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XI/ON: Digital I/O-Modules, Supply Modules

1. Hoojooo ll 176 iro so NG Mo mo fo To ko L 500 000 e NG LG lo Ho Acco Mo No ino no imo no Boc ooc W Lo po lo Lo Fino oo No No mo ko 10 Co L bouloos jo T T Wo lo U R055 me No nG no no no L 00000 Io NG NG KG To Uo Ass Mo No ino No mo no aaa D Ko KO Wo lo LG Mess No No no to no Ko L Hoojoon Uo KO 10 Wo Ho LC Asso Mo NG e no ino Do 00 000 NG Wo Uoo T0 Uo Eros Mo NG No fo Lo no D il Yo Wo Wo 235 Base module in block design with tension Figure 10 clamp connection XN BxT i STSI g ai o 8 Sa m ow o aly Ne 00 il YE _ Y AE 6871 gi a
2. 114 75 O 143 25 i Li Figure 1 XN standard gateway XN GW XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 13 1 The XI ON Station Dimensions kA 2 al p o m6 al b A p 7 D li f a 3 KS E li ez z Sa Y 4 333 Figure 2 XNE ECO gateway XNE GWBR 48 4 0 43 1 45 A o E op 114 4 1 Si Figure 3 End plate XN ABPL 9 2 es 47 PE ag 8 og ERA FA _ Sx R SIL EX E Figure 4 End bracket XN WEW 35 2 SW 14 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 1 The XI ON Station Dimensions Dimensions of base and electronics modules Table 2 Dimensions of electronics modules Electronics module W x L x H mm XN standard electronics module Slice design 12 6 x 74 1 x 55 4 Block design XN 16 XN 32 100 8 x 74 1 x 55 4 XNE ECO electronics module XNE 8DI 24VDC P 13 x 129 5 x 74 5 XNE 8D0 24VDC 0 5A P XNE 1SWIRE XNE 16DI 24VDC P 13 x 161 5 x 74 5 XNE 16DO 24VDC 0 5A P XNE 8AI U I 4P
3. 11 Reading conventions 11 List of revisions 11 1 The XI ON Station 13 DIMENSIONS aaa na LG ae dus cute a states 13 Technical data for the XI ON station 20 Technical data for the terminals 24 Designations of the base modules 25 Module designations and abbreviations 2 Wiring of the AVON MOTIES en AAP 28 Wiring of tension clamp connections 29 Wiring of screw connections 30 Handling the push in tension clamp terminals of the XNE ECO modules31 2 The supply modules 33 Bus refreshing modules 33 XN BR 24VDC D ie ennemies 35 Technical data 36 Diagnostic messages 37 Base modules 39 Connection diagrams 41 Power feeding modules 42 ANPAD Dis sas rene idee nee 43 Technical data 44 Diagnostic messages 45 Base modules 46 Connection diagrams 47 XN PF 120 230VAC D 48 Technical data iris ans anis 49 Diagnostic messages 50 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO500201
4. Figure 108 Connection diagram XN B3x SBC Technical data for the terminals page 24 142 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu XN 32D0 24VDC 0 5A P 4 Digital output modules XN 32D0 24VDC 0 5A P Figure 109 5 V DC Module bus 24 V DC Module supply 24V DC U GND U Logik Digitale output module 32 digital outputs 24V DC 0 5 A positive switching Flectrical isolation Driver Driver Driver 4x24V 4x24V 4x 24V 0 5AP 0 5AP 0 5A P Field Figure 110 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 143 4 Digital output modules XN 3 2DO 24VDC0 5A P Technical data Table 46 XN 32D0 24VDC 0 5A P Designation Number of channels Value B2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 12 s 50 mA when load current 0 mA Nominal current consumption from module bus 30 mA IMB Insulation voltage channels to module bus 500 Vims Power loss Normally 5 W Output voltage High level gt U 1 VDC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 AI igh level permissible range for short term over x1 0A oad maximum 5 minutes Permissible total current over all outputs s10A Simul
5. Figure 27 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 24V DC Module supply 43 2 The supply modules XN PF 24VDC D Technical data Table 11 XN PF 24VDC D Designation Field supply Value Uy nominal value range externally provided and internally filtered e Supply for module electronics e Field supply 24 V DC 18 30 V DC l max field current 10A Nominal current consumption from s28 mA module bus IMB Insulation voltage 500 Vims Up to module bus U to FE Ripple lt 5 Residual ripple according to IEC EN 61131 2 IEC EN 61000 4 11 IEC EN 61131 2 Voltage disturbances according to 44 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu LED Display DIA Red 0 5 Hz 2 The supply modules XN PF 24VDCD Diagnostic messages The diagnostics functions monitor the field supply voltage provided by the user for undervoltage They indicate any error through the DIA LED and send corresponding diagnostics information to the gateway Table 12 Diagnostics through the LEDs flashing Meaning Diagnostics available Remedy Check the wiring of the field supply Check that the voltages of the field supply are within the permissible tolerances Red OFF UL Green Failure of module bus communication No fault indication or diagnostics Field supply from externa
6. Figure 82 Base modules XN S3T SBC left and XN S4T SBCS right Base modules With tension clamp connection XN S3T SBC XN S4T SBCS With screw connection XN S3S SBC XN S4S SBCS XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 111 4 Digital output modules XN 2D0 24VDC 0 5A P Connection diagrams if Figure 83 Connection diagram XN S3x SBC Figure 84 Connection diagram XN S4x SBCS Technical data for the terminals page 24 112 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 2D0 24VDC 0 5A N XN 2D0 24VDC 0 5A N Figure 85 Digitale output module 2 digital outputs 24 V DC 0 5 A negative switching v S E 8 p 2 Logic o gt Fe Electrical isolation gt a 2 GND U a Ka 3 river river 24VDC U 24V0 5AN _ 24VO5AN a gt Field Figure 86 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 113 4 Digital output modules XN 2D0 24VDC 0 5A N Technical data Table 37 XN 2D0 24VDC 0 5A N Designation Number of channels Value 2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 12 Nominal current consumption from module bus Ivg Insulation voltage channels to module bus Power loss Ou
7. General Digital input modules DI detect electrical High 1 and Low 0 levels and transmit the corresponding digital value to the gateway via the internal module bus The electronics on the module bus side of the digital input modules is electrically isolated from the field level by optocouplers Polarity reversal protection is also provided Digital input modules are built in both slice and block designs XN standard electronics modules are completed by base modules with tension clamp or screw connection XNE ECO electronics modules do not require a base Module There are no parameter setting options for the digital input modules LED indicators The channel status is indicated by the status LED Error messages from the 1 0 level are made on a module basis through the collective DIA indicator LED If the DIA LED is permanently red this indicates that the module bus communication for the digital input module has failed XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 57 3 Digital input modules General Table 15 Module summary No of Positive channels switching XN 2DI 24VDC P 2 yes XN 2DI 24VDC N 2 no XN 2D1 120 230VAC 2 XN 4DI 24VDC P 4 yes XN 4DI 24VDC N 4 no XN 16DI 24VDC P 16 yes XN 32DI 24VDC P 32 yes XNE 8DI 24V P 8 yes XNE 16DI 24V P 16 yes 58 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input mod
8. Number of channels Value 2 Nominal supply from supply terminal Uy range 120 V AC 102 132 V AC 230 V AC 195 5 253 V AC Frequency range 45 65 Hz Nominal current consumption from supply 20 mA terminal 1 2 when load current 0 mA Nominal current consumption from module lt 35 mA bus Img Insulation voltage channels to module bus 1500 Vims Power loss Normally 1 W Output voltage High level gt U 1 V DC the output is switched on and loaded triac with zero crossing switching Voltage drop with channel switched on 82V Output current to supply the actuators the output is switched on igh level nominal value 0 5 A pay attention to the derating igh level permissible range 0 02 0 5 A Low level z1 5 MA Derating maximum load At 40 C 1 A per channel 0 5 A At 50 C 0 75 A per channel 0 375 A At 55 C 0 5 A per channel 0 25 A Leakage current with channel switched 1 5mA on and switched off Fusing 500 mA FF Peak current 8 A one period at 60 Hz Simultaneity factor 100 pay attention to the derating 126 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 2D0 120 23OVAC 0 5A Designation Value Output delay for signal change and resistive load From Low to High leve 3 24 From High to Low level lt T 2 1ms GG Load resistance range
9. There are no parameter setting options for the digital output modules Attention External suppression components should be fitted when using inductive loads XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 105 4 Digital output modules General LED indicators The channel status is indicated by the status LED Error messages from the 1 0 level are made on a module basis through the collective DIA indicator LED The corresponding diagnostics information is transmitted to the gateway as diagnostics bits If the DIA LED is permanently red this indicates that the module bus communication for the digital output module has failed Table 34 Module summary No of Positive Max output Electri channels switching current per cally channel isolated XN 2D0 24VDC 0 5A P 2 yes 0 5 A yes XN 2D0 24VDC 0 5A N 2 no 0 5 A yes XN 2D0 24VDC 2A P 2 yes 2A yes XN 2D0 120 230VAC 0 5A 2 0 5A yes XN 4D0 24VDC 0 5A P 4 yes 0 5 A yes XN 16D0 24VDC 0 5A P 16 yes 0 5 A yes XN 32D0 24VDC 0 5A P 32 yes 0 5 A yes XNE 8D0 24VDC 0 5A P 8 yes 0 5 A yes XNE 16D0 24VDC 0 5A P 16 yes 0 5 A yes 106 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu XN 2D0 24VDC 0 5A P 4 Digital output modules XN 2D0 24VDC 0 5A P Figure 80 Digitale output module 2 digital outputs 24 V DC 0 5 A positive switching z 2 Logic oc a CI gt Electrical isol
10. XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 32DI 24VDC P Connection diagram Figure 71 Connection diagram XN B6x SBBSBB Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 93 3 Digital input modules XNE 8DI 24VDC P XNE 8DI 24VDC P Figure 72 Digitale input module XNE ECO 8 digital inputs 24 V DC positive switching 5 V DC Module bus LULE a Electrical isolation LT Filter SE Filter Filter 24 V DC U GND U 24 V DC Module supply Field Figure 73 Block diagram 94 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Technical data Table 30 XNE 8DI 24VDC P 3 Digital input modules XNE 8DI 24VDC P Designation Value Number of channels 8 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 5 MA Nominal current consumption from module bus Img 15 mA Insulation voltage channels to module bus SOON ras Power loss lt 1 5 W Input voltage nput voltage rated value 24 V DC Low level range UL 5 V High level range 1 Va Ui Input current Low level active level 1 mA 1 5 MA current range for detection of a low level High level active level 2 mA 5 mA current range for detection of a high leve
11. o 8 8 Logic gt at E 24VDC U GND U Electrical isolation 5 8 0 pa 5 g A ET C rail Relay break Relay break Cross connector Figure 122 Block diagram XN 2DO R NC with the base module XN S4x SBCS XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 165 5 Relay modules XN 2DO R NC Technical data V Attention external fuse 6A fast Table 52 XN 2DO R NC Designation Relay outputs Number of channels Implementation of the channels Contact type material Nominal supply from supply terminal U range Nominal current consumption from supply terminal Tal Nominal current consumption from module bus IMB Insulation voltage Relay output to relay output Relay output to module bus Relay output to U Module bus to U Power loss The relay outputs must be protected by an Value 2 Break contacts AgSnO 24 V DC 18 30 V DC 20 mA 28 mA No 1800 Vime 1500 Vs BOLO Vira Normally 1 W Connectable equipment Resistive loads Inductive loads Lamp loads Switching voltage to supply the actuators Nominal load voltage 230 V AC 30 V DC Switching current to supply the actuators Output current per channel at 230 V AC Nominal current AC15 250 V AC 1 5A Maximum continuous current 2A Maximum continuous current resistive load 5 A load dependent 166 XI ON Digital 1 0 Modules Suppl
12. 138 Diagnostic messages 140 Base modules 142 Connection diagram 142 XN 32D0 24VDC O 5A P 143 Technical data 144 Diagnostic messages 146 Base modules 148 Connection diagram 149 XNE 8D0 24VDC O 5A P 150 Technical dat s as dass bas tnui aahhh 151 Diagnostic messages 153 Connection diagram 154 XNE 16D0 24VDC 0 5A P 155 POChniGal data s sions rene sun tenus pars 156 Diagnostics messages 158 Connection diagram 159 Overview base modules for digital output modules 160 Tension clamp connection 160 Screw connection 160 5 Relay modules 61 AA 61 XN 2DO R NG 64 Technical data 66 Diagnostic messages 168 Base modules 169 Connection diagrams 170 XN 2DO RENO ank NADA BRAND Reset 173 Technical data 175 8 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton com Table of contents Diagnos
13. A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 65 3 Digital input modules XN 2DI 24VDCN Diagnostic messages Table 19 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No fault indication or diag nostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 10021 66 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN wwweaton eu 3 Digital input modules XN 2DI 24VDCN Base modules Figure 45 Base modules XN S3T SBB left and XN S4T SBBC right Base modules With tension clamp connection XN S3T SBB XN S4T SBBC With screw connection XN S3S SBB XN S4S SBBC XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 67 3 Digital input modules XN 2DI 24VDCN Connection diagrams Ka Hip Figure 46 Connection diagram XN S3x SBB Figure 47 Connection diagram XN S4x SBBC Technical data for the terminals page 24 68 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 2D1 120
14. tance push the screwdriver into the opening until it comes up against a stop This opens a tension clamp on the inside of the connection level gt Insert the wiring into the round opening located directly below the rectangular opening until the wire comes up against a stop b Remove the screwdriver the tension clamp closes and secures the wire XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 29 1 The XI ON Station Wiring of the XI ON modules Wiring of screw connections Figure 17 Screw connections Method gt Place the screwdriver in the rectangular opening of a connection level on the base module Turn the screw counterclockwise as far as possible without fully removing it gt Insert the wire in to the round opening located directly below the rectangular opening until it comes up against a stop Turn the screw clockwise until the wire is fully secured and cannot be pulled out 30 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN wuww eaton eu 1 The XI ON Station Wiring of the XI ON modules Handling the push in tension clamp terminals of the XNE ECO modules Insertion of the conductor The conductor is simply pushed into the corre sponding contact Figure 18 Insertion of the conductor Removal of the conductor The conductor can be removed from the corre sponding contact by pressing the release mecha nism e g with a screw driver Figure 19 Re
15. 1 The output will be switched on if an error occurs 212 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 7 Integration in CANopen Objects for the substitute output value in the event of an error Table 75 Object 626044 6261hex 6262p description Feature Sub index Description Value Name Error State Output Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index Olhex 80hex Boolean Access Sub index 004 ro Sub index Olhex 80hex rw Default value XI ON Sub index 00pay No Sub index Olhex 80hex OOhex XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 213 7 Integration in CANopen Objects for the substitute output value in the event of an error Feature Name Object Code PDO Mapping Data type Access Default value XI ON 6306 Error Mode Output 16 Bit The object defines values in 16 bit groups A total of 18 groups each 16 bit can be defined 288 digital output channels It is possible to define for each digital output channel whether or not the output should take on a substitute value in the event of an error The rule iS 0 The output maintains its value if an error occurs 1 The output is set to a substitute value if an error occurs The substitute values for the digital output chan nels are defined by an Error State Output Object 6307 hex Table 76 Object 6306pex desc
16. Sub index 01pax 24hex Unsigned8 Access Sub index 00pay ro Sub index 01pax 24hex rw Default value XI ON Sub index 00pay No Sub index 01pax 24hex O0hex 202 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 7 Integration in CANopen Objects for writing the process output data 6220hex Write Output Bit 1 128 6221hex Write Output Bit 129 256 6222 Write Output Bit 257 288 The objects are a bit wise representation of the values of the digital output modules Each Sub index for these objects is a Boolean value A total of 128 bits can be represented 128 digital output channels If more than 128 output channels are present then Object 62215 is used If more than 256 output channels are present then Object 6222 is used Since the number of digital input channels in a station is limited to 288 it is not possible to make use of the complete range of the array in Object 6222hox Table 68 Object 62204 62214 6222 description Feature Sub index Description Value NAME MiiteOutputBt Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index 01p6x 80pax Boolean Access Sub index 004 ro Sub index Olhex 80hex rw Default value XI ON Sub index 004 No Sub index Olhex 80hex O0hex XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 203 7 Integration in CANopen Objects for writing the pro
