User Manual UM EN ILC 150 GSM/GPRS
Contents
1. Data card for incoming and outgoing data connections and SMS Most providers offer combined data and voice contracts whereby various phone numbers for data and voice are assigned to a SIM card Prepaid cards for incoming data connections are not usually available GPRS options are usually available for all cards 2 16 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 13 Antenna The antenna for this transmitter must be installed at least 20 cm away from people The antenna for this transmitter must not be installed or operated near in conjunction with other antennas or transmitters Connecting the GSM antenna e Connect the antenna cable with an SMA connector to the antenna connection of the Inline Controller Tighten the nut at the antenna connection by hand only 7735A014 Figure 2 13 Antenna connection with SMA connector Installing the GSM antenna e Select an antenna position with a good wireless network signal e When using the PSI GSM 900 1800 ANT antenna Order No 2708902 drill a hole measuring 16 5 mm in diameter in the top of the control cabinet Please observe the following during installation The antenna has a diameter of 76 mm and is 21 mm high The cable is 2 meters long e Secure the antenna using the washer and nut provided ae a 7735A015 Figure 2 14 Installing the PSI GSM 900 1800 ANT antenna 7735_en_00 PHOENIX CONTACT 2 17 UM EN ILC 150 GSM GPRS2. 4 7 Battery realtime ClOCK ci c 22tui tee wt tent sae anges tasted ated ekgeed ee a easels renee 4 5 4 8 FPOWGr SUDDIE Sirerssni ne aa a a 4 6 4 9 Mode selector switch lt lt sexbcsixisainitassoeaideintsaeaidasaiahoctislect hadteeebsbsawindebinegisddeacaimecctes 4 6 ATO SY SUS MATING rrea ern ea r e 4 6 5 Technical data and ordering data ccccccccceccceeceseeeeeeeeeeeeseeeseeeeseeeeseeesseeesseeeeeeeseeeeaeeesaeeesees 5 1 5 1 MOGCHINCAl Calas cicestediene take a E E tied Oeacntd stad cceeuees 5 1 5 2 co 21a glo Ke crs Genprmeeretererrcerreree errr et erence ert rrtr te Seer ferrcnn Merete eerie ests errre 5 8 5 2 1 FMOGUCUGS xigeugctuasstncs ice sune E A 5 8 5 2 2 PACCOSSONES srira a a aa temas 5 8 5 2 3 SONWAT Oeni a N 5 8 5 2 4 DOCUMENTATION 2 05 Acestneetirsicin a a 5 8 A Appendix Service And maintenance cccceeccceececceseeceueeceeeeecsueecsueecsueesseeeessueessueesseesesees A 1 A1 Error causes and TOMCGICS s tscusscsssndcctapnceasnetansanncoageaseaucecuuniecacnantaceanpccesmecosgiee A 1 A2 Updating the Inline Controller firrmware ccccceseeeeeeeeeeeeeeeeeeeaeaeeeeeeeeeeeaaees A 1 A3 Connecting unshielded Cables 2 00 0 ccccecceeeeeeeeeececeaneseeeeeeeaaaeeeeeseneaaeeeeeeeaaas A 2 Be NOOK ea veeatarad saree Rite heen e neaed eee E aca de anise van oe nanracacasec E NN B 1 li PHOENIX CONTACT 7735_en_00 1 Preface ILC 150 GSM GPRS 7735_en_00 l Preface 1 1 Purpose of
3. 7735_en_00 Table of Contents i PRCTAGS noraen a a aisavadmau stipe deceaiaetubeuaPeasaeeae nets 1 1 1 1 PUFDOSE OFTHIS Maal es ietoontist acheletcs anreds cuptecadtsartcncuatenee casedsalcadualdedeeectuneeenses 1 1 1 2 Hardware and Software requireMents cccccseeeececesseeeceeeeeeeeseeeeeeesaeeeeeenaess 1 1 2 Description of the Inline Controller ccc ccccccceccceeecceeeeaeeceeeeseeeseaeeseueeseeecseeesseeeeeeesueeseeesaass 2 1 2 1 General description of the Inline Controller ccccccccssseeeeeeseeeeeesaeeeeeesaaeeees 2 1 2 2 Possible fields of application of the ILC 150 GSM GPRS ceceeeeseseeeeeeee ees 2 2 2 3 Unpacking the Inline Controller cceccceccececeesseeeeeeceeeaeeeeeeeeeeaaaeeeeeseeaaaneeeeees 2 3 2 4 Connection and operating elements ccceceeeeeeeee eee eeeeeeeeeeaeeeeeeeeeeeaeneeeeeeeeneas 2 4 2 5 Diagnostic and status indicators ieee e cece cette ee eee e eee a eee ee sean eeeeaaeeeeeeaaees 2 5 2 6 Mode Selector SWO Diseina scasnessentcaueacesaceseuneebncnebeGesanentasncaaiuaanaeonean aii 2 7 2 7 Reset Dutton COMCS AIGA cu casa bas a a a a a a ceetacess 2 8 2 8 Parameterization MEMOLS cccccccccsscccsseceecseceesseeeeseuseenecseessaesensessesseeeesseneessens 2 8 2 9 INLET Hall DASIC circuit digra esson onpa 2 9 2 10 Mounting and removing the Inline Controller ssssesnsnnnnsenesnnnnnenssrnnnrsesnernneeee 2 10 211 GOMMUNICATION patisce s
4. e Disconnect the power to the station Unlike other Inline terminals the Inline Controller is removed by tilting it away from the DIN rail This requires the Inline terminal to the right to be removed prior to removing the Inline Controller The right connector of the Inline Controller must also be removed Remove the third and fourth connectors to access the right base latch It is therefore recommended that all connectors be removed prior to removing the Inline Controller 7735_en_00 PHOENIX CONTACT 2 11 UM EN ILC 150 GSM GPRS 2 12 e If you damage the connectors during removal Remove all the connectors of the Inline Controller e Lever up each connector by pressing on the back connector shaft latching Figure 2 9 detail A1 e Remove the connectors Figure 2 9 detail A2 e If Inline terminals are installed next to the Inline Controller see Figure 2 8 e Remove the following connectors All connectors of the terminal directly connected A1 to A4 The adjacent connector of the following terminal B1 e Remove the directly adjacent Inline terminal A a Observe the information provided in the above user manuals A1 A4 B1 ciao Se OO O meser RESET o Q me eens m re 2018565 Ha inc Ay ee PB aalocloolsalealaalalealzaisasaaialtc oj Ml P oclecloclaleaiaalaaisalaatsalgalsalaal o ors eta te lta tl teeta ctl ite etl ictel tal Q OO OOOO s
5. Configuration and diagnostic software for Ethernet networks in the automation environment Factory Manager Type ILC 150 GSM GPRS Type IL BKDIO PLSET PSI GSM 900 1800 ANT Order No 2916545 Order No 2878599 2708902 See latest Phoenix Contact INTERFACE catalog Type See latest Phoenix Contact AUTOMATIONWORX catalog FL SWT 5 2 4 Documentation Description Configuring and installing the INTERBUS Inline product range user manual Automation terminals of the Inline product range user manual PC WorX Quick Start Guide Data sheet for the PSI GSM 900 1800 ANT GSM dual band antenna 5 8 PHOENIX CONTACT Type IB IL SYS PRO UM E IL SYS INST UM E UM QS EN PC WORX DB EN PSI GSM 900 1800 ANT Order No 2831044 Order No 2743048 2698737 2699862 Pcs Pkt 1 Pcs Pkt Pcs Pkt Pcs Pkt 1 1 1 7735_en_00 Appendix Service and maintenance A Appendix Service and maintenance A 1 Error causes and remedies Table A 1 Installation error causes and remedies peror Cause Remedy No outputs can be set The voltage supply Us is not Connect the voltage supply present See diagnostic LED The devices connected to the Inline The voltage supply Us is not Connect the voltage supply Controller cannot be read present See diagnostic LED The IEC 61131 program is not Mode selector switch in STP Set mode selector switch to running position RUN PROG position The serial interface
