Data Sheet DB EN IB IL AI 2/SF (-PAC)
Contents
1. Signal reference Terminal point 1 3 Shielding FE Terminal point 1 4 Channel 2 Signal 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Terminal point 2 1 Voltage input Terminal point 2 2 Current input Signal reference Terminal point 2 3 Shielding Terminal point 2 4 5564 en 03 PHOENIX CONTACT 13 IB IL Al 2 SF PAC 12 3 Process Data Output Words With the two process data output words you can configure each channel of the terminal independently The following configurations are possible Selecting a measuring range according to the input signal Switching off mean value generation Changing the formats of the measured value representation The configuration settings are not saved It must be trans mitted in each bus cycle After applying voltage power up to the Inline station the Measured value invalid message error code 80044 ap pears in the process data input words After 1 second maximum the preset configuration is accepted and the first measured value is available If you change the configura tion the corresponding channel is re initialized The Mea sured value invalid message error code 80044 appears in the process data output words for 100 ms maximum Process data word 1 Process data word 2 Channel 1 H Channel 2 MSB 14 13 12 11 10 L l Default Measuring range OVto10V Mean value genera Enabled2. 5564B002 The terminal with the appropriate connector 4 1 Local Diagnostic and Status Indicators Des Color Meaning D Green Diagnostics 4 2 Function Identification Green 4 3 Terminal Point Assignment Terminal Signal Assignment Points 1 1 U1 Voltage input channel 1 2 1 U2 Voltage input channel 2 1 2 11 Current input channel 1 2 2 12 Current input channel 2 1 3 1 Minus input for channel 1 com mon for current and voltage 2 3 2 Minus input for channel 2 com mon for current and voltage 1 4 2 4 Shield Shield connection 5 Installation Instructions High current flowing through potential jumpers Uy and Us increases the temperature of the potential jumpers and the inside of the terminal Note 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 each analog terminal If this is not possible in your application and you are using analog terminals in a main circuit together with other terminals place the analog terminals behind all the other terminals at the end of the main circuit 5564_en_03 PHOENIX CONTACT 8 IB IL Al 2 SF PAC 6 Internal Circuit Diagram Local bus 24 V Ug 5564B003 Figure 2 Internal wiring of the terminal points Ke
3. 25 Use a connector with shield connection when installing the sensors Figure 4 and Figure 5 show the connection schematically without shield connector 9 1 Connection of Active Sensors Figure 4 B 5564A004 Connection of active sensors in 2 wire technology with shield connection A Active sensor with voltage output channel 1 B Active sensor with current output channel 2 5564 en 03 PHOENIX CONTACT 10 IB IL Al 2 SF PAC 9 2 Connection of Passive Sensors IB IL 24 SEG F IB IL Al 2 SF 5564A005 Connection of 2 passive sensors in 2 wire technology with shield connection Figure 5 Figure 5 shows the passive sensor supply The sensors are supplied through a pre connected segment terminal with a fuse The sensors can also be supplied from an external power supply unit 9 3 Connection for Battery Monitoring A Both reference inputs minus inputs of each terminal are connected to each other If signal sources are connected in series wrong connections can lead to a short circuit of individual signal sources 2V 2V 2V2V 2V 5564A012 12 V Figure 6 Conn
