Data Sheet DB EN IB IL AI 8/SF
Contents
1. OUT 0 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 Assignment 0 Command 0 0 0 0 0 0 0 bin 0 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 hex 6 0 0 0 OUT 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 0 0 0 0 0 0 Filter 0 Format Measuring range bin 0 0 0 0 0 0 1 1 0 0 0 0 0 0 0 1 hex 0 3 0 1 With the command in OUT O the configuration according to OUT 1 is sent to the module electronics After configuration is complete the command and the configuration are mirrored in the process data input words Configure terminal OUT O 6000hex OUT 1 0301 hex Configuration completed successfully IN O 60005 IN 1 0301 hex Error during configuration IN O FOOO pex IN 1 0301 hex A cyclic program sequence which reads the measured values of the individual channels takes place after configuration has been successfully completed Process data output word OUT 0 appears as follows 6226 en 02 PHOENIX CONTACT 31 IB IL Al 8 SF OUT 0 Bit 15 14 13 12 11 10 9 8 7 5 3 0 Assignment Command 0 bin 0 0 0 0 0 Z Z Z 0 hex 0 0 0 Command 0x00hex does not require any parameters and the value of parameter word OUT 1 is OOOO pex With the command in OUT O the read request is sent to the module electronics After the command has been executed itis mirrored in process data input word IN O and the analog value xxxxpe2. PHOENIX CONTACT 27 IB IL AI 8 SF 14 5 Examples of Measured Value Representation in Various 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 10mA IB RT 4000 16 384 10 mA Standardized representation 2710 10 000 10 mA Measuring range 10 V Measured value 5 V Input data word Format hex Value dec Value Measured value IB IL 3A98 15 000 5V IB ST 4000 16 384 5V IB RT 4000 16 384 5V Standardized representation 2710 5 000 5V 6226_en_02 PHOENIX CONTACT 28 IB IL Al 8 SF 14 6 PIO Format PIO format enables high resolution representation of measured values in the 4 mA to 20 mA current measuring range In this format a hypothetical measuring range of O mA to 25 mA is divided into 216 quantization steps 65 536 steps Thus unipolar measured currents with a resolution of 0 38 pA LSB can be represented Although this format is designed for the 4 mA to 20 mA range signals between 0 mA and 24 mA can be acquired so the overrange limits and the open circuit threshold in the higher level control system can be freely defined Measured value representation in PIO format 16 bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Analog value Example of Parameterization Using PIO
3. FFFF 1 0 6667 pA 1 3333 pA 8ADO 30000 20 0 40 0 8100 32512 21 6746 43 3493 8080 UR lt 21 6746 43 3493 Input Data Word 4 mA to 20 mA Two s Complement lin hex dec mA 8001 OR 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 lt 43 2 6226 en 02 PHOENIX CONTACT 20 IB IL Al 8 SF 14 2 IB ST Format The measured value is represented in bits 14 to 3 The remaining 4 bits are 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 4 3 2 1 0 SB Analog value 0 4 OC OR SB Sign bit OC Open circuit 0 4 Measuring range 4 to 20 mA OR Over underrange Significant Measured Values Voltage Ranges Input Data Word 0Vto5V OVto10V 0Vto 25 V 0 V to 50 V Two s Complement Uin Uin Un Uin hex dec V V V V 7FF9 32761 gt 45 375 110 75 126 875 gt 453 75 7FF8 32760 4 9988 to 9 9975 to 24 9939 to 49 9878 to 5 375 10 75 26 875 53 75 4000 16384 2 5 5 0 12 5 25 0 0008 8 1 221 mV 2 441 mV 6 1025 mV 12 205 mV 0000 0 lt 0 lt 0 0 0 Input Data Word 5 V 10 V 25 V Two s Complement Uin Un Un hex dec V V V 7FF9 32761 gt 45 375 gt 410 75 gt 426 875 7FF8 32
4. 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 2 3 1 2 Minus input for both current and voltage 1 4 2 4 Shield Shield connection 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 A Create a separate main circuit for the 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 6226 en 02 PHOENIX CONTACT 7 IB IL AI 8 SF 6 Internal Circuit Diagram Local bus UL Uana UL Uni 24 V Ug m lint 24 V Uy 14 62268004 Figure 2 Internal wiring of the terminal points Key orc Protocol chip Power supply unit with electrical isolation Optocoupler REF Reference voltage source yP Microprocessor V Analog digital converter a Electrically erasable programmable D Amplif
5. the message Measured value invalid command diagnostic code 80044 appears in the The following configurations are possible process data input words for every channel Selecting a measuring range according to the input requested The message is displayed until the signal corresponding channel has been configured Selecting mean value generation filtering If the configuration is changed the message Changing the formats for the representation of Measured value invalid diagnostic code measured values 8004554 appears for a maximum of 100 ms IE Current or voltage measurement is selected by Passa note theextendedir ntime whens applying the measured signal to the current or is channel is configured for the first time and voltage input and then configuring the every time a channel is reconfigured measuring range OUTI O OUT 1 15 14 13 12 11 10 i Jl J Reserved 0 Command Reserved 0000 0000 CEA Figure 5 Process data output words MSB Most significant bit LSB Least significant bit Sy Set all reserved bits to 0 6226_en_02 PHOENIX CONTACT 12 IB IL Al 8 SF 12 1 X OUT 0 Command Code OUT 0 Bit 15 14 18 12 11 10 9 8 7 Assignment 0 Comma