17. XN 2D0 24VDC 0 5A P Designation Value With inductive load lt 2 Hz With lamp load lt 10 Hz Output according to IEC EN 61131 2 Protected Page 229 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 109 4 Digital output modules XN 2D0 24VDC 0 5A P Diagnostic messages Table 36 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Diagnostics available Remove the short circuit flashing on the corresponding 0 5 Hz channel Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No fault indication or diag nostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 The module features the following diagnostics data per channel e Overcurrent short circuit 110 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 2D0 24VDC 0 5A P Base modules
18. a o x i g a 128 9 154 5 a 416 416 1 126 Lg ANG 235 Figure 8 Base module in slice design with tension clamp connection XN SxT XN PxT 3 connection levels 4 connection levels 6 connection levels P 49 9 49 9 499 k Ea 4 Ea 1 l df Al 176 241 lat gure 9 Base module in slice design with screw connection XN SxS XN PxS 5 E h ao a oo 117 6 Bilal DEA 128 9 154 5 me ES Fo rill AKA 1 ed 00128128 N T XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 17 1 The XI ON Station Dimensions 4 connection levels 6 connection levels 3 connection levels 416 gal a S DO SOL M _f 6871 ti hh a L Ka 00 il KO o 1 de y lt FE g 416 N 100 8
19. inputs 24 V DC positive switching 5 e o 3 o ol Li Logic a _ wn 5 Z4VDC U a GND U Electrical isolation 3 ke o V a gt Filter Filter Filter Field 1 Pa 15 16 Figure 77 Block diagram 98 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XNE 16DI 24VDCP Technical data Table 32 XNE 16DI 24VDC P Designation Value Number of channels 16 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 S3 mA Nominal current consumption from module bus Img 215 mA Insulation voltage channels to module bus 500V ms Power loss lt 2 5 W Input voltage nput voltage rated value 24 V DC Low level range UL 5 V High level range 1 Va Ui Input current Low level active level 1 mA 1 5 MA current range for detection of a low level High level active level 2 mA 5 mA current range for detection of a high level Input delay trising edge lt 150 us tfalling edge lt 300 us Simultaneity factor 100 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest
20. 12 2013 MN05002010Z EN www eaton eu 145 4 Digital output modules XN 3 2DO 24VDC0 5A P Diagnostic messages Table 47 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red There is a short circuit on at Remove the short circuit on the flashing least one of the 32 channels corresponding channel 0 5 Hz Adiagnostics message will be transmitted Red Failure of module bus Check whether more than two communication adjacent electronics modules have been removed OFF No fault indication or diagnos tics 11 Green Status of channel 1 1 OFF Status of channel 1 0 161 Green Status of channel 16 1 OFF Status of channel 16 0 146 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 32D0 24VDC 0 5A P LED Display Meaning Remedy 14 Green Status of channel 17 1 OFF Status of channel 17 0 164 Green Status of channel 32 1 OFF Status of channel 32 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu The module features the following diagnostics data groupwise short circuit detection e Overcurrent e Overcurrent e Overcurrent e Overcurrent e Overcurrent e Overcurrent e Overcurrent e Overcurrent RS PPS a a smn DES short circuit channel 1 4 short circuit channel 5 8 short circuit channel 9 12 short circuit channel 13 short circuit channel 17 short circuit channel
21. 180 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN wwweaton eu 5 Relay modules XN 2DO R NO Warning The C rail must not have a potential above 24 V Not 230 V X The contact designations for the base module are not the relay contact designations according to DIN Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 181 5 Relay modules XN 2DO R CO XN 2D0 R CO Figure 136 Relay module 2 changeover contacts 5 pe 2 o So 8 Logic L xt pa N 24VDC U Y GND U Electrical isolation o o kol _ i le 1 I N I i L I 1 age reno i A E 2 7 13 23 24 21 Field Figure 137 Block diagram XN 2DO R CO with the base module XN S4x SBBS 182 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R CO Technical data Table 56 XN 2DO R CO Designation Value Relay outputs Number of channels 2 Implementation of the channels Changeover contacts Contact type material AgSnO Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 2 20mA Nominal current consumption from module bus Img 28 mA Insulation voltage Relay output to relay output No Relay output to module bus 1500 Vims Relay output to U 1500 Vims Modu
22. 200 us 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is given by the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 90 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 32DI 24VDC P Diagnostic messages 11H21 318 N41 5101061 A881 9100101 1100121 13100141 1510 E161 140 24 34 44 54 E 64 740 E84 94 M M104 1140 E124 1340 E144 1540 M 164 Table 29 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus communi Check whether more than cation two adjacent electronics modules have been removed OFF No fault indication or diagnostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 161 Green Status of channel 16 1 OFF Status of channel 16 0 14 Green Status of channel 17 1 OFF Status of channel 17 0 164 Green Status of channel 32 1 OFF Status of channel 32 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 91 3 Digital input modules XN 3 2DI 24VDC P 92 Base modules Figure 70 Base module XN B6T SBBSBB Base modules With tension clamp connection XN B6T SBBSBB With screw terminal XN B6S SBBSBB
23. 57 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more than communication two adjacent electronics modules have been removed OFF No error message 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel2 1 OFF Status of channel2 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 185 5 Relay modules XN 2DO R CO Base modules Figure 138 Base module XN S4T SBBS Base modules With tension clamp connection XN S4T SBBS With screw connection XN S4S SBBS 186 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R CO Connection diagrams Ces i Figure 139 Connection diagram XN S4x SBBS R11 R21 NOy NOg 11 21 1 Fi 1 Electronics module 24 RT Figure 140 Module circuit diagram XN S4x SBBS X The contact designations for the base module do not correspond to the relay contact designations according to DIN Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 187 5 Relay modules Overview base modules for relay modules Overview Tension clamp connection base modules for relay modules 8 OO ERIE HIKA KO AA elo Electronics modules Ka XN 2DO R NC ele XN 2DO R NO elo XN 2DO R CO ej Scr
24. 60947 5 1 156 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XNE 16D0 24VDC 0 5A P Designation Value Lamp load Rj lt 6W Switching frequency With resistive load Rig lt 1 KQ lt 100 Hz With inductive load To DC13 according to IEC EN 60947 5 1 With lamp load lt 10 Hz Output according to IEC EN 61131 2 Short circuit proof Page 230 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The electrical connection for the switched loads to ground GND must be made modular external The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 3 Two outputs can be connected in parallel to increase the maximum output current to 1 A XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 157 4 Digital output modules XNE 16D0 24VDC 0 5A P Diagnostics messages Table 51 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No error message 1 16 Green Status of chamnel 1 OFF Status of channel 0 LU EEE ee
25. At120VAC 240Q 6kQ At 230 V AC 460 Q 11 5 kQ 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U Leakage currents can produce a voltage at the output even in the switched off state XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 127 4 Digital output modules XN 2D0 120 230VAC 0 5A Diagnostics messages LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No fault indication or diag nostics 11 Green Status of channel 1 ON OFF Status of channel 1 OFF 21 Green Status of channel2 ON OFF Status of channel 2 OFF The display elements are supplied from the field voltage not from the module bus voltage They will therefore only indicate the switching status correctly if this voltage is fully present on the power feeding module Diagnostics data None Module parameters None 128 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 2D0 120 230VAC 0 5A Base modules Figure 97 Base modules XN S3T SB
26. LED VOCA en nt 37 Oa Operating aaa ee eee 23 OPTOCOUDI EM serine aeaa 57 P Power TB ane at nas te en 42 S Supply voltage va r a N 20 T Two wire initiators unan nanana seesi 60 65 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton com 231 Index 232 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN wuw eaton com
27. N 79 Technical data 80 Diagnostic messages 81 Base modules 82 Connection diagrams 83 XN 16DI 24VDC P 84 Technical data 85 Diagnostic messages 86 Base modules 87 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton com Table of contents Connection diagrams 88 XN 32DI 24VDC P 89 Techhicah data na nto bak nana hab im aaa bag 90 Diagnostic messages 91 Base modules 92 Connection diagram 93 XNE BDIE2Z4VDG2P 8s pakasta aA RAAE 94 Technical data 95 Diagnostic messages 96 Connection diagram 97 XNE 16DI 24VDC P 98 Technical data 99 Diagnostics messages 100 Connection diagram 101 Overview base modules for digital input modules 103 Tension clamp connection 103 Screw connection kakanan naawa mia dd 103 4 Digital output modules 05 GEN
28. N Figure 43 Digitale input module 2 digital inputs 24 V DC negative switching E v CC 3 Z Logic a I Bo gt LA Ta Electrical isolation pa 2 a 5 GND U S 24V DC UV Filter Filter o ee a gt Field Figure 44 Block diagram 64 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Technical data Table 18 XN 2DI 24VDC N 3 Digital input modules XN 2DI 24VDCN Designation Value Number of channels 2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 20mA Nominal current consumption from module bus Img 28 mA Insulation voltage channels to module bus SOON as Power loss 0 7 W Input voltage nput voltage rated value 24 V DC Low level range 30 V U 11 V High level range OV 5 V Input current Low level active level 0 mA 1 7 MA current range for detection of a low level High level active level 1 8 MA 10 MA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt 200 ps 2 wire initiators Bero with a permissible quiescent current of 1 5 mA can be connected 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is given by the sum of all the individual currents
29. P3T SBB B XN PAT SBBC B XN P3S SBB B XN P4S SBBC B Attention Only the base modules XN P3x SBB or XN P4x SBBC can be used to supply a gateway without an integrated supply unit XN GW The bus refreshing module is to be found immediately to the right of the gateway XI ON Digital 1 O Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 39 2 The supply modules XN BR 24VDC D The base modules with or without gateway supply can be distinguished as follows Figure 23 Assignment of the base modules D Base module with gateway supply light grey connection Base module without gateway supply yellow connection 40 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 2 The supply modules XN BR 24VDC D Connection diagrams 24 V DC Module bus supply BENG En N zvo E A Field supply A JA Figure 24 Connection diagram for XN P3x SBB with gateway supply XN P3x SBB B without gateway supply 24V DC Module bus supply E E 24V DC Field supply PE A Figure 25 Connection diagram for XN P4x SBBC with gateway supply XN P4x SBBC B without gateway supply Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 41 2 The supply modules Power feeding modules Power feeding modules 42 A The power feeding modules are used to supply the various XI ON modules wi
30. an XI ON station but not for supplying the gateway Bus Refreshing Example XN S3T SBB XN PAT SBBC B CJ Designation of a connection level that has a connection to a C rail and can be used for a PE connection only for specific base modules Cross Connection Base module for XN 2AI THERMO PI with integrated Pt1000 for cold junction compensa tion Cold Junction Compensation XN S4T SBBC XN S4T SBBS CJ 26 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 1 The XI ON Station Module designations and abbreviations Module designations and Table 8 Key to module designations abbreviations Identifier Designation Example Analog input and output modules Al Analog input module XN 1AI U 10 0 10VDC AO Analog output module XN 1A0 1 0 4 20MA PT Analog input module for connecting resis XN 2AI PT NI 2 3 tance thermometers with PT100 PT200 P1500 and PT1000 sensors with 2 and 3 wire measuring NI Analog input module for connecting resis XN 2AI PT NI 2 3 tance thermometers with Ni100 and Ni1000 sensors with 2 and 3 wire measuring PI Potentially isolated analog modules for XN 2AI THERMO PI thermocouples Supply modules BR Bus refreshing module XN BR 24VDC D PF Power feeding module XN PF 24VDC D D Diagnostics XN BR 24VDC D Digital input and output modules DI Digital input module XN 2DI 24VDC P DO Digital output module XN 2
31. communication No error message Status of channel 1 1 Status of channel 1 0 Status of channel 2 1 Status of channel 2 0 Remedy Check whether more than two adjacent elec tronics modules have been removed XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 177 5 Relay modules XN 2DO R NO Base modules Figure 131 Base modules XN S4T SBBS left and XN S4T SBCS right Base modules With tension clamp connection XN S4T SBBS XN S4T SBCS With screw connection XN S4S SBBS XN S4S SBCS 178 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NO Connection diagrams Mp Figure 132 Connection diagram for XN S4x SBBS with externally applied supply and linked root Figure 133 Module circuit diagram XN S4x SBBS D Linked in the electronics Cross connection via QVR to the base XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 179 5 Relay modules XN 2DO R NO Power Relay 1 Relay n Feeding R1 R2 Figure 134 Connection diagram for XN S4x SBCS with supply via C rail and linked root Supply via C rail Max 8 relay modules R2 Jai NOo 11 21 NO 1 Electronics 1 1 y module ES SEEE as fy 1 Rlo 14 24 8 RT 24V DC Figure 135 Module circuit diagram XN S4x SBCS C rail Cross connection via QVR to the base
32. from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 99 3 Digital input modules XNE 1 6DI 24VDC P Diagnostics messages Table 33 Diagnostics through the LEDs lo Pipi LED Display Meaning Remedy DIA DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No error message 1 16 Green Status of channel 1 OFF Status of channel 0 BEE EEE eee CAIUDTHAWN E10 100 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XNE 16DI 24VDCP Connection diagram 24V DC U Figure 78 Connection diagram XNE 16DI 24VDC P XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 101 3 Digital input modules XNE 1 6DI 24VDC P 24V DC U Figure 79 Connection diagram XNE 16DI 24VDC P with power supply of the sensors 102 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules Overview base modules for digital input modules Overview Tension clamp connection base modules for digital input modules aa aa on aa aa o olala ojo solmimimimimim Sloloiolmimimim o P 1 P EIS
33. modules in slice design They are completed by base modules with tension clamp or screw connection The ash grey cover of the base modules for supply modules makes them stand out against the base modules for the XI ON O modules XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 33 2 The supply modules Bus refreshing modules 34 LED indicators The error and diagnostics messages are provided by the indicator LEDs of the module The corre sponding diagnostics information is also trans mitted to the gateway as diagnostics bits XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 2 The supply modules XN BR 24VDC D XN BR 24VDC D Figure 20 Bus refreshing module 24 V DC with diagnostics 5 V DC Logic 24V DC i Monitoring Electrical Monitoring Usys isolation Uy EMC filter EMC filter 24V DC Supply Usys 24V DC Supply U Figure 21 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 5 V DC Module bus 5 V DC Gateway supply 24 V DC Supply for module electronics 24V DC Field supply 35 2 The supply modules XN BR 24VDC D Technical data Table 9 XN BR 24VDC D Designation Value Field supply Uy nominal value range 24 V DC 18 30 V DC externally provided and internally filtered e Supply for module electronics e Field supply L max field current 10A nsulation voltage U
34. output is set to a substitute value if an error occurs The substitute values for the digital output chan nels are defined by the Error State Output Object 6 207hex Table 72 Object 6206pex description Sub index Description Value Error Mode Output 8 Bit ARRAY GG Yes Sub index O0hex Unsigned8 Sub index Olhex 24hex Unsigned8 Sub index 00pay ro Sub index Olhex 24hex rw Sub index 00pay No Sub index Olhex 24hex AF Has 208 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 7 Integration in CANopen Objects for the substitute output value in the event of an error 6207 x Error State Output 8 Bit The object defines values in 8 bit groups A total of 36 groups each 8 bit can be defined 288 digital output channels The substitute value is defined for each digital output channel The substitute values will only be used in the event of an error if a 1 is entered in an Error Mode Output Object 620644 for the partic ular output channel Substitute values 0 The output will be switched off if an error occurs 1 The output will be switched on if an error occurs Table 73 Object 6207 description Feature Sub index Description Value Name Error State Output 8 Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index Olhex 24hex Unsigned8 Access Sub index 004 ro Sub index Olhex 24hex rw Default value XI ON Sub