4. 11 12 13 D SCPIDUON rM 1 Ordering Data seers Y 3 Technical Data ep a a det FE RE e he eee e a la ea 4 Local Diagnostic Status Indicators and Terminal Point Assignment sesssssssss 8 4 1 Local Diagnostic and Status Indicators sssssssseseeene ene m en eneeenenenneennrnenernennnnns 8 4 2 Function Identificatioi HERR 8 4 3 Terminal PointiASsignment iiec tegere coves eene ed Le Eon dn e sepa rade A te Ede ehe een tne denen 8 Installation Instructions ri tete E e ELI RR EE DER UR TE EUCH PX ERE REX RR 8 Internal Gir it Dia Gram Pn s 9 Electrical ISOlAUONM srs C ememebaaaduehes 9 Gonnecuon NOTES Seine CER Be D P E RE ees 10 Connection Examples sss tenete tette te tette tte tt tt teet 10 9 1 Connection OF ACTIVE SernsQOrs cu inscius tete deco puce kde ra Ee eE de gue tees e ges pude aea eene ix pan e YR a eeu aiiai 10 9 2 Connection of Passive Sensors deridet ined e nde ede de catene Ene desde ce tege Iced dedere rne Ede dde nne 11 9 3 Connection for Battery Monitoring enne enne nnne nennen nennen nnns 11 Notes on Using the Terminal in Potentially Explosive Areas eeee 12 10 1 Approval in Acc With EG RL 94 9 ATEX Il 3G EEx nAC IC T4 U ssssseseeeeeneme ens 12 10 2 UL ioco p 12 10 3 RestrictlODS 4 rete
5. tion Output format IL format You cannot change the signal input type through the process data output words Current or voltage measurement is selected by applying the measured signal to the current or voltage input I In addition select the corresponding measuring range through the process data output words Do not simultaneously apply current and volt age signals to an input channel as you will not receive valid measured values Configuration Filter Figure 8 process data output words MSB Most significant bit Format Measuring range 55640006 LSB Least significant bit 5564_en_03 PHOENIX CONTACT 14 IB IL Al 2 SF PAC One process data output word is available for the configu ration of each channel Set bit 15 of the corresponding output word to 1 to config ure the terminal If bit 15 0 the preset configuration is active Bit 15 Code Configuration 0 Default 1 Configuration data Bit 9 and bit 8 Code Filter 00 16 sample mean value default 01 No filter 10 11 Reserved Bit 5 and bit 4 Code Format 00 IB IL 15 bits default 01 IB ST 12 bits 10 IB RT 15 bits 11 Standardized display Bit 3 to bit 0 Code Measuring Range Voltage 0000 0 V to 10 V default 0001 10V 0010 through Reserved 0111 Bit 3 to bit O Code Measuring Range Current 1000 0 mA to 20 mA 1001 20 mA 10
6. 0 4884 LA LSB Standardized representation 1 000 uA LSB In the following formats IB IL 15 bits with sign bit IB ST 12 bits with sign bit IB RT 15 bits with sign bit Standardized representation 15 bits with sign bit 33 Please read the notes on page 17 and page 21 on measured value representation in IB IL and standardized display format Mean value generation Conversion time of the A D converter Analog Input Stages Voltage Inputs Input resistance Limit frequency 3 dB of the input filter Internal process data update of both channels Behavior upon sensor failure Maximum permissible voltage between analog voltage inputs and analog reference potential Common mode rejection CMR Reference Voltage input signal valid for permissible DC common mode voltage range Permissible DC common mode voltage for CMR Over 16 measured values can be switched off 120 us approximately 2220 kQ 40 Hz 1 5 ms Goes to 0 V 32 V 90 dB minimum 110 dB typical 40 V between voltage input and FE 5564_en_03 PHOENIX CONTACT 5 IB IL Al 2 SF PAC Analog Input Stages Continued Current Inputs Input resistance 50 Q shunt Limit frequency 3 dB of the input filter 40 Hz Internal process data update of both channels lt 1 5 ms Behavior upon sensor failure Goes to 0 mA 4 mA Maximum permissible voltage between analog current inputs and analog 5 V corresponding with 100 mA across the
7. 13 9 Example Measured value representation in different data formats Measuring range 0 mA to 20 mA Measured value 10 mA Input data word Format hex Value dec Value Measured Value IB IL 3A98 15 000 10 mA IB ST 4000 16 384 10 mA IB RT 4000 16 384 10 mA Standardized display 2710 10 000 10 mA PHOENIX CONTACT 01 2007 5564 en 03 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany 22 Phone 49 0 5235 3 00 Fax 49 0 5235 3 4 12 00 www phoenixcontact com
