrate only one channel at a time Both high and low inputs m
75. ort Rack Publication 1734 UMOO4F EN E December 2012 56 Configure Modules in RSLogix 5000 Software Configure Your Module Publication 1734 UMOO4F EN E December 2012 Optimized Connections They only suppott direct Data default and Listen Only Connections Module Connection Formats Adapter Communication Formats Possible Module Connection Formats Listen Only Rack Optimization Data default Listen Only None Data default Listen Only Rack Optimization Data default Listen Only When you change Connection and Data Format you do not delete the existing module you do not create a new module you bring forward all possible configuration data for the new setting configuration data that you cannot bring forward sets to the default value Once you apply new settings this becomes the base configuration for the next change in Connection and Data Format settings When you select Apply you lose all configuration data from previous data formats Perform this procedure to configure your module in RSLogix 5000 software 1 Configure your adapter Refer to the user manual for your adapter for information on how to configure the adapter and add modules to the I O configuration to include the following Select a controller Select a communication module 2 Adda 1734 IR2 1734 IR2E or 1734 IT2I module according to the instructions in your adapter user manual 3 Complete entri
76. our Module This chapter describes how to configure your thermocouple input module with RSNetWorx Topic Page Configuration Overview 17 Commissioning a Node 17 Add the Adapter to Your Network 19 Set the Thermocouple Input Module Parameters 22 Using RSNetWorx Configure Your Thermocouple Input Module 24 Set the RTD Input Module Parameters Using 29 RSNetWorx Configure Your RTD Input Module 31 Check I 0 Status and View the EDS File 36 Chapter Summary 37 Configuring POINT I O modules is as easy as point and click RSNetWorx lets you identify the network and configure the I O modules with Electronic Data Sheet EDS files just point to the field and click your selection To obtain EDS files for use in configuration go to http www ab com networks eds In this chapter you leatn how to do the following Add the adapter to the system Commission individual modules in the system Set the individual modules parameters Here are the methods for commissioning nodes Use the RSNetWorx commissioning pull down dialog Use the Sequential Auto Addressing feature Use third party configuration software Publication 1734 UMOO4F EN E December 2012 18 Configure Your Module Publication 1734 UMOO4F EN E December 2012 Using the RSNetWorx Commissioning Tool Use the RSNetWorx commissioning tool to commission devices set the node address and the data rate parameters that are connecte
77. over or under This module is not field repairable Any attempt to open this module will void the warranty If repair is necessary return this module to the factory This chapter helped you to interpret the status indicators on the modules Refer to the Appendix to learn how to configure the POINT I O Thermocouple and RTD Modules using the RSLogix 5000 software Appendix A Overview Understanding Data Connection and Communication Formats Configure Modules in RSLogix 5000 Software Read this appendix for information about how to configure your modules in RSLogix 5000 software including how to complete entries on the following dialogs Configuration Alarm Configuration Calibration The following table lists where to find specific information in this chapter Topic Page Understanding Data Connection and Communication Formats 55 Configure Your Module 56 Use the Help Button 57 Working with Dialogs 57 Before you configure your modules note the following about Data formats and Connection types e Data format type is Integer e Connection types are Data Listen Only Communication formats for adapters ate Listen Only Rack Optimization None Rack Optimization Choices for formats for the module depend on the Communication format for the adapter See the table for a listing of possible module Connection formats based on adapter Communication formats The modules do not supp