35. outputs according to IEC EN 61131 2 229 Short circuit proof outputs according to IEC EN 61131 2 230 10 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton com About this manual Reading conventions About this manual Reading conventions Symbols used in this manual have the following meanings Attention Warns of minor damage to property Caution Warns of major damage to property and minor injuries Warning Warns of major damage to property and death or major injuries X Draws your attention to interesting tips and supplementary information List of revisions The following significant amendments have been introduced since previous issue Publication Page Keyword New Changed date 12 2013 162 Warns of switching inductive loads XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 11 About this manual List of revisions 12 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 1 The XI ON Station Dimensions 1 The XI ON Station Dimensions Dimensions of gateways end plate and end breacket Table 1 Dimensions of gateways end plate and end breacket Electronics module W x L x H mm XN standard gateway XN GW 50 6 x 114 75 x 74 4 XNE ECO gateway XNE GWBR 33 5 x 129 x 75 End plate XN ABPL 9 2 x 114 4 x 48 4 End bracket XN WEW 35 2 SW 8 x 56 x47 50 6 a aa
36. relay modules can be externally loaded by up to 230 V AC A contact voltage Ro Figure 31 Power feeding module 120 230 V AC with diagnostics 48 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 5 V DC Module bus Figure 32 2 The supply modules XN PF 120 230VACD Logic UU Flectrical isolation of the diagnostics U EMV Filter 120 230 V AC Supply U Block diagram Technical data Table 13 XN PF 120 230VAC D Designation Field supply Value 120 230 V AC Module supply Uy nominal value range externally provided and internally filtered e Supply for module electronics e Field supply 120 V AC 102 132 V AC 230 V AC 195 5 253 V AC l max field current 10 A Nominal current consumption from 25 mA module bus IMB Insulation voltage 1500 Vims Up to module bus U to FE Ripple 2 Residual ripple according to IEC EN 61131 2 Voltage disturbances according to IEC EN 61000 4 11 IEC EN 61131 2 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 49 2 The supply modules XN PF 120 230VACD LED Display DIA Red flashing 0 5 Hz Diagnostic messages The diagnostics functions monitor the field supply voltage provided by the user for undervoltage They indicate any error through the DIA LED and send corresponding diagnostics information to the gateway Table 14 Diagnostics
37. the LEDs LED Display Meaning Remedy DIA Red There is a short circuit on at Remove the short circuit on the flashing least one of the 16 channels corresponding channel 0 5 Hz A diagnostics message will be transmitted Red Failure of module bus Check whether more than two communication adjacent electronics modules have been removed OFF No fault indication or diagnos tics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 140 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 16D0 24VDC 0 5A P LED Display BB Meaning Remedy 31 Green Status of channel 3 1 OFF Status of channel 3 0 161 Green Status of channel 16 1 OFF Status of channel 16 0 The module features the following diagnostics data groupwise short circuit detection e Overcurrent e Overcurrent e Overcurrent e Overcurrent short circuit channel 1 4 short circuit channel 5 8 short circuit channel 9 12 short circuit channel 13 16 a es an DES XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 141 4 Digital output modules XN 16D0 24VDC 0 5A P Base modules Figure 107 Base module XN B3T SBC Base modules With tension clamp connection XN B3T SBC With screw connection XN B3S SBC Connection diagram Mga Ha Ib
38. the substitute output value in the event of an error Overview The objects define the substitute value and the substitute value mode for each individual digital output channel of an XI ON station The substitute value is used in the event of a communication error or other unrecoverable error These values can not be saved in the digital output modules since this type of module does not have an EEPROM memory If the bus master or the gateway is replaced the values will have to be updated The user can choose between 4 different formats for the substitute value settings of all the digital output values in the station concerned e Only one channel is set up per Sub index The substitute value mode is then set with the Objects 6250hex 6251 pe and 625244 The substitute value is set with Objects 62604 6261 hex and 6262hex e 8 channels are set up per Sub index The substi tute value mode is then set with the Object 620644 The substitute value is set with Object 6207 hex e 16 channels are set up per Sub index The substitute value mode is then set with the Object 6306hex The substitute value is set with Object 6307hex e 32 channels are set up per Sub index The substitute value mode is then set with the Object 6326 The substitute value is set with Object 6327hex The settings are updated regardless of the format Object that has been selected 206 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www ea
39. through the LEDs Meaning Diagnostics available Remedy Check the wiring of the field supply Check that the voltages of the field supply are within the permissible tolerances Red flashing 0 5 Hz and LED U OFF The field voltage in outside the permis sible range The permissible range for the field suply voltage Table 13 Page 49 Check the wiring of the field supply Check the external power supply or external supply feed Red OFF UL Green Failure of module bus communication No fault indication or diagnostics Field voltage is present from external feed Check whether more than two adjacent electronics modules have been removed OFF Field voltage from external feed is missing Check the wiring of the field supply Check the external power supply or external supply feed 50 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 2 The supply modules XN PF 120 230VACD The module features the following diagnostics data e Field voltage missing Monitoring of the externally provided field supply voltage XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 51 2 The supply modules XN PF 120 230VACD Base modules Figure 33 Base modules XN P3T SBB left and XN P4T SBBC right Base modules With tension clamp connection XN P3T SBB XN P4T SBBC With screw connection XN P3S SBB XN P4S SBBC
40. 07 EN www eaton com 5 Table of contents Base modules 52 Connection diagrams 53 Overview base modules for supply modules 54 Tension clamp connection 54 Screw connection 54 Supply modules in a sample station 55 Internal connections in an XI ON station 56 Digital input modules 57 Ee AROE AE NANAY ag NA Nan ERAS 57 XN 2DIZAVDE P am iced hah lon ae eS 59 Technical data 60 Diagnostic messages 61 Base modules 62 Connection diagrams 63 XN 2DI 24VDC N 64 Technical data 65 Diagnostic messages 66 Base modules 67 Connection diagrams 68 XN 2D1 120 230VAC 69 Technical data 70 Diagnostic messages 71 Connection diagrams 73 XN 4DI 24VDC P 74 Technical data 75 Diagnostic messages 76 Base modules 77 Connection diagrams 78 XN 4DI 24VDC
41. 0hex Write Output 8 Bit 202 6220hex Write Output Bit 1 128 203 6221hex Write Output Bit 129 256 203 6222hex Write Output Bit 257 288 203 6300hex Write Output 16 Bit 204 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton com 9 Table of contents 6320hex Write Output 32 Bit 205 Objects for the substitute output value in the event of an error 206 SOVEIVIEW ES Kapangan akn ANING Ri AA 206 6206hex Error Mode Output 8 Bit 208 6207hex Error State Output 8 Bit 209 6250hex Error Mode Output Bit 1 128 210 6251hex Error Mode Output Bit 129 256 210 6252hex Error Mode Output Bit 257 288 210 6260hex Error State Output Bit 1 128 212 6261hex Error State Output Bit 129 256 212 6262hex Error State Output Bit 257 288 212 6306hex Error Mode Output 16 Bit 214 6307hex Error State Output 16 Bit 215 6326hex Error Mode Output 32 Bit 216 6327hex Error State Output 32 Bit 217 EMOIGENCIES rer als mn Ets 218 Integration in DeviceNet 219 Digital Input Module Class VSC104 219 Digital Output Module Class VSC105 224 Append Gran musee hein ed Re 229 DETININONS rer eau Lee ees 229 Protected
42. 12 2013 MN05002010Z EN Manual XI ON replaces M001736 02 04 2007 Digital O Modules Supply Modules ETN Powering Business Worldwide Imprint Manufacturer Eaton Automation GmbH Spinnereistrasse 8 14 CH 9008 St Gallen Switzerland www eaton eu www eaton com Support Region North America Other regions Eaton Corporation Please contact your supplier or send Electrical Sector an E Mail to 1111 Superior Ave automation eaton com Cleveland OH 44114 United States 877 ETN CARE 877 386 2273 www eaton com Original manual The German version of this document is the original manual Translations of the original manual All non German editions of this document are translations of the original manual Editorial department Monika Jahn Brand and product names All brand and product names are trademarks or registered trademarks of the owner concerned Copyright Eaton Automation GmbH CH 9008 St Gallen All rights reserved also for the translation None of this document may be reproduced or processed duplicated or distrib uted by electronic systems in any form print photocopy microfilm or any other process without the written permission of Eaton Automation AG St Gallen Subject to modifications 2 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Safety regulations Warning Dangerous electrical voltage Before commencing the installation e Disconnect th
43. 2010Z EN www eaton eu 197 7 Integration in CANopen Objects for reading the process input data 6020 ex Read Input Bit 1 128 6021 ex Read Input Bit 129 256 6022 Read Input Bit 257 288 The objects are a bit wise representation of the values of the digital input modules Each Sub index for these objects is a Boolean value A total of 128 bits can be represented 128 digital input channels If more than 128 input channels are present then Object 6021 is used If more than 256 input channels are present then Object 6022 is used Since the number of digital input channels in a station is limited to 288 it is not possible to make use of the complete range of the array in Object 602216 Table 63 Object 60204 6021hex 6022hex descrip tion Feature Sub index Description Value Name Read Input Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index 0lhex 80hex Boolean Access Sub index 004 ro Sub index Olhex 80hex ro Default value XI ON Sub index 00pay No Sub index Olhex 80hex No 198 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 6100 Read Input 16 Bit 7 Integration in CANopen Objects for reading the process input data The object presents the values for the digital input modules in 16 bit groups A total of 18 groups each 16 bit can be displayed 288 digital input channels Table 64 Objec
44. 21 short circuit channel 25 short circuit channel 29 16 20 24 28 B2 147 4 Digital output modules XN 3 2DO 24VDC0 5A P Base modules Figure 111 Base module XN B6T SBCSBC Base modules With tension clamp connection XN B6T SBCSBC With screw connection XN B6S SBCSBC 148 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 32D0 24VDC 0 5A P Connection diagram PE a PE PE PE Figure 112 Connection diagram XN B6x SBCSBC Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 149 4 Digital output modules XNE 8D0 24VDC 0 5A P XNE 8D0 24VDC 0 5A P Figure 113 Digitale output module XNE ECO 8 digital outputs 24 V DC 0 5 A positive switching 5 aQ D __ Ss Logic o TA a in l Electrical isolation gt Q S 24V DC U a AA A E GND U Divemime 7 7 7 Driver 7 Driver 8 o PANABAN 24V05A 24 V 0 5A D p B Field 10 9 1 za 7 8 Figure 114 Block diagram 150 XI ON Digital 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Technical data 4 Digital output modules XNE 8DO 24VDC0 5A P Table 48 XNE 8DO 24VDC 0 5A P Designation Value Number of channels 8 Nominal supply from supply terminal U range 24 V DC 18 30 V
45. 230VAC XN 2DI 120 230VAC Figure 48 Digitale input module 2 digital inputs 120 230 V AC Logic 120 230 V AC U GND U Filter 6 120 230 V AC Module supply 5V DC Module bus Electrical isolation Filter Field Figure 49 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 69 3 Digital input modules XN 2DI 120 23 0OVAC Technical data Table 20 XN 2DI 120 230VAC Designation Value Number of channels 2 Nominal supply from supply terminal U range 120 V AC 102 132 V AC 230 V AC 195 5 253 V AC Nominal current consumption from supply terminal 20 mA 1 12 Nominal current consumption from module bus Img 28 mA Insulation voltage channels to module bus VEO Voice Power loss Input voltage nput voltage rated value Low level range High level range 1W 120 230 V AC 0 V AC 20 V AC 79V AC 265 V AC Frequency range ANS b AOS AZ Input current Low level active level 0 mA 1 mA current range for detection of a low level High level active level 3 MA 10 MA current range for detection of a high level Input delay trising edge lt 20000 us talling edge lt 20000 us Maximum permissible cable capacitance 141 nF at 79 V AC 50 Hz 1 23 nF at 265 V AC 50 Hz The supply terminal U provides the current for the module electronics and for the sensors on the i
46. 4 6251 hex 6252p description Feature Sub index Description Value Name Error Mode Output Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index Olhex 80hex Boolean Access Sub index 004 ro Sub index Olhex 80hex rw Default value XI ON Sub index 00pay No Sub index Olhex 80hex Mess XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 211 7 Integration in CANopen Objects for the substitute output value in the event of an error 6260 Error State Output Bit 1 128 6261hex Error State Output Bit 129 256 6262 0x Error State Output Bit 257 288 The objects defined the values bit wise Each Sub index for these objects is a Boolean value A total of 128 bits can be represented 128 digital output channels If more than 128 output channels are present then Object 62614 is used If more than 256 output channels are present then Object 6262 is used Since the number of digital input channels in a station is limited to 288 it is not possible to make use of the complete range of the array in Object 6262 px The substitute value is defined for each digital output channel The substitute values will only be used in the event of an error if a 1 is entered in an Error Mode Output Object 6250 6251 and 62524 for the particular output channel Substitute values 0 The output will be switched off if an error occurs
47. 52 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 2 The supply modules XN PF 120 230VACD Connection diagrams Figure 34 Connection diagram XN P3x SBB PE Lo ad Figure 35 Connection diagram XN P4x SBBC Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 2 The supply modules Overview base modules for supply modules Overview Tension clamp connection base modules for supply modules Base modules XN P3T SBB XN P3T SBB B XN P4T SBBC XN P4T SBBC B Electronics modules XN BR 24VDC D e e2 XN PF 24VDC D XN PF 120 230VAC D 1 Base modules for the gateway supply 2 Base module for bus refreshing within the stations Screw connection Base modules XN P3S SBB XN P3S SBB B XN P4S SBBC XN P4S SBBC B Electronics modules XN BR 24VDC D XN PF 24VDC D XN PF 120 230VAC D o e a o D e a e D 1 Base modules for the gateway supply 2 Base module for bus refreshing within the stations 54 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 2 The supply modules Supply modules in a sample station Supply modules in The following diagram shows various potential a sample station groups Within an XI ON station The 24 V DC or 230 V AC voltage is fed in through the internal supply cable gt Internal connectio
48. C left and XN S4T SBCS right Base modules With tension clamp connection XN S3T SBC XN S4T SBCS With screw connection XN S3S SBC XN S4S SBCS XI ON Digital O Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 129 4 Digital output modules XN 2D0 120 230VAC 0 5A Connection diagrams Figure 98 Connection diagram XN S3x SBC Figure 99 Connection diagram XN S4x SBCS 130 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu XN 4D0 24VDC 0 5A P XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 5 V DC Module bus 24V DC Module supply Figure 100 Figure 101 4 Digital output modules XN 4D0 24VDC 0 5A P Digitale output module 4 digital outputs 24 V DC 2 positive switching Electrical isolation of Driver Driver Driver Driver 24V 0 5A 24V 0 5A 24V0 5A 24V 0 5A P P P P Field Block diagram 131 4 Digital output modules XN 4D0 24VDC 0 5A P Technical data Table 42 XN 4DO 24VDC 0 5A P Designation Number of channels Value 4 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 12 s25 mA when load current 0 mA Nominal current consumption from module bus 30 mA Imp Insulation voltage channels to module bus 500 Vims Power loss No