8. IB IL Al 2 SF PAC Input Data Word 20 mA to 20 mA 10 V to 10 V Two s Complement linput Uinput hex mA V FFF8 0 0048828 0 002441 8000 20 0 to 21 5 10 00 to 10 75 8001 21 5 10 75 Measuring range 4 mA through 20 mA Input Data Word 4 mA to 20 mA Two s Complement linput hex mA 7FFD gt 21 5 7FFC 20 0 to 21 5 7FFC 19 9961 000C 4 003906 0004 3 2 to 4 0 0006 lt 3 2 5564_en_03 PHOENIX CONTACT 19 IB IL Al 2 SF PAC 13 5 IB RT Format The measured value is represented in bits 14 through 0 An additional bit bit 15 is available as a sign bit This format corresponds to the data format used on INTERBUS RT modules In this data format error codes or error bits are not defined An open circuit is indicated by the positive final value 7FFF pe Measured value representation in IB RT format 15 bits 15 14 13 12 11 10 9 8 76 5 SB AV SB Signbit AV 13 6 Significant Measured Values Measuring range 0 mA through 20 mA 0 V through 10 V Analog value Input Data Word 0 mA to 20 mA 0Vto 10V Two s Complement linput Uinput hex mA V TFFF gt 19 999385 gt 9 999695 7FFE 19 9987745 9 999939 4000 10 0 5 0 0001 0 6105 pA 305 0 uV 0000 lt 0 lt 0 Measuring rang
9. 10 4 mA to 20 mA 1011 to 1111 Reserved IR Set all reserved bits to 0 5564_en_03 PHOENIX CONTACT 15 IB IL Al 2 SF PAC 12 4 Process Data Input Words The measured values are transmitted per channel to the controller board or the computer by means of the process data input words Process data word 1 Process data word 2 Channel 1 Channel 2 MSB LSB IL PESISISISTSITHEETETEETS DS Standardized representation pstwrm minimojejrje sjajoz to ST a ADASUR 5564A009 Figure 9 Sequence of the process data input words and display of the bits of the first process data word in the different formats SB Sign bit OC Open circuit AM Analog value OR Overrange 0 4 Measuring range 4 through 20 mA MSB Most significant bit LSB Least significant bit The IB IL and standardized display process data formats support extended diagnostics The following error codes are possible Code hex Errors 8001 Overrange 8002 Open circuit 8004 Measured value invalid no valid measured value available 8010 Configuration invalid 8040 Module faulty 8080 Underrange 5564_en_03 PHOENIX CONTACT 16 IB IL Al 2 SF PAC 13 Formats for Representing the Measured Values 13 4 IB IL Format The measured value is represented in bits 14 through 0 An additional bit bit 15 is available as a sign bit This format supports extended diagnostics Values gt 8000pex indica
10. EN CLLORZ Om AB Cb TS 5561B001 Figure 7 Example labeling of terminals for use in potentially explosive areas Before startup ensure that the following points and instructions are observed 1 When working on the Inline terminal always switch off the supply voltage 2 The Inline terminal must only be installed started 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 subjected to any mechanical or thermal strain which exceeds the limits specified in the product documentation 5 The Inline 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 During operation only Category 3G equipment must be connected to Inline terminals in Zone 2 7 Observe all applicable standards e g EN 60079 and national safety and accident prevention regulations for installing and operating equipment 10 3 Restrictions When using terminals in potentially explosive areas observe the technical data and limit values specified in the AN corresponding documentation user manual data sheet package slip Restrictions regarding the Inline system The maximum permissible current flowing through potential jumpers Uy and Us total curr