6. Format Channel 1 Filtering 16 sample average value Format PIO Measuring 4 mA to 20 mA PIO format is only supported in this measuring range range Option 1 1 Configure channel 1 OUT O 4000hex OUT 1 004Ahex 2 Read the measured value OUTT0 0000hex OUT 1 0000hex Option 2 Configure channel 1 and read the measured value OUT O 5000hex OUT 1 004Anex Significant Measured Values Input Data Word PIO Two s Complement lin hex dec mA F5C2 62914 24 0 CCCD 52429 20 0 6666 26214 10 0 OASD 2621 11 0 0001 1 40 3815 pA 0000 0 0 6226_en_02 PHOENIX CONTACT 29 IB IL AI 8 SF 15 Process Data Input Words in the Event of an Error In the event of an error the command is mirrored in input word IN 0 and displayed with the set error bit Input word IN 1 indicates the error cause The following diagnostic codes are valid for configuration or hardware errors in all data formats Command Code PF Meaning Note Remedy hex hex 8020 X 1 O supply voltage faulty Check the supply voltage of the station head e g Upc Check the potential jumper connection After module 8040 X Module faulty Replace module start 0x00 8004 There is no valid configuration for the Configure channel requested channel 5x00 8004 The configuration just specified is invalid Check and correct configuration 1x00 8010 There is no valid config
7. Signal Scanning or Fast Sudden Signals sssssssseeeeeeeeneneee nennen neret nnne 39 17 4 Linked Voltages ure en eR BOE ae e ie tee ERE HER MEAM 39 17 5 Current LOOPS ce EE ea A et ele De a ae SES 40 176 PASSIVE Sensors sicco ti ee a n ad dete a ie 40 18 Tolerance and Temperature Response ssssssssssee eene meer 41 6226 en 02 PHOENIX CONTACT 3 IB IL AI 8 SF 2 Ordering Data Products Description transmission speed of 2 Mbps gt Accessories Description Documentation Description manual user manual Type Order No Pcs Pck Inline terminal with eight analog input channels IB IL Al 8 SF PAC 2861412 1 transmission speed of 500 kbps complete with accessories connectors and labeling fields Inline terminal with eight analog input channels IB IL Al 8 SF 2727831 1 transmission speed of 500 kbps without accessories Inline terminal with eight analog input channels IB IL Al 8 SF 2MBD PAC 2862042 1 complete with accessories connectors and labeling fields Inline terminal with eight analog input channels IB IL Al 8 SF 2MBD 2855648 1 transmission speed of 2 Mbps without accessories Four of the listed connectors are needed for the complete fitting of the IB IL Al 8 SF and IB IL Al 8 SF 2MBD terminals Type Order No Pcs Pck Connector with shield connection for the connection of two cables IB IL SCN 6 SHIELD TWIN 2740245 5 Type Order No Pcs Pck Config
8. according to OUT 1 is sent to the module electronics for each channel After configuration of a channel is complete the command and the configuration are mirrored in the process data input words Configure channel 1 Configuration completed successfully Error during configuration Configure channel 2 Configuration completed successfully Error during configuration Configure channel 3 Configuration completed successfully Error during configuration Configure channels 4 to 8 according to the example configurations shown OUT O IN O IN O OUT O IN O IN O OUT O IN O IN O 4000 hex 4000 hex COOO her 4100hex 4100hex C100hex 4200 hex 4200 hex C200hex OUTI 1 IN 1 IN 1 OUTT1 IN 1 IN 1 OUT 1 IN 1 IN 1 0106hex 0106hex 0106hex 0002hex 0002hex 0002hex 020Ahex 020Ahex 020Ahex A cyclic program sequence which reads the measured values of the individual channels takes place after the configuration for each individual channel has been completed successfully Process data output word OUT 0 appears as follows OUT 0 Bit 15 14 13 12 11 10 9 8 7 Assignment Command 0 bin 0 0 0 0 Zo Zi Z 0 hex 0 Command 0xX00hex does not require any parameters and the value of parameter word OUT 1 is 0000 With the command in OUT O the read request is sent to the module electronics After th
9. following configurations are recommended Measured value acquisition According to standard method 1 or 2 Format IB IL high resolution Filtering 32 sample average value This suppresses undesirable interference signals and provides a low noise accurate measured result Non time critical i e slow processes are a prerequisite for this configuration 17 2 Closed Loop Control Tasks The terminal makes closed loop control tasks particularly easy to implement In INTERBUS networks the terminal supports the advantages with regard to time equidistance As the terminal scans input signals synchronously with the bus clock and the bus runtime has a very small jitter the input signals can be scanned equidistantly Thus the measured results are particularly suitable for use in closed loop control The following configurations and measures are recommended Measured value acquisition According to standard method 1 or 2 In special cases group commands 7x00pex can be an exception Filtering No mean value generation As total accuracy is often irrelevant in closed loop control tasks filtering is not necessary This increases the dynamic response of the terminal and speeds up the closed loop control circuit Adjust the local bus cycle time to the firmware runtime Example for INTERBUS In standard method 1 the firmware runtime is 800 ys i e the INTERBUS cycle time should be set to 800 us In appl
10. 760 14 9988 to 19 9975 to 124 9939 to 415 375 110 75 126 875 4000 16384 2 5 5 0 12 5 0008 8 1 221 mV 2 441 mV 6 104 mV 0000 0 0 0 0 FFF8 8 1 221 mV 2 441 mV 6 104 mV C000 16384 2 5 5 0 12 5 8000 32768 5 0 to 5 375 10 00 to 10 75 25 0 to 26 875 8001 32767 5 375 lt 10 75 26 875 6226_en_02 PHOENIX CONTACT 21 IB IL AI 8 SF Current Ranges Input Data Word 0 mA to 20 mA 0 mA to 40 mA Two s Complement lin lin hex dec mA mA 7FF9 32761 gt 421 5 gt 443 0 7FF8 32760 19 9951 to 21 5 39 9902 to 43 0 4000 16384 10 0 20 0 0008 8 4 8828 yA 9 7656 pA 0000 0 lt 0 lt 0 Input Data Word 20 mA 40 mA Two s Complement liN liN hex dec mA mA 7FF9 32761 gt 421 5 gt 443 0 7FF8 32760 19 9951 to 21 5 39 9902 to 43 0 4000 16384 10 0 20 0 0008 8 4 8828 yA 9 7656 pA 0000 0 0 0 FFF8 8 4 8828 yA 9 7656 pA C000 16384 10 0 20 0 8000 32768 20 0 to 21 5 40 0 to 43 0 8001 32767 21 5 lt 43 0 Input Data Word 4 mA to 20 mA Two s Complement lin hex dec mA 7FFD 32765 gt 21 5 7FFC 32764 19 9961 to 21 5 4000 16384 10 000C 12 4 003906 0004 4 3 2 to 4 0 0006 6 lt 3 2 6226_en_02 PHOENIX CONTACT 22 IB IL Al 8 SF 143 IB RT Format The measured value is represented in bits 14 to 0 An additional bit bit 15 is available as a sign bit This format corres