49. D0 24VDC 2A P Negative switching sourcing XN 2DI 24VDC N P Positive switching XN 2DI 24VDC P Relay modules R Relay module XN 2DO R NC CO Change over XN 2DO R CO NC Normally closed XN 2DO R NC NO Normally open XN 2DO R NO XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 27 1 The XI ON Station Wiring of the XI ON modules Wiring of the The used method when wiring the XI ON modules XI ON modules depends on the used connection engineering e The base modules use spring finger contacts in the following versions Base modules using tension clamp connection technology XN T Base modules using screw connection tech nology XN S e The XNE ECO modules use direct push in contacts Push in tension clamp terminals The XNE ECO modules can be easily combined with the base modules using tension clamp connection technology XN T A connec tion is not possible on base modules using screw connection technology XN S Figure 15 XNE ECO modules combined with tension clamp contact modules 28 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 1 The XI ON Station Wiring of the XI ON modules Wiring of tension clamp connections Figure 16 Tension clamp connections Method D Insert a screwdriver into the rectangular opening located immediately above the connection level of the base module When you feel a slight resis
50. DC Nominal current consumption from supply terminal 853 mA 1 2 02 when load current O mA all outputs OFF Nominal current consumption from module bus S15 MA Me nsulation voltage channels to module bus 500 Vims Power loss Normally 1 5 W Output voltage High level gt U 1 V DC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 AI igh level permissible range for short term over lt 1 0A oad maximum 5 minutes Permissible total current over all outputs lt 4 AN Simultaneity factor 100 Output delay for signal change and resistive load Rio lt 1 kO From Low to High level lt 300 us From High to Low level lt 300 us Load resistance range gt 480 Connectable equipment Resistive load Ri o gt 48 Q Inductive load Rj To DC13 according to IEC EN 60947 5 1 Lamp load Ry lt 6W XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 151 4 Digital output modules XNE 8D0 24VDC 0 5A P Designation Value Switching frequency With resistive load Rig lt 1 kQ lt 100 Hz With inductive load To DC13 according to IEC EN 60947 5 1 With lamp load lt 10 Hz Output according to IEC EN 61131 2 Short circuit proof Page 230 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for th
51. ET al aa Naal aa a AA ea AA 05 XN 2D0 24VDC 0 5A P 07 Technical data 08 Diagnostic messages 110 Base modules 111 Connection diagrams 112 XN 2D0 24VDC 0 5A N 113 Technical data 114 Diagnostic messages 116 Base modules 117 Connection diagrams 118 XN 2D0 24VDC 2A P 119 Technical data 120 Diagnostic messages 122 Base modules 123 Connection diagrams 124 XN 2D0 120 230VAC 0 5A 125 Technical data 126 Diagnostics messages 128 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton com 7 Table of contents Base modules 129 Connection diagrams 130 XN 4D0 24VDC 0 5A P 131 Technical data 132 Diagnostic messages 134 Base modules 135 Connection diagrams 136 XN 16D0 24VDC O 5A P 137 Technical data
52. I ON 5 Slice 3 3 connection rows T Tension clamp 1 SEB Single Connectors ny 2 UH B Bridged Connectors 3 1m B Bridged Connectors lt 4 sp Figure 14 Example of a base module designation Table 7 Abbreviations for base module designa tions Identi Designation Example fier XN Abbreviation for XI ON XN B3S SBB B Designation of base modules in block version XN B3S SBB Block S Designation of base modules in slice version XN S3T SBB Slice P Designation of base modules for feeding and XN P3T SBB bus refreshing modules Power 3 4 6 Number of terminal rows XN P3T SBB S Designation of base modules with screw XN S3S SBB connection Screw T Designation of base modules with tension XN S3T SBB clamp connection Tension Clamp x Optionally S or T in the designation of base XN S3x SBB modules with screw or tension clamp connec tion Screw Tension S Unlinked connections on the same connection XN S3T SBB level connection level 1 in this case in a base module for Connector connecting signals Single XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 25 1 The XI ON Station Designations of the base modules Identi fier Designation Bridged connections on the same connection level in a base module for voltage connec tions Bridged Connector Supplement to the designation of base modules for bus refreshing modules that are used within
53. IRIS IS IE le i golwululwinia e m Zz Zz Zz Zz Zz Zz Zz Electronics modules a jx x x x x x x XN 2DI 24VDC P 0 XN 2DI 24VDC N jo XN 2D1 120 230VAC jo XN 4DI 24VDC P XN 4DI 24VDC N XN 16D1 24VDC P ele XN 32D1 24VDC P e Screw connection aa lolu ola falalalalalala HAAA Elalolalalalala FIFAPAPAKAKAKAK o Electronics modules a XN 2DI 24VDC P XN 2DI 24VDC N XN 2DI 120 230VAC XN 4DI 24VDC P XN 4DI 24VDC N e e XN S6S SBBSBB XN 16DI 24VDC P olo XN 32DI 24VDC P e XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 103 3 Digital input modules Overview base modules for digital input modules 104 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu General V 4 Digital output modules General 4 Digital output modules Digital output modules DO receive output values from the gateway via the internal module bus The modules convert the values and output the corre sponding Low 0 or High 1 values to the field level The outputs are implemented according to IEC EN 61131 2 The electronics on the module bus side of a digital output module is electrically isolated from the field level by optocouplers Digital output modules are built in both slice and block designs XN standard electronics modules are completed by base modules with tension clamp or screw connection XNE ECO electronics modules do not require a base module
54. Net Digital Output Module Class VSC105 Digital Output Module This class contains all the information and parame Class VSC105 ters for digital output modules Table 82 Class Instance Attribute Attribute Access Type Description no name Dec hex 100 64 4 CLASS G UINT Contains the revision number REVISION of this class Maj Rel x 1000 Min Rel 101 65 MAX G USINT Contains the number of the INSTANCE highest instance of an object created at this level in the class hierarchy 102 66 4 OF G USINT Contains the number of object INSTANCES instances created at this class level 103 67hex MAXCLASS G USINT Contains the number of the ATTR last class attribute imple mented 224 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 8 Integration in DeviceNet Digital Output Module Class VSC105 Table 83 Object Instances Attribute Attribute Access Type Description no name Dec hex 100 64 4 MAX G USINT Contains the number of the OBJECT last object attribute imple ATTR mented 101 65hex MODULE G BOOL FALSE XI ON module is not PRESENT inserted vacant base module TRUE XI ON module is plugged in 102 66hex TERMINAL G USINT The slot number of the base SLOT module base module to the NUMBER right of the gateway No 1 belonging to the module Corresponds to the relevant instance number within the TERMINAL SLOT CLASS 103 67hex MODULEID G DWORD Contains the m
55. ODUCED DATA SIZE Access Type UINT Description Contains the information about the amount of Produced Data for the module 111 6Fhex PRODUCED DATA DIAG SIZE DWORD Contains the input data for the module DWORD Bit wise assign ment depending on the module specification Contains the information about the amount of Diag nostics Data for the module 113 717 DIAG DWORD Contains the diagnostics information for the module The digital XI ON modules do not provide diagnostics data DWORD Bit wise assign ment depending on the module specification PARAM SIZE 114 72 UINT Contains information about the scope of module parame ters The digital XI ON I O modules do not have any settable parameters 115 73hex PARAMS G S DWORD Contains the parameters for the module DWORD Bit wise assign ment depending on the module specification Since the digital XI ON I O modules have no settable parameters this attribute is not used 222 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 8 Integration in DeviceNet Digital Input Module Class VSC104 Attribute Attribute Access Type Description no name Dec hex 116 74hex MODULE G ENUM Contains the index number REGIS USINT found in all module lists TERED INDEX XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 223 8 Integration in Device
56. ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 4DI 24VDCN XN 4DI 24VDC N Figure 58 Digitale input module 4 digital inputs 24 V DC negative switching ie v pa 5 R g Logic o a a gt LO Electrical isolation py a 35 GND U S 24VDC U Filter Filter Filter Filter O a gt Field Figure 59 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 79 3 Digital input modules XN 4DI 24VDC N Technical data Table 24 XN 4DI 24VDC N Designation Value Number of channels 4 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 40 mA Nominal current consumption from module bus Img 28 mA Insulation voltage channels to module bus SOON TE Power loss 1W Input voltage nput voltage rated value 24 V DC Low level range 30 V U 11 V High level range O VeeS V Input current Low level active level 0 mA 1 2 mA current range for detection of a low level High level active level 1 3 MA 6 mA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt 200 us 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is g
57. S6x SBBSBB Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 83 3 Digital input modules XN 16DI 24VDC P XN 16DI 24VDC P Figure 63 Digitale input module 16 digital inputs 24 V DC positive switching v 3 g Logic o 2 gt LO paa Electrical isolation a S 24VDC U GND SE Filter 16 LU a gt Field Figure 64 Block diagram 84 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 16DI 24VDC P Technical data Table 26 XN 16DI 24VDC P Designation Value Number of channels 16 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 40 mA Nominal current consumption from module bus Img 45 mA Insulation voltage channels to module bus SOON as Power loss 2 5 W Input voltage nput voltage rated value 24 V DC Low level range 30 V 5 V High level range ION TSON Input current Low level active level 0 mA 1 5 MA current range for detection of a low level High level active level 2 mA 10 mA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt 200 us 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The over
58. T NI XNE 4A0 U I XNE 2CNT 2PWM Table 3 Dimensions of base modules Base module WxLxH mm Slice design with 3 connection levels XN S3 XN P3 12 6 x 117 6 x 49 9 4 connection levels XN S4 XN P4 12 6 x 128 9 x 49 9 6 connection levels XN S6 12 6 x 154 5 x 49 9 Block design with 3 connection levels XN B3 100 8 x 117 6 x 49 9 4 connection levels XN B4 100 8 x 128 9 x 49 9 6 connection levels XN B6 100 8 x 154 5 x 49 9 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 15 1 The XI ON Station Dimensions 128 LIT oa 4B Figure 5 XN standard electonics module in slice design bg 100 8 ki 54 IT IT TI TI ee 2h 1 o al iO y IL IL IL IL E bd er 4B Figure 6 XN standard electonics module in block design XN standard electonics module completed with a base module Figure 7 16 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 1 The XI ON Station Dimensions 3 connection levels 4 connection levels 6 connection levels 499 49 9 49 9 k E M a r B 28 la B 24 iG B 24
59. XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NO XN 2D0 R NO Figure 128 Relay module 2 make contacts Logic 24V DC U Y GND U Electrical isolation TILL 24V DC Module supply 24V DC Module bus Relay make q 4 11 Figure 129 Block diagram XN 2DO R NO with the base module XN S4x SBBS Relay make 2 De 13 23 21 24 Field XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 173 5 Relay modules XN 2DO R NO Logic UU 24V DC U GND U Electrical isolation 24V DC Module supply 24V DC Module bus Relay make Relay make Cross connector Figure 130 Block diagram XN 2DO R NO with the base module XN S4x SBCS 174 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NO Technical data Table 54 XN 2DO R NO Designation Value Relay outputs Number of channels 2 Implementation of the channels Make contacts Contact type material AgSnO Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 2 20mA Nominal current consumption from module bus Img 28 mA Insulation voltage Relay output to relay output No Relay output to module bus 1500 Vims Relay output to U 1500 Vims Module bus to UL 500 Vims Power loss Normally 1 W Connecta
60. age diagnostics byte ovreurr shrt circ Bit O 21 of K1 4 ovreurr shrt circ Bit1 21 of K5 8 ovreurr shrt circ Bit2 21 of K9 12 ovreurr shrt circ Bit3 21 of K13 16 ovreurr shrt circ Bit4 21 of K17 20 ovreurr shrt circ Bit5 21 of K21 24 ovreurr shrt circ Bit6 21 of K25 28 ovreurr shrt circ Bit 7 Diagnostics Meaning There is a short circuit on at least one channel in the group of 4 XN 2D0 120 230VAC 0 5A XNE 8D0 24VDC 0 5A P and XNE 16D0 24VDC 0 5A P do not provide diagnostics data XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 193 6 Integration in PROFIBUS DP Parameters Parameters There are no settable parameters for the digital input modules and output modules or the relay modules However please note that all the modules that appear in the Standard module representation during the project engineering planning with a software tool will occupy one parameter byte This parameter byte contains the number of other parameter bytes for the modules In the case of the digital input modules and output modules or the relay modules the value of the parameter byte is always 00p Furthermore please note that the response of the digital outputs in a fault condition change of module wrong module replaced fieldbus error can be defined through gateway parameters The description of these gateway parameters can be found in the manual e U
61. all current that is required for each module is given by the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 85 3 Digital input modules XN 16DI 24VDC P Diagnostic messages 10821 31041 510 61 71881 910101 1100121 131m E141 151W E161 Table 27 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus communi Check whether more than cation two adjacent electronics modules have been removed OFF No fault indication or diagnostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 31 Green Status of channel 3 1 OFF Status of channel 3 0 161 Green Status of channel 16 OFF Status of channel 16 0 86 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN wwweaton eu 3 Digital input modules XN 16DI 24VDC P Base modules Figure 65 Base modules XN B3T SBB left and XN B4T SBBC right Base modules With tension clamp connection XN B3T SBB XN B4T SBBC With screw connection XN B3S SBB XN B4S SBBC XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 87 3 Digital input modules XN 16DI 24VDC P Connection dia
62. annel 2 1 OFF Status of channel 2 0 The module features the following diagnostics data per channel e Overcurrent short circuit XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 2D0 24VDC 2A P Base modules Figure 92 Base modules XN S3T SBC left and XN S4T SBCS right Base modules With tension clamp connection XN S3T SBC XN S4T SBCS With screw connection XN S3S SBC XN S4S SBCS XI ON Digital O Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 123 4 Digital output modules XN 2D0 24VDC 2A P Connection diagrams if Figure 93 Connection diagram XN S3x SBC Figure 94 Connection diagram XN S4x SBCS Technical data for the terminals page 24 124 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 2D0 120 23OVAC 0 5A XN 2D0 120 230VAC 0 5A Figure 95 Digitale output module 2 digital outputs 120 230 V AC 0 5 A Logic 3 v 3 o LU aaa gt Ww pa Electrical isolation a ee a B 120 230 VAC U Driver I Driver g GND 420 230V0 5AP 120 230V 0 5A P 3 a Si Field Figure 96 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 125 4 Digital output modules XN 2D0 120 230VAC 0 5A Technical data Table 41 XN 2D0 120 230VAC 0 5A Designation
63. ation gt E W 3 24VDC U Ke o river lz river GND U 24V0 5AP 24VO5AP Ba gt a Field Figure 81 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 107 4 Digital output modules XN 2D0 24VDC 0 5A P Technical data Table 35 XN 2DO 24VDC 0 5A P Designation Number of channels Value 2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 12 20 mA when load current 0 mA Nominal current consumption from module bus 32 mA Ivg Insulation voltage channels to module bus 500 Vims Power loss Normally 1 W Output voltage High level gt U 1 VDC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 A igh level permissible range lt 06A Permissible total current over all outputs SIA Simultaneity factor 100 Yo Output delay for signal change and resistive load Rio lt 1 kO From Low to High level lt 100 us From High to Low level lt 100 us Load resistance range gt 480 Connectable equipment Resistive load Rio gt 48 QO Inductive load Ry 3 1 2 al Lamp load Rj lt 3W Switching frequency With resistive load Rig lt 1 KQ lt 5000 Hz 108 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules
64. ble equipment Resistive loads Inductive loads Lamp loads Switching voltage to supply the actuators Nominal load voltage 230 V AC 30 V DC Switching current to supply the actuators Output current per channel at 230 V AC Nominal current AC15 250 V AC 3A aximum continuous current 2A aximum continuous current resistive load 5 A load dependent Output current for DC voltage purely resistive Load limit curve Figure 119 Nominal current DC13 24 V DC 1A XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 175 5 Relay modules XN 2DO R NO Designation Switching frequency resistive load inductive load and lamp load Minimum load current Utilization factor Lifespan number of switching operations Value lt 0 1 Hz 100 mA at 2 12 V DC 100 At 230 V AC gt 0 1 x 108 at 5A gt 1x 10 at0 5A At AC15 250 V AC 1x 10 at2A 2x10 at1A 4 x 10 at 0 5 A At DC13 24 V DC 2x10 at1A gt 5x10at05A 1 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 176 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu LED DIA 11 21 Display Red OFF Green OFF Green OFF Diagnostic messages 5 Relay modules XN 2DO R NO Table 55 Diagnostics through the LEDs Meaning Failure of module bus