11. IB IL Al 2 SF PAC Inline Terminal With 2 Analog Input Channels AUTOMATIONWORX Data Sheet 5564 en 03 PHOENIX CONTACT 01 2007 1 Description The terminal is designed for use within an Inline station It is used to acquire analog voltage or current signals Features Two analog single ended signal inputs for the connection of either voltage or current signals Connection of sensors in 2 and 3 wire technology Three current measuring ranges 0 mA to 20 mA x20 mA 4 mA to 20 mA Two voltage measuring ranges O V to 10 V 10 V Channels are configured independently of one another using the bus Measured values can be represented in four different formats Resolution depends on the representation format and the measuring range Process data update of both channels in 1 5 ms maximum Diagnostic indicators B manual for your bus system IR Make sure you always use the latest documentation This data sheet is only valid in association with the IB IL SYS PRO UM E user manual or the Inline system It can be downloaded at www download phoenixcontact com A conversion table is available on the Internet at www download phoenixcontact com general 7000 en 0O0 pdf Ey This data sheet is valid for the following products listed on page 3 DO GD OO GD GD OGD OO OD Likoniic GDC INSPIRING INNOVATIONS IB IL Al 2 SF PAC Table of Contents 1 2 3 4 oO ON O Ci 10
12. Measured Values 5 iternm tenere rene tree e dee dede etae de dde een ec io ved e Ta otc E segs 21 13 9 EXAMPIS scr et eMe eui Melo LII id EIM IM LIE m LIUM Ren 22 5564 en 03 PHOENIXCONTACT 2 IB IL Al 2 SF PAC 2 Ordering Data Products Description Type Order No Pcs Pkt Inline terminal with 2 analog input channels IB IL AI 2 SF PAC 2861302 1 including accessories connector and labeling field Inline terminal with 2 analog input channels IB IL AI 2 SF 2726285 1 without accessories IEY The listed connector is needed for the complete fitting of the IB IL Al 2 SF terminal Accessories Description Type Order No Pcs Pkt Shield connector without colour identification IB IL SCN 6 SHIELD TWIN 2740245 5 for analog Inline terminals Documentation Description Type Order No Pcs Pkt User manual IB IL SYS PROUME 2743048 1 Configuring and Installing the INTERBUS Inline Product Range User manual IL SYS INST UM E 2698737 1 Automation Terminals of the Inline Product Range Application note AH EN IL EX ZONE 2 7217 InlineTerminals for Use in Zone 2 Potentially Explosive Areas 5564 en 03 PHOENIXCONTACT 3 IB IL Al 2 SF PAC 3 Technical Data General Data Housing dimensions width x height x depth Weight Operating mode Connection method for sensors Power supply for the sensors Permissible temperature operation Permissible temperature storage transport Permissible humidity
13. RR SERRE ERU EERR SEED PE rne RR peter eden 12 Programming Data Configuration Data sesssseeeeennne eene 13 TTA Local bus INTERBUS annaia aana tete eei eser Te Pete at ti esed tnde ue edad inane 13 11 2 Other Bus Systems ie E eee pent aree te egeo ne eee E Ee ee VL fete YE ieee eens 13 Process 2 BI i e 13 12 1 Process Data Output Words for the Configuration of the Terminal see page 14 esses 13 12 2 Assignment of the Terminal Points to the Process Data Input Words see page 16 ss 13 12 3 Process Data Output Words pee a a aaa i aaa a tea ute ceed icona 14 12 4 Process Data Input Words nee cree cte dee tereti ehe aoa tee na pes te aTa 16 Formats for Representing the Measured Values ssssesen e 17 1321 IB IL Oriel nce RES ERE REESE EDU M PERRO uaaceduesuasesneeusesvadcaphseees teentig 17 13 2 Significant Measured Val es necessi e need ense dena id eese trea Done ie ve eieiei 17 13 9 B ST Formati 555i soi deti te ea a a tee eon tete n ete I LIE eet a er iicet fa 18 13 4 Significant Measured Vales an a E aN 18 13 5 BRT SF OMA En o ea ack e a eit a e aia eaei aaa a a a eaaa aa i 20 13 6 Significant Measured Values sssssesseeneeee nennen nennen ener iaia ieedit 20 19 7 Standardized Display Format nee tede a tedden te deed eee etel dese De peti tudisens 21 13 8 Significant