11. IB IL Al 8 SF Inline Terminal With Eight Analog Input Channels AUTOMATIONWORX Data Sheet 6226 en 02 O PHOENIX CONTACT 10 2006 1 Description Features Eight analog single ended signal inputs for the connection of either voltage or current signals Connection of sensors in 2 wire technology Various current and voltage measuring ranges Channels are configured independently of one another using the bus system Measured values can be represented in five different formats 16 bit analog digital converter Process data multiplex mode Diagnostic indicators The terminal is designed for use within an Inline station It is used to acquire analog voltage or current signals This data sheet is only valid in association with the IB IL SYS PRO UM E user manual or the Inline system manual for your bus system IR 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 at www download phoenixcontact com general 7000 en 00 pdf IEY This data sheet is valid for all products listed on the following page D OGD OO GD GD OGD OO GD iimte INSPIRING INNOVATIONS IB IL Al 8 SF Table of Contents gt A OU N o ON O OC Boom E 1 Ordering Pri 4 Technical Datak RS 4 Local Diagnostic and Status Indicators and Terminal Point Assig
12. Values Voltage Ranges Input Data Word 0Vto5V 0Vto 10V 0Vto 25 V 0 Vto 50 V Two s Complement Uin Uin Un Uin hex dec V V V V 8001 OR gt 45419 gt 410 837 gt 427 093 gt 454 187 7F00 32512 5 419 10 837 27 093 54 187 7530 30000 5 0 10 0 25 0 50 0 0001 1 166 67 uV 333 33 uV 833 33 uV 1 6667 mV 0000 0 0 0 0 0 0000 0 lt 0 lt 0 lt 0 lt 0 Input Data Word 5 V 10V 25 V Two s Complement UiN Un Uin hex dec V V V 8001 OR gt 45419 gt 410 837 gt 427 093 7F00 32512 5 419 10 837 27 093 7530 30000 5 0 10 0 25 0 0001 1 166 67 uV 333 33 uV 833 33 uV 0000 0 0 0 0 FFFF 0 166 67 uV 333 33 uV 833 33 uV 8ADO 30000 5 0 10 0 25 0 8100 32512 5 419 10 837 27 093 8080 UR lt 5 419 lt 10 837 lt 27 093 Current Ranges Input Data Word 0 mA to 20 mA 0 mA to 40 mA Two s Complement liN liN hex dec mA mA 8001 OR gt 421 6746 gt 443 3493 7F00 32512 21 6746 43 3493 7530 30000 20 0 40 0 0001 1 0 66667 yA 1 3333 pA 0000 0 0 0 0000 0 lt 0 lt 0 6226_en_02 PHOENIX CONTACT 19 IB IL AI 8 SF Input Data Word 20 mA 40 mA Two s Complement ln ln hex dec mA mA 8001 OR gt 421 6746 43 3493 7F00 32512 121 6746 443 3493 7530 30000 20 0 40 0 0001 1 0 6667 HA 1 3333 pA 0000 0 0 0
13. ata Input Words IN O and IN 1 oocccnccnnccnnnnonnconoconnnnnnnnnnnnnnnnnnnoneninenineninininininens 15 138 1 IN 0 and IN 1 for Commands 0X0Opex to 6000ge eocccococcococnncncnnccnnocanannon cnn conc rn nan non cnn enn nn nennen nnns 15 13 2 IN 0 and IN 1 for Group Commands 7X0O pex essssssseseeeeeeeneeteenenneneeeeneneneeternre terne 17 Formats for the Representation of Measured Values sseeee 18 144 ABI Forti reete es erg rte reca said 14 2 IB ST Format 14 3 IB RT Format 14 4 Standardized Representation Format sese nennen nennen enne 25 14 5 Examples of Measured Value Representation in Various Data Formats sse 28 14 6 PIO Format tices hase i ites acelin ed a Ii Eu 29 Process Data Input Words in the Event of an ErTOF oooccccncococcccncnonnnanonancnnncncnnnnnnn cnn nnnnnnnnnnnnnnnos 30 6226 en 02 PHOENIXCONTACT 2 IB IL Al 8 SF 16 Stan p Options inito te mars ers desde dde uique ied eie Metus ee eae 31 16 1 Standard Method 1 dte iia oa es ties 31 16 2 Standard Method 2 m x anexo Ie PREMIUM IBEEPGOS quud dune 34 16 3 Special Methods e REPERI Eie ee 37 16 4 Advantages of Standard Methods Over Special Methods sse 37 17 Application sp N 38 17 1 Precision DO Measuremernls oir iie ee e o Dr n ce ia o e ders 38 17 2 Glosed Loop Control Tasks nn uat e HS a BG ERR a aR a a 38 17 3
14. d interference lt 1 lt 1 Class 3 test voltage 10 V according to EN 61000 4 6 IEC 61000 4 6 Fast transients burst lt 1 lt 1 4 kV supply 2 kV input according to EN 61000 4 4 IEC 61000 4 4 IEY The values refer to nominal operation in the recommended mounting position PHOENIX CONTACT 10 2006 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany 41 6226_en_02 Phone 49 52 35 30 0 Fax 49 52 35 34 12 00 www phoenixcontact com
15. ded inputs A common ground potential should be used with linked voltages As the terminal has many measuring ranges for example the O V to 50 V range and the resolution is high enough applications with several linked voltages can also be implemented without any problems 6226A016 Figure 11 Measuring linked voltages 6226 en 02 PHOENIX CONTACT 39 IB IL Al 8 SF 17 5 Current Loops If the terminal is used to measure currents in current loops make sure that the eight current inputs operate on a common ground potential single ended Thus the measuring input should always be on the GND potential with the minus input 6226A017 Figure 12 Measuring currents 17 6 Passive Sensors When using passive sensors please use the IB IL AI 8 IS terminal 6226 en 02 PHOENIX CONTACT 40 IB IL AI 8 SF 18 Tolerance and Temperature Response Voltage Inputs Ta 25 C Measuring Range Absolute Typical Absolute Maximum Relative Typ
16. e 123hex Shex IB IL Al 8 SF Terminal equipped with firmware Version 1 23 Shex IB IL AI 8 IS 6226 en 02 PHOENIX CONTACT 15 IB IL AI 8 SF For commands 1x00hex 4Xx00pex and 6000hex IN 1 contains the mirroring of the specified configuration IN 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 0 0 0 0 0 0 Filter 0 Format Measuring range For commands Ox00pex and 5x00hex IN 1 contains the analog measured value IN 1 Bit 15 14 18 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment Measured value in the corresponding format Format IB IL IB RT Standardized representation IB ST PIO 13 12 SIESSEETIEELEIT o AV Figure 7 Representation of the measured values in the different formats 6226A010 SB Sign bit OC Open circuit AV Analog value OR Overrange 0 4 Measuring range 4 to 20 mA MSB Most significant bit LSB Least significant bit The individual formats are explained in Section Formats for the Representation of Measured Values on page 18 6226_en_02 PHOENIX CONTACT 16 IB IL AI 8 SF 13 2 IN 0 and IN 1 for Group Commands 7x00hex IN O IN 1 Result 6226A013 Figure 8 Process data input words For group commands 7x00hex both input words contain the measured values of the channels that correspond to the group command Group Comma