65. cal data for the XI ON station Designation Value Supply voltage auxiliary supply Nominal value provided for other modules 24 V DC Residual ripple according to IEC EN 61131 2 Electrical isolation Uy to Usys U to field bus Usys to field bus Yes via optocoupler Environment temperature Operating temperature mounted horizon tally Operating temperature mounted vertically Storage temperature Relative humidity according to EC EN 60068 2 30 0 55 C 0 55 C 25 85 C 5 95 indoor Level RH 2 no condensation storage at 45 C no functional test modules max possible power loss Corrosive gases Rating of XN standard enclosure for 1 3 W modules in slice design max possible power loss Rating of XN ECO enclosure for slice 3 W modules max possible power loss Rating of XN standard enclosure for block 5W SO 10 ppm rel humidity lt 75 no condensation H3S 1 0 ppm rel humidity lt 75 no condensation 20 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 1 The XI ON Station Technical data for the XI ON station Designation Value Vibration resistance 10 57 Hz yes constant amplitude 0 075 mm 19 57 150 Hz constant acceleration 1 g yes Vibration type Vibration duration Shock resistance according to IEC EN 60068 2 27 Variable frequency runs at a rate of change of 1 octave min 20 va
66. cess output data 6300 Write Output 16 Bit The object presents the values for the digital output modules in 16 bit groups A total of 18 groups each 16 bit can be defined 288 digital output channels Table 69 Object 6300 description Feature Sub index Description Value Name Write Output 16 Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8 Sub index 01pax 12hex Unsigned16 Access Sub index 00pay ro Sub index 01pax 12hex rw Default value XI ON Sub index 00pay No Sub ndexOilhas 1275 OOhex 204 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 7 Integration in CANopen Objects for writing the process output data 6320 Write Output 32 Bit The object presents the values for the digital output modules in 32 bit groups A total of 9 groups each 32 bit can be defined 288 digital output channels Table 70 Object 6320 description Feature Sub index Description Value Name Write Output Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8 Sub index Olhex 09hex Unsigned32 Access Sub index 00pay ro Sub index Olhaex 09hex rw Default value XI ON Sub index 00pay No Sub index Olhaex 09hex OOhex XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 205 7 Integration in CANopen Objects for the substitute output value in the event of an error Objects for
67. diagrams n igure 103 Connection diagram XN S4x SBCS PE Tr PE PE T PE Figure 104 Connection diagram XN S6x SBCSBC Technical data for the terminals page 24 136 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu XN 16D0 24VDC 0 5A P 4 Digital output modules XN 16D0 24VDC 0 5A P Figure 105 5 V DC Module bus 24 V DC Module supply 24V DC U GND U Figure 106 Digitale output module 16 digital outputs 24 V DC 0 5 A positive switching Logic CU Electrical isolation hik VA Hat HI Ur Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 137 4 Digital output modules XN 16DO 24VDC0 5A P Technical data Table 44 XN 16DO 24VDC 0 5A P Designation Number of channels Value 16 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 2 30 mA when load current 0 mA Nominal current consumption from module bus 120 mA Ivg Insulation voltage channels to module bus 500 Vims Power loss Normally 4 W Output voltage High level gt U 1 VDC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 AI igh level permissible ra
68. dules With tension clamp connection XN S4T SBBS XN S4T SBCS With screw connection XN S4S SBBS XN S4S SBCS XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 169 5 Relay modules XN 2DO R NC Connection diagrams Mp Figure 124 Connection diagram for XN S4x SBBS with externally applied supply and linked root 14 24 The contacts 12 22 13 23 are linked internally NC 4 l P Electronics module l 4 RT Figure 125 Module circuit diagram XN S4x SBBS D Linked in the electronics Cross connection via QVR to the base 170 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NC Power Relay 1 Relay n Feeding R1 R2 Figure 126 Connection diagram for XN S4x SBCS with supply via C rail and linked root Supply via C rail Max 8 relay modules NC 1 Electronics 1 module I RT 24V DC Figure 127 Module circuit diagram XN S4x SBCS C rail Cross connection via QVR to the base XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 171 5 Relay modules XN 2DO R NC Warning The C rail must not have a potential above 24 V Not 230 V X The contact designations for the base module are not the relay contact designations according to DIN Technical data for the terminals page 24 172
69. e o U1 BR W N EEE WNSO m14 E15 E16 158 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XNE 16D0 24VDC 0 5A P Connection diagram Figure 118 Connection diagram for XNE 16DO 24VDC 0 5A P XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 159 4 Digital output modules Overview base modules for digital output modules Overview Tension clamp connection base modules for digital output modules O O 7 aa aa Oo A a 510 I0I0I0IO sioalmimimlim op ou O Ele E t lilts o m m m e ziIziIzilz z Electronics modules mjx x x x x XN 2D0 24VDC 0 5A P ele XN 2D0 24VDC 0 5A N ele XN 2D0 24VDC 2A P ele XN 2D0 120 230VAC 0 5A o o XN 4D0 24VDC 0 5A P ele XN 16DO 24VDC 0 5A P e XN 32D0 24VDC 0 5A P e Screw connection o A 3 AE AFAFA EAN N g a e Electronics modules a XN 2D0 24VDC 0 5A P XN 2D0 24VDC 0 5A N XN 2D0 24VDC 2A P XN 2D0 120 230VAC 0 5A XN 4D0 24VDC 0 5A P XN 16DO 24VDC 0 5A P e XN 32D0 24VDC 0 5A P e O aa a co 2 Z x e e o e XN S4S SBCS e xN sessBcsec 160 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN wwweaton eu General 5 Relay modules General 5 Relay modules The XI ON relay modules R receive output values from the gateway via the inte
70. e Only one channel is displayed per Sub index Objects 6020hex 6021 pe and 6022hex e 8 channels are displayed per Sub index Object 6000 e 16 channels are displayed per Sub index Object 6100Hay e 32 channels are displayed per Sub index Object 6120hex Table 61 Objects for the process input data Name Read Input 8 Bit Read Input Bit 1 128 Read Input Bit 129 256 Read Input Bit 257 288 Read Input 16 Bit Read Input 32 Bit XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 7 Integration in CANopen Objects for reading the process input data 6000 Read Input 8 Bit The object presents the values for the digital input modules in 8 bit groups A total of 36 groups each 8 bit can be displayed 288 digital input channels A PDO Mapping of this object is always made automatically as a default for the first 8 sub indices This corresponds to 64 digital input chan nels If more than 64 input channels are present then the PDO Mapping must be carried out by the user Table 62 Object 6000 4 description Feature Sub index Description Value Name Read Input 8 Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8 Sub index 01pax 24hex Unsigned8 Access Sub index 00pay ro Sub index 01pax 24hex ro Default value XI ON Sub index 00pay No Sub index Olhax 24hex No XI ON Digital 1 0 Modules Supply Modules 12 2013 MN0500
71. e consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 3 Two outputs can be connected in parallel to increase the maximum output current to 1 A 152 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XNE 8DO 24VDC0 5A P Diagnostic messages Table 49 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No error message 1 8 Green Status of channel 1 OFF Status of channel 0 CE K2 N3 N4 m5 NG B7 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 153 4 Digital output modules XNE 8D0 24VDC 0 5A P Connection diagram 24V DC U Figure 115 Connection diagram for XNE 8DO 24VDC 0 5A P with supply of the actuators 154 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XNE 16D0 24VDC 0 5A P XNE 16D0 24VDC 0 5A P Figure 116 Digitale output module XNE ECO 16 digital outputs 24 V DC 0 5 A positive switching 5 a 2 3 _ o 2 Z Logic AT gt LA 24V DC U 3 GND U Electrical isolati
72. e event of an error if a 1 is entered in an Error Mode Output Object 63264 for the partic ular output channel Substitute values 0 The output will be switched off if an error occurs 1 The output will be switched on if an error occurs Table 79 Object 6327 description Feature Sub index Description Value Name Error State Output 32Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index Olhex 09hex Unsigned32 Access Sub index 004 ro Sub index Olhex 09hex rw Default value XI ON Sub index 004 No Sub index Olhex 09hex 00000000 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 217 7 Integration in CANopen Emergencies Emergencies Designa tion Output current too high 218 The following CANopen Emergencies can be trig gered by an XI ON module of type Digital Output module Meaning Byte 0 1 Byte 2 Byte 3 Error Error Extra Code Register info Output current 231044 Bit Module is too high current number fault Byte 4 Addi tional informa tion Channel numbers for the 2 channel modules Bytes 5 6 7 of the Emergency frame are unused and are therefore always 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Digital Input Module Class 8 Integration in DeviceNet Digital Input Module Class VSC104 8 Integration in DeviceNet This class contains all the inf
73. e power supply of the device Ensure that the device cannot be acci dentally restarted Verify isolation from the supply Earth and short circuit e Cover or enclose neighbouring units that are live Follow the engineering instructions of the device concerned Only suitably qualified personnel in accordance with EN 50110 1 2 DIN VDE 0105 Part 100 may work on this device Before installation and before touching the device ensure that you are free of electrostatic charge e The functional earth FE must be connected to the protective earth PE or tothe potential equalisation The system installer is responsible for implementing this connection Connecting cables and signal lines should be installed so that inductive or capacitive interference do not impair the automation functions e Install automation devices and related operating elements in such a way that they are well protected against uninten tional operation Suitable safety hardware and software measures should be implemented for the I O interface so that a line or wire breakage on the signal side does not result in undefined states in the auto mation devices Ensure a reliable electrical isolation of the low voltage for the 24 volt supply Only use power supply units complying with IEC HD 60364 4 41 DIN VDE 0100 Part 410 Deviations of the mains voltage from the rated value must not exceed the tolerance limits given in the specifica
74. eaton eu 4 Digital output modules XN 2D0 24VDC 2A P XN 2D0 24VDC 2A P Figure 90 Digitale output module 2 digital outputs 24 V DC 2 positive switching 3 ov 5 HI 8 1 Logi E o 2 gt LA Electrical isolation gt a 2 y 3 Driver Driver 24V2AP 24V2AP oa gt Field Figure 91 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 119 4 Digital output modules XN 2D0 24VDC 2A P Technical data Table 39 XN 2DO 24VDC 2A P Designation Number of channels Value 2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 12 s 50 mA when load current 0 mA Nominal current consumption from module bus 33 mA Ivg Insulation voltage channels to module bus 500 Vims Power loss Normally 1 W Output voltage High level gt U 1 VDC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 2A igh level permissible range lt 24A Value for inductive load 1 2 H lt 1A Permissible total current over all outputs 4 A Simultaneity factor 100 Output delay for signal change and resistive load Rio lt 1 kO From Low to High level lt 100 us From High to Low level lt 100 us Load resistance range gt 120 Connectable equipment Re
75. ec 110 hex GEhex Attribute name CONSUMED DATA SIZE Access 8 Integration in DeviceNet Digital Output Module Class VSC105 Type UINT Description Contains the information about the amount of Consumed Data for the module 111 6Fhex CONSUMED DATA DIAG SIZE G S DWORD Contains the output data for the module DWORD Bit wise assign ment depending on the module specification Contains the information about the amount of Diag nostics Data for the module 113 114 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 72hex DIAG PARAM SIZE PARAMS MODULE REGIS TERED INDEX DWORD UINT Contains the diagnostics information for the module DWORD Bit wise assign ment depending on the module specification Contains information about the scope of module param eters The digital XI ON I O modules do not have any settable parameters Contains the parameters for the module DWORD Bit wise assign ment depending on the module specification Since the digital XI ON 1 O modules have no settable parameters this attribute is not used Contains the index number found in all module lists 227 8 Integration in DeviceNet Digital Output Module Class VSC105 228 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Definitions Appendix Definitions Appendix Protected outputs acco
76. ew connection 8 OI Simin 8 9 H AE g IZIZ Electronics modules mix x XN 2DO R NC ele XN 2DO R NO elo XN 2DO R CO ej 188 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 6 Integration in PROFIBUS DP Process input data process output data 6 Integration in PROFIBUS DP Process input data The process data are transmitted byte wise 8 Bit process output data across the PROFIBUS The digital module types have 1 bit of process data for each channel This bit indicates the channel status digital input or fixes the channel status digital output relay The digital input modules only provide process input data The digital output modules and relay modules only receive process output data Process data from modules with a sum of 8 chan nels or less can be bundled together as 1 byte 8 bits This reduces the total amount of process data Bundling the process data in this way is known as Packing The packing of the modules is arranged by a soft ware tool during the project engineering phase for the XI ON station A detailed description with corresponding examples can be found in the manual e User Manual XI ON Gateways for PROFIBUS DP N You can find the latest GSD files on our home page www eaton automation com under DOWNLOADS XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 189 6 Integration in PROFIBUS DP Process inpu
77. gital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 73 3 Digital input modules XN 4DI 24VDC P XN 4DI 24VDC P Figure 53 Digitale input module 4 digital inputs 24 V DC positive switching ie v pa 3 F g logic o a a gt LO Electrical isolation a 5 24VDC U S GND U Filter Filter Filter Filter O io gt Field Figure 54 Block diagram 74 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 4DI 24VDC P Technical data Table 22 XN 4DI 24VDC P Designation Value Number of channels 4 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 40 mA Nominal current consumption from module bus Img 29 mA Insulation voltage channels to module bus SOON as Power loss 1W Input voltage nput voltage rated value 24 V DC Low level range 30 V 5 V High level range ION TSON Input current Low level active level 0 mA 1 5 MA current range for detection of a low level High level active level 2 mA 10 mA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt 200 us 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is given by the sum of all
78. grams Figure 66 Connection diagram XN B3x SBB PE Ba PE Figure 67 Connection diagram XN B4x SBBC Technical data for the terminals page 24 88 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 32DI 24VDC P XN 32DI 24VDC P Figure 68 Digitale input module 32 digital inputs 24 V DC positive switching 2 a o Su 8 7 2 ogic TT _ 2 Z gt LO Electrical isolation a Qo 3 24VDC U GND U ia hha Filter 32 YU a gt Field Figure 69 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 89 3 Digital input modules XN 3 2DI 24VDC P Technical data Table 28 XN 32DI 24VDC P Designation Value Number of channels 32 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 30 mA Nominal current consumption from module bus Img 30 mA Insulation voltage channels to module bus SOON Power loss 4 2 W Input voltage nput voltage rated value 24V DC Low level range 30 V 5 V High level range ION TSON Input current Low level active level 0 mA 1 5 MA current range for detection of a low level High level active level 2 mA 10 mA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt
79. h 8 0 9 0 mm 8 0 9 0 mm 0 32 0 36 inch 0 32 0 36 inch Max wire range 0 5 2 5 mm 0 14 1 5 mm Crimpable wire 0 0008 0 0039 inch AWG 24 AWG 14 0 0002 0 0023 inch AWG 24 AWG 16 e solid core H 07V U 0 5 2 5 mm 0 25 1 5 mm 0 0008 0 0039 inch 0 0004 0 0023 inch f flexible core HO7V K 0 5 1 5 mm 0 25 1 5 mm 0 0008 0 0023 inch 0 0004 0 0023 inch f with ferrules without 0 5 1 5 mm 025 185 mm plastic collar according to DIN 46228 1 ferrules crimped gas tight f with ferrules with plastic collar according to DIN 46228 1 ferrules crimped gas tight 0 0008 0 0023 inch 0 5 1 5 mm 0 0008 0 0023 inch 0 0004 0 0023 inch 0 25 0 75 mm 0 0004 0 0012 inch Test finger according to IEC EN 60947 1 Al Al Measurement data Rated voltage Rated current Rated cross section Rated surge voltage Pollution degree Connection method in TOP direction according to VDE 0611 Part 1 8 92 IEC EN 60947 7 1 250 V 17 5 A 1 5 mm 4 kV 2 Tension clamp or screw connection 2 according to VDE 0611 Part 1 8 92 IEC EN 60947 7 1 250 V 17 5 A 1 5 mm 4 kvV 2 Push in tension clamp terminals 2 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Designations of the base modules 1 The XI ON Station Designations of the base modules XN X