14. and orientation Data routing 500 kbps 7 5V DC 45 mA typical 60 mA maximum 24 V DC 13 mA typical 18 mA maximum 662 mW typical 882 mW maximum Supply of the Module Electronics and I O Through the Bus Coupler Power Terminal Connection method Potential routing 5564 en 03 PHOENIX CONTACT 4 IB IL Al 2 SF PAC Analog Inputs Number Signals resolution in the process data word quantization Voltage 0 to 10V 0 10 837 V 0 10 000 V 0 10 000 V 0 10 837 V 10 V 10 837 V 10 000 V 10 000 V 10 837 V Current 0 to 20 mA 0 21 6746 mA 0 20 000 mA 0 20 000 mA 0 21 6746 mA 20 mA 21 6746 mA 20 000 mA 20 000 mA 21 6746 mA 4 to 20 mA 4 21 339 mA 4 20 000 mA 4 20 000 mA 4 21 339 mA Measured value representation 2 analog single ended inputs IB IL format IB ST format IB RT format Standardized representation IB IL format IB ST format IB RT format Standardized representation IB IL format IB ST format IB RT format Standardized representation IB IL format IB ST format IB RT format 0 333 mV LSB 2 441 mV LSB 0 305 mV LSB 1 000 mV LSB 0 333 mV LSB 2 441 mV LSB 0 305 mV LSB 1 000 mV LSB 0 6666 pA LSB 4 8828 uA LSB 0 6105 pA LSB 1 000 pA LSB 0 6666 pA LSB 4 8828 uA LSB 0 6105 pA LSB Standardized representation 1 000 pA LSB IB IL format 0 533 pA LSB IB ST format 3 906 pA LSB IB RT format
15. e 20 mA through 20 mA 10 V through 10 V Input Data Word 20 mA to 20 mA 10 V to 10 V Two s Complement linput Uinput hex mA V TFFF gt 19 999389 gt 49 999939 7FF7 19 998779 9 99939 4000 10 0 5 0 0001 0 61035 pA 305 0 uV 0000 0 0 FFFF 0 61035 uA 305 0 uV 8001 19 999389 9 99939 8000 20 0 lt 10 0 Measuring range 4 mA through 20 mA Input Data Word 4 mA to 20 mA Two s Complement linput hex mA 7FFF gt 19 9995116 7FFE 19 9990232 4000 12 0 0001 0 4884 uA 0000 4 0 0000 3 2 to 4 0 7FFF lt 3 2 5564_en_03 PHOENIX CONTACT 20 IB IL Al 2 SF PAC 13 7 Standardized Display Format The data is represented in bits 14 through 0 An additional bit bit 15 is available as a sign bit In this format data is standardized to the measuring range and represented in such a way that it indicates the corresponding value without conversion In this format one bit has the value of 1 mV or 1 pA This format supports extended diagnostics Values gt 8000pex indicate an error The error codes are listed on page 16 Measured value representation in standardized display format 15 bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 SB AM SB Sign bit AV Analog value 13 8 Significant Measured Values IR Because of the d
16. ection for battery monitoring Because of the single ended inputs the following connections are necessary Connect the reference input of a terminal between two voltage sources Channel 1 measures the first voltage source with opposite polarity The measured value must be adapted in the control system to the polarity Channel 2 measures the second voltage source with correct polarity Configure the terminal to bipolar 10 V 5564_en_03 PHOENIX CONTACT 11 IB IL Al 2 SF PAC 10 Notes on Using the Terminal in Potentially Explosive Areas 10 1 Approval in Acc With EG RL 94 9 ATEX II 3G EEx nAC IIC T4 U This Inline terminal conforms to standard EN 50021 and can be installed in a Zone 2 potentially explosive area These Inline terminals are Category 3 items of equipment 10 2 UL Approval These Inline terminals for the indicated hardware version or later are suitable for use in Class I Division 2 Groups A B C D Ey 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 that are approved for the potentially explosive areas of Zone 2 please refer to the AH EN IL EX ZONE 2 application note Check the labeling on the Inline terminal and the packaging see Figure 7 eerte Potential routing 4 A maximum IBx IL xx OX ct Order No Module ID xx XX HWIFW XXI Dui SM UNE m E R