6. Definition of switching thresholds Maximum low level voltage Minimum high level voltage Nominal input voltage Permissible range Nominal input current at 24 V Hardware filter times typical Inputs 11 to 116 Signal change 0 gt 1 Signal change 1 gt 0 Permissible cable length to the sensor Use of AC sensors Digital outputs Number Output design Nominal output voltage Nominal output current Diagnostic and status indicators IEC 61131 runtime system PLC Ethernet ETH INTERBUS diagnostics IL Digital inputs and outputs Supply voltages 5 4 PHOENIX CONTACT Cat 5 twisted pair cable RJ45 female connector Inline local bus No 128 maximum 16 According to EN 61131 2 Type 1 5VDC 15VDC 24 V DC 0 5 V lt Uy lt 30 V DC 7 MA typical 15 mA maximum 5 ms 5 ms 30 m to ensure conformance with EMC directive 89 336 EEC AC sensors in the voltage range lt Uj are limited in application according to the input design 4 Protected outputs according to EN 61131 2 24 V DC 500 mA FR FF LINK ACT RDY BSA FAIL PF l1 to 116 E O1 to O4 US UM UL 7735_en_00 Technical data and ordering data IEC 61131 runtime system Programming system PC Worx Speed 1 5 ms for 1 K instructions typical Shortest cycle time for cyclic task 1ms Program memory 512 KB 48 K instructions in IL typical Data memory 512 KB Memory for retentive data 48 KB NVRAM Number of control tasks 8 Paramet
7. Program example with data gaps 3 14 PHOENIX CONTACT 3 10 Alignment The alignment of the data elements in the Inline Controller memory can result in data gaps when storing data in the memory The compiler automatically fills these gaps with padding bytes during the compiler process in order to prevent incorrect processing The disadvantage of the automatic filling of data gaps becomes apparent when data is transmitted from the Inline Controller to another controller If this controller does not know the memory algorithm of the Inline Controller it will interpret the received data incorrectly It is therefore useful to program the filling of data gaps in your application program Data transmissions to other controllers can thus be taken into consideration For example use byte arrays with an even number of bytes and or word arrays in order to avoid data gaps in your application program The following should be taken into consideration when creating the program Create data types in flat structures i e do not nest user defined data types Insert padding bytes manually in order to ensure the uniform size and layout of the data types When inserting padding bytes please observe the memory alignment method of the controllers used in the application 1 byte 2 byte or 4 byte alignment The following program example shows how data gaps are filled 1 TYPE 2 Structi 3 STRUCT 4 ByteElement BYTE 5 WordElement
8. in the event of an error the high current through the diodes causes the preconnected fuse to blow Q NOTE Provide external fuses for the 24 V area The power supply unit must be able to supply 4 times 400 the nominal current of the external fuse to ensure that the fuse blows safely in the event of an error 24 V segment supply Us Connection method Nominal value Tolerance Ripple Current consumption at nominal voltage typical Current consumption at nominal voltage maximum Continuation 7735_en_00 Spring cage terminals 24V DC 20 20 5 10 mA 10 mA for each output set load 8A Via potential routing PHOENIX CONTACT 5 1 UM EN ILC 150 GSM GPRS 24 V segment supply Us continued Safety equipment Surge voltage Input protective diodes can be destroyed by permanent overload Pulse loads up to 1500 W are short circuited by the input protective diode Polarity reversal Parallel diodes for protection against polarity reversal in the event of an error the high current through the diodes causes the preconnected fuse to blow Q NOTE Provide external fuses for the 24 V area The power supply unit must be able to supply 4 times 400 the nominal current of the external fuse to ensure that the fuse blows safely in the event of an error 24 V supply Unc Connection method Spring cage terminals Nominal value 24 V DC Tolerance 15 20 according to EN 61131 2 Ripple 5 Permissible range 20 4 V DC
9. 2 14 INTERBUS Observe the information in the Configuring and installing the INTERBUS Inline product range user manual IB IL SYS PRO UM E when creating an Inline system local bus and or remote bus Please note that the Inline Controller does not support the following functions Switching of devices Single channel diagnostics Fiber optic diagnostics optical regulation Logical addressing Only INTERBUS devices with SUPI 3 and SUPI 3 OPC protocol chip can be used with INTERBUS as local bus remote bus devices 2 14 1 Local bus The local bus is automatically created by directly connecting I O modules to the Inline Controller 2 14 2 Remote bus Connect the remote bus to the Inline Controller using one of the following branch terminals They only differ in the scope of supply IBS IL 24 RB T Order No 2727941 IBS IL 24 RB T PAC Order No 2861441 including accessories The first branch terminal must be placed directly after the Inline Controller In terms of topology it opens a remote bus lf additional branch terminals are used after the first branch terminal they must be installed directly one after the other see also notes in the terminal specific data sheet In terms of topology the additional branches are remote bus branches with the branch terminal being the first device in the corresponding remote bus branch A maximum of 3 branch terminals can be connected to the Inline Controller each of whi
10. Yellow Device is dialed into the GSM network available TR Yellow GSM GPRS data transmission active traffic PWR Supply voltage see also Remote bus on page 2 18 L C Green 24 V supply Uic for generating the voltages U and Uana O Z Supply voltage present indication if 24 V supply voltage Uic present Green 24 V supply for segment circuit Supply voltage present Green 24 V supply for main circuit O zZ Supply voltage present IL Diagnostics for INTERBUS RDY Green INTERBUS master ready to operate data transmission active INTERBUS ready running INTERBUS master in READY or ACTIVE state INTERBUS master in RUN state Failure Flashing FAIL O lt One of the following errors occurred Bus error in the connected bus remote bus local bus Controller error Yellow Bus segment aborted One or more bus segments in the connected bus are switched off Yellow Peripheral fault O Z Z Peripheral fault of a device in the connected bus local bus or remote bus I O Digital inputs and outputs Yellow Inputs 1 to 16 O Z Corresponding input is set Yellow Error Short circuit overload at outputs 1 to 4 Outputs 1 to 4 Corresponding output is set O1 to 04 Yellow O Z N 6 PHOENIX CONTACT 7735_en_00 7735_en_00 Description of the Inline Controller 2 6 Mode selector switch The mode