80. hex MODULE G SHORT_ Contains the module name ORDER STRING e g XN 4DI 24VDC P NAME 106 6Anex MODULE G USINT Contains the revision number REVISION of the module 220 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Attribute no Dec hex 107 6Bhex Attribute name MODULE TYPE ID MODULE COMMAND INTERFACE Access G G S 8 Integration in DeviceNet Digital Input Module Class VSC104 Type ENUM USINT Description Provides information about the module type 0 00p4y unknown module type 1 014 digital O module 17 11hex analog module O voltage 18 12hex analog module O current 19 13p y analog module Pt temperature 20 14hex analog module thermo temperature 33 21hex 16 bit counter module 34 224 4 32 bit counter module 40 28pay SSI module 49 31hey Motor starter module as direct or reversing starter 50 32hex Electronic motor starter 65 41hex RS232 module 66 42hex RS485 422 module 67 43h TTY module The control interface for the XI ON module ARRAY OF BYTE control byte sequence 109 6Dhex MODULE RESPONSE INTERFACE ARRAY Message interface for the XI ON module ARRAY OF BYTE message byte sequence XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 221 8 Integration in DeviceNet Digital Input Module Class VSC104 Attribute Attribute no name Dec hex 110 6Enx PR
81. hort circuit proof the following applies e For all output currents above the maximum current le max and up to 2 x the rated current le the output must function and withstand a temporary overload Such temporary overload situations must be defined by the manufacturer The protective device must be activated for all forseeable output currents greater than 20 x the rated value After a rest or replacement of the protective device the PLC must once more function normally e For output currents in the range from 2 20 x or for temporary overloads above the limits given by the manufacturer see Item 1 above a repair or replacement of the module may be required e During an overload of 2 for a duration of 5 minutes no danger of fire or electrical shock may result Directly after every overload the highest temperature increase of the I O insulation may not exceed the values stated in 4 4 2 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Index Index A APOTOVAlS essieu mens ity ene uy 23 D Degree of protection 23 Diagnostics data rerien iree a 128 Digital Input Module Class 219 Digital Output Module Class uo cece 224 DIMENSIONS Er Ama ennemie 13 16 E Electromagnetic compatibility unan eee 21 AALALA AALAGA ns ne 218 G Gateway supply 40 l Indicator elements unan nannnaanasnasnasaasaana 128 L LED D Aa A maikama casa kaba as aalaga 37 LED SYS amenant 38 VED Aa S E EE aeaneneicao 38
82. i A o KH 5 a HA sa Be ot Wi og il 8 KO 5 T i FI g FI a 5 m 5 2 5 il a gi _ Fos 20 BD Ha p2 ao H05 000 b D IHD do SSS flanc B f amaaa E ao ap pS pe LA Era joo eo lao lao lao li pogona a a dp BO 20 un Hinc AD laa Bo po 2 poojooo bo la al as Bing Bo Ss fonc ao lao laa la f pon ES pe ge BS go Ss Ara 20 20 Iaa PD 20 li lee al a es Bo ao Alec joo 20 lao lao laa Y poo ooo al al dp bo 20 Pooc ao 2a do bo ao HOO coo Jp JO la HD 2D a UT i A U a Base module in block design with screw connection XN BxS Figure 11 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 18 1 The XI ON Station Dimensions 74 5 a agi Figure 12 XNE ECO electonics module XNE 8DI 24VDC P XNE 8D0 24VDC 0 5A P XNE 1SWIRE Figure 13 XNE ECO electonics module XNE 16D1 24VDC P XNE 16D0 24VDC 0 5A P XNE 8AI U I 4PT NI XNE 4A0 U I XNE 2CNT 2PWM XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 19 1 The XI ON Station Technical data for the XI ON station Technical data for the XI ON station Attention The auxiliary supply must meet the require ments for SELV Safety Extra Low Voltage according to IEC 60364 4 41 Table 4 Techni
83. ible Otherwise if relay modules are swapped changeover N C N O a short circuit could be caused that destroys the module Attention When switching inductive loads suppression components have to be placed at the load to avoid EMC influence For EMC supression RC components have shown advantages because of their dynamic response The use of varistors is not always sufficient 162 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules General Attention To avoid interferences in analog I O modules and in technology modules can be caused when relay modules switch loads e Do not place analog I O modules and tech nology modules contiguous to relay modules e Suppress interferences of the switch contact externally Module overview e XN 2DO R NC e XN 2DO R NO e XN 2DO R CO XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 163 5 Relay modules XN 2DO R NC XN 2D0 R NC Figure 120 Relay module 2 break contacts 5 a 2 o 8 a Logic gt O pa 24VDC U GND U Electrical isolation 5 o o z c ffc LU a gt Relay break a Relay break 14 2 m 23 Field Figure 121 Block diagram XN 2DO R NC with the base module XN S4x SBBS 164 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NC 5 sa 2
84. index 004 No Sub index Olhex 24hex O0hex XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 209 7 Integration in CANopen Objects for the substitute output value in the event of an error 6250 Error Mode Output Bit 1 128 6251hex Error Mode Output Bit 129 256 6252 0x Error Mode Output Bit 257 288 The objects defined the values bit wise Each Sub index for these objects is a Boolean value A total of 128 bits can be represented 128 digital output channels If more than 128 output channels are present then Object 62515 is used If more than 256 output channels are present then Object 6252 is used Since the number of digital input channels in a station is limited to 288 it is not possible to make use of the complete range of the array in Object 6252 p7y It is possible to define for each digital output channel whether or not the output should take on a substitute value in the event of an error The rule IS 0 The output maintains its value if an error occurs 1 The output is set to a substitute value if an error occurs The substitute values for the digital output chan nels are defined by the Error State Output Objects 6260pax 6261hex und 6262hex definiert 210 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 7 Integration in CANopen Objects for the substitute output value in the event of an error Table 74 Object 6260
85. iven by the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 80 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 4DI 24VDCN Diagnostic messages Table 25 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No fault indication or diagnostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 ana 14 Green Status of channel 3 1 KHO OFF Status of channel3 0 24 Green Status of channel 4 1 OFF Status of channel 4 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 81 3 Digital input modules XN 4DI 24VDC N Base modules Figure 60 Base modules XN S4T SBBS left and XN S6T SBBSBB right Base modules With tension clamp connection XN S4T SBBS XN S6T SBBSBB With screw connection XN S4S SBBS XN S6S SBBSBB 82 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 4DI 24VDCN Connection diagrams g Figure 61 Connection diagram XN S4x SBBS Figure 62 Connection diagram XN
86. l Input delay trising edge lt 100 us tfalling edge lt 200 us Simultaneity factor 100 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is given by the sum of all the individual currents A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 95 3 Digital input modules XNE 8DI 24VDC P Diagnostic messages Table 31 Diagnostics through the LEDs 8DI i i BAY LED Display Meaning Remedy DIA DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No error message 1 8 Green Status of channel 1 OFF Status of channel 0 LE K2 B3 m4 NG NG B7 NB 96 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XNE 8DI 24VDC P Connection diagram Figure 74 Connection diagram XNE 8DI 24VDC P GND U Figure 75 Connection diagram XNE 8DI 24VDC P with power supply of the sensors XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 97 3 Digital input modules XNE 16D1 24VDC P XNE 16D1 24VDC P Figure 76 Digitale input module XNE ECO 16 digital
87. l power supply is OK Check whether more than two adjacent electronics modules have been removed OFF Field supply from Check the wiring of the external power field supply supply has a fault Check the external power supply The module features the following diagnostics data e Field voltage missing Monitoring of the externally provided field supply voltage XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 45 2 The supply modules XN PF 24VDCD Base modules Figure 28 Base modules XN P3T SBB left and XN P4T SBBC right Base modules With tension clamp connection XN P3T SBB XN P4T SBBC With screw connection XN P3S SBB XN P4S SBBC 46 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 2 The supply modules XN PF 24VDCD Connection diagrams 24V DC Figure 29 Connection diagram XN P3x SBB 24V DC Figure 30 Connection diagram XN P4x SBBC Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 47 2 The supply modules XN PF 120 230VACD XN PF 120 230VAC D The following modules must be supplied from a preceding XN PF 120 230VAC D e XN 2DI 120 230VAC e XN 2D0 120 230VAC 0 5A Caution Relay modules must not be supplied from a preceding XN PF 120 230VAC D The nominal voltage at the supply terminals is 24 V DC coil voltage The
88. le bus to UL 500 Vims Power loss Normally 1 W Connectable equipment Resistive loads Inductive loads Lamp loads Switching voltage to supply the actuators Nominal load voltage 230 V AC 30 V DC Switching current to supply the actuators Output current per channel at 230 V AC Nominal current AC15 250 V AC at make contacts 3A Nominal current AC15 250 V AC at break contacts 1 5 A Maximum continuous current 2A Maximum continuous current resistive load 5 load dependent Output current for DC voltage purely resistive Load limit curve Figure 119 Nominal current DC13 24 V DC 1A XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 183 5 Relay modules XN 2DO R CO Designation Switching frequency resistive load inductive load and lamp load Minimum load current Utilization factor Lifespan number of switching operations Value lt 0 1 Hz 100 mA at 2 12 V DC 100 At 230 V AC gt 0 1 x 108 at 5A gt 1x 10 at0 5A At AC15 250 V AC 1x 10 at2A 2x10 at1A 4 x 10 at 0 5 A At DC13 24 V DC make contacts 2x10 at1A gt 5x 10 at 0 5A 1 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 184 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R CO Diagnostic messages Table
89. missible tolerances Check whether more than two adjacent electronics modules have been removed Check the wiring of the system supply for the module bus Check the voltage and the wiring for the system supply XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 37 2 The supply modules XN BR 24VDC D LED Display Meaning Remedy Sys Green System supply from external power supply is OK OFF System supply from Check the wiring of the external power system supply supply has a fault Check the external power supply UL Green Field supply from external power supply is OK OFF Field supply from Check the wiring of the external power field supply supply has a fault Check the external power supply e Module bus voltage warnng Monitoring of the externally provided system supply voltage Usys 24 V DC The system supply is converted 24 V DC gt 5 V e Field voltage missing Monitoring of the externally provided field supply voltage U 24V DC 38 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Base modules 2 The supply modules XN BR 24VDC D Figure 22 Base modules for XN BR 24VDC D Base module with gateway supply Base module without gateway supply Base modules with gateway supply With tension clamp XN P3T SBB connection XN P4T SBBC With screw connection XN P3S SBB XN P4S SBBC Base modules without gateway supply XN
90. moval of the conductor XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 31 1 The XI ON Station Wiring of the XI ON modules 32 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 2 The supply modules Bus refreshing modules 2 The supply modules Bus refreshing modules The bus refreshing modules provide e 5 V DC for the internal XI ON module bus and the neighbouring gateway e 24 V DC permissible range according to IEC EN 61131 2 as the supply for the module electronics and the field This 24 V DC supply voltage is distributed throughout the XI ON station gt Internal connections in an XI ON station page 56 as a separate cable They are electrically isolated from the adjacent supply group on the left Attention If the XI ON station contains a gateway without an integrated power supply unit XN GW the first bus refreshing module must be fitted directly to the right of a gateway This provides the 5 V DC power supply to the gateway when connected to a special base module gt Base modules for XN BR 24VDC D page 39 The use of supply modules means that it is not necessary to make individual connections of the field and or system supply voltage to each indi vidual XI ON 1 0 module Depending on the application potential groups can thus be formed by the planned use of supply modules Supply modules are built as XN standard electronics
91. na 84 74 64 54 44 34 24 14 numbers of Byte 2 Termina 164 154 144 134 124 114 104 94 numbers of Byte 3 Example 3 The following overview of the process output data of a XNE 8D0 24VDC 0 5A P module and the corresponding terminal numbers of the connec tion level Table 60 Example of a terminal number process input data assignment Byte 0 Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit2 Bit1 Bit 0 Terminal 8 7 6 5 4 3 2 1 numbers of Byte 0 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 191 6 Integration in PROFIBUS DP Diagnostics Diagnostics The digital input modules do not provide diagnos tics data The digital output modules and supply modules do provide diagnostics messages Module type Diagnostics Position in Meaning message diagnostics byte XN 2D0 24VDC 0 5A P Overcurrent Bit O XN 2D0 24VDC 0 5A N XN 2D0 24VDC 2A P XN 4D0 24VDC 0 5A P ovreurr shrt circ Bit O There is a short 21 of K1 4 circuit on at least one of channels loc XN 16DO 24VDC 0 5A P ovrcurr shrt circ Bit O There is a short 21 of K1 4 circuit on at least ovrcurr shrt circ Bit1 ane channel in tne ovrcurr shrt circ Bit2 ovrcurr shrt circ Bit3 21 of K5 8 group of 4 21 of K9 12 21 of K13 16 192 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Module type XN 32D0 24VDC 0 5A P 6 Integration in PROFIBUS DP E1 of K29 32 Diagnostics Position in mess
92. nge lt 06A Permissible total current over all outputs s8A Simultaneity factor 100 Yo Output delay for signal change and resistive load Rio lt 1 kO From Low to High level lt 100 us From High to Low level lt 100 us Load resistance range gt 480 Connectable equipment Resistive load Rio gt 48 QO Inductive load Ry 3 1 2 al Lamp load Rj lt 3W Switching frequency With resistive load Rig lt 1 KQ lt 100 Hz 138 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 16D0 24VDC 0 5A P Designation Value Output according to IEC EN 61131 2 Short circuit proof Page 230 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 3 From device version VN01 02 on two outputs can be connected in parallel to increase the maximum output current to 1 A 4 From device version VN01 02 on permissible range for short term overload maximum 5 minutes XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 139 4 Digital output modules XN 16D0 24VDC 0 5A P Diagnostic messages Table 45 Diagnostics through
93. nputs The overall current that is required for each module is given by the sum of all the individual currents A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 70 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Diagnostic messages 3 Digital input modules XN 2DI 120 230VAC Table 21 Diagnostics through the LEDs LED Display Meaning Remedy BDIA DIA Red Failure of module bus Check whether more BEJ communication than two adjacent elec tronics modules have been removed OFF No fault indication or diag nostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 10021 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 71 3 Digital input modules XN 2DI 120 230VAC Base modules Figure 50 Base modules XN S3T SBB left and XN S4T SBBC right Base modules With tension clamp connection XN S3T SBB XN S4T SBBC With screw connection XN S3S SBB XN S4S SBBC 72 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 2DI 120 230VAC Connection diagrams LH Figure 51 Connection diagram XN S3x SBB Figure 52 Connection diagram XN S4x SBBC Technical data for the terminals page 24 XI ON Di
