Device description
Contents
1. 0516 01 8 1 or and labeling field 4 sysmik de ILT 24 DO 16 ME Tecnical Data 3 Technical data General Data Housing dimensions width x height x depth Weight Operating mode Transmission speed Connection method for sensors Permissible temperature operation Permissible temperature storage transport Permissible humidity operation storage transport Permissible air pressure opera tion storage transport Degree of protection Protection class Interface Local bus Current consumption from the local bus Power Consumption Power consumption from the local bus Segment supply voltage Us Nominal current consumption at Us 48 8 mm x 120 mm x 71 5 mm 130 g without connectors Process data mode with 1 word 500 kBaud 2 and 3 wire technology 25 C to 55 C 25 C to 85 C 10 to 95 accordnig to DIN EN 61131 2 70 kPa to 106 kPa up to 3000 m above sea level IP20 according to IEC 60529 Class 3 according to VDE 0106 IEC 60536 Via data routing 90 mA maximum 0 675 W maximum 24 V DC nominal value 8 A 16 x 0 5 A maximum Supply of the Module Electronics and I O Through Bus Terminal Power Terminal Connection method Through potential routing ILT 24 DO 16 ME sysmik de 5 Technical Data Digital Outputs Number Nominal output voltage Uour Differential voltage for Inom Nominal current lhom per channel Tolerance of the nominal current Total current Sh2. E A Where Pror Total power dissipation in the terminal n Index of the number of set outputs n 1 to 16 lin Load current of output n Power dissipation of the housing Puou 2 7 W maximum within the permissible operating temperature 8 sysmik de ILT 24 DO 16 ME Tecnical Data Limitation of Simultaneity Derating Ambient Temperature Ta Maximum Load Current at Maximum Load Current at 100 Simultaneity 75 Simultaneity 25 C Ta lt 40 C 0 50 A 0 50 A 40 C lt Ta lt 45 C 0 45 A 0 50 A 45 C lt Ta lt 50 C 0 40 A 0 50 A 50 C lt Ta lt 55 C 0 35 A 0 50 A With 100 simultaneity a load current of 0 4 A for each channel is permissible up to 50 C ambi ent temperature range and a load current of 0 35A from 50 C and higher If a maximum of twelve channels are used simultaneously in the entire ambient temperature range 75 simultaneity maximum a load current of 0 5 A can be tapped Safety Equipment Overload short circuit in segment circuit Electronic with 4 channel driver Surge voltage Protective elements in the power terminal protec tion up to 33 V DC Polarity reversal of the supply voltage Protective elements in the power terminal The supply voltage must be protected The power supply unit should be able to supply 4 times 400 the nominal current of the fuse Reverse voltage Integrated reverse voltage protection ILT 24 DO 16 ME sysmik de 9 Technical Data Electr
3. Inline terminal 16 digital outputs ILT 24 DO 16 ME Device description SysMIK Preliminary GmbH Dresden Disclaimer Imprint This manual is intended to provide support for installation and usage of the device The information is believed to be accurate and reliable However SysMik GmbH Dresden assumes no responsibility for possible mistakes and deviations in the technical specifications SysMik GmbH Dresden reserves the right to make modifications in the interest of technical progress to improve our modules and software or to correct mistakes We are grateful to you for criticism and suggestions Further information device description available software can be found on our homepage www sysmik de Please ask for latest information SysMik disclaims all warranties in case of improper use or disassembly and software modifications not described in this document or when using improper or faulty tools Commissioning and operation of the device by qualified personnel only All applicable regulations have to be observed SysMik and the SysMik logo are registered trademarks of SysMik GmbH Dresden IPOCS is trademark of SysMik GmbH Dresden Networking Together is subject to copyright of SysMik GmbH Dresden All other trademarks mentioned in this document are registered properties of their owners These and further trademarks are used in this document but not marked for better readability No part of this document may be rep