17. e command has been executed itis mirrored in process data input word IN O and the analog value xxxxpex or a diagnostic message yyYYnex is displayed in process data input word IN 1 The appearance of the process data input and output words is the same as in example 1 6226_en_02 PHOENIX CONTACT 35 IB IL AI 8 SF Configure channel n 4x00 XXXXnox Initialization of each individual channel Cyclic program sequence for reading the measured values of channels 1 to 8 Read measured value of channel n Evaluate and remove errors 0x00 0000 6226A015 Figure 10 Schematic initialization and cyclic program sequence when configuring channels with different parameters 6226 en 02 PHOENIX CONTACT 36 IB IL Al 8 SF 16 3 Special Methods The group commands are regarded as special methods Task The measured values of channels 1 to 4 group A are to be read in one cycle and the measured values of channels 5 to 8 group B in another cycle 7000he for group A 7100hex for group B The input channels are to be operated in different configurations e g as in example 2 Procedure 1 Install the terminal 2 Connectthe voltage power up 3 Configure each individual channel in the terminal in turn initialization phase e g in the initialization phase of the application program As the channels are to have different configurations they must be configur
18. ector 9 1 Connection of Active Sensors Slot Channel Voltage sensor to channel 1 Figure 4 A 1 2 3 4 12345678 Current sensor to channel 8 Connection of active sensors using 2 wire technology with shield connection The sensors have the same reference potential 9 2 Connection of Passive Sensors gt The IB IL Al 8 IS terminal Order No 2742748 is used to connect passive current sensors 6226 en 02 PHOENIX CONTACT 9 IB IL AI 8 SF 10 Programming Data Configuration Data 10 1 INTERBUS 10 2 Other Bus Systems ID code 5Fhex 9dec Ey For the configuration data of other bus Length code O2hex systems please refer to the corresponding lectroni ice data sheet e g GSD EDS Process data channel 32 bits plpetronie device dala sheeted Input address area 4 bytes Output address area 4 bytes Parameter channel PCP O bytes Register length bus 4 bytes 6226 en 02 PHOENIX CONTACT 10 IB IL AI 8 SF 11 Process Data 11 1 Process Data Output Words for Configuring the Terminal See page 12 Process data outpu
19. ed using command 4x00pex 4 Use group command 7000pex to read the measured values for channels 1 to 4 simultaneously Then use group command 71004 to read the measured values for channels 5 to 8 Both groups can be reread cyclically 16 4 Advantages of Standard Methods Over Special Methods Standard methods read the measured values with greater reliability because the command is mirrored for every measured value Thus it is possible to detect precisely which channel supplied the measured value Standard methods enable more accurate error diagnostics than special methods f you switch the group command for reading the channels e g between 700044 and 710045 when reading two groups of four channels each you must allow sufficient time to do so It must be ensured that the received measured values belong to the requested group This can only be ensured using waiting times 6226 en 02 PHOENIX CONTACT 37 IB IL Al 8 SF 17 Application Notes Notes on typical applications are provided here in order to facilitate optimum use of the terminal in different operating modes 17 1 Precision DC Measurements Precision DC measurements constitute an optimum area of application for the terminal The high resolution analog digital converter and excellent instrumentation amplifier technology achieve a very high level of accuracy typically 0 0296 in the voltage range In order to take full advantage of these features the
20. er channel 6226_en_02 PHOENIX CONTACT 14 IB IL AI 8 SF 13 Process Data Input Words IN 0 and IN 1 The measured values and diagnostic messages diagnostic codes are transmitted to the controller board or computer using the two process data input words The contents of the words vary according to the command 13 4 IN 0 and IN 1 for Commands 0x00 to 60004 I Mirroring of the 0000 0000 command code Error bit 6226A008 Figure 6 Process data input words IN 0 Output word OUT O which contains the command code is mirrored in input word IN O This confirms that the command has been executed correctly If the command was not executed correctly the error bit is set in bit 15 of input word IN O The error bit is set for one of the following reasons see also page 30 There is no valid configuration for the requested channel There was an invalid parameter during configuration Areserved bit was set The command is only mirrored if it has been executed completely This means for example that command 5x00hpe is only mirrored after the value has been read and not following reconfiguration IN 1 Input word IN 1 varies depending on the command IN 1 contains the firmware version and module ID for command 3CO0pe IN 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment Firmware version Module ID Exampl
21. iN hex dec mA mA 7FFF 32767 2 419 9993896 gt 39 9987793 7FFE 32766 19 9987793 39 9975586 4000 16384 10 20 0001 1 0 6104 pA 1 2207 yA 0000 0 0 0 Input Data Word 20 mA 40 mA Two s Complement lin lin hex dec mA mA 7FFF 32767 gt 19 999385 gt 39 9987739 7FFE 32766 19 998779 39 9975586 4000 16384 10 0 20 0 0001 1 0 6104 pA 1 2207 yA 0000 0 0 0 FFFF 1 0 0006105 0 0012207 C000 16384 10 0 20 0 8001 32770 19 999385 39 9987793 8000 32768 lt 20 0 lt 40 0 Input Data Word 4 mA to 20 mA Two s Complement lin hex dec mA 7FFF 32767 gt 19 9995117 7FFE 32766 19 9990234 4000 16384 12 0001 1 0 4884 pA 0000 0 4 0 0000 0 3 2 to 4 0 7FFF 32767 lt 432 6226_en_02 PHOENIX CONTACT 24 IB IL Al 8 SF 14 4 Standardized Representation Format The data is represented in bits 14 to O 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 following validity for the measuring ranges stated Measuring Range Validity of One Bit OVto5V 5V 1mV O V to 10 V x10 V 1mV 0 V to 25 V 25 V 1mV 0Vto50V 10 mV O mA to 20 mA 4 mA to 20 mA 1 pA 0 mA to 40 mA 10 pA This format supports extended diagnostics Values gt 800044 and lt 8100hex indicate an erro