94. ns in an XI ON station page 56 XN BR 24VDC D XN PF 120 230VAC D XN BR 24VDC D HAHAHAHAHAHAHA ini mt 24 V DC 230V AC Basismodule XN P3T SBB XN P3T SBB XN P3T SBB B Bus Ve Ag Feld FT Figure 36 Potential groups in a sample station XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 55 2 The supply modules Internal connections in an XI ON station Internal connections in an The following diagram shows the internal data and XI ON station supply cables for an XI ON station Figure 37 Internal connections in an XI ON station This type of connection is known as a C rail and is led through all the base modules to the next supply module All modules with a C in the designation have an electrical connection to the C rail e g XN S4T SBCS The connections to the C rail are marked by a black edge The C rail can be used as a protective earth PE or can have a maximum potential of 24 V These connections provide the supply voltage U The supply voltage U is used for the field supply and also as a supply for the module electronics The majority of XI ON modules require this 24 V DC supply in addition to the 5 V DC module bus voltage This 7 core module bus connection includes the 5 V DC module bus voltage as well as the data cables 56 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules General 3 Digital input modules
95. odule ID 104 68hex MODULE G UDINT Contains the order no of the ORDER module e g 225000 NUMBER 105 69hex MODULE G SHORT_ Contains the module names ORDER STRING e g XN 2D0 24VDC 0 5A P NAME 106 6Ahex MODULE G USINT Contains the revision REVISION number of the module XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 225 8 Integration in DeviceNet Digital Output Module Class VSC105 Attribute Attribute Access Type no name Dec hex 107 6Bhex MODULE G ENUM TYPE ID USINT 108 6Chex MODULE G S ARRAY COMMAND INTERFACE 109 6Dhex MODULE G ARRAY RESPONSE INTERFACE Description Provides information about the module type O 0044 unknown module type 1 014 digital O module 17 11hex analog module O voltage 18 12hex analog modu O current 19 13pay analog module Pt temperature 20 14h analog module thermo temperature 33 21hex 16 bit counter module 34 22 32 bit counter module 40 28pay SSI module 49 31hex Motor starter module as direct or reversing starter 50 32 Electronic motor Starter 65 41hex RS232 module 66 42hex RS485 422 module 67 43hex TTY module O The control interface for the XI ON module ARRAY OF BYTE control byte sequence Message interface for the XI ON module ARRAY OF BYTE message byte sequence 226 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Attribute no D
96. odules Supply Modules 12 2013 MN05002010Z EN www eaton eu 115 4 Digital output modules XN 2D0 24VDC 0 5A N 116 Diagnostic messages Table 38 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Diagnostics available Remove the short circuit flashing on the corresponding 0 5 Hz channel Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No fault indication or diagnostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 The module features the following diagnostics data per channel e Overcurrent short circuit XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 2D0 24VDC 0 5A N Base modules Figure 87 Base modules XN S3T SBC left and XN S4T SBCS right Base modules With tension clamp connection XN S3T SBC XN S4T SBCS With screw connection XN S3S SBC XN S4S SBCS XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 117 4 Digital output modules XN 2D0 24VDC 0 5A N Connection diagrams p Figure 88 Connection diagram XN S3x SBC Figure 89 Connection diagram XN S4x SBCS Technical data for the terminals page 24 118 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www
97. on o o a gt DIVERRE 11777 7 74 Driver 15 Driver 16 a ANOS 4 24 V 0 5A 24 V 0 5A B P P Field 1 15 16 Figure 117 Block diagram XI ON Digital 1 O Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 155 4 Digital output modules XNE 16D0 24VDC 0 5A P Technical data Table 50 XNE 16D0 24VDC 0 5A P Designation Value Number of channels 16 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 853 mA 1 2 02 when load current 0 mA all outputs OFF Simultaneity factor Output delay for signal change and resistive load Nominal current consumption from module bus 25 mA Me nsulation voltage channels to module bus 500 Vims Power loss Normally 2 5 W Output voltage High level gt U 1 V DC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 AI igh level permissible range for short term over x1 0A oad maximum 5 minutes Permissible total current over all outputs lt 4 AN Depends on the permissible total current over all outputs Rio lt 1 kO From Low to High level lt 300us i sti S OC From High to Low level lt 300 us Load resistance range gt 480 Connectable equipment Resistive load Ri 9 gt 480 Inductive load Rj to DC13 according to IEC EN
98. onics are located in a separate enclosure and must be inserted into a suitable base module The vast majority of the XN standard elec tronics modules can be combined with different base module types 22 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 1 The XI ON Station Technical data for the XI ON station Table 5 Approvals and tests for a XI ON station Designation Vale CO Approvals CE us Tests IEC EN 61131 2 Cold IEC EN 60068 2 1 Dry heat IEC EN 60068 2 2 Damp heat cyclical IEC EN 60068 2 30 Temperature changes IEC EN 60068 2 14 Operating life MTBF 120000 h Removal insertion cycles for electronics 20 modules Pollution level according to IEC EN 60664 2 IEC EN 61131 2 Degree of protection according to IP 20 IEC EN 60529 1 The approvals of newer XI ON modules can still be pending 2 The operational life of the relay modules is not given in hours The relevant factor for the operational life of relay modules is the number of switching operations see technical data for the relay modules XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 23 1 The XI ON Station Technical data for the terminals Technical data for the terminals Designation Table 6 XN gateways base modules Technical data for the terminals XNE gateways XNE electronics modules Protection class IP20 IP20 Insulation stripping lengt
99. ormation and parame VSC104 ters for digital input modules Table 80 Class Instance Attribute Attribute Access Type Description no name Dec hex 100 64 4 CLASS G UINT Contains the revision number REVISION of this class Maj Rel x 1000 Min Rel 101 65hex MAX G USINT Contains the number of the INSTANCE highest instance of an object created at this level in the class hierarchy 102 66 4 OF G USINT Contains the number of object INSTANCES instances created at this class level 103 67hex MAXCLASS G USINT Contains the number of the ATTR last class attribute imple mented XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 219 8 Integration in DeviceNet Digital Input Module Class VSC104 Table 81 Object Instances Attribute Attribute Access Type Description no name Dec hex 100 64nex MAX G USINT Contains the number of the OBJECT last object attribute imple ATTR mented 101 65hex MODULE G BOOL FALSE XI ON module is not PRESENT inserted vacant base module TRUE XI ON module is plugged in 102 66hex TERMINAL G USINT The slot number of the base SLOT module base module to the NUMBER right of the gateway No 1 belonging to the module Corresponds to the relevant instance number within the TERMINAL SLOT CLASS 103 67hex MODULEID G DWORD Contains the module ID 104 68hex MODULE G UDINT Contains the order no of the ORDER module e g 225000 NUMBER 105 69
100. put channel in an XI ON station The user has the option of choosing between 4 diferent formats for the representation of the values e Only one output channel is displayed per Sub index Objects 6020hex 6021hex and 6022p4 e 8 output channel values are displayed per Sub index Object 6000 e 16 output channel values are displayed per Sub index Object 6100p ey e 32 output channel values are displayed per Sub index Object 61204 Table 66 Objects for the process output data Name Write Output 8 Bit Write Output Bit 1 128 Write Output Bit 129 256 Write Output Bit 257 288 Write Output 16 Bit Write Output 32 Bit XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 201 7 Integration in CANopen Objects for writing the process output data 6200 ex Write Output 8 Bit The object presents the values for the digital output modules in 8 bit groups A total of 36 groups each 8 bit can be defined 288 digital output channels PDO Mapping of this object is always made automatically as a default for the first 8 sub indices This corresponds to 64 digital output channels If more than 64 output channels are present then the PDO Mapping must be carried out by the user Table 67 Object 6200pex description Feature Sub index Description Value Name Write Output 8 Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8
101. rding to IEC EN 61131 2 For outputs that the manufacturer has specified as protected the following applies e The output must be able to withstand the load and or the corresponding protection device must protect the output for all continuous output currents that exceed 110 of the rated value e After the reset or replacement of the protective device the PLC system must return to normal operation e Additional restart features can be selected from the 3 following types Protected output with automatic restart a protected output that automatically restarts operation as soon as the overload is no longer present Protected output with controlled restart a protected output that is restarted as a response to specific signals e g by remote control Protected output with manual restart a protected output that is restarted by manual action the protection can be ensured by means of fuses electronic lock outs etc Note Lengthy operation in overload conditions may result in a reduction of the operational life of the module The protected outputs do not necessarily provide protection for the external wiring The user is responsible for providing the means necessary to achieve such protection XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 229 Appendix Definitions 230 Short circuit proof outputs according to IEC EN 61131 2 For outputs that the manufacturer has specified as s
102. riable frequency runs per coor dinate axis 18 shocks half sine 15 g peak value 11 ms for both directions per spatial coordinate Repeated shock resistance according to IEC EN 60068 2 29 Drop and topple 1000 shocks half sine 25 g peak value 6 ms for both directions per spatial coordinate Fall height weight lt 10 kg 1 0m Fall height weight 10 40 kg 0 5m Test runs 7 Instrument with packaging electronics boards electrically tested Electromagnetic compatibility EMC according to IEC EN 61000 6 2 industrial Static electricity according to IEC EN 61000 4 2 Air discharge direct 8 kV Relay discharge indirect 4 kV Electromagnetic HF fields according to 10 V m IEC EN 61000 4 3 Conducted interference induced by 10 V HF fields according to IEC EN 61000 4 6 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 21 1 The XI ON Station Technical data for the XI ON station Designation Value Fast transients burst according to 1kV 2kV IEC EN 61000 4 4 Radiated interference according to according to IEC EN 61000 6 4 industrial IEC CISPR 11 EN 55011 Class A 1 The use in residential areas may lead to functional errors Additional suppression measures are neces sary 2 XNE ECO enclosures are one piece enclosures The module electronics and the connection level cannot be separated XN standard enclosures are two piece enclosures The module electr
103. ription Sub index Sub index 00pey Sub index 01pax 12hex Sub index 00pay Sub index 01pax 12hex Sub index OOhex Description Value Error Mode Output 16 Bit ARRAY Yes Unsigned8 Unsigned16 ro rw No Sub index 01pax 12hex 214 XI ON Digital 1 0 Modules Supply Modules FFFFhex 12 2013 MNO50020107 EN www eaton eu 7 Integration in CANopen Objects for the substitute output value in the event of an error 6307hex Error State Output 16 Bit The object defines values in 16 bit groups A total of 18 groups each 16 bit can be defined 288 digital output channels The substitute value is defined for each digital output channel The substitute values will only be used in the event of an error if a 1 is entered in an Error Mode Output Object 6306p4 for the partic ular output channel Substitute values 0 The output will be switched off if an error occurs 1 The output will be switched on if an error occurs Table 77 Object 6307 description Feature Sub index Description Value Name Error State Output 16Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 004 Unsigned8 Sub index 01 pex 12pax Unsigned16 Access Sub index 004 ro Sub index Olhex 12hex rw Default value XI ON Sub index 004 No Sub index O1hex 12hex 0000p ex XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 215 7 Integration in CANopen Object
104. rmally 1 W Output voltage High level gt U 1 VDC the output is switched on and loaded Output current to supply the actuators the output is switched on igh level nominal value 0 5 AI igh level permissible range for short term over x0 6A oad maximum 5 minutes Permissible total current over all outputs s2A Simultaneity factor 100 Yo Output delay for signal change and resistive load Rio lt 1 kO From Low to High level lt 250 us From High to Low level lt 250 us Load resistance range S48 Q Connectable equipment Resistive load Rio gt 48 QO Inductive load Ry amp Lain Lamp load Rj lt 6W 132 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 4D0 24VDC 0 5A P Designation Value Switching frequency With resistive load Rig lt 1 KQ lt 1000 Hz With inductive load lt 2 ln With lamp load lt 10 Hz Output according to IEC EN 61131 2 Short circuit proof Page 230 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 3 The outputs can be connected in parallel to increase the maximum o
105. rnal module bus The modules convert these values and transmit the appropriate switching states per channel to the field level via the base Module Relay modules are suitable for solenoid valves DC contactors and signal lamps in the nominal load voltage range 24 V DC V AC 230 V AC Relay modules are fitted with reverse polarity protection and electrically isolated from the supply voltage Relay modules are built as XN standard electronics modules in slice design They are completed by base modules with tension clamp or screw connection There are no parameter setting options for relay modules LED indicators Error messages from the 1 0 level are made on a module basis through the collective DIA indicator LED The corresponding diagnostics information is transmitted to the gateway as diagnostics bits If the DIA LED is permanently red this indicates that the module bus communication has failed for the relay modules Load limit curve for resistive load For 1000 switching actions not continuous arc may occur that burns for more than gt 10 ms XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 161 5 Relay modules General 102 1 1 Figure 119 Definition o oad limit curve Attention When using relay modules a standard module representation should be avoided as far as poss
106. s for the substitute output value in the event of an error Feature Name Object Code PDO Mapping Data type Access Default value XI ON 6326hex Error Mode Output 32 Bit The object defines values in 32 bit groups A total of 9 groups each 32 bit can be defined 288 digital output channels It is possible to define for each digital output channel whether or not the output should take on a substitute value in the event of an error The rule iS 0 The output maintains its value if an error occurs 1 The output is set to a substitute value if an error occurs The substitute values for the digital output chan nels are defined by an Error State Output Object 6327 Hex Table 78 Object 6326 description Sub index Sub index OOhex Sub index Olhex 09hex Sub index OOhex Sub index Olhex 09hex Sub index OOhex Description Value Error Mode Output 32 Bit ARRAY Yes Unsigned8 Unsigned32 ro rw No Sub index 01pax O9hex 216 XI ON Digital 1 0 Modules Supply Modules FFFFFFFFhe 12 2013 MNO50020107 EN www eaton eu 7 Integration in CANopen Objects for the substitute output value in the event of an error 6327hex Error State Output 32 Bit The object defines values in 32 bit groups A total of 9 groups each 32 bit can be defined 288 digital output channels The substitute value is defined for each digital output channel The substitute values will only be used in th
107. ser Manual XI ON Gateways for PROFIBUS DP 194 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 7 Integration in CANopen Process input data process output data 7 Integration in CANopen Process input data The digital module types have 1 bit of process data process output data for each channel This bit indicates the channel status digital input or fixes the channel status digital output relay The digital input modules only provide process input data The digital output modules and relay modules only receive process output data Objects which can be defined by the Device Profile for O Devices CIA DS 401 can be used to display the channel values as groups of 32 16 8 bits or as a single display of the values X You can find the latest EDS files on our home page www eaton automation com under DOWNLOADS XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 195 7 Integration in CANopen Objects for reading the process input data Objects for reading the process input data Index hex 6000hex 6020hox 6021hox 6022hex 6100hox 6120hex 196 Page Page 197 Page 198 Page 198 Page 198 Page 199 Page 200 bili liryr yy Overview The objects indicate the process input values for each digital input channel in an XI ON station The user has the option of choosing between 4 different formats for the representation of the values