11. alo olooloolooloolooloolooloo meno oolooJOO JOO OOC OO OO OOJOO OO OO OO OO 010 00 010 ILC 150 GSM GPRS A B 7735A008 Figure 2 8 Connectors to be removed if terminals are installed next to the Inline Controller e Insert a tool in the base latches of the Inline Controller and pull gently upwards Figure 2 9 detail B Pull out the Inline Controller from the DIN rail detail C1 C2 a C2 SS a VE C1 os O 7406B009 Figure 2 9 Removing the Inline Controller PHOENIX CONTACT 7735_en_00 Description of the Inline Controller Replacing the Inline If you want to replace an Inline Controller within an Inline station proceed as described Controller above removing and mounting Make sure that the terminal to the right is not installed when removing and mounting the Inline Controller Only reinstall this terminal once the Inline Controller is mounted In particular make sure that all featherkeys and keyways on adjacent terminals are securely interlocked Observe the following when replacing an Inline Controller Enter the new MAC address when using the BootP server 7735_en_00 PHOENIX CONTACT 2 13 UM EN ILC 150 GSM GPRS 2 11 Communication path For communication with the Inline Controller the following communication path is available A Ethernet 10 100Base T X A standardized Ethernet interface is available for connecting the Ethernet network The Ethernet netwo
12. of the Inline Controller is stored in the diagnostic status register Every bit in the diagnostic status register is assigned a certain Inline Controller state The following system variables can be used to read the diagnostic status register information Table 4 2 System variables of the diagnostic status register MASTER_DIAG_STATUS_REG_PF BOOL Peripheral fault MASTER_DIAG_STATUS_REG_CTRL BOOL Error on the Inline Controller hardware fault MASTER_DIAG_STATUS_REG_ACT BOOL Selected configuration ready to operate MASTER_DIAG_STATUS_REG_RDY BOOL Inline Controller ready to operate MASTER_DIAG_STATUS_REG_BSA BOOL Bus segment aborted MASTER_DIAG_STATUS_REG_SYSFAIL BOOL System failure MASTER_DIAG_STATUS_REG_RES BOOL Standard function processed negatively MASTER_DIAG_STATUS_REG_SYNCRES BOOL Synchronization error occurred MASTER_DIAG_STATUS_REG_DCR BOOL Faulty data cycles MASTER_DIAG_STATUS_REG_WARN BOOL Defined warning time exceeded MASTER_DIAG_STATUS_REG_QUAL BOOL Defined error density exceeded MASTER_DIAG_STATUS_REG_SSINFO BOOL Pending message MASTER_DIAG_STATUS_REG_HI BYTE Master diagnostic status register high byte MASTER_DIAG_STATUS_REG_LOW BYTE Master diagnostic status register low byte 4 2 PHOENIX CONTACT 7735_en_00 System variables and status information 4 4 Diagnostic parameter register The diagnostic parameter register provides additional information about the error indicated in the diagnostic status registe
13. registered design in as far as this concerns software of Phoenix Contact that meets the criteria of technicity or has technical relevance Third party products are always named without reference to patent rights The existence of such rights shall not be excluded Windows 3 x Windows 95 Windows 98 Windows NT Windows 2000 Windows XP and Windows Vista are trademarks of the Microsoft Corporation All other product names used are trademarks of the respective organizations How to contact us Up to date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at www phoenixcontact com Make sure you always use the latest documentation It can be downloaded at www download phoenixcontact com A conversion table is available on the Internet at www download phoenixcontact com general 7000_en_00 pdf If there are any problems that cannot be solved using the documentation please contact your Phoenix Contact subsidiary Subsidiary contact information is available at www phoenixcontact com PHOENIX CONTACT GmbH amp Co KG PHOENIX CONTACT FlachsmarktstraBe 8 P O Box 4100 32825 Blomberg Harrisburg PA 17111 0100 Germany USA Phone 49 0 52 35 3 00 Phone 1 717 944 1300 Fax 49 0 52 35 3 4 12 00 Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals please send your comments to tecdoc phoenixcontact com
14. selector switch is used to define the operating state of the application program The RUN PROG and STOP positions have a toggle button function and the MRESET position a pushbutton function After releasing the button in the MRESET position it returns to the STOP position Table 2 1 Inline Controller operating modes Operating Explanation mode RUN PROG The application program is in the RUN state The PC WorX software can be used for program and configuration modifications The monitoring and online functions can be used STOP The application program is in the STOP state MRESET Retain data and the application program are deleted For safety reasons set the mode selector switch in the following sequence to perform deletion e Set the switch to the MRESET position for three seconds Release the switch for three seconds e Set the switch to the MRESET position for three seconds MRESET om RUN PROG j 7735A005 Figure 2 5 Mode selector switch PHOENIX CONTACT 2 7 UM EN ILC 150 GSM GPRS 2 7 Reset button concealed The reset button see 3 in Figure 2 3 on page 2 4 on the Inline Controller can only be operated with a pin and is therefore protected against accidental activation Pressing the reset button causes a complete reset of the Inline Controller If you carry out a voltage reset at the same time as you press the reset button this resets the Inline Controller to its default settings 2 8 Para