4. cluding voltage conditioning LED IE Optocoupler A Digital output Electrically isolated area Note Other symbols are explained in the user manual IL SYS INST UM or in the manual of your used bus system 12 sysmik de ILT 24 DO 16 ME Connection nots and examples 6 Connection notes and examples EE AEE IB IL PD GND The actuators can also be connected via external busbars Ensure that the actuators and Us are sup l plied from the same voltage supply 1D 1 1 1 L L L es D s er 3 3 3 1 1 1 O O4 O4 O a AS 116 Ol Ol Ol leo eno Ou Og 94 o gg pg pg hyje 5 i A H H 1 311 311 2112 2 1 2 1 2 1 2 2 HEKSER 11 24 3 1 4 1 5 1 6 1 71 8 1 1 1 2 1 OUT 90 OG 90 OCT our ETA OUT14 G Du CUL 9010 010010 0100 eno O OO 070 OTO SH eno 1 2 22 3 2 42 5 2 62 7 2 8 2 1 2 22 GND 3 313 BLS BIB Bs A 0 00 00 06 00 den FATE 049 16 0 10 QIO O 2 23 3 3 43 5 3 63 7 3 MEE A aura 9 CVO OTO OO C 35738 EFO00100100 0 0100 GND GND 1 4 2 4 3 4 44 5 4 6 4 7 4 84 1 4 24 OUT16 AN OUT3 z hae a Sojoojoojod ol
5. e GND extem da L extem JL A 3 wire connection B 2 wire connection AN Note When connecting the sensors ob AN Note Ensure that the Inline system ground serve the assignment of the terminal points is reference for at least the ground when to the process data see Terminal Point using external busbars Assignment Fig 4 Typical actuator connection Fig 5 Typical connection of sensors when using external busbars ILT 24 DO 16 ME sysmik de 13
6. ical Isolation Isolation of the Voltage Areas To provide electrical isolation between the logic level and the l O area it is necessary to supply A the station bus terminal and the digital output terminal described here using the bus terminal or a power terminal from separate power supply units Interconnection of the power supply units in the 24 V area is not permitted See also user manual Common Potentials The 24 V main voltage 24 V segment voltage and GND have the same potential FE is a separate poten tial area Separate Potentials in the System Consisting of Bus Terminal Module Power Terminal and I O Terminal Test Distance Test Voltage 5 V supply outgoing remote bus 7 5 V supply bus logic 500 V AC 50 Hz 1 min 5 V supply outgoing remote bus 7 5 V supply bus logic 500 V AC 50 Hz 1 min 7 5 V supply bus logic 24 V supply I O 500 V AC 50 Hz 1 min 24 V supply I O functional earth ground 500 V AC 50 Hz 1 min Error Messages to the Higher Level Control or Computer System Short circuit overload of an output yes AN An error message is generated when an output is short circuited and switched on In addition the diagnostic LED D flashes on the terminal at 2 Hz medium under these conditions Falling below or exceeding the operating voltage no 10 sysmik de ILT 24 DO 16 ME Local diagnostic and status indicators and terminal point assignment 4 Local diagnostic and status indicators and te
7. ng frequency is limited by the selected data rate the number of devices the bus structure the software and the control or computer system used maximal 300 Hz Note This switching frequency is limited by the selected data rate the number of devices the bus structure the software and the control or computer system used 0 5 Hz 1 2 H 50 Q maximum Auto restart appr 3 s appr 400 Hz appr 400 Hz Output may be damaged appr 3 s Protected against reverse voltages Protected against reverse voltages permissible current 2 A maximum no 5 ms typical The output follows the supply voltage without delay 15 V lt Udemag S 46 V Udemag demagnetization voltage ILT 24 DO 16 ME sysmik de 7 Technical Data One time unsolicited energy 400 mJ maximum Protective circuit type integrated 45 V Zener diode in the output chip Overcurrent shutdown 0 7 A minimum Output current when switched off 300 pA maximum Output voltage when switched off 2 V maximum Output current with ground connection interrupt 25 mA maximum Switching power with ground connection interrupt 100 mW at 1 kO load resistance typical Inrush current with lamp load 1 5 A for 20 ms maximum Output Characteristic Curve When Switched On Typical Output Current A Differential Output Voltage V 0 0 0 1 0 04 0 2 0 08 0 3 0 12 0 4 0 16 0 5 0 20 Power Dissipation Formula to Calculate the Power Dissipation of 16 the Electronics pc V