108. sistive load Rio gt 120 Inductive load Ri lt 1 2H Lamp load Rj lt 6W 120 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 2D0 24VDC 2A P Designation Value Switching frequency With resistive load Rig lt 1 KQ lt 5000 Hz With inductive load lt 2 Hz With lamp load lt 10 Hz Output according to IEC EN 61131 2 Protected Page 229 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 1 21 4 Digital output modules XN 2D0 24VDC 2A P 122 Diagnostic messages Table 40 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Diagnostics available Remove the short circuit flashing on the corresponding 0 5 Hz channel Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No fault indication or diagnostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of ch
109. t 6100pex description Feature Sub index Description Value Name Read Input 16 Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8 Sub index 01pax 12hex Unsigned16 Access Sub index 00pay ro Sub index 01pax 12hex ro Default value XI ON Sub index 00pay No SubandexOilhas 12h No XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 199 7 Integration in CANopen Objects for reading the process input data 6120 Read Input 32 Bit The object presents the values for the digital input modules in 32 bit groups A total of 9 groups each 32 bit can be displayed 288 digital input channels Table 65 Object 6120 description Feature Sub index Description Value Name Read Input Bit Object Code ARRAY PDO Mapping Yes Data type Sub index 00pay Unsigned8 Sub index Olhaex 09hex Unsigned32 Access Sub index 00pay ro Sub index O1pex O9hex ro Default value XI ON Sub index 00pay No Sub index 01pax O9hex No 200 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Objects for writing the process output data Index hex 6200hex 6220hex 6221hex 6222hex 6300hox 6320hex Page TEATAR Page 202 Page 203 Page 203 Page 203 Page 204 Page 205 7 Integration in CANopen Objects for writing the process output data Overview The objects indicate the process output values for each digital out
110. t data process output data Byte 0 Terminal numbers of Byte O 190 Bit 7 24 Bit 6 14 Examples for allocation of the process data bits to the terminals The assignment of the channels to the individual process data bits is generally in ascending order The data can belong to various modules because of the option of bundling the data of 2 or 4 channel modules The modules must not necesarily be located alongside one another The least signifi cant bits are invalid if not all 8 bits of a process data byte are filled out Example 1 The following overview of the process input data of two packed XN 4DI 24VDC P modules and the corresponding terminal numbers of the connec tion level Table 58 Example of a terminal number process input data assignment Bit5 5 Bit4 Bit3 Bit2 Bit1 Bit 0 21 11 24 14 21 11 Second module XN 4DI 24VDC P First module XN 4DI 24VDC P XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 6 Integration in PROFIBUS DP Process input data process output data Example 2 The following overview of the process input data of a XN 32D1 24VDC P module and the corre sponding terminal numbers of the connection level Table 59 Example of a terminal number process input data assignment Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit2 Bit1 Bit 0 Termina 81 71 61 51 41 31 21 11 numbers of Byte O Termina 161 151 141 131 121 111 101 91 numbers of Byte 1 Termi
111. taneity factor Output delay for signal change and resistive load Rio lt 1 kQ From Low to High level From High to Low level Load resistance range Connectable equipment Resistive load Ri 9 Inductive load R Lamp load Ry 144 Depends on the permissible total current over all outputs lt 300 us lt 300 us gt 480 gt 48Q amp 1 21 lt 6W XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 4 Digital output modules XN 32D0 24VDC 0 5A P Designation Value Switching frequency With resistive load Rig lt 1 kQ lt 100 Hz Output according to IEC EN 61131 2 Short circuit proof Page 230 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 3 Two outputs can be connected in parallel to increase the maximum output current to 1 A 4 The total current of the outputs switched simultane ously must not overload the current load of the feeding supply terminal U The number of outputs that can be switched simultaneously may therefore be less than the total number of channels of the device XI ON Digital 1 0 Modules Supply Modules
112. th the field voltage of 24 V DC XN PF 24VDC D or 120 230 V AC XN PF 120 230VAC D They are used when different potential groups need to be set up within a XI ON station or in the event that the supply would otherwise be inadequate for the rated current requirements of the XI ON modules They are electrically isolated from the adjacent supply group on the left Warning Power feeding modules cannot be used to provide the 5 V DC supply for XI ON gateways The use of power feeding modules means that it is not necessary to provide a supply feed to each individual XI ON module Power feeding modules are built as XN standard electronics modules in slice design They are completed by base modules with tension clamp or screw connection The ash grey cover of the base modules for power feeding modules make them clearly distinguish able from the base modules for the XI ON 1 0 modules LED indicators The error and diagnostics messages are provided by the various LEDs on the module The corre sponding diagnostics information is transmitted to the gateway as diagnostics bits Module overview XN PF 24VDC D XN PF 120 230VAC D XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 2 The supply modules XN PF 24VDCD XN PF 24VDC D Figure 26 Power feeding module 24 V DC with diagnostics 5 V DC Module bus Logic Electrical isolation of the diagnostics U EMV Filter 24V DC Supply U
113. the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 75 3 Digital input modules XN 4DI 24VDC P Diagnostic messages Table 23 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No error message 11 Green Statusofchannel1 1 OFF Statusofchannel1 0 21 Green Statusofchannel2 1 OFF Statusofchannel2 0 14 Green Statusofchannel3 1 OFF Statusofchannel3 0 24 Green Status of channel4 1 OFF Status of channel4 O 76 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Digital input modules XN 4DI 24VDC P Base modules Figure 55 Base modules XN S4T SBBS left and XN S6T SBBSBB right Base modules With tension clamp connection XN S4T SBBS XN S6T SBBSBB With screw connection XN S4S SBBS XN S6S SBBSBB XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 77 3 Digital input modules XN 4DI 24VDC P Connection diagrams Figure 56 Connection diagram XN S4x SBBS Figure 57 Connection diagram XN S6x SBBSBB Technical data for the terminals page 24 78 XI
114. tic messages 177 Base modules 178 Connection diagrams 179 XN 2D 0 860 mamba yes oes AN Cee 182 Technical data 183 Diagnostic messages 185 Base modules 186 Connection diagrams 187 Overview base modules for relay MOUSE las aive ae hab need hae debat 188 Tension clamp connection 188 Screw connection 188 6 Integration in PROFIBUS DP 189 Process input data process output data 189 Examples for allocation of the process data bits to the terminals 190 Diagnostics tanaka KANAN pan balabal gand 192 Parameters nnno 0 0020 c cece eee eee ee 194 7 Integration in CANopen 195 Process input data process output data 195 Objects for reading the process input data 196 ZVENO ga chat NSAN A ERAAN 196 6000hex Read Input 8 Bit 197 6020hex Read Input Bit 1 128 198 6021hex Read Input Bit 129 256 198 6022hex Read Input Bit 257 288 198 6100hex Read Input 16 Bit 199 6120hex Read Input 32 Bit 200 Objects for writing the process output data 201 QVCIVIEW eet cacy chs na da RG une tiers 201 620
115. tions otherwise this may cause malfunction and dangerous operation Emergency stop devices complying with IEC EN 60204 1 must be effective in all operating modes of the automa tion devices Unlatching the emer gency stop devices must not cause uncontrolled operation or restart Measures should be taken to ensure the proper restart of programs inter rupted after a voltage dip or failure This should not cause dangerous operating states even for a short time If neces sary emergency stop devices should be implemented Wherever faults in the automation system may cause damage to persons or property external measures must be implemented to ensure a safe operating state in the event of a fault or malfunc tion for example by means of separate limit switches mechanical interlocks etc XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 3 Safety regulations e The electrical installation must be carried out in accordance with the rele vant regulations e g with regard to cable cross sections fuses PE e All work relating to transport installa tion commissioning and maintenance must only be carried out by qualified personnel IEC HD 60364 DIN VDE 0100 and national work safety regulations 4 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu Table of contents Table of contents Tabl of contents ss dass grasses An bA 5 About this manual
116. to Usys 500 Vins U to module bus U to FE System supply Usys nominal value range 24 V DC 18 30 V DC externally provided Ump nominal value range 5 V DC 4 7 5 3 V DC Usys internally converted e Gateway supply e Module bus supply Imp supply to the moudle bus partici 1 5 pants Insulation voltage Usys to U BOO Waa Usys to module bus Usys to FE Ripple z5 Yo Residual ripple according to IEC EN 61131 2 36 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu Display Red 0 5 Hz Red OFF Vcc Green OFF flashing Diagnostic messages 2 The supply modules XN BR 24VDC D The diagnostics functions monitor the supply volt ages that have to be provided by the user system and field supplies for undervoltage They indicate any error through the DIA LED and send corre sponding diagnostics information to the gateway The module features the following diagnostics data Table 10 Diagnostics through the LEDs Meaning Fault in field supply U or system supply Usys Failure of module bus communication diagnostics 5 Vcc supply voltage for module bus is OK for module bus has a fault No fault indication or 5 Vcc supply voltage Remedy Check the wiring of the system supply for the module bus and the field supply Check that the voltages of the system supply and the field supply are within the per
117. ton eu Index hex 6206hex 6207hex 6250hex 625 1hex 6252hex 6260hex 6261h 6262hex 6306 hex 6307 hex 6326nex Che 7 Integration in CANopen Objects for the substitute output value in the event of an error Table 71 Objects for the substitute value and the substitute value mode Page Name Page 208 Error Mode Output 8 Bit Page 209 Error State Output 8 Bit Page 210 Error Mode Output Bit 1 128 Page 210 Error Mode Output Bit 129 256 Page 210 Error Mode Output Bit 257 288 Page 212 Error State Output Bit 1 128 Page 212 Error State Output Bit 129 256 Page 212 Error State Output Bit 257 288 Page 214 Error Mode Output 16 Bit Page 215 Error State Output 16 Bit Page 216 Error Mode Output 32 Bit Page 217 Error State Output 32 Bit XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 207 7 Integration in CANopen Objects for the substitute output value in the event of an error Feature Name Object Code PDO Mapping Data type Access Default value XI ON 6206 7x Error Mode Output 8 Bit The object defines values in 8 bit groups A total of 36 groups each 8 bit can be defined 288 digital output channels It defines for each digital output channel whether or not the output should take on a substitute value in the event of an error The rule is 0 The output maintains its value if an error occurs 1 The
118. tput voltage High level the output is switched on and loaded 20 mA when load current 0 mA 32 mA 500 Vims Normally 1 W lt GND 1 V DC Output current to supply the actuators the output is switched on igh level nominal value 0 5 A igh level permissible range lt 06A Permissible total current over all outputs SIA Simultaneity factor 100 Yo Output delay for signal change and resistive load Rio lt 1 kQ From Low to High level lt 100 us From High to Low level lt 100 us Load resistance range gt 480 Connectable equipment Resistive load Rio gt 48 QO Inductive load Ry 3 1 2 nl Lamp load Rj lt 12W Switching frequency With resistive load Rig lt 1 KQ lt 100 Hz 114 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 2D0 24VDC 0 5A N Designation Value With inductive load lt 2 Hz With lamp load lt 10 Hz Output according to IEC EN 61131 2 Protected Page 229 Restart after removal of a short circuit Automatic 1 The supply terminal U provides the current for the module electronics and for the consumers on the outputs The overall current that is required for each module is the sum of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 M
119. ules XN 2DI 24VDC P XN 2DI 24VDC P Figure 38 Digitale input module 2 digital inputs 24 V DC positive switching E v 3 g Logic G I 8 gt wn pa Electrical isolation PA CES a 35 24VDC U GND U Filter Filter LU a gt Field Figure 39 Block diagram XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 59 3 Digital input modules XN 2DI 24VDC P Technical data Table 16 XN 2DI 24VDC P Designation Value Number of channels 2 Nominal supply from supply terminal U range 24 V DC 18 30 V DC Nominal current consumption from supply terminal 1 02 20 mA Nominal current consumption from module bus Img 28 mA Insulation voltage channels to module bus SOON ras Power loss 0 7 W Input voltage nput voltage rated value 24V DC Low level range 30 V 5 V High level range 11 V 30 V Input current Low level active level 0 mA 1 5 MA current range for detection of a low level High level active level 2 mA 10 mA current range for detection of a high level Input delay trising edge lt 200 us tfalling edge lt 200 Us 2 wire initiators Bero with a permissible quiescent current of 1 5 mA can be connected 1 The supply terminal U provides the current for the module electronics and for the sensors on the inputs The overall current that is required for each module is given by the s
120. um of all the individual currents 2 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U 60 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 2DI 24VDC P Diagnostic messages Table 17 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent electronics modules have been removed OFF No error message 11 Green Statusofchannel1 1 OFF Statusofchannel1 0 21 Green Statusofchannel2 1 OFF Statusofchannel2 0 10021 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 61 3 Digital input modules XN 2DI 24VDC P Base modules Figure 40 Base modules XN S3T SBB left and XN S4T SBBC right Base modules With tension clamp connection XN S3T SBB XN S4T SBBC With screw connection XN S3S SBB XN S4S SBBC 62 XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 3 Digital input modules XN 2DI 24VDC P Connection diagrams H pik Figure 41 Connection diagram XN S3x SBB Figure 42 Connection diagram XN S4x SBBC Technical data for the terminals page 24 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN www eaton eu 63 3 Digital input modules XN 2DI 24VDCN XN 2DI 24VDC
121. utput current to 2 A XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 133 4 Digital output modules XN 4D0 24VDC 0 5A P 134 Diagnostic messages Table 43 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Diagnostics available Remove the short flashing circuit on the 0 5 Hz corresponding channel Red Failure of module bus commu Check whether nication more than two adjacent elec tronics modules have been removed OFF No fault indication or diagnos tics 41 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 14 Green Statusofchannel3 1 OFF Status of channel 3 0 24 Green Status of channel 4 1 OFF Status of channel 4 0 The module features the following diagnostics e Overcurrent short circuit Attention If overcurrent occurs the overloaded channel must be switched off XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 4 Digital output modules XN 4D0 24VDC 0 5A P Base modules Figure 102 Base modules XN S4T SBCS left and XN S6T SBCSBC right Base modules With tension clamp connection XN S4T SBCS XN S6T SBCSBC With screw connection XN S4S SBCS XN S6S SBCSBC XI ON Digital 1 O Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 135 4 Digital output modules XN 4D0 24VDC 0 5A P Connection
122. y Modules 12 2013 MN05002010Z EN www eaton eu 5 Relay modules XN 2DO R NC Designation Value Output current for DC voltage purely resistive Load limit curve Figure 119 Nominal current DC13 24 V DC TA Switching frequency lt 0 1 Hz resistive load inductive load and lamp load Minimum load current Utilization factor Lifespan number of switching operations 100 mA at 2 12 V DC 100 At 230 VAC gt 0 1 x 108 at 5A gt 1x 108 at0 5A At AC15 250 V AC 1x 10 at2A 2x10 at1A 4 x 10 at 0 5 A At DC13 24 V DC 2x10 at1A gt 5x 10 at 0 5A 1 A part of the electronics of the XI ON module is supplied from the module bus voltage 5 V DC the rest from the supply terminal U XI ON Digital 1 0 Modules Supply Modules 12 2013 MN05002010Z EN www eaton eu 167 5 Relay modules XN 2DO R NC Diagnostic messages Table 53 Diagnostics through the LEDs LED Display Meaning Remedy DIA Red Failure of module bus Check whether more communication than two adjacent elec tronics modules have been removed OFF No fault indication or diag nostics 11 Green Status of channel 1 1 OFF Status of channel 1 0 21 Green Status of channel 2 1 OFF Status of channel 2 0 168 XI ON Digital 1 0 Modules Supply Modules 12 2013 MNO50020107 EN wwweaton eu 5 Relay modules XN 2DO R NC Base modules Figure 123 Base modules XN S4T SBBS left and XN S4T SBCS right Base mo

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