17. ent is limited to 4 A when using the Inline terminals in potentially explosive areas 5564 en 03 PHOENIX CONTACT 12 IB IL Al 2 SF PAC 11 Programming Data Configuration Data 11 1 Local bus INTERBUS 11 2 Other Bus Systems ID code 7Fhex 127 dec 3 For the programming data configuration data Length code O2hex of other bus systems please refer to the input add Abt corresponding electronic device data sheet nput address area ytes e g GSD EDS Output address area 4 bytes Parameter channel PCP 0 bytes Register length bus 4 bytes 12 Process Data Forthe assignment of the illustrated byte bit view to your INTERBUS control or computer system please refer to data sheet DB GB IBS SYS ADDRESS Order No 9000990 12 1 Process Data Output Words for the Configuration of the Terminal see page 14 Word bit view Byte Word 0 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Byte bit view Channel 1 Assignment Channel 2 Assignment 1 010 000 Filter 0 O Format Measuring range 12 2 Assignment of the Terminal Points to the Process Data Input Words see page 16 Word bit view Byte Word 0 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 21 0 Byte bit view Channel 1 Signal 15 13 12 11 10 Terminal point 1 1 Voltage input Terminal point 1 2 Current input
18. ing range 4 mA through 20 mA Input Data Word 4 mA to 20 mA Two s Complement linput hex dec mA 8001 Overrange gt 21 339733 7F00 32512 21 339733 7530 30000 20 0 0001 1 4 00053333 0000 0 4 0 to 3 2 8002 Open circuit 3 2 13 3 IB ST Format The measured value is represented in bits 14 through 3 The remaining 4 bits are available as sign measuring range and error bits This format corresponds to the data format used on INTERBUS ST modules Measured value representation in IB ST format 12 bits 15 14 13 12 11 10 9 8 7 6 5 SB SB Sign bit AV Analog value AV OC Open circuit OR Overrange 0 4 Measuring range 4 through 20 mA 13 4 Significant Measured Values Measuring range 0 mA through 20 mA 0 V through 10 V 0 4 OC OR Input Data Word 0 mA to 20 mA 0Vto10V Two s Complement linput Umput hex mA V 7FF9 gt 21 5 gt 10 75 7FF8 20 0 to 21 5 10 00 to 10 75 7FF8 19 9951 9 9975 4000 10 0 5 0 0008 0 0048828 0 002441 0000 0 0 Measuring range 20 mA through 20 mA 10 V through 10 V Input Data Word 20 mA to 20 mA 10 V to 10 V Two s Complement linput Uinput hex mA V 7FF9 gt 21 5 gt 10 75 7FF8 20 0 to 21 5 10 00 to 10 75 7FF8 19 9951 9 9975 0008 0 0048828 0 002441 0000 0 0 5564_en_03 PHOENIX CONTACT 18
19. isplay standardization not all of the possible codes are used Some codes are additionally used for diagnostic functions Therefore the resolution is not 15 bits but exactly 13 287713 bits Measuring range 0 V through 10 V Measuring range 0 mA through 20 mA Input Data Word 0 V to 10V Input Data Word 0 mA to 20 mA Two s Complement Uinput Two s Complement linput hex dec V hex dec mA 8001 Overrange 210 837 8001 Overrange gt 21 674 2A55 10837 10 837 54AA 21674 21 674 2710 10000 10 0 4E20 20000 20 0 0001 1 0 001 0001 1 0 001 0000 0 lt 0 0000 0 lt 0 Measuring range 10 V through 10 V Measuring range 20 mA through 20 mA Input Data Word 10 V to 10 V Input Data Word 20 mA to Two s Complement Uinput Two s Complement 20 mA hex dec V linput 8001 Overrange 210 837 hex dec mA 2A55 10837 10 837 8001 Overrange gt 21 674 2710 10000 10 0 54AA 21674 21 674 0004 1 0 001 4E20 20000 20 0 0000 0 0 0001 1 0 001 FFFF 1 0 001 0000 0 0 D8FO 10000 10 0 FFFF 1 0 001 D5A6 10837 10 837 B1E0 20000 20 0 8080 Underrange lt 10 837 A656 21674 21 674 8080 Underrange lt 21 674 5564_en_03 PHOENIX CONTACT 21 IB IL Al 2 SF PAC Measuring range 4 mA through 20 mA Input Data Word 4mA to 20 mA Two s Complement linput hex dec mA 8001 Overrange gt 21 339 43BB 17339 21 339 3E80 16000 20 0 0001 1 4 001 0000 0 4 0 to 3 2 8002 Open circuit 3 2