22. ical Relative Maximum OVto5V 5V 1 0 mV 5 0 mV 0 02 0 10 O V to 10 V 10 V 2 0 mV 10 0 mV 0 02 0 10 0 V to 25 V 25 V 5 0 mV 25 0 mV 0 02 0 10 0Vto50V 10 0 mV 50 0 mV 0 02 0 10 TA 25 C 55 C Measuring Range Absolute Typical Absolute Maximum Relative Typical Relative Maximum OVto5V 5V 5 0 mV 15 0 mV 0 10 0 30 O V to 10 V 10 V 10 0 mV 30 0 mV 0 10 0 30 0 V to 25 V 25 V 25 0 mV 75 0 mV 0 10 0 30 O Vto50V 50 0 mV 150 0 mV 0 10 0 30 Current Inputs Ta 25 C Measuring Range Absolute Typical Absolute Maximum Relative Typical Relative Maximum 0 mA to 20 mA 8 0 yA 40 0 yA 0 04 0 20 4 mA to 20 mA 20 mA 0 mA to 40 mA x40 mA 16 0 pA 80 0 pA x 0 04 0 20 TA 25 C 55 C Measuring Range Absolute Typical Absolute Maximum Relative Typical Relative Maximum 0 mA to 20 mA 28 0 pA 80 0 pA 0 14 0 40 4 mA to 20 mA 20 mA O mA to 40 mA 40 mA 56 0 pA 160 yA 0 14 0 40 Additional Tolerances Influenced by Electromagnetic Fields Type of Electromagnetic Interference Typical Deviation of the Measuring Typical Deviation of the Measuring Range Final Value Voltage Input Range Final Value Current Input Relative Relative Electromagnetic fields lt 2 lt 2 field strength 10 V m according to EN 61000 4 3 IEC 61000 4 3 Conducte
23. ications in which an 8 bit resolution is sufficient group commands 7000pex and 710044 can be used to read four channels simultaneously Scanning is synchronous with the bus clock here too Four channels require lt 1500 us 6226 en 02 PHOENIX CONTACT 38 IB IL Al 8 SF 17 3 Signal Scanning or Fast Sudden Signals The terminal is ideal for scanning signals As a result of the high input limit frequency 3 5 kHz there are no limiting elements in the analog stage The maximum signal frequency that can be scanned depends on the firmware runtime and the INTERBUS cycle time The terminal measuring device can measure signals with a frequency of 1 800 us 1 25 kHz According to Shannon s sampling theorem therefore the signal frequency that can be scanned is 1 25 kHz 2 0 625 kHz This signal frequency can only be achieved if sufficiently fast bus operation can be ensured The following configurations and measures are recommended Measured value acquisition According to standard method 1 or 2 Filtering No mean value generation This increases the dynamic response of the terminal Adjust the local bus cycle time to the firmware runtime This achieves discrete periods of scanning Example for INTERBUS In standard method 1 the firmware runtime is 800 ys i e the INTERBUS cycle time should be set to 800 us 17 4 Linked Voltages When using linked voltages ensure that the terminal has eight single en
24. ier read only memory eii SUPER Microprocessor monitoring MUX Multiplexer Other symbols used are explained in the IB IL SYS PRO UM E user manual 6226 en 02 PHOENIXCONTACT 8 IB IL AI 8 SF 7 Local bus IN M I4 U 7 5 V DC MP Una 24 V DC MP Electrical Isolation Ss Bus interface OPC Local bus OUT and microprocessor gt U 7 5 V DC noc Wl uU 24 V DC i Vo interface 140 E Electrical isolation between area FE potential Analog inputs 6226A005 Figure 3 Electrical isolation of the individual function areas 8 Connection Notes y bb Do not simultaneously apply current and voltage signals to one input channel as you will not receive valid measured values Do not connect voltages above 2 5 V to a current input The module electronics will be damaged as the maximum permissible current of x100 mA will be exceeded Always connect the analog sensors using shielded twisted pair cables Connect the shielding to the Inline terminal using the shield connection clamp The clamp connects the shield directly to FE on the terminal side Additional wiring is not required Isolate the shielding at the sensor or connect it with a high resistance and a capacitor to the PE potential 9 Connection Examples gt Observe the connection notes on page 9 Figure 4 shows the connection schematically without shield conn
25. 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 Terminal Power Terminal and 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 UawA I O 500 V AC 50 Hz 1 min 7 5 V supply bus logic 24 V supply Uana functional earth ground 500 V AC 50 Hz 1 min l O functional earth ground 500 V AC 50 Hz 1 min Error Messages to the Higher Level Control or Computer System Failure of the voltage supply Uana Yes Peripheral fault user error Yes error message via the process data input words see page 30 Approvals For the latest approvals please visit www download phoenixcontact com 6226 en 02 PHOENIX CONTACT 6 IB IL AI 8 SF 4 Local Diagnostic and Status Indicators and Terminal Point Assignment Figure 1 4 1 Local Diagnostic Indicators IB IL AI 8 SF terminal with one of the appropriate connectors 6226B003 Des Color Meaning D Green Diagnostics 4 2 Function Identification Green 2 Mbps White stripe in the vicinity of the D LED 4 3 Terminal Point Assignment for Each Connector