15. this manual This manual helps you to start up and operate the ILC 150 GSM GPRS Inline Controller 1 2 Hardware and software requirements Inline Controller PC Worx automation software in the following versions PC WorX Version 5 20 or later part of the AUTOMATIONWORX Software Suite 2008 1 40 PC WorX Express Version 5 20 or later part of the AUTOMATIONWORX Software Suite 2008 1 40 For the ordering data for hardware software and additional documentation please refer to Technical data and ordering data on page 5 1 PHOENIX CONTACT 1 1 UM EN ILC 150 GSM GPRS 1 2 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 Description of the Inline Controller IEC 61131 control performance Integrated Ethernet connection Integrated INTERBUS connection 7735_en_00 2 1 General description of the Inline Controller The Inline Controller is a compact controller with integrated Ethernet and INTERBUS connections In addition the ILC 150 GSM GPRS has a GSM GPRS modem The Inline Controller is seamlessly configured and programmed according to IEC 61131 using the PC WorX automation software PC WorX can be operated via the network Ethernet The powerful processor can be programmed in all five IEC 61131 programming languages and ensures quick control task processing The integrated Ethernet connection using twisted pair cable provides for the Ethernet connectivity Throughout the Ethernet networ
16. AUTOMATION User Manual UM EN ILC 150 GSM GPRS Order No Installing and operating the Inline Controller ILC 150 GSM GPRS OGD OO GD GD OGD OO GD hotii GD INSPIRING INNOVATIONS AUTOMATION User Manual Installing and operating the Inline Controller ILC 150 GSM GPRS Designation UMENILC 150 GSM GPRS Revision 00 Order No This user manual is valid for Designation From Revision HW ILC 150 GSM GPRS 02 7735_en_00 05 2008 From Revision FW Order No 2 10 2916545 PHOENIX CONTACT UM EN ILC 150 GSM GPRS o BB D PHOENIX CONTACT Please observe the following notes In order to ensure the safe use of the product described you have to read and understand this manual The following notes provide information on how to use this manual User group of this manual The use of products described in this manual is oriented exclusively to qualified electricians or persons instructed by them who are familiar with applicable standards and other regulations regarding electrical engineering and in particular the relevant safety concepts qualified application programmers and software engineers who are familiar with the safety concepts of automation technology and applicable standards Phoenix Contact accepts no liability for erroneous handling or damage to products from Phoenix Contact or third party products resulting from disregard of information contained in this manual Explanatio
17. INTERBUS Inline local bus Th 1 ela i 2 INTERBUS Remote bus levels e a e 3 INTERBUS 4 INTERBUS PAIA Figure 2 2 Remote bus levels 2 2 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 3 Unpacking the Inline Controller The Inline Controller is supplied in an ESD bag together with a package slip with installation instructions Please read the complete package slip carefully before unpacking the Inline Controller y NOTE Electrostatic discharge Ate The Inline Controller contains components that can be damaged or destroyed by electrostatic discharge When handling the Inline Controller observe the necessary safety precautions against electrostatic discharge ESD according to EN 61340 5 1 and EN 61340 5 2 NOTE Q To avoid possible damage to the Inline Controller unpack and pack the controller in accordance with the ESD regulations 7735_en_00 PHOENIX CONTACT 2 3 UM EN ILC 150 GSM GPRS 2 4 Connection and operating elements 7735A003 Figure 2 3 Structure of the Inline Controller The Inline Controller consists of the following components 0O N OOF BR ND 9 Electronics base Mode selector switch Reset button Ethernet connection Slot for SIM card the card is not supplied as standard SMA antenna connection the antenna is not supplied as standard Connector 1 Terminal points for voltage supply Connector 2 Output terminal points Connectors 3 and 4 Input te
18. N 2 10 2 11 Replacementesntere ei 2 13 Reset DUON sccaceccossccasecsoneceastiwonosesinseemcaene aceovsaces 2 4 2 8 S SIM CIAA aee e a a A 2 15 Sizing of the power supply sseeeeceeseeeeeeeeeeeeeeens 2 19 Sizing the power supply cccccsseseeeeceeeeeeeeeeeeeeees 2 19 Slot f r SIM card ierni Daten 2 4 Software requirements ccccccssseeeeeceeseeeeeseeeeeeeseees 1 1 Status INGIGALORS anii niena oa i 2 5 Status register Local digital inputs and outputs ccceeeeeee ees 4 1 SVSIOM Vella DIOS wuss tena dace etl tu cee laude ues elu 4 1 Battery realtime clock cccccsesecesseeeneseeenseeees 4 5 CONMOMDFOCESS OR 36 sirshan eliyalead ecm bad 4 5 IEC 61131 runtime system ccceeeeeeeeseeeeeeeeeees 4 4 Mode Selector SWItCN cccseceeeseeeeeeeeeeeneeeeesneees 4 6 Power supplies cccccecesscecesseeseeeeeseeneeesesseeseaes 4 6 System CMC iine aa a Anas A ia i 4 6 T Terminal DOX sagena a 2 10 U Updating the firmware cccccceeeeeeeeseeeeeeeeeeeeeeeeeees A 1 B 2 PHOENIX CONTACT 7735_en_00
19. U_Set_Value_Request service with Var ID 0173hex is used for this This service activates or deactivates the HTTP server for the runtime of the firmware The set HTTP server state is stored retentively and mapped to the ETH_SRV_HTTP_ACTIVE system variables This setting is restored the next time the Inline Controller is rebooted Value range for the CPU_Set_Value_Request service Var ID 0173hex Value O000hex Deactivate HTTP server 0001 hex Activate HTTP server 7735_en_00 PHOENIX CONTACT 3 9 UM EN ILC 150 GSM GPRS 3 6 Function blocks for handling files in the parameterization memory The function blocks are used to access files from within the application program Some of the blocks support multiple instantiation This means that it is possible to work with a number of different files within the same project The blocks perform the standard functions that are required for typical file access operations The FILE_NOTIFY block is available in addition to the blocks for typical file access operations This block can be used to detect files that have been modified in a directory containing user files These modifications may include Deletion of one or more files Writing of one or more new files Modification of one or more existing files Both modifications made to this directory via FTP remote and modifications made locally via function blocks or firmware services can be detected All file operations are subject to the follo