78. parameter that you want to configure and initiate an action using the toolbar N Groups ip a Current Value Input Value 0 7813 Input Value 1 101 Cold Junction Temperature 0 5206 Cold Junction Temperature 1 2500 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Gond Calibration Calibration Channel Select For input calibration choose Calibration Command None Input Channel D Input Channel 0 Input Chi l1 both Charis Input Channel 1 or Cold Junction 0 Both Channe S E E E E E E E Ep o cm 3 Select a channel 0 or 1 or select Both Channels 4 Click Download to Device Publication 1734 UMOO4F EN E December 2012 44 Publication 1734 UMOO4F EN E December 2012 Calibrate Your Module 5 Click Calibration Command and select Begin Calibration General Parameters Configuration 1 0 Data EDS File IE w 4 Select the parameter that you want to configure and initiate an action using the toolbar v Groups fo q3 Parameter _ Current Value Input Value 0 7813 Input Value 1 101 Cold Junction Temperature 0 5206 Cold Junction Temperature 1 2500 Bad Cal Status 0 Good Calibration Bad Cal Status 1 Good Calibration CJ Cal Status 0 Good Calibration CJ Cal Status 1 Good Calibration Calibration Channel Select Both Channels Calibration Command Begin Input Calibration E
79. pter The scanner appears on the network communication adapters 2 Double click here to choose the scanner You can also click and drag the scanner name onto the network Make sure you choose the 1734 ADN POINT 1 0 Scanner 1 Click here to expand the list of Specialty modules 1756 DNB A 1761 NET DNI Device Net HL 1761 NET DNI Series B De 1770 KFD RS232 Interface m 1771 SDN Scanner Module WS 1784 CPCIDS DeviceNet S I 1784 PCD PCMCIA Intertac I 1784 PCDS Scanner Bf 1784 PCID DeviceNet Inter E 1784 PCIDS DeviceNet Sc 1788 CN2DN Linking Devic a g 1794 4DN DeviceNet Flex E Modular DSA i E DeviceNet to SoNg m 4 gt E i 1747 SDN Scanner Module Add I 0 Modules to Your Network POINTBus After you add the communication device you must add the POINT I O modules connected to the scanner on the POINTBus Add modules as shown in the figure pesar i E rl es BST LS File Edit View Network Device Tools Help Hardware M44737 1734 VHSC24I2 1734 VHSC5 A 1734 IK A EHE DeviceNet Counter Module Counter Module a odule ae Category Inductive Proximity Switch Limit Switch Motor Protector Specialty 1 0 2 Double click the catalog number to choose the module You can 173441 A Counter Module 3 1734 und Counter Module also click and drag the module name onto the network Publication 1734 UMO004F EN E Decem
80. r 2 CONETVIOW S icis e abad tita tacit ted uos et det pda PE Dd 17 Preventing Electrostatic Discharge ed eese e rct 17 Environment and Enclosure i vaca e Ov eh vane dere xt 18 Install the Mounting Base nai ted P Ret d re 18 Installan I O Module dosi ee ER Re 20 Install the Removable Terminal Block 0 0 00 000 005 21 Remove a Mounting Base sneer iaaGe as uuo ewe RES Var a eres 22 Wire the M Gdules oun Seis sre eU hav nina Pe Seat bee deti ta 23 Chapter Sammat deest Ot eue ER a dab de Ue col e kad 24 Chapter 3 OVEN sit Matutino de ma tnn a ee b sm eite atio eu add NEIN 25 Configuration Overview tard tod Dee res eroe ede ra ea 25 Commissioning 4 Node yy ete 4s oa p qe Rd Ae ede deg qct ae take a 25 Publication 1734 UMOO4F EN E December 2012 iv Table of Contents Calibrate Your Module Troubleshoot the Module Configure Modules in RSLogix 5000 Software Publication 1734 UMOO4F EN E December 2012 Using the RSNetWorx Commissioning Tool 26 Use Sequential Auto Addressing io esee eem xn 27 Use Third Party Configuration Software 0 000008 27 Add the Adapter to Your Networks ve iater cinis t 27 Add I O Modules to Your Network POINTBus 28 Set the Thermocouple Input Module Parameters Using RSNetWorx 30 Configure Your Thermocouple Input Module 32 Basic Set p Parametefs ii mode riaan ea ak een ERR T EIS 32 Advanced Setup Parameters ceo ees oed e
81. s if 5 POINT I O modules are in a line and the address of the first module is 10 After the Sequential Address command is sent to the first module the node address of the line is 10 11 12 13 and 14 Use Third Party Configuration Software When using third party configuration software simply load the EDS files into the software and follow the designer s instructions You can use the RSNetWorx for DeviceNet software or some other configuration tool for DeviceNet to configure your module If the EDS files are not in your software you can get them at http www ab com networks eds You can configure the module while it is online offline Publication 1734 UMOO4F EN E December 2012 20 Configure Your Module 1 Click here to expand the list of This chapter shows configuration in the online mode Configuration dialogs appear similar in both modes The primary difference is that if you make changes offline you must go online before the configuration changes take effect Perform this procedure to add a communication device 1 Start the RSNetWorx for DeviceNet software 2 Add the communication adapter as shown in the figure In this case the chosen device was a 1770 KFD RS232 Interface DeviceNet RSNetWorx for DeviceNet te Edit View Network Device Tools Help s EG et Ea Elg Ama Hardware xl EE gj DeviceNet a E e Category AC Drive amp Barcode Scanner E Communication Ada