26. nd 0 0 0 0 0 0 0 Bit 15 to bit 8 command Bit 15 to Bit 8 OUT 0 Command Function 0 0 0 0 0 Za Z Zo 0x00j Read measured value of channel x 0 0 0 1 0 Z Z Zg 1Xx00pex Read configuration of channel x 0 0 1 1 1 1 O0 0 3C00 Read firmware version and module ID 0 1 0 0 0 Za Z Zo 4Xx00pex Configure channel x 0 1 0 1 0 Za Zi Zo 5Xx00pex Configure channel x and read measured value of channel x 0 1 1 0 0 0 0 O 6000hex Configure entire terminal all channels O0O 1 1 1 0 Y2 Y Yo 7X00pex Commands for groups without mirroring Zo Z4 Zo Channel number Yo Y4 Yo Group number OUT 0 Bit 15 14 18 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 0 Command 0 Channel group 0 X X X X X X X 0 Bit 10 to bit 8 channel number Z2Z4Zo or group number Y Y y Y Code Channel Code Group bin dec bin dec 000 0 1 000 0 4 x 8 bit group A channel 1 2 3 and 4 001 1 2 001 1 4 x 8 bit group B channel 5 6 7 and 8 010 2 3 010 2 Reserved 011 3 4 011 3 Reserved 100 4 5 100 4 2 x 16 bit group A channel 1 and 2 101 5 6 101 5 2 x 16 bit group B channel 3 and 4 110 6 7 110 6 2 x 16 bit group C channel 5 and 6 111 7 8 111 7 2 x 16 bit group D channel 7 and 8 6226 en 02 PHOENIX CONTACT 13 IB IL AI 8 SF 12 2 OUT 1 Parameter Word The parameters for commands 4x00hex 5X00hex and 600044 must be specified in OUT 1 This parameter word is only evaluated for these command
27. nds for Two 16 Bit Channels 7400hex 7500hex 7600hex and 7700hex With commands for two 16 bit channels the analog value of one channel is mapped to every input word The representation corresponds to the representation in input word IN 1 for commands 0x00 2 and 5x00pex Example 2 x 16 Bit Group A Channels 1 and 2 Command 7400hex IN O Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 16 bit measured value channel 1 in the corresponding format IN 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 16 bit measured value channel 2 in the corresponding format Group Commands for Four 8 Bit Channels 7000pex 71004 With commands for four channels the analog values for two channels are mapped to every input word The measured value for each channel is represented in eight bits This measured value corresponds to bits 15 to 8 in the format representations of a 16 bit value 6226 en 02 PHOENIX CONTACT 17 IB IL AI 8 SF Example 4 x 8 Bit Group A Channels 1 2 3 and 4 Command 70004 IN O Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 8 bit measured value channel 1 8 bit measured value channel 2 in the corresponding format in the corresponding fo
28. nment 7 4 1 Local Diagnostic Indicators sic 2 a Eae ud Aa 7 4 2 Function Identifica Mit soie nit 7 4 3 Terminal Point Assignment for Each Connector c occcccncccnncccoccconccnnncconcnnnn cnn cnn nn rnn cnn n nc enne eene nennen nennen nne 7 Iristallatiori Irstructlofis 3 enaena d next OR MP gud alex neu uti Pues E h 7 intemal eies B7 8 Electrical ISOlallori eio Ge ete ra ool res bes cicuta recedet pase dedu e m Los 9 CORMECHON INGLES 3255 feist eed Bee te deeds teo esu ped ette s aU Rao R ONES iE cR Mec eie iie 9 Connection Examples sees tentent terere ttt terere tete tte treten tete 9 9 1 Connection of Active Sensors 3 cde cocido aec c dod e oec dde f ud e uus 9 9 2 X Connection of Passive Sensors A 9 Programming Data Configuration Data ooococccnnncccccnnonccccnonaccnnnnnncncncnonnn cnn nano nnn nn nano nennen nnns 10 HOT INTERBUS 000 A A A Ea 10 10 2 Other Bus Systems west ete reet ite Pe isle ie ed T UA ee E ERU AR ds 10 Process Dita A AAA AA AA Ai 11 11 1 Process Data Output Words for Configuring the Terminal See page 12 sess 11 11 2 Process Data Input Words See page 15 sse enne nere nennen nennen 11 Process Data Output Words OUT 0 and OUTll1 cccccnnnnnicocccnncccnananononcncnononananonnnnnnnnncnnnnnnnnnos 12 12 1 OUTO Command Code 5 2 1 EO etu ERG RR HR REL HERE ESAE E 13 12 2 OUT 1 Parameter Word ne RE e e uit s heic Sg 14 Process D
29. onsumption at UANA 30 mA typical 35 mA maximum Total power consumption 1500 mW typical Power Consumption 2 Mbps Communications power UL 7 5 V DC Current consumption from UL 68 mA typical 85 mA maximum I O supply voltage Uana 24V DC Current consumption at UANA 24 mA typical 38 mA maximum Total power consumption 1086 mW typical Supply of the Module Electronics and I O Through the Bus Terminal Power Terminal Connection method Potential routing Analog Inputs Number 8 analog single ended inputs Signals resolution in the process data word quantization See tables in Section Formats for the Representation of Measured Values on page 18 Measured value representation 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 PIO 16 bits Sy Please read the notes on page 19 and page 26 on measured value representation in IB IL and standardized representation format Digital filtering mean value generation None or over 4 16 or 32 measured values Default setting over 16 measured values Conversion time of the A D converter 10 us maximum Process data update of the channels Bus synchronous Firmware runtime depending on the command The firmware runtime contains the times for the signal acquisition signal conditioning mean value generation standardization and transfer of measured values
30. ponds to the data format used on INTERBUS RT modules Diagnostic codes and error bits are not defined in this data format An open circuit is indicated by the positive final value 7FFFhex Measured value representation in IB RT format 15 bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 SB Analog value SB Sign bit Significant Measured Values Voltage Ranges Input Data Word 0Vto5V 0Vto10V 0Vto 25 V 0 V to 50 V Two s Complement Uin Un Uin Uin hex dec V V V V 7FFF 32767 gt 4 999847 2 49 999695 gt 24 999237 2 49 998474 7FFE 32766 4 999695 9 999390 24 998474 49 996948 4000 16384 2 5 5 12 5 25 0 0001 1 152 6 uV 305 2 uV 762 9 uV 1 5259 mV 0000 0 0 0 0 0 Input Data Word 5 V 10 V 25 V Two s Complement Uin Uin Um hex dec V V V 7FFF 32767 gt 4 999847 gt 49 999695 2 24 999237 7FFE 32766 44 999695 9 999390 24 998474 4000 16384 2 5 5 0 112 5 0001 1 4152 6 uV 305 2 uV 4762 9 uV 0000 0 0 0 0 FFFF 1 152 6 pV 305 2 uV 762 9 uV C000 16384 2 5 5 0 12 5 8001 32767 4 999847 9 999695 24 999237 8000 32768 lt 5 0 lt 10 0 lt 25 0 6226_en_02 PHOENIX CONTACT 23 IB IL AI 8 SF Current Ranges Input Data Word 0 mA to 20 mA 0 mA to 40 mA Two s Complement liN l