20. WORD 6 END STRUCT 5 a Structe STRUCT 10 WordElement WORD 11 ByteElement BYTE 12 END STRUCT 13 14 Struct3 is STRUCT 16 ByteElementi BYTE 17 ByteE lemente BYTE is END STRUCT ig 20 Struct4 al STRUCT 2a StructzElement SCructe 23 StructsElement SCruct3 24 END STRUCT 25 26 Arrayl ARRAY 0 1 OF Structe ar END TYPE Figure 3 8 Example programming 7735_en_00 7735_en_00 Struct ByteElement Padding Byte WordElement Struct2 WordElement ByteElement Padding Byte Struct3 ByteElement1 ByteElement2 Struct4 WordElement ByteElement Padding Byte The Inline Controller under PC WorX Array WordElement ByteElement Padding Byte ByteElement1 WordElement ByteElement2 ByteElement Padding Byte Size 4 bytes Size 4 bytes Size 2 bytes Size 6 bytes Size 8 bytes Align 2 bytes Align 2 bytes Align 1 byte Align 2 bytes Align 2 bytes Figure 3 9 Alignment padding bytes in data gaps Struct1 receives a padding byte after the ByteElement so that the WordElement is at a WORD address address that can be divided by 2 leaving no remainder The alignment of the overall structure is based on the data type used with maximum alignment In this case the WordElement specifies the alignment The size of Struct2 is calculated based on the elements used and the resulting alignment The corresponding number of padding bytes is inserted so that t
21. _en_00 The Inline Controller under PC WorX 3 5 Parameterization memory and Internet Explorer To delete files or store user specific files on the internal parameterization memory proceed as follows The FTP function must be activated in Internet Explorer See Internet Explorer FTP function on page 3 8 e Switch to the bus configuration workspace in PC Worx e Select the control system e g ILC 150 GSM GPRS in the Bus Structure window e Select the Extended Settings tab in the Device Details window e Open Internet Explorer from this window by clicking on the Open FTP Folder on Device button Bus Structure UM_ILC_150_65M HBB ILC 150 GSM GPRS 192 168 0 2 Resource Network Settings R STD_RES ILC15065M_2 gfe INTERBUS O 0 ERI Unconnected Manual definition of the TCP IP settings IP Address Subnet Mask 255 255 Gateway Address f Usage of a BootP Server DNS PROFINET Device Name IL 150G5M1 Real time Clock Settings Device Catalog Phoenix Contact Universal Time 11 12 56 System Time Dake Donnerstag 21 Februar 2008 gt Send Activate Webwork Settings Reset Control System FTE Open FTP Folder on Device D Die o a All EQUIP Settings E Extended Settings 5 CP 4 Figure 3 5 Extended Settings Open FTP Folder on Device The file structure which is stored in the parameterization memory is displayed in the Internet Explorer window D
22. ard holder Inserting the SIM card e Place a SIM card in the card holder as shown in Figure 2 12 The SIM card must be positioned with the diagonal edge at the top towards the controller e Applying light pressure use a screwdriver to push the SIM card into the card holder as far as possible A push push technology Removing the SIM card e Using a screwdriver push the SIM card into the card holder as far as possible When you remove the screwdriver the SIM card will protrude slightly from the card holder A push push technology e Remove the SIM card 7735_en_00 PHOENIX CONTACT 2 15 UM EN ILC 150 GSM GPRS PIN code e The SIM card can be protected by a 4 digit PIN code The PIN code is specified using a parameter of the MOBILE_CONNECT function block see Section 3 8 Function blocks for GSM GPRS mobile phone functions For additional information about the function blocks please refer to the online help for PC Worx PIN code error If the PIN code has been entered incorrectly three times the PUK code must be entered To enter the PUK code proceed as follows e Remove the SIM card from the ILC 150 GSM GPRS see SIM card on page 2 15 e Place the SIM card in a mobile phone e Enter the PUK code using the mobile phone Card contracts The following card contracts are usually available Prepaid card for outgoing data connections SMS and voice Voice card for outgoing data connections SMS and voice
23. are used to connect the I O devices and the supply voltage to the Inline Controller Connect these cables to the relevant Inline connectors using the spring cage connection method You may connect cables with a connection cross section of 0 2 mm to 1 5 mm 24 16 AWG 6452B032 Figure A 1 Connecting unshielded cables Wire the connectors according to your application When wiring proceed as follows e Strip 8 mm off the cable Inline wiring is normally done without ferrules However it is possible to use ferrules If using ferrules make sure they are properly crimped e Push a screwdriver into the slot of the appropriate terminal point Figure A 1 detail 1 so that you can insert the wire into the spring opening Phoenix Contact recommends using an SFZ 1 0 6x3 5 screwdriver Order No 1204517 e Insert the wire Figure A 1 detail 2 Remove the screwdriver from the opening This clamps the wire After installation the wires and the terminal points should be labeled A 2 PHOENIX CONTACT 7735_en_00 B Index A Alignment Memory aligQgnment cccceceeeeeeeeeeeeeeeeeeeeeeees 3 14 AMENNA aoaie a A E ARE 2 17 B Basic wiring Of an output ssessssseseerrrrreersrrrrrrereenn 2 24 BOOP ren n exten clap teeeioneeniinws aceuertens 3 1 BOOP SCIVO aa e E 2 13 C Communication path ccceeeeeecseeseeeeeeeeeeeeeeeeeeeens 2 14 COMMCCUNG CADIOS siioni ceed tose nc A 2 Connecting the Supp
24. at the default settings are restored in the following step i e all data previously saved on the Inline Controller will be lost e Reset the Inline Controller To do this hold down the reset button and switch the supply voltage off and on again The Inline Controller is temporarily assigned the IP address which is specified in the project for the Inline Controller The following message appears in the message window in the Bus Configurator tab Configured device ILC 150 GSM GPRS queries for its IP parameters via BootP The device ILC 150 GSM GPRS received its IP parameters IP Address 192 168 0 2 5ubnet Mask 255 255 255 0 Default Gateway via BootP Build A Errors A Warnings A Infos A PLO Errors A Print A Multi User 4 Bus Configurator Figure 3 3 Message window following BootP e Select the Extended Settings tab in the Device Details window The specified IP parameters are displayed under Manual definition of the TCP IP settings 3 2 PHOENIX CONTACT 7735_en_00 7735_en_00 The Inline Controller under PC WorX Bus Structure Device Details UM ILC 150 65M ILC 150 GSM GPRS 192 168 0 2 Extended Settings e OBILC 150 GSM GPRS 192 168 0 2 Fe Resource Network Settings R STD_RES ILC15065M_2 gfe INTERBUS O 0 ERI Unconnected Manual definition of the TCP IP settings IP Address 192 168 0 2 l Subnet Mask 255 255 255 Gateway Address ee ee Read f Usage of a BootP Serv