20. nalog inputs not permitted see also user manual To provide electrical isolation between the logic level and the I O area it is necessary to supply the station bus coupler and the sensors connected to the analog input terminal from separate power supply units Interconnection of the power supply units in the 24 V area is Common Potentials The 24 V main voltage 24 V segment voltage and GND have the same potential FE is a separate potential area Separate Potentials in the System Consisting of Bus Coupler Power Terminal and I O Terminal Test Distance 5 V supply incoming remote bus 7 5 V supply bus logic 5 V supply outgoing remote bus 7 5 V supply bus logic 7 5 V supply bus logic 24 V supply Uana I O 7 5 V supply bus logic 24 V supply Uana functional earth ground I O functional earth ground Test Voltage 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min Error Messages to the Higher Level Control or Computer System Failure of the internal voltage supply Peripheral fault user error Approvals For the latest approvals please visit www download phoenixcontact com Yes Yes error message via the IN process data see page 16 5564 en 03 PHOENIXCONTACT 7 IB IL Al 2 SF PAC 4 Local Diagnostic Status Indicators and Terminal Point Assignment Figure 1
21. operation storage transport Permissible air pressure storage transport Degree of protection Class of protection Connection data of connector Connection method Conductor cross section 12 2 mm x 120 mm x 71 5 mm 47 g without connector 69 g with connector Process data mode with 2 words 2 and 3 wire technology With an external power supply unit or with an additional segment terminal with a fuse IB IL 24 SEG F 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 3 000 m above sea level IP20 according to IEC 60529 Class 3 according to VDE 0106 IEC 60536 Spring cage terminals 0 2 mm to 1 5 mm solid or stranded AWG 24 16 Deviations From Common Technical Data That Are Indicated in the IB IL SYS PRO UM E User Manual Noise Immunity Test According to EN 50082 2 Electrostatic discharge ESD according to EN 61000 4 2 IEC 61000 4 2 Mechanical Requirements Shock test according to EN 60068 2 27 IEC 60068 2 27 Interface Local bus Transmission Speed IB IL Al 2 SF IB IL Al 2 SF PAC Power Consumption Communications power UL Current consumption from U l O supply voltage Uana Current consumption at Uana Total power consumption Criterion B 6 kV contact discharge 6 kV air discharge 15g load for 11 ms half sinusoidal wave three shocks in each space direction and orientation 25g load for 6 ms half sinusoidal wave three shocks in each space direction
22. s refer to the measuring range final value of 20 mA Typical Maximum Tolerance at 23 C Tolerance due to offset 0 03 0 06 Tolerance due to increase 0 10 0 10 Differential non linearity 0 10 0 30 Total tolerance of the current inputs at 23 C 0 20 0 40 Tolerance due to offset increase and linearity Temperature Response at 25 C to 55 C Offset drift Tkio 6 ppm K 12 ppm K Gain drift Tkg 30 ppm K 50 ppm K Total drift Tktot Tkio Tke 36 ppm K 62 ppm K Total error of the voltage inputs 25 C to 55 C 0 35 0 60 Tolerance due to offset increase linearity and drift 5564_en_03 PHOENIX CONTACT 6 IB IL Al 2 SF PAC Additional Tolerances Influenced by Electromagnetic Fields Type of Electromagnetic Interference Typical Deviation of the Measuring Range Final Value Typical Deviation of the Measuring Range Final Value Voltage Input Current Input Relative Absolute Relative Absolute Electromagnetic fields lt 2 lt 200 mV lt 2 lt 400 pA Field strength 10 V m according to EN 61000 4 3 IEC 61000 4 3 Conducted interference lt 1 lt 100 mV lt 1 lt 100 pA Class 3 test voltage 10 V according to EN 61000 4 6 IEC 61000 4 6 Fast transients burst lt 1 lt 100 mV lt 1 lt 100 uA 4 kV supply 2 kV input according to EN 61000 4 4 IEC 61000 4 4 Safety Equipment Surge voltage Electrical Isolation Isolation of the Voltage Areas Suppressor diodes in the a