31. r Channel 1 Channel 2 Channel 3 Filtering by mean value generation No filtering 01 bin 1dec 16 sample average value O0bin Odec 4 sample average value 1 Obin 2dec 01 10bin dec 001 Obin 2dec Format IB IL IBIL IB IL O00 bin Odec 000pin Odec 000pin Odec Measuring range 0Vto 50 V OVto5V 4 mA to 20 mA 1 01 Obin 10dec Configure each individual channel in the terminal in turn initialization phase e g in the initialization phase of the Procedure 1 Install the terminal 2 Connect the voltage power up 3 application program 4 Read the measured value for each channel in turn Initialization Phase Process data output word OUT 0 appears as follows for all channels Bit Ass bin hex Process data output word OUT 1 indicates the parameters for each channel according to the task OUT O0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 ignment 0 Command 0 0 0 0 0 0 0 0 0 1 0 0 0 Z Z2 Z O 0 0 0 0 0 0 0 4 x 0 0 For channel 1 it looks like this OUT 1 Bit 15 14 18 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 0 0 0 0 0 0 Filter 0 Format Measuring range bin 0 0 0 0 0 0 0 1 0 0 0 0 0 1 1 0 hex 0 1 0 6 6226 en 02 PHOENIX CONTACT 34 IB IL AI 8 SF With the command in OUTT O the configuration
32. r The following diagnostic codes are possible Code hex Error 8001 Overrange 8002 Open circuit 8004 Measured value invalid no valid measured value available e g because the channel has not been configured 8010 Invalid configuration 8020 I O supply voltage faulty 8040 Module faulty 8080 Underrange Measured value representation in standardized representation format 15 bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 SB Analog value SB Sign bit 6226_en_02 PHOENIX CONTACT 25 IB IL AI 8 SF Significant Measured Values Voltage Ranges Input Data Word 0Vto5V 0 V to 50 V 5 V Two s Complement Uin Un Ui hex dec V V V 8001 OR gt 45419 gt 454 187 5 419 152B 5419 5 419 54 187 5 419 1388 5000 5 0 50 0 5 0 0001 1 1 0 mV 10 0 mV 1 0 mV 0000 0 0 0 0 0000 1 lt 0 lt 0 1 0mV EC78 5000 gt 5 0 EAD5 5419 5 419 8080 UR n 5 419 Input Data Word 0Vto10V 10 V Two s Complement Uin Uin hex dec V V 8001 OR gt 410 837 gt 410 837 2A55 10837 10 837 10 837 2710 10000 10 0 10 0 0001 1 1 0 mV 1 0 mV 0000 0 0 0 0000 0 lt 0 B FFFF 1 1 0 mV D8FO 10000 10 0 D5AB 10837 10 837 8080 UR lt 10 837 Input Data Word 0Vto 25 V 25 V Two s Complemen
33. rmat IN O Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 8 bit measured value channel 3 8 bit measured value channel 4 in the corresponding format in the corresponding format IS The status bits in IB ST format and the diagnostic messages in IB IL and standardized representation format are not displayed in this configuration 14 Formats for the Representation of Measured Values To ensure that the terminal can be operated in previously used data formats the measured value representation can be switched to different formats IB IL format is the default Abbreviations used in the following tables OR Overrange UR Underrange 141 IBIL Format The measured value is represented in bits 14 to 0 An additional bit bit 15 is available as a sign bit This format supports extended diagnostics Values gt 800044 and lt 8100he indicate an error The following diagnostic codes are possible Code hex Error 8001 Overrange 8002 Open circuit 8004 Measured value invalid no valid measured value available e g because the channel has not been configured 8010 Invalid configuration 8020 I O supply voltage faulty 8040 Module faulty 8080 Underrange Measured value representation in IB IL format 15 bits 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 SB Analog value SB Sign bit 6226 en 02 PHOENIX CONTACT 18 IB IL AI 8 SF Significant Measured
34. s OUT 1 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assignment 0 0 0 0 0 0 Filter 0 Format Measuring range Sy Ifinvalid parameters are specified in the parameter word the command will not be executed The command is acknowledged in the input words with the set error bit Bit 9 and bit 8 Code Filter Filtering by Mean Value Generation bin dec 00 0 16 sample average value default 01 1 No mean value generation 10 2 4 sample average value 11 3 32 sample average value Bit 6 to bit 4 Code Format bin dec 000 0 IB IL 15 bits default 001 1 IB ST 12 bits 010 2 IB RT 15 bits 011 3 Standardized representation 100 4 PIO for the 4 mA to 20 mA range only 101 5 110 6 Reserved 111 7 Bit 3 to bit 0 Code Measuring Range Voltage Code Measuring Range Current bin dec bin dec 0000 0 0 V to 10 V default 1000 8 0 mA to 20 mA 0001 1 10 V 1001 9 20 mA 0010 2 OVto5V 1010 10 4 mA to 20 mA 0011 3 5 V 1011 11 Reserved 0100 4 0Vto25V 1100 12 0 mA to 40 mA 0101 5 25 V 1101 13 40 mA 0110 6 0Vto 50 V 1110 14 Reserved 0111 7 Reserved 1111 15 Reserved A The differential voltage between different terminal inputs must not exceed 50 V If for example the O V to 50 V range is used on one channel the use of bipolar ranges is not permitted on any oth
35. t Un Un hex dec V V 8001 OR gt 427 093 gt 427 093 69D5 27093 27 093 27 093 61A8 25000 25 0 25 0 0001 1 1 0 mV 1 0 mV 0000 0 0 0 0000 0 lt 0 E FFFF 1 1 0 mV 9E58 25000 al 25 0 962B 27093 27 093 8080 UR 27 093 6226 en 02 PHOENIX CONTACT 26 IB IL Al 8 SF Current Ranges Input Data Word 4 mA to 20 mA Two s Complement lin hex dec mA 8001 OR 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 lt 3 2 Input Data Word 0 mA to 20 mA Two s Complement lin hex dec mA 8001 OR gt 21 6747 54AA 21674 21 6747 4E20 20000 20 0 0001 1 1 0 pA 0000 0 0 0000 0 lt 0 Input Data Word 0 mA to 40 mA Two s Complement lin hex dec mA 8001 OR gt 43 3493 10EE 4334 43 3493 OFAO 4000 40 0 0001 1 10 0 pA 0000 0 0 0000 0 lt 0 Input Data Word 20 mA Two s Complement liN hex dec mA 8001 OR 2 421 6747 54AA 21674 21 6747 4E20 20000 20 0 0001 1 1 0 pA 0000 0 0 FFFF 1 0 001 B1E0 20000 20 0 AB56 21674 21 6747 8080 UR lt 21 6747 Input Data Word z40 mA Two s Complement lin hex dec mA 8001 OR gt 43 349 10EE 4334 43 349 OFAO 4000 40 0 0001 1 10 0 pA 0000 0 0 FFFF 1 10 0 pA F060 4000 40 0 EF12 4334 43 349 8080 UR lt 43 349 6226_en_02