25. ata may only be copied or deleted in the parameterization memory Do not edit any files as Internet Explorer does not store modified data To view the current state update the display after every action using View Refresh 7735_en_00 PHOENIX CONTACT 3 7 UM EN ILC 150 GSM GPRS 3 8 PHOENIX CONTACT 3 5 1 Internet Explorer FTP function e Enable this setting in Internet Explorer under Options Advanced Internet Properties General Security Privacy Content Connections Programs Advanced Settings amp Accessibility C Always expand ALT text for images C Move system caret with focus selection changes E Browsing V Always send URLs as UTF 8 requires restart C Automatically check for Internet Explorer updates V Close unused folders in History and Favorites requires restart V Disable script debugging O Display a notification about every script error Tl Ensble folder view for PTP sites C Enable Install On Demand Internet Explorer V Enable Install On Demand Other V Enable offline items to be synchronized on a schedule V Enable page transitions _ Enable Personalized Favorites Menu V Enable third party browser extensions requires restart V Enable visual styles on buttons and controls in web pages Al Caran niamvamn mammam mihn arise alme Taesinal Caw ise fumma wm lt J Restore Defaults Apply Figure 3 6 Internet Properties I
26. ch 2 18 PHOENIX CONTACT opens a remote bus see Figure 2 2 on page 2 2 7735_en_00 Description of the Inline Controller 2 15 Power supply 2 15 1 Sizing of the power supply Use a power supply unit suitable for the currents in your application The selection depends on the bus configuration the resulting maximum currents and the type of supply Separate supply of UiLc Uy and Us or supply from a power supply unit A power supply without a fall back characteristic curve must be used for correct operation of the Inline Controller see Figure 2 16 When the Inline Controller is switched on an increased inrush current is temporarily triggered The Inline Controller behaves like a capacitive load when it is switched on Some electronically controlled power supplies have a fall back characteristic Curve see Figure 2 15 They are not suitable for operation with capacitive loads A primary switched power supply unit without fall back characteristic curve from the QUINT POWER range see Phoenix Contact INTERFACE catalog is recommended for Inline Controller operation Overload range Overload range g Ui with fall back Uat without fall back 7 V characteristic curve E V characteristic curve l out In i i i out In vy oA ae 1 1 x y 2 4 x In 1 5 x N 6219A070 6219A071 Figure 2 15 Overload range with fall back characteristic Figure 2 16 Overload range without fall back curve characte
27. ction is interrupted and must be wired accordingly pA m s E wE F 7735A012 Figure 2 19 Basic wiring of an output with a load L For the connection of actuators with 3 wire technology Phoenix Contact recommends using connectors for digital 4 channel or 16 channel Inline terminals not supplied as standard see Accessories on page 5 8 2 24 PHOENIX CONTACT 7735_en_00 The Inline Controller under PC WorX 3 The Inline Controller under PC WorX 3 1 Software version Using the Inline Controller requires the following PC WorX version ILC 150 GSM GPRS PC WorX Version 5 20 or later part of the AUTOMATIONWORX Software Suite 2008 1 40 PC WorX Express Version 5 20 or later part of the AUTOMATIONWORxX Software Suite 2008 1 40 a For information about installing and using PC Worx please refer to the corresponding Quick Start Guide This can be downloaded at www download phoenixcontact com and is supplied with the software 3 2 IP address Ethernet Initial setting of the IP address can be carried out with the PC WorX software manually by means of a BootP server a BootP is activated by default upon delivery for communication with the Inline Controller via The IP address can be changed later via Ethernet using the PC WorX software To set the IP address in PC Worx proceed as described below After assigning the IP address PC WorX automatically creates a link via TCP IP as a communication pat
28. d status information 4 1 General information This section describes the special program functions of the PC WorX software that are available for the Inline Controller The Inline Controller has a register set which is used for diagnostics and easy control of the bus system The diagnostic data is stored in the diagnostic status register and the diagnostic parameter register These registers are available to the application program as system variables system flags global variables Operating states error states and additional information about the INTERBUS system can be evaluated in the application program For additional information about diagnostics please refer to the following user manual INTERBUS Diagnostics Guide IBS SYS DIAG DSC UME Order No 2747293 4 2 Status register for local digital inputs and outputs The following system variables can be used to read the local digital input and output states and to write the local digital output states Table 4 1 System variables of the status register for local digital inputs and outputs Systemvariable SSSS dTpe Meaning OOOO 7735_en_00 PHOENIX CONTACT 4 1 UM EN ILC 150 GSM GPRS Table 4 1 System variables of the status register for local digital inputs and outputs continued ONBOARD_INPUT_BIT15 BOOL State of local input IN16 ONBOARD_OUTPUT_BITO BOOL State of local output OUT 1 4 3 Diagnostic status register Information about the operating state
29. eeeeeeceeeeeceeseeeeeeaeeees 2 2 PUP TUR CUO Misescers taeceutien dt enalaieex ee einen as 3 7 Function blocks GSM GPRS mobile phone functions 3 12 Handling files in the parameterization memory 3 10 PCP communication siecle eo eeene eek 3 13 TCP IP and UDP IP communication 6 3 11 H Hardware requirements cccceccccseeeeeeeeeeeeeeeeeeeeeeees 1 1 INNING local DUS sirenos iia a 2 2 INTERBU Sraa a eta 2 18 IP address SENO sexirnccknnduawse adaware ierdtecec est tonvevenwoesieeds 3 1 3 3 L EOC All DUS eipig 2 18 M MAG Address 5 acitec 22s coianctcaeansctccoastaapiavacecsactivareouaeeas 2 13 Memory alignment PAUIGIONGTAL a2 seo atsepia nabaatdees a 3 14 Mode selector SWItCH cccccccceeceseeseeeeeeeseeeeeeess 2 4 2 7 MOUNINO eea 2 10 2 11 MOLI G localo sereia e 2 10 Mounting DOSIUOMznr asire heliniorbiisceisindediics 2 10 O Operating CleMent cceeeeeeeeeceeeeeeeeeeeeeeeeeeeeeeenees 2 4 P Parameterization Memory cccecseeeeeseeeeeeeeeeeseeeeens 2 8 S E A A T 2 16 POWGE SUDDIV weg sidl cc aete ences cave heenate as eeheeaels 2 19 COMME CHON ersi senate ee 2 20 PHOENIX CONTACT B 1 UM EN ILC 150 GSM GPRS Power supply without fall back characteristic CUIVE uu cccccceseesecceceeseeceeeuseeeeeeeees 2 19 5 1 R Realtime ClOCK cicsccsscdacceaiantatiachveunetadnixncertenoestarentanaceess 3 4 Remote OU Soe einssguace i seueoseuanctauned 2 18 Removal anena