82. sable Alarms 0 Disable Alarms 1 Enable Alarm Latch 0 Enable Alam Latch 1 Disable Notch Filter 60Hz Copper RTD Offset 0 0 Copper RTD Offset 1 D Configure Your Module 31 Configuration is divided into basic and advanced parameters Configure Your RTD Input Module Basic Setup Parameters The basic parameters you need to set for the RTD module consist of Temperature units Use the Temperature Scale parameter to select a predefined scale or a custom scale Custom Scale allows you to enter the scaling endpoint values If using Ohms RTD Type ignore this parameter Predefined Scales include Celsius C Fahrenheit F Kelvin K and Rankine R Scaling Endpoints for Custom Scale low amp high RTD Module Scaling Limits RTD Type Low Scaling High Scaling Endpoint Endpoint Ohms 100 Q 500 Q 100 Q Pto 0 00385 Euro 32 F 0 C 932 F 500 C 200 Q Pto 0 00385 Euro 32 F 0 C 932 F 500 C 100 QPto 0 003916 U S 32 F 0 C 932 F 500 C 200 QPta 0 003916 U S 32 F 0 C 932 F 500 C 10 QCua 0 00427 32 F 0 C 482 F 250 C 100 QNia 0 00618 32 F 0 C 482 F 250 C 120 QNia 0 00672 32 F 0 C 482 F 250 C 120 QNia 0 00618 32 F 0 C 482 F 250 C RTD Type 1734 IR2E Low Scaling High Scaling Endpoint Endpoint Ohms 100 Q 200 Q 100 Q Pta 0 00385 Euro 32 F 0 C 572 F 300 C RID type Select the R
83. sation Calibration 45 Tools and Equipment Required to Calibrate Your RTD Module 48 Calibrate the RTD Input Module 48 Your module is shipped to you already calibrated If a calibration check is required the module must be in a POINT I O system Perform module calibration periodically based on your application Module calibration may also be requited to remove module error due to aging of components in your system Perform calibration through the I O configuration software such as RSNetWorx and EDS files If the EDS files are not in your software get them online at www ab com networks eds To calibrate your thermocouple module you need the following tools and equipment Tool or Equipment Description Precision Resistors Precision Voltage Source High precision resistors 1000 0 05 5 ppm C 3000 Q 0 05 5 ppm C or Calibrated resistor Decade Box 0 05 100 mV 1 mV resolution accuracy 3 uV or better Publication 1734 UMOO4F EN E December 2012 40 Calibrate Your Module Calibrate the Thermocouple To calibrate your thermocouple input module connect the module in a Input Module DeviceNet system similar to that shown in the figure IMPORTANT Apply power to the power supply and module for at least 10 minutes before calibrating the module Delete all 1 0 connections by removing the module from its master s scan list and inhibiting the module in RSLogix When there is no connection present the
84. ss in on the module lock on the top of the module and pull up on the I O module to remove from the base Publication 1734 UM004F EN E December 2012 14 Install the Module Wire the Modules Publication 1734 UMOO4F EN E December 2012 4 Remove the module to the right of the base you are removing noting that the interlocking portion of the base sits under the adjacent module 5 Use a small bladed screwdriver to rotate the orange DIN rail locking screw on the mounting base to a vertical position releasing the locking mechanism 6 Lift the mounting base straight up to remove To wire the thermocouple input modules refer to the figures If you connect or disconnect wiring while the field side power is on an electrical arc can occur This could cause an explosion in hazardous location installations Be sure that power is removed or the area is nonhazardous before proceeding 1734 IT21 Module Overview Module status Sas Network status Ss Thermocouple Input Status of input 0 Status of input 1 Shield 0 0 43923 Wiring Diagram 0 Input channel 0 High 0 Input channel 0 Low 1 Input channel 1 High 1 Input channel 1 Low Shld Shield Input Channel Power Limits Shield Install the Module 15 Thermocouple 0 Channel InputHigh Input Low Shield 0 4 3 0 5 1 6