23. sensor resistances reference potential Common mode rejection CMR 90 dB minimum Reference Current input signal valid for permissible DC common mode 110 dB typical voltage range Permissible DC common mode voltage for CMR 40 V between current input and FE Maximum permissible current 100 mA Note on the internal process data update The time specification also contains the internal firmware runtime and the time for analog digital conversion of the module For system inspection e g for step response determination of sensors please also observe the times for latching and bus transmission as well as the status of the mean value generation Tolerance Behavior and Temperature Response of the Voltage Inputs The tolerance indications refer to the measuring range final value of 10 V Typical Maximum Tolerance at 23 C Tolerance due to offset 0 03 0 06 Tolerance due to increase 0 05 0 10 Differential non linearity 0 10 0 20 Total tolerance of the voltage inputs at 23 C 0 15 0 30 Tolerance due to offset increase and linearity Temperature response at 25 C to 55 C Offset drift To 6 ppm K 12 ppm K Gain drift Tkg 30 ppm K 50 ppm K Total voltage drift Tktot Tkvo Tke 36 ppm K 62 ppm K Total error of the voltage inputs 25 C to 55 C 0 30 0 50 Tolerance due to offset increase linearity and drift Tolerance Behavior and Temperature Response of the Current Inputs The tolerance indication
24. te an error The error codes are listed on page 16 Measured value representation in IB IL format 15 bits 15 14 13 12 11 9 8 76 5 SB AV SB Sign bit AV Analog value This format is preset default To ensure that the terminal can be operated in previously used data formats the measured value representation can be switched to different formats 13 2 Significant Measured Values D 3 Some codes are used for diagnostic functions Therefore the resolution is not 15 bits but exactly 14 9886847 bits Measuring range 0 mA through 20 mA 0 V through 10 V Input Data Word 0 mA to 20 mA 0Vto10V Two s Complement linput Uinput hex dec mA V 8001 Overrange gt 21 6746 gt 10 837 7F00 32512 21 6746 10 837 7530 30000 20 0 10 0 0001 1 0 66667 uA 333 33 UV 0000 0 0 0 0000 0 0 0 Measuring range 20 mA through 20 mA 10 V through 10 V Input Data Word 20 mA to 20 mA 10 V to 10 V Two s Complement linput Uinput hex dec mA V 8001 Overrange gt 21 6746 gt 10 837 7F00 32512 21 6746 10 837 7530 30000 20 0 10 0 0001 1 0 66667 uA 333 33 UV 0000 1 0 0 FFFF 0 0 66667 uA 333 33 uV 8ADO 30000 20 0 10 0 8100 32000 21 6746 10 837 8080 Underrange 21 6746 10 837 5564 en 03 PHOENIX CONTACT 17 IB IL Al 2 SF PAC Measur
25. y Protocol chip Ex Optocoupler VA REF D Power supply unit with electrical isolation Microprocessor with multiplexer and analog to digital converter Reference voltage C Electrically erasable programmable read EEPROM only memory Ea so Amplifier Coupling network Other symbols used are explained in the IB IL SYS PRO UM E user manual or in the Inline system manual for your bus system 7 Electrical Isolation Local bus IN Local bus OUT Bus interface 7 E U 7 5 V DC W ES OPC U 7 5 V DC U 24 V DC I t EB Ua Una 24 V DC mmm 24 V fs 10 V yo interface and 5 microprocessor Electrical isolation between area A and B l FE potential Analog input 5564B011 Figure 3 Electrical isolation of the individual function areas 5564_en_03 PHOENIX CONTACT 9 IB IL Al 2 SF PAC 8 Connection Notes A I Do not connect voltages above 5 V to a current input This damages the module electronics as the maximum permissible current of 100 mA is exceeded Always connect the analog sensors using shielded twisted pair cables Connect the shielding to the terminal using the shield connection clamp The clamp connects the shield with high resistance and with a capacitor to FE on the module side Additional wiring is not necessary Connect the shielding of the sensor with PE potential 9 Connection Examples
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