30. er Send DNS PROFINET Device Name ILC 150 asm Figure 3 4 IP address of the Inline Controller e Confirm the displayed IP parameters or your modifications via Send The IP address is now permanently stored on the Inline Controller flash memory For additional information about setting the IP address with PC Worx please refer to the Quick Start Guide for the version of PC WorX used and the ILC 150 starter kit PHOENIX CONTACT 3 3 UM EN ILC 150 GSM GPRS 3 3 Setting the realtime clock 3 3 1 Setting the realtime clock under PC WorX The time and date for the internal system clock of the Inline Controller can be set under Extended Settings in the Device Details window of PC Worx To set the realtime clock proceed as described in the Quick Start Guide for the PC WorxX version used 3 3 2 Setting the realtime clock via SNTP The Simple Network Time Protocol SNTP can be used to synchronize the internal system clock of the Inline Controller with a higher level control system e g an SNTP server via an Ethernet connection Use the following CPU_Set_Value firmware service 02CBhex to synchronize the system clock The service activates or deactivates an SNTP client and transfers the required IP address of the SNTP server and Cycle time of the synchronization parameters For test purposes this service can be executed in the CPU service editor in PC Worx For your application program the service accordingly
31. erization memory 4 MB Flash memory 100 000 write access operations per sector typical Please note that the number of write access operations to the parameterization memory is limited a We recommend that you limit the number of write access operations on the parameterization memory in your application program by first storing data on the data memory and or the memory for retentive data NVRAM Write access operations on the parameterization memory for small volumes of data bit byte should not be possible in your application program Data should only be transferred from the data memory memory for retentive data to the parameterization memory if the data memory memory for retentive data is full i e data must be deleted first to enable further write access operations Realtime clock Accuracy 1 minute week maximum Power reserve 3 days Ambient conditions Degree of protection IP20 EN 60529 1991 Permissible temperature operation 25 C to 55 C Permissible temperature storage transport 25 C to 85 C a This temperature range is only guaranteed if the Inline Controller is mounted horizontally Permissible humidity operation storage transport 10 to 95 according to DIN EN 61131 2 Permissible air pressure operation storage transport 70 kPa to 106 kPa up to 3000 m above sea level Vibration 5g 7735_en_00 PHOENIX CONTACT 5 5 UM EN ILC 150 GSM GPRS GSM a This device meets the requirements of Part 15 of the
32. following FCC standard FCC ID RI7GE864 Maximum antenna gain lt 3 dBi The antenna for this transmitter must be installed at least 20 cm away from people The antenna for this transmitter must not be installed or operated near in conjunction with other antennas or transmitters Frequencies Transmission power SIM interface Transmission speed DCE DCE Fax GPRS Compatibility GPRS compatibility Command set compatibility Antenna connection Bandwidth VSWR values 5 6 PHOENIX CONTACT 850 MHz 900 MHz 1800 MHz 1900 MHz EGSM 2 W at 850 MHz and 900 MHz 1 W at 1800 MHz and 1900 MHz 3 V SIM card Automatic adjustment 300 baud 14 4 kbaud 2400 baud 14 4 kbaud 300 bps 85 6 kbps V 34 V 32 V 22bis V 110 GPRS Class 10 Class B Encoding scheme CS1 CS4 4 time slots for receiving data 2 time slots for transmitting data AT standard command set and extended V 250 basic command set 50 Q impedance SMA female antenna connector 70 MHz 850 MHz 80 MHz 900 MHz 170 MHz in DCS and 140 MHz PCS band lt 2 1 7735_en_00 Conformance with EMC directive 89 336 EEC Noise immunity test according to EN 61000 6 2 Electrostatic discharge ESD EN 61000 4 2 IEC 61000 4 2 Electromagnetic fields EN 61000 4 3 IEC 61000 4 3 Fast transients burst EN 61000 4 4 IEC 61000 4 4 Surge test EN 61000 4 5 IEC 61000 4 5 Conducted interference EN 61000 4 6 IEC 61000 4 6 Noise emission test acco
33. g the individual components side by side No tools are required Mounting the components side by side automatically creates potential and bus signal connections between the individual station components The modules are mounted perpendicular to the DIN rail Mounting location As all other terminals of the Inline product range the Inline Controller has IP20 protection and is designed for use in a closed control cabinet or control box terminal box with IP54 protection or higher DIN rail The Inline Controller is mounted on a 35 mm standard DIN rail i Fix the DIN rail on which the Inline Controller is mounted several times especially in the area around the Inline Controller This makes it easier to remove the Inline Controller End clamps Mount end clamps on both sides of the Inline station The end clamps ensure that the Inline station is correctly mounted End clamps secure the Inline station on both sides and keep it from moving from side to side on the DIN rail Phoenix Contact recommends using CLIPFIX 35 5 end clamps Order No 3022276 End plate The mechanical end of an Inline station is the end plate It has no electrical function It protects the station from ESD pulses and the user from dangerous contact voltages The end plate is supplied together with the Inline Controller and does not need to be ordered separately NOTE Q When mounting or removing the Inline Controller it must be tilted This means that no Inline termi
34. h ground contacts are directly connected to the potential jumper and FE springs on the FE bottom of the housing The Inline Controller is grounded when it is snapped 7735_en_00 PHOENIX CONTACT 2 21 UM EN ILC 150 GSM GPRS 2 15 3 24 V segment supply 24 V main supply The segment supply and main supply must have the same reference potential An electrically isolated voltage area is not possible 2 15 4 24 V segment supply There are several ways of providing the segment voltage at connector 1 1 The segment voltage can be supplied separately at terminal points 1 1 and 2 3 GND see Figure 2 17 on page 2 20 2 You can jumper connections 1 1 and 2 1 or 2 2 to ensure that the segment circuit is supplied from the main circuit 3 You can create a switched segment circuit with a switch between terminal points 1 1 and 2 1 or 2 2 NOTE The 24 V segment supply has protection against polarity reversal and surge voltage It does not have short circuit protection The user must provide short circuit protection The rating of the preconnected fuse must be such that the maximum permissible load current of 8 A is not exceeded total current at Um and Us 2 15 5 24V main voltage NOTE The 24 V main supply has protection against polarity reversal and surge voltage It does not have short circuit protection The user must provide short circuit protection The rating of the preconnected fuse must be such that the maximum permissib