36. t word 0 OUT O Process data output word 1 OUT 1 Byte 0 Byte 1 Byte 2 Byte 3 OUTTO0 Byte bit view Byte Byte 0 Byte 1 Bit 7 6 5 4 312 1 0 7 6 5 4 3 2 1 0 Assignment 0 Command 0 0 0 0 0 0 0 7 0 OUT 1 Byte bit view Byte Byte 2 Byte 3 Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Assignment 0 0 0 0 0 0 Filter 0 Format Measuring range 11 2 Process Data Input Words See page 15 Process data input word O IN 0 Process data input word 1 IN 1 Byte 0 Byte 1 Byte 2 Byte 3 IN O Byte bit view Byte Byte 0 Byte 1 Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Assignment 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Depends on the command IN 1 Byte bit view Byte Byte 2 Byte 3 Bit 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 Assignment 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Depends on the command For the 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 6226 en 02 PHOENIX CONTACT 11 IB IL AI 8 SF 12 Process Data Output Words OUT 0 and OUT 1 The terminal must be configured using the two process data output words Word OUT O contains the command and word OUT 1 contains the parameters for this Sy After applying voltage power up to the mine station
37. to the process data register 0x00hex lt 800 us 5x00hex lt 850 us 7000 pex 7100hex lt 1500 us 7400pex 7500hex 7600hex 7700hex lt 1300 us Analog Input Stages Voltage Inputs Input resistance 240 kQ minimum Characteristics of the input filters input stage 1st order Limit frequency 3 dB of the input filters 3 5 kHz Behavior on sensor failure Goes to 0 V Maximum permissible voltage between analog voltage inputs and an analog 50 V reference potential or between two voltage inputs 6226 en 02 PHOENIX CONTACT 5 IB IL AI 8 SF Analog Input Stages Continued Current Inputs Input resistance 25 Q shunt Limit frequency 3 dB of the input filters 3 5 kHz Behavior on sensor failure Goes to 0 mA or 4 mA Maximum permissible voltage between analog current inputs and an analog 2 5 V corresponds to 100 mA via the shunts reference potential or between two current inputs Maximum permissible current in every input 100 mA Safety equipment Surge voltage and overcurrents 100 overload maximum Electrical Isolation Isolation of the Voltage Areas connected to the analog input terminal described here from separate power supply units Interconnection of the power supply units in the N 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 24 V area is not permitted Common Potentials The 24 V
38. uration for the Configure channel requested channel 4x00 and 6000 The parameters are mirrored This is usually Check and correct parameters caused by invalid parameters 3C00 No diagnostic code PF A peripheral fault is reported to the higher level control system In addition to the indicator in the input words for diagnostic codes 80404 module faulty and 80204 I O supply voltage faulty a peripheral fault is reported to the higher level control system gt The IB IL and standardized representation formats offer additional diagnostic functions These are specified on page 18 and page 25 6226_en_02 PHOENIX CONTACT 30 IB IL AI 8 SF 16 Startup Options The following startup options illustrate how to use the IB IL AI 8 SF terminal 16 4 Standard Method 1 Task All input channels are to be operated in the same configuration 8000hex Filtering by mean value generation 32 sample average value 11 pin 3dec Format IB IL 000pin Odec Measuring range 10 V 0001 pin 1dec Procedure 1 Install the terminal 2 Connectthe voltage power up 3 Configure the terminal initialization phase e g in the initialization phase of the application program 4 Readthe measured value for each channel in turn Initialization Phase According to the task the process data output words appear as follows
39. uring and Installing the INTERBUS Inline Product Range user IB IL SYS PROUM E 2743048 1 Automation Terminals of the Inline Product Range IB IL SYS INST UM E 2698737 1 DB GB IBS SYS ADDRESS 9000990 1 INTERBUS Addressing data sheet 3 Technical Data General Data Housing dimensions width x height x depth Weight Operating mode 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 Protection class Connection data for Inline connector Connection method Conductor cross section Interface Local bus Transmission Speed IB IL AI 8 SF IB IL Al 8 SF PAC IB IL AI 8 SF 2MBD IB IL AI 8 SF 2MBD PAC 48 8 mm x 120 mm x 71 5 mm 213 g with connectors 125 g without connectors Process data mode with 2 words 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 VDE 0106 IEC 60536 Spring cage terminals 0 2 mm to 1 5 mm solid or stranded 24 16 AWG Data routing 500 kbps 2 Mbps 6226_en_02 PHOENIX CONTACT 4 IB IL AI 8 SF Power Consumption 500 kbps Communications power UL 7 5 V DC Current consumption from UL 48 mA typical 55 mA maximum I O supply voltage Uana 24V DC Current c
40. x or a diagnostic message yyyyhex is displayed in process data input word IN 1 Read measured value for channel 1 Command executed successfully Error during execution Read measured value for channel 2 Command executed successfully Error during execution And so on until Read measured value for channel 8 Command executed successfully Error during execution OUT O IN O IN O OUT O IN O IN O OUT O IN O IN O 0000hex 0000hex 8000hex 0100hex 0100hex 8100hex 0700 hex 0700 ex 8700 hex OUT 11 IN 1 IN 1 OUTI1 IN 1 IN 1 OUT 11 IN 1 IN 1 0000 hex XXXXhex YYYYhex 0000 hex XXXXpex YYYYhex 0000 pex XXXXhex YYYYhex 6226 en 02 PHOENIX CONTACT 32 IB IL AI 8 SF Configure terminal 6000 0301 Initialization Cyclic program sequence for reading the measured values of channels 1 to 8 Read measured Evaluate and values of channel n remove errors 0x00 0000 6226A014 Figure 9 Schematic initialization and cyclic program sequence when configuring the entire terminal 6226 en 02 PHOENIX CONTACT 33 IB IL Al 8 SF 16 2 Standard Method 2 Task The input channels are to be operated in different configurations The channels are to be configured first 4x00pex After configuration the measured values are to be read 0x00pex Configuration of the channels Paramete
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