85. t is to be done at 2 ambient Temperature points T1 and T2 The formula to calculate Accuracy Drift is as follows measured value 12 measured value T1 T2 T1 x full scale x 1000 000 Publication 1734 UMO04F EN E December 2012 g 70 Calculate Absolute Accuracy and Accuracy Drift Full Scale Values Use the following full scale values to calculate the formula Full Scale Values Module Full Scale Vale 1734 1721 160 mV 1734 1R2 625 Q 1734 IRZE 157 Q To find out the Absolute Accuracy or Drift in degree Celsius you can consult a conversion table B Publication 1734 UMOO4F EN E December 2012 Numerics 1734 POINT 1 0 overview 1 A Absolute Accuracy 69 calculate 69 formula 69 Accuracy Drift 69 calculate 69 formula 69 apply sequential auto addressing 19 base assembly mounting 8 C calculate Absolute Accuracy 69 Accuracy Drift 69 calibrate your module 39 Calibration Module command words 39 calibration periodic 39 setup 40 48 tools 48 calibration setup analog input module 40 48 check 1 0 defaults 36 commisioning nodes 17 commisioning tools RSNetWorx 18 commission a node 21 common techniques used in this manual X Communication formats 55 communication formats understanding 55 configuration EDS files 17 configuration software 19 third party 19 Configure RSLogix 5000 software 55 configure your module 56 Index connection understanding 55 Conne
86. tions and indicate the addition of new or revised information Publication 1734 UMOO4F EN E December 2012 viii Summary of Changes Notes Publication 1734 UMOO4F EN E December 2012 Who Should Use this Manual Purpose of this Manual Preface Read this preface to familiarize yourself with the rest of the manual It provides information concerning who should use this manual the purpose of this manual telated documentation conventions used in this manual You must be able to use your selected configuration software to set up and calibrate these modules You must have the capability to download and use files We assume you know how to do this in this manual If you do not refer to your software user manuals or online help before attempting to use these modules This manual describes how to install configure and troubleshoot your Thermocouple and Resistance Termperature Detector RTD modules For Information About See About POINT 1 0 Modules Chapter 1 Install the Module Chapter 2 Configure Your Module Chapter 3 Calibrate Your Module Chapter 4 Troubleshoot the Module Chapter 5 Configure Modules in RSLogix 5000 Software Appendix A Calculate Absolute Accuracy and Accuracy Drift Appendix B Related Documentation The following documents contain additional information concerning Rockwell Automation products To obtain a copy contact your local Rockwell Automation office or distributor
87. unction Mode Channel 0 Default is channel 0 Channel 1 Average Both Alarm Configuration Dialog This dialog does not appear for Listen Only options The dialog displays alarm configuration parameters for each channel in individual rows on the grid To complete entries on this dialog proceed as follows 1 Click Alarm Configuration to display the dialog il Module Properties myAENT 2 1734 IT2I C 3 1 General Connection Module Info Configuration Alarm Configuration Calibration r Channel m Process Alarms Status Offline High High 32767 zi Unlatch High 191782 Urach Low 150564 Urie Low Low 327693 Unlatch Disable All Alarms Latch Process Alarms Cancel Apply Help Configure Modules in RSLogix 5000 Software 65 2 From the top of the dialog at Channel click on a push button to select a channel with the selected push button appearing pressed 3 Make entties on the dialog referring to the table for information on how to complete entries for the channel indicated 4 From the dialog perform one of the following Click a tab at the top of the dialog to continue making entries Click OK to save changes and close the dialog Cancel to return to default values Click Apply to save changes you made on any of the dialogs and continue to display the dialog noting that you enable the Apply button when you make changes to any of the dialogs
88. ust be accepted in order for the module to finish calibration Calibration is now complete If the module does not accept calibration status indicator still blinking click Calibration Command and select Abort Calibration apply and start over Publication 1734 UMOO4F EN E December 2012 48 Calibrate Your Module Tools and Equipment Required to Calibrate Your RTD Module Calibrate the RTD Input Module Channel 0 100 Qfor Low 500 Qfor High 1 Qresistor Publication 1734 UMOO4F EN E December 2012 To calibrate your RTD module you need the following tools and equipment Tool or Equipment Description Precision Resistors High precision resistors 100 Q 0 04 5 ppm oC 500 Q 0 03 5 ppm oC for 1734 IR2 module 200 Q 0 03 5 ppm oC for 1734 IR2E module or Calibrated resistor Decade Box 0 05 Precision Voltage Source 100 mV 1 mV resolution accuracy 3 uV or better To calibrate your RTD input module connect the module to a DeviceNet system similar to that shown in the figure and perform the following procedures IMPORTANT Apply power to the power supply and module for at least 10 minutes before calibrating the module Module Calibration 1734 PDN 1734 IR2 Channel 1 DeviceNet Input 100 Q for Low 500 Qfor High Channel 0 Connect to 0 and 2
89. w Low Alarm 0 no error 1 fault value went below setpoint HA High Alarm 0 no error 1 fault value went below setpoint LA Low Alarm 0 no error 1 fault value went below setpoint CM Calibration Mode 0 normal 1 calibration mode CF Channel Fault status 0 no error 1 fault Default Data Map for the RTD Input Module catalog numbers 1734 IR2 and 1734 IR2E LEBEN aa a CR COR CO CORR CLERICO E Input Channel 0 High Byte Input Channel 0 Low Byte Input Channel 1 High Byte Input Channel 1 Low Byte Status Byte for Channel 1 OR UR HHA LLA HA LA cM CF Status Byte for Channel 0 OR UR HHA LLA HA LA cM CF Consumes scanner Tx No consumed data Where OR Overrange 0 no error 1 fault value went above selected range UR Underrange 0 no error 1 fault value went below selected range HHA High High Alarm 0 no error 1 fault value went below setpoint LLA Low Low Alarm 0 no error 1 fault value went below setpoint HA High Alarm 0 no error 1 fault value went below setpoint LA Low Alarm 0 no error 1 fault value went below setpoint CM Calibration Mode 0 normal 1 calibration mode CF Channel Fault status 0 no error 1 fault Publication 1734 UMOO4F EN E December 2012 4 About POINT 1 0 Modules Data Format 1734 IT21 1734 IR2 and 1734 IR2E modules You must choose a module d
90. x File revision 2 Fie Edit 3 Click View File to DescText PointIO 1734 IR2 B CreateDate 08 03 2000 view the actual CreateTine 06 30 10 A ModDate 05 10 2001 EDS file shown ModTime 06 30 10 Revision 2 1 Device VendCode 1 VendName Allen Bradley Company Inc ProdType 115 ProdTypeStr Miscellaneous I 0 ProdCode 50 MajRev 2 MinRev 5 ProdName 1734 IR2 B 2pt RTD Input Catalog 1734 IR2 B Icon 1734brown ico Params Parami 0 6 20 OA 24 01 30 03 Link Path Size Link Path 0x0030 Descriptor 3 2 Data Type Data Size Ch apter Summary This chapter explained how to configure the modules The next chapter walks you through how to calibrate your POINT I O Thermocouple and RTD Modules Publication 1734 UMOO4F EN E December 2012 38 Configure Your Module Publication 1734 UMOO4F EN E December 2012 Chapter Overview When and How to Calibrate Your Module Calibration Method Tools and Equipment Required to Calibrate Your Thermocouple Module Calibrate Your Module Use this chapter to calibrate the thermocouple mV module or the RTD input module Refer to the table for a summary of what is covered Task Page When and How to Calibrate Your Module 39 Calibration Method 39 Tools and Equipment Required to Calibrate Your Thermocouple Module 39 Calibrate the Thermocouple Input Module 40 Input mV Calibration 42 Cold Junction Compen
91. your system before the change takes place Publication 1734 UMOO4F EN E December 2012 22 Configure Your Module Set the Thermocouple Input After adding the module to the network you must configure the modules for Module Parameters Using RSNetWorx use IMPORTANT This chapter shows configuration in the online mode Changes set in this mode take effect when you download to the individual module Configure the modules as shown in the figure ME 1734 IR2 B 2pt 1 Right click the module RTD Input E You can also left click the module or name amp Cut CulX Ba Copy Cic amp Paste tr s Delete Del Upload from Device Download to Device 4 4 gt if Gr Class Instance Editor 2 Click Properties to configure Publication 1734 UMOO4F EN E December 2012 SS Properties You see a dialog with a series of tabs Each tab provides options view or edit The tabs are shown in the following figure C 1734 IT21 B 2pt TC m Input 71x General Device Parameters 1 0 Defaults EDS Fie These are the tabs you click to 1 17344T21 A 2pt TC mV Input view the options Name Description Address Device Identity Primary Vendo Rockwell Automation Aller Bradiey 1 Device Rockwell Automation miscellaneous 115 Product 17341T2VA 2pt TC mV Input 49 Catalog 17344T21 8 Revision 4 Cancel Apply Help Refer to these
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