35. h to the ILC 150 GSM GPRS e Establish an Ethernet connection between your PC and the controller e Inthe menu bar select the Extras BootP SNMP TFTP Configuration menu e Activate the BootP Server active checkbox BootP Settings x BootP re oe Figure 3 1 BootP Server active checkbox e Switch to the bus configuration workspace 7735_en_00 PHOENIX CONTACT 3 1 UM EN ILC 150 GSM GPRS e Select the Inline Controller node here ILC 150 GSM GPRS e Select the IP Settings tab in the Device Details window e Enter the MAC address of the Inline Controller This is printed on the device and starts with 00 A0 45 Device Details UM ILC 150 G5M ILC 150 GSM GPRS 192 168 0 2 YIP Settings Bus Structure Se ILC 150 GoM GPRS 192 168 0 2 Resource nme te _ _ Rosto_reswcisogsm2 j vendor Phoenix Contact Z INTERBUS O 0 D Designation 1C i50GSM GPRS_ E Unconnected Functional description Inline Controller For Etherne _ ss D Device famiy mcx Order number 2916545 _ D Revision fz S D Station Mame D devicemame o Module Equipment ooo DNS PROFINET Device Name JLersogsimm nn OO DB mac Address 00 ao 5a A Th IP address oreo Subnetmask 255 255 255 0 D Default gateway o All E IP Settings A Communication Figure 3 2 Specifying the MAC address hoenis Contact niversal 7735A020 Please note th
36. he size of the data type with the value of the alignment can be divided by 2 leaving no remainder data type size modulo alignment 0 Struct3 does not receive any padding bytes as the maximum alignment corresponds to one byte Due to the padding bytes that belong to the Struct2 structure the Struct3 structure starts at an even address in Struct4 Array1 receives 2 padding bytes which corresponds to two consecutive Struct2 structures PHOENIX CONTACT 3 15 UM EN ILC 150 GSM GPRS Program example without data gaps 3 16 PHOENIX CONTACT The following program shows an example of how the filling of data gaps may appear in your application program Fill data gaps which are to be expected due to the memory alignment with application data padding bytes in Figure 3 10 1 TYPE z Structil 3 STRUCT 4 ByteElement 5 ByteElement 6 WordElement 7 END STRUCT a oq Structe 10 STRUCT 11 WordElement 12 ByteElement 13 ByteElement 14 END STRUCT is 16 SLruct3 i STRUCT 16 ByteElementi 19 ByteE lemente 20 END STRUCT al 22 STRUCT4 23 STRUCT 24 StructzkE lement 25 SCrUctsaE lement 26 END STRUCT aT 26 Arrayl ARRAY 29 END TYPE Figure 3 10 BYTE BYTE Padding Byte WORD WORD BYTE BYTE Padding Byte BYTE BYTE SLructe SLruct3 O 1 OF Struct Example programming with padding bytes 7735_en_00 System variables and status information 4 System variables an
37. hoenix Contact accepts no liability or responsibility for errors or omissions in the content of the technical documentation in particular data sheets installation instructions manuals etc The aforementioned limitations of liability and exemptions from liability do not apply in so far as liability must be assumed e g according to product liability law in cases of premeditation gross negligence on account of loss of life physical injury or damage to health or on account of the violation of important contractual obligations Claims for damages for the violation of important contractual obligations are however limited to contract typical predictable damages provided there is no premeditation or gross negligence or that liability is assumed on account of loss of life physical injury or damage to health This ruling does not imply a change in the burden of proof to the detriment of the user PHOENIX CONTACT UM EN ILC 150 GSM GPRS Internet Subsidiaries Published by PHOENIX CONTACT Statement of legal authority This manual including all illustrations contained herein is copyright protected Use of this manual by any third party is forbidden Reproduction translation and public disclosure as well as electronic and photographic archiving or alteration requires the express written consent of Phoenix Contact Violators are liable for damages Phoenix Contact reserves all rights in the case of patent award or listing of a
38. ien teenie eee a 3 6 7735_en_00 PHOENIX CONTACT i UM EN ILC 150 GSM GPRS 3 5 Parameterization memory and Internet ExplOrer ccccccsseeeeeseeeeeeeeeesneeeeeeees 3 7 3 5 1 Interne Explorer FTP TUN CUO rsimion a a 3 8 3 5 2 Activating deactivating the FTP server oo ceceeeeeseeeeeeeeeseeeeeeeaes 3 9 3 5 3 Activating deactivating the HTTP Server ccccsseeeeeeeeeeeeeeeeeeeeeenaes 3 9 3 6 Function blocks for handling files in the parameterization memory 0065 3 10 3 7 Function blocks for TCP IP and UDP IP Communication cccesseeeeeeees 3 11 3 8 Function blocks for GSM GPRS mobile phone functions ccceseeeeeeeeees 3 12 3 9 Function blocks for PCP COMMUNICATION 0ccececeseeeeeeeeeeeeeeaeeeeeesaaeeeeeeas 3 13 OVO Algam Misan ates 3 14 4 System variables and status infOrmation ccccccsecccseecceeeceeeeceseeseeceueeseeeeseeessueesseesseeesaeeeses 4 1 4 1 CON Fal IMPOR MANION ce ssctah scene ico cee a ene ede seared ee hs 4 1 4 2 Status register for local digital inputs ANd OUTPUTS cccccecsseeeeeeeeeeeeeeseaeeees 4 1 4 3 Diagnostic status register ssis iniisa aA i 4 2 4 4 Diagnostic parameter reQistelr cccccecesseeeeceeneeeeeeaesereeeeaneeseneaeeeeesaaereeseanes 4 3 4 5 EGO 11 31 TUTE SY SIC ccs an Sadshacstsisete tab lencbuecasiecavadecadaciawanses 4 4 4 6 COMmUOl DIOCCSS Ol a 5 2222 set a A a a eeudbacssates 4 5
39. in PC WorX in your application program For information about the PC WorX CPU service editor and about programming in PC Worx please refer to the Quick Start Guide and the online help for the version of PC WorX used Program the service in your application program so that it is executed once when the PLC is started The Inline Controller system clock is synchronized cyclically according to the set cycle time Cycle parameter In order to execute the service once when the PLC is started insert a system task in PC Worx for example which calls the service for the Cold restart Warm start and Hot restart system events For information about inserting tasks in PC Worx please refer to the Quick Start Guide and the online help for the version of PC WorX used 3 4 PHOENIX CONTACT 7735_en_00 CPU_Set_Value_Request Syntax Word 1 Word 2 Word 3 Word 4 Word 5 Word 6 7 Word 8 Key Code Parameter_Count Variable Count Variable_ D Flags IP MSB LSB Cycle