8. ort circuit overload 16 24 V DC 0 5A 10 8A Short circuit overload AN Note All four channels are thermally coupled i e an error in one channel canaffect the other channels Nominal Load Ohmic Lamp Inductive Signal delay upon power up of Ohmic nominal load Lamp nominal load Inductive nominal load 480 12 W 12 W 12 VA 1 2 H 50 Q 500 us typical typisch 100 ms typical with switching frequencies up to 8 Hz above this frequency the lamp load responds like an ohmic load 100 ms 1 2 H 50 Q typical sysmik de ILT 24 DO 16 ME Tecnical Data Signal delay upon power down of Ohmic nominal load Lamp nominal load Inductive nominal load Switching frequency with Ohmic nominal load A Lamp nominal load A Induktive nominal load Overload response Response time with ohmic overload 12 W Restart frequency with ohmic overload Restart frequency with lamp overload Response with inductive overload Response time in the event of a short circuit Reverse voltage protection against short pulses Resistance to permanently applied reverse volta ges Resistance to permanently applied surge voltage Validity of output data after connecting the 24 V voltage supply power up Response upon power down Limitation of the voltage induced on circuit interrup tion 1 ms typical 1 ms typical 50 ms 1 2 H 50 Q typical maximal 300 Hz Note This switchi
9. rminal point assignment i g al o a BOs DE v ea iol QOP 2 oy Cd Qu amp m Ip O gt QH Ote Ohe OG eu QU Ou Qr Fig 2 local diagnostic and status indi cators Terminal point assignment Designation Color D green dE ep Yellow for each connector Funktion identification Housing connector color Meaning Diagnostics Status indicators of the outputs Red Green housing green connectors coded according to function Terminal assignment per connector Terminal point x 1 x 2 x 3 x 4 Assignment Signal output OUT Ground contact GND for 2 and 3 wire termination FE connection for 3 wire termination Signal output OUT ILT 24 DO 16 ME sysmik de Internal circuit 5 Local bus u 24V Us 24V Up d A Fig 3 Internal wiring of the terminal points v Internal circuit Protocol chip bus logic in
10. roduced or modified in any form without prior written agreement with SysMik GmbH Dresden Copyright O 2014 by SysMik GmbH Dresden SysMik GmbH Dresden Tel 49 0 351 43358 0 Bertolt Brecht Allee 24 Fax 49 0 351 4 33 58 29 01309 Dresden E Mail Sale sales sysmik de E Mail Support service sysmik de Germany Homepage www sysmik de 2 sysmik de ILT 24 DO 16 ME Contents Contents 1 Description 4 2 Order information 4 3 Technical data 5 4 Local diagnostic and status indicators and terminal point assignment 11 5 Internal circuit 12 6 Connection notes and examples 13 ILT 24 DO 16 ME sysmik de Description Order information 1 Description AN Note This device description is only valid in association with the IL SYS INST UM user manual Make sure you always use the latest documentation it can be downloaded at www sysmik de The terminal is designed for use within an Inline station It is used to acquire digital output signals Features Connections for 16 digital actuators Connection of actuators in 2 and 3 wire tech nology Nominal current per output 0 5 mA Total current of the terminal 8 0 A Short circuit and overload protected outputs Diagnostic and status indicators Bild 1 Inline Klemme ILT 24 DO 16 ME 2 Order information Description Type Part number Pcs Pkt Terminal with four digital outputs including connect ILT 24 DO 16 ME 1225 10
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