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IB IL TEMP 2 UTH (-PAC)

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1. 17 14 Measuring Ranges asa sanas asas nns 18 14 1 Measuring Range Depending on the Resolution Format 1 IB Standard and Format 3 18 14 2 Measuring Ranges Depending on the Resolution Format 2 18 12 9 Input Measurmng values saexscsd casita iut iieiea aaa ER M EDS MER haer r PRA za eae 19 15 Tolerance and Temperature Response ssh sn na 20 15 1 Tolerances at an Ambient Temperature T4 25 C 20 15 2 Tolerances at an Ambient Temperature T4 25 C up to 597 21 13 93 Temperature gt 0 M ETTT 22 15 4 Tolerances of the Internal Cold 6 22 15 5 Tolerances Due lt 23 15 6 Additional Tolerances When Subject to EMI 24 15 7 Process Data Update 6 nre puro titan ena nura aeo e Pa sx sb sacs xx sabe ean xR caus dad EP UE Saa daa vui ep 24 5
2. Bit 145 14 13 12 11 j10 o e 7 je 5 4 3 2 1 jo Byte view Byte 3 B 7 5 4 s 2 1 fo y e 5 4 5 12 1 o OGhanns2 Assignment o o o 0 10 0 CJ Resolution Format Sensor Type CJ Cold junction 12 2 Assignment of the Terminal Points to the Input Data See page 14 Word bit view Word Byte bit view Channel 1 Terminal point 1 2 Signal reference Terminal point 2 2 Shielding Terminal point 1 4 2 4 Word bit view Be 15 13 2 n o 8 7 o s 4 5 2 1 0 Byte bit view Byte 3 B 7 fe js s 2 o e s 4 5 2 Te Channel 2 Terminal point 2 3 Terminal point 1 4 2 4 5722 en 03 PHOENIX CONTACT 11 online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 12 3 Process Data Output Words OUT The terminal channels can be configured using the two After 1 s maximum the preset configuration is accepted process data output words The following configuration and the first measured value is available If you change the options exist for each channel independent of the other configuration the corresponding channel is re initialized channel The Measured value invalid message error code Sensor type selection 800445 appears in the OUT process data for 100 ms Resolution settings Switching between the measured value representation Default formats Sensor type TC Type K Sele
3. 15 2 Tolerances at an Ambient Temperature T4 25 C up to 55 C Sensor Measuring Range for Relative Absolute Maximum Maximum Type Tolerance Data Error Error Relative Absolute Error Error BNE US ee 932 F up to 3308 F 374 8 F up to 1832 F 346 F up to 2192 F 328 F up to 2501 F 328 F up to 2372 F BEER TU OM BOR Sass seer 58 F up to 3214 F 58 F up to 3214 F 454 F up to 752 F O F up to 4200 F O F up to 4200 F 328 F up to 1472 328 F up to 1652 F il 328 F up to 1112 F junction signals All percentage values refer to the relevant measuring range final value Below the indicated range more errors are to be expected because of the low sensitivity of the sensor elements The tolerance indications of the TC sensors refer to a differential temperature measurement without cold junction compensation In addition the tolerances of the sensor element and the cold junction must be considered see table on page 22 5722 en 03 PHOENIX CONTACT 21 online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 15 3 Temperature Behavior Sensor Type Measuring Range Typical Drift for Tolerance Data 15 Voltage input Linear signals 15 mV up to 15 ppm K 35 ppm K 85 mV 15 4 Tolerances of the Internal Cold Junction Operation at an Ambient Temperature T4 25 C up to 55 C N Emelpe wea Maximum
4. 08 9 0 0 FRB 8 48 8 XXXX XXXX XXXX XXX pin Underrange AV negative final value from the table on page 19 XXXX XXXX XXXX XX Xpin Open circuit AV negative final value from the table on page 19 AM Analog value X Can accept values 0 or 1 If the measured value is larger than the representation range of the process data bit O is set to 1 For an open circuit bit 1 is set to 1 5722 en 03 PHOENIX CONTACT 16 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 13 3 Format 3 The measured value is represented in bits 14 to O An additional bit bit 15 is available as a sign bit Measured value representation in format 3 15 bits 15 14 13 12 11 0 j9 8 7 je 5 4 3 2 j1 0 SB Sign bit AM Analog value Typical Analog Values Depending on the Resolution Process Data 0 1 C 0 1 F Analog Value C F ee 7000 32000 FO o 40 so 939 Process Data 1 C 1 F Analog Valuepex C F 900 E 5 E ED40 Lower lii value 1 LSB Lower imit value 2 LSB The limit values are given in the table on page 19 5722 en 03 PHOENIX CONTACT 17 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 14 Measuring Ranges 14 4 Measuring Range Depending on the Resolution Format 1 IB Standard and F
5. at www download phoenixcontact com general 7000 en 00 00 35 This data sheet is valid for the following products listed under Ordering Data on page 3 5090 5000505009500 C Lionna 00 INSPIRING INNOVATIONS online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC Table of Contents L DESG IOI mE 1 2 OCTO a E E ERER 3 SCT AND AN E E E A E E E A E 4 4 Local Diagnostic Indicators and Terminal Point 4 5 6 4 1 Boc BB eisfeuedisiolisire MNT o mme 6 AZ AP UNCON METTE E 6 4o POM ela T mm 6 o JInstallation InstFUctlorni ssec apr ode oai uiis onte oue paye ecu d piene sua en Daten eame ail 6 6 Notes on Using the Terminal in Potentially Explosive Areas 7 7 nternal Circuit 3 80 0222 8 DELS ie RUP cm 8 MEE gt eU tut 9 10 Connection Examples eerta 9 10 1 Absolute Temperature 9 10 2 Differential Tempe
6. of a shielded control box control cabinet etc Please observe the measures recommended in the Inline system manual for your bus system 15 7 Process Data Update Time Module response time for the output of the required channel address with the corresponding measured value Number of Bus Cycles Refreshing the measured value in the process data with a constant 30 ms Time cycle time process data output word e g PD OUT 000045 4 33 The time is the response time of the module electronics up to the point in time when the valid values are present in the process data output words PHOENIX CONTACT 10 2007 5722 en 03 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany 24 nuc Phone 49 0 5235 3 00 Fax 49 0 5235 3 4 12 00 www phoenixcontact com
7. 2 Temperature distribution tolerances channel tandchannel2 lt Linearity error due to linearization 4 Total error of the cold junction for 0 3 K 1 9 K TA 25 C Total error of the cold junction for 0 4 K 2 0 K TA 25 C up to 55 C After supplying the voltage the warm up time lasts approximately 30 minutes Directly after startup the tolerances of the cold junction can be increased by the typical tolerance The curve displaying the transient response is shown in Figure 10 t min 5722B015 Figure 10 Transient response of the IB IL TEMP 2 UTH terminal t min Time after switching on in minutes AT K Temperature deviation from the measured value in Kelvin absolute error The total system erorr for an absolute temperature measurement as displayed in Figure 10 comprises the sensor tolerance the device error and the cold junction error 1 Curve for channel 1 2 Curve for channel 2 5722 en 03 PHOENIX CONTACT 22 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 15 5 Tolerances Due to Linearization cotwareupporea Sensor Linearization Type Software Supported Sensor Linearization El NN 122 F up to 3308 F E 270 C up to 1000 C 0 05 K 454 F up to 1832 F Bil 346 F up to 2192 F M EN 60584 1 454 F up to 2501 F 454 F up to 2372 F Mil 58 F up to 3214 F 58 F up to 3214 F Bi
8. 722 en 03 PHOENIX CONTACT 2 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 2 Ordering Data Products Description Type Order No Pcs Pkt Inline terminal with 2 analog input channels for temperature measurement IB IL TEMP 2 UTH PAC 2861386 1 complete with accessories connector with labeling field Inline terminal with 2 analog input channels for temperature measurement IB IL TEMP 2 UTH 2727763 1 without accessories 35 The connector listed below is needed for the complete fitting of the IB IL TEMP 2 UTH terminal Accessories Description Type Order No Pcs Pkt Inline shield connector for analog Inline terminals IB IL SCN 6 SHIELD TWIN 2740245 5 Thermoelectric voltage terminal block pair for equalizing conductor extension Thermoelectric voltage terminal block pair for CU CUNI44 MTKD CU CUNI 3100059 copper constantan Thermoelectric voltage terminal block pair for FE CUNI44 MTKD FE CUNI 3100046 iron constantan Thermoelectric voltage terminal block pair for NICR CUNI44 MTKD NICR CUNI 3100075 nichrome constantan Thermoelectric voltage terminal block pair for NICR NI MTKD NICR NI 3100062 nichrome nickel Thermoelectric voltage terminal block pair for E CU A CU MTKD E CU A CU 3100091 copper cupro nickel Thermoelectric voltage terminal block pair for S CU E CU MTKD S CU E CU 3100101 S copper copper Documentation Description Type Order No Pcs Pkt Automation Terminals of the Inline Product Range user
9. OENIX CONTACT 19 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 15 Tolerance and Temperature Response 15 4 Tolerances at an Ambient Temperature T4 25 C Sensor Measuring Range for Relative Absolute Maximum Maximum Type Tolerance Data Error Error Relative Absolute Error Error BENE SN SS 932 F up to 3308 F T Gatwwermer OO OSE S HR 374 ee up to ee eee F up to oe F ee ee 328 F up to 2501 F EBENE UU IEEE 328 F up to 2372 F BNET AERE 58 F up to 3214 F s POR mee soe 58 F up to 3214 F BENE T7 454 F up to 752 F up to i Thermocouples Orwmwmor SO BIE 0 F ug to 4200 E OU Mereswer SOE BEN fe Qo F up to 2 F E 6 ON mm Qo AT 328 up to o F Ml o s ey mem ot 328 F up to 1112 F junction signals All percentage values refer to the relevant measuring range final value Below the indicated range more errors are to be expected because of the low sensitivity of the sensor elements The tolerance indications of the TC sensors refer to a differential temperature measurement without cold junction compensation In addition the tolerances of the sensor element and the cold junction must be considered see table on page 22 5722 en 03 PHOENIX CONTACT 20 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC
10. THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC Inline Terminal With 2 Analog Input Channels for Thermocouple Connection co 7 AUTOMATIONWORX K Data Sheet 9 22 en 03 PHOENIX CONTACT 10 2007 1 Description Features 2 differential inputs for thermocouples or linear voltage 1 input for an external Pt1000 or Ni1000 cold junction Configuration of channels via the bus system The terminal is designed for use within an Inline station Signals of standard thermocouples can be detected using this terminal 13 different types of thermocouples are supported in nternal detection of cold junction temperature accordance with DIN EN 60584 1 and DIN 43710 as well configurable as a linear voltage input of 15 mV up to 85 mV Absolute or differential temperature measurement configurable Pt1000 sensor in the vicinity of the connection terminals of the thermocouple inputs for internal measurement of the cold junction temperature Measured values can be represented in 3 different formats Approved for the use in potentially explosive areas observe the notes on page 7 This data sheetis only valid in association with the IL SYS INST UM E user manual or the Inline system manual for your bus system Make sure you always use the latest documentation It can be downloaded at www download phoenixcontact com A conversion table is available on the Internet
11. TOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 086 Protocol chip Optocoupler DC DC converter with electrical isolation Microprocessor with multiplexer power source for the cold junction and analog digital converter REF Reference voltage Electrically erasable programmable read only memory gt Amplifier Analog ground electrically isolated from um ground of the potential jumper Other symbols used are explained in the IL SYS INST UM E user manual or in the Inline system manual for your bus system 8 Electrical Isolation Local bus IN s Bilis int rtaca E gt Loca bus OUT OPC 5 DC MP U 7 5 V DC I t BI U 24 V DC 1 O interface m and 5V microprocessor Electrical isolation between area A and area B FE potential Analog inputs 5722B007 24 V DC MI Figure 4 Electrical isolation of the individual function areas PHOENIX CONTACT 8 9 Connection Notes Thermocouple Connection Always connect the thermocouples using shielded and twisted pair cables Use encapsulated thermocouples For thermocable extension thermoelectric voltage terminal blocks are available Phoenix Contact MTKD type see Figure 7 on page 10 and ordering data Shield Connection 35 The connection examples show how to connect the shield Figure 5 to Figure 7 Connect the shielding to only one side of the Inline terminal using the shield connection clamp In thi
12. TOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 10 3 Equalizing Conductor Extension When connecting the shield to a central grounding point you must insulate the shield at the opposite side shown in gray in Figure 7 Use a connector with shield connection when installing the sensors Figure 7 shows the connection schematically without shield connector Channel 2 Equalizing conductor Central grounding point PE Figure 7 m I I I I MTKD terminal block Thermo 57221010 Equalizing conductor extension using thermocouples PHOENIX CONTACT 10 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 11 Programming Data Configuration Data Local Bus INTERBUS Other Bus Systems TFhex 127aec For the programming configuration data of Length code other bus systems please refer to the Process data channel 32 bits corresponding electronic device data sheet e g GSD EDS Process Data 12 Forthe assignment of the illustrated byte bit view to your INTERBUS control or computer system please refer to the DB GB IBS SYS ADDRESS data sheet 12 4 Output Data For Configuration of the Terminal See page 12 Word bit view Word 0 Byte bit view Ohams i Assignment o 0 0 0 0 CJ Resolution Format Sensor Type Word bit view Word
13. TRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC Electrical Isolation Isolation of the Voltage Areas Common Potentials 24 V main voltage Uy 24 V segment voltage Us and GND have the same potential FE is a separate potential area Separate Potentials in the System Consisting of Bus Terminal Module Power Terminal and Analog I O Terminal Test Distance Test Voltage 5 V supply incoming remote bus 7 5 V supply bus logic 500 V AC 50 Hz 1 min 5 V supply outgoing remote bus 7 5 V supply bus logic 500 V AC 50 Hz 1 min 7 5 V supply bus logic 24 V supply I O 500 V AC 50 Hz 1 min 7 5 V supply bus logic 24 V analog supply analog I O 500 V AC 50 Hz 1 min 24 V supply I O functional earth ground 500 V AC 50 Hz 1 min 24 V analog supply analog I O functional earth ground 500 V AC 50 Hz 1 min Error Messages to the Higher Level Control or Computer System Failure of the internal voltage supply Yes Failure of or insufficient communications power UL Yes I O error message sent to the bus terminal Peripheral fault user error Yes error message via the process data input words see page 14 Approvals For the latest approvals please visit www download phoenixcontact com or www eshop phoenixcontact com 5722 en 03 PHOENIX CONTACT 5 4 Local Diagnostic Indicators and Terminal Point Assignment 57223002 Figure 1 Terminal with appropriate connector 4 1 Local Diagn
14. cting the cold junction Resolution 0 1 C 1uV The configuration setting is not stored It must be Output format Format 1 IB standard transmitted in every bus cycle Cold junction Internal After applying voltage power up to the Inline station the Measured value invalid message error code 80044 appears in the IN process data One process data output word is available for the configuration of each channel Process data word 1 Process data word 2 Channel 1 Channel 2 MSB EEE E Configuration Reserved _Cold Junction Resolution Format Sensor type 5722B006 Figure 8 Process data output words 35 Set all reserved bits to 0 In order to configure the terminal set bit 15 of the corresponding output word to 1 If bit 15 0 the pre set configuration is active 5722 en 03 PHOENIX CONTACT 12 Bit 15 lt ond MORROCO Bit 10 to Bit 8 Cold Junction Compensation Internal cold junction active TC measurement with internal cold junction compensation Internal cold junction inactive TC differential measurement without cold junction compensation External cold junction Pt1000 TC measurement with external cold junction compensation at an isothermal block for lab applications only External cold junction Ni1000 TC measurement with external cold junction compensation at an isothermal block for lab applications only Reserved Bit 7 and Bit 6 Resolution Refer
15. gh all potential jumpers PHOENIX CONTACT 6 online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 6 Notes on Using the Terminal in Potentially Explosive Areas Approval According to EC Directive 94 9 ATEX 9 II 3G Ex nAC IIC 14 X This Inline terminal conforms to the requirements of protection type n and can be installed in a zone 2 potentially explosive area This Inline terminal is a category 3G item of electrical equipment 1 WARNING Explosion hazard Before startup ensure that the following points and instructions are observed WARNING Explosion hazard Only Inline terminals that are approved for use in potentially explosive areas may be snapped next to this Inline terminal Before using an Inline terminal in a zone 2 potentially explosive area check that the terminal has been approved for installation in this area For a list of terminals approved for zone 2 potentially explosive areas please refer to the AH EN IL EX ZONE 2 application note Check the labeling on the Inline terminal and the packaging see Figure 2 Il 3G ExnAC IIC TA X iaximum o J0000CXX xx HW FW XX CE Unc cot apt For taz tocs 6 Xo ue 3121 A B C D T5 5561C001 Typical labeling of terminals for use in potentially explosive areas When working on the Inline terminal always disconnect the supply voltage 2 The Inline terminal must only be installed star
16. l 454 F up to 752 F Mi 00 O F up to 4200 F a ee O F up to 4200 F o Meremiwe 00 328 F up to 1472 328 F up to 1112 junction 328 F up to 1562 signals EN Um 5722 en 03 PHOENIX CONTACT 23 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 15 6 Additional Tolerances When Subject to EMI Type of Electromagnetic Interference Typical Relative Deviation of Criterion the Measuring Range Final Value Electromagnetic fields according to IEC 61000 4 3 Channel 1 9 6 EN 61000 4 3 field strength 10 V m Channel 2 5 0 Conducted interferences 0 15 MHz up to 80 MHz according to Channel 1 4 2 IEC 61000 4 6 EN 61000 4 6 class 3 10 V Channel 2 2 5 Fast transients burst in acc with IEC 61000 4 4 EN 61000 4 4 2 kV class 3 Surge voltage in acc with IEC 61000 4 5 EN 61000 4 5 Electrostatic discharge ESD in acc with IEC 61000 4 2 EN 61000 4 2 6 kV contact discharge 6 kV air discharge Additional tolerances might occur under the influence of high frequency electromagnetic interferences caused by radio transmission systems in the nearest vicinity The listed values refer to the operation in the pre setting TC type K with cold junction compensation for direct electromagnetic interference of the components without additional shielding such as steel cabinet etc The above tolerances can be reduced by further shielding the I O module e g use
17. lution Bits Tand 6 00g Wy Og O Process Data Item 0 1 C 0 1 F Analog Valuey C F ooa e one o 8009 o oe 208 99 1 0900 8 8 34 0868 15000 488 83 e 489 Resolution Bits Tand htl Om Analog Valuepex C F uV w Obmomu 80 Ovmage 8800 214 8890 890 0 1 1 0 1 0 FR o 4 003 A FM 90 89 88 UWmemmge 1800 35 If the measured value is larger than the representation range of the process data the Overrange or Underrange error codes are generated The open circuit error message is only generated in TC operation 5722 en 03 PHOENIX CONTACT 15 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 13 2 Format 2 The measured value is represented in bits 14 to 3 The remaining 4 bits are sign and error bits Measured value representation in format 2 12 bits 15 14 13 12 11 10 9 8 7 je 5 4 3 2 0 ooo SB Sign bit AV Analog value 0 Reserved OC Open circuit short circuit OR Overrange Typical Analog Values Depending on the Resolution Process Data Item 0 1 C 0 1 F 1 C 1 F Analog Valuepex C F C F XXXX XXXX XXXX XXX pin Overrange AV positive final value from the table on page 19 8
18. manual IL SYS INSTUME 2698737 Configuring and Installing the INTERBUS Inline Product Range IB IL SYS PROUM E 2743048 1 user manual INTERBUS Addressing data sheet DB GB IBS SYS ADDRESS 9000990 1 Inline Terminals for Use in Zone 2 Potentially Explosive Areas AH EN IL EX ZONE 2 7217 1 application note 5722 en 03 PHOENIXCONTACT 3 3 Technical Data General Data Housing dimensions width x height x depth Weight Operating mode Transmission speed Connection method for sensors Ambient temperature operation Ambient temperature storage transport Permissible humidity operation storage transport Permissible air pressure operation storage transport Degree of protection Class of protection Connection data for Inline connectors Connection type Conductor cross section Interface Local bus THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 12 2 mm x 120 mm x 71 5 mm 46 g without connector 67 g with connector Process data mode with 2 words 500 kbps 2 wire technology 25 C to 55 C 25 C to 85 C 10 to 95 according to DIN EN 61131 2 70 kPa to 106 kPa up to 3000 m above sea level IP20 according to IEC 60529 Class 3 according to EN 61131 2 IEC 61131 2 Spring cage terminals 0 2 mm to 1 5 mm solid or stranded 24 16 AWG Through data routing Supply of the Module Electronics and I O Through Bus Coupler Power Terminal Connection method Power Consumption Communication
19. ormat 3 Resolution Thermocouples Linear Voltage Sensors Bits 7 and 6 273 C up to 3276 8 C 15 mV up to 32 7768 mV resolution 0 1 C resolution 1 uV 01 273 C up to 32768 C 15 mV up to 85 mV resolution 1 0 C resolution 10 uV 10 459 F up to 3276 8 F resolution 0 1 F 11 459 F up to 32768 F resolution 1 0 F 14 2 Measuring Ranges Depending on the Resolution Format 2 l Temperature values can be converted from C to F Resolution Thermocouples according to the following formula sanas meres i ee ee resolution 0 8 C 3 resolution 8 C T F Temperature in degrees Fahrenheit T C Temperature in degrees Celsius resolution 0 8 F 456 F up to 32760 F EHE 77D 1 0 11 5722 en 03 PHOENIX CONTACT 18 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC Input Measuring Values Sensor Type Standard Measuring Range Software Supported 14 3 i Upper Limi 1 50 C 1820 C 2 270 C 1000 C 210 C 1200 C 270 C 1372 C El EN 60584 1 2501 F 5 DIN EN 60584 1 270 C 1300 C 50 C 1768 C 58 F 3214 F 270 C 400 C M 752 18 C 2316 C gt 0 F 4200 F 328 F 1472 F 328 F 1652 F 328 F 1112 F 15 Voltage input Linear voltage 15 mV 85 mV signal For under and overrange of the limits indicated above the Over Underrange error message is generated in the IB standard format 1 5722 en 03 PH
20. ostic Indicator Des Coor Meming D Green 4 2 Function Identification Green 5722 en 03 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 4 3 Terminal Point E UR UR nal for lab applications only external cold junction sensor Pt1000 Ni1000 plus input RTDgx1 Optional for lab applications only external cold junction sensor Pt1000 Ni1000 minus input Ill a S input channel 2 Thermocouple minus input channel 2 TC Thermocouple plus input channel 1 TC Thermocouple minus input channel 1 Shield connection channel 1 and 2 5 Installation Instructions High current flowing through potential jumpers Uy and Us leads to a temperature rise in the potential jumpers and inside the terminal Observe the following instructions to keep the current flowing through the potential jumpers of the analog terminals as low as possible Create a separate main circuit for all analog terminals If this is not possible in your application and if you are using analog terminals in a main circuit together with other terminals place the analog terminals after all the other terminals at the end of the main circuit Regarding this terminal please also observe that via potential routing the current always distorts the temperature of the internal cold junction Therefore position this terminal after all of the other terminals to minimize the current flowing throu
21. rature Measurement 10 10 3 Equalizing Conductor Extension 489 9 10 11 Programming Data Configuration Data 11 12 AN m 11 12 1 Output Data For Configuration of the Terminal See page 12 11 12 2 Assignment of the Terminal Points to the Input Data See page 14 11 12 3 Process Data Output Words OUT 12 12 4 Process Data Input 14 13 Formats for the Representation of Measured Values 15 13 1 1 celeri 15 To ER e 16 aa
22. ring to Format 1 IB dec bin Standard 0 0 rcam Bit 5 and Bit 4 Format 1 IB standard 15 bit sign bit with extended diagnostics 1 01 Format 2 12 bits sign bit 3 diagnostic bits 2 10 Format 3 15 bits sign bit 5722 en 03 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC Bit 3 to Bit 0 Sensor Type dec bin 0 000 TCTypK 1 001 TCTypeJ 00 2 0010 TCTyeE S 3 0011 TCTyeR S 4 0100 TCTyeS S 000 5 0101 TCTyeT 0 0 6 0110 TCTyeB 7 Ott TCTypeN 0 8 1000 1617 S 9 TOt TCTypel 0 0 0 0 10 f010 TC TpeC 11 1011 TCTyeW 12 MOO TCType HK S 13 1f01 Coldjundion 14 1110 U Voltage 15 mV upto 85 mV 15 1111 Reserved 0000 Use sensor type 14 to represent the measured values linear voltage of the IB standard format If you select the cold junction as sensor type the input data word displays the cold junction temperature terminal temperature Furthermore the channel configured in this way is not evaluated in the frame of the measuring cycle so that the update time for the terminal is shortened PHOENIX CONTACT 13 online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 12 4 Process Data Input Words IN On each channel
23. s power UL Current consumption at U Analog supply voltage Current consumption at UANA Total power consumption Analog Inputs Number Connection of the signals Cable length Sensor types that can be used Characteristics standards Voltage input range Termperature measuring unit Temperature measuring range Resolution in the process data word quantization Resolution of measuring values Measured value representation Conversion procedure of the analog digital converter Conversion time of the analog digital converter Process data update Limit frequency of the analog filter Safety Equipment Surge proof up to x40 V 5722 en 03 Potential routing 7 5V 43 mA typical 24 V DC 11 mA typical 590 mW typical 2 inputs for thermocouples or linear voltage 2 wire shielded equalizing conductor for TC with encapsulated sensors Shorter than 30 m for shielded cables B C E J K L N R S T U W HK DIN EN 60584 1 1995 B E J K N R S T DIN 43710 U L 15 mV up to 85 mV Either Celsius Fahrenheit or uV scale See Table on page 19 Configurable see Tableon page 13 See Table page 18 In the formats Format 1 IB standard 15 bits with sign bit Format 2 12 bits with sign bit Format 3 15 bits with sign bit Successive approximation 120 us typical 30 ms maximum for both channels 48 Hz TC channels Connections 1 2 and 2 2 as well as 1 3 and 2 3 PHOENIX CONTACT 4 THE ONLINE DIS
24. s way the creation earth loops that might occur when connecting the shielding to PE can be prevented The clamp connects the shield directly to FE on the module side Additional wiring is not necessary Insulate the shield at the sensor 5722 en 03 online components com THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 10 Connection Examples When connecting the shield at the terminal you must insulate the shield on the sensor side shown in gray in Figure 5 and Figure 6 Use a connector with shield connection when installing the sensors Figure 5 and Figure 6 show the connection schematically without shield connector 10 1 Absolute Temperature Measurement J type CuNi 57220008 Figure 5 Absolute temperature measurement at 2 channels For absolute temperature measurement the measuring temperature of T4 or T is determined via cold junction compensation TcJ4 Toyz PHOENIX CONTACT 9 10 2 Differential Temperature Measurement QB 5722A012 Figure 6 Differential temperature measurement using 2 thermocouples type K Umeas Ut Ux4 Ux2 Ur Ur4 Ur2 The absolute value of Uy equals Ux the prerequisite being that both terminal points A are on the same temperature level Both voltages compensate each other It is the difference between Uy and that remains 5722 en 03 online components com THE ONLINE DISTRIBU
25. ted up and maintained by qualified specialist personnel 3 Install the Inline terminals in a control cabinet or metal housing The minimum requirement for both items is IP54 protection according to EN 60529 4 The Inline terminal must not be subject to mechanical strain and thermal loads which exceed the limits specified in the product documentation 5 Thelnline terminal must not be repaired by the user Repairs may only be carried out by the manufacturer The Inline terminal is to be replaced by an approved terminal of the same type 6 Only category 3G equipment may be connected to Inline terminals in zone 2 7 Observe all applicable standards and national safety and accident prevention regulations for installing and operating equipment Restrictions WARNING Explosion hazard When using terminals in potentially explosive areas observe the technical data and limit values specified in the corresponding documentation user manual data sheet package slip WARNING Explosion hazard Restrictions regarding the Inline system The maximum permissible current flowing through the potential jumpers Uy and Us total current is limited to 4 A when using the Inline terminal in potentially explosive areas PHOENIX CONTACT 7 T7 Internal Circuit Diagram Local bus Ui U ANA U 7367A003 Figure 3 Internal wiring of the terminal points 5722 en 03 online components com THE ONLINE DISTRIBU
26. the measured values are transmitted to the controller board or the computer by means of the IN process data words Process data word 1 Process data word 2 Channel 1 Channel 2 MSB LSB Format 1 TSESTSISTSTSTETHTSTH STET md SERED e E Figure 9 Sequence of the process data input words and display of the bits of the first process data word in the different formats 5722A009 Key The process data format 1 IB standard supports extended MSB Mostsignificant bit M The following error codes are possible LSB Least significant bit M mun Gode nex 8001 JOvernge 1 0 0 0 8002 0 Reserved MM 8004 Measured value invalid no valid OC Open circuit l measured value available on Ovemange 3008 Cold junction defective 8010 Invalid configuration 8040 Terminal faulty 8080 5722 en 03 PHOENIX CONTACT 14 THE ONLINE DISTRIBUTOR OF ELECTRONIC COMPONENTS IB IL TEMP 2 UTH PAC 13 Formats for the Representation of Measured Values 13 4 Format 1 IB Standard The measured value is represented in bits 14 to O An additional bit bit 15 is available as a sign bit This format supports extended diagnostics Values gt 8000 indicate an error The error codes are listed on page 14 Measured value representation in format 1 IB standard 15 bits 15 14 13 12 11 jio 9 ja 7 Je 5 4 3 2 j1 Jo SB Sign bit AV Analog value Typical Analog Values Depending on the Resolution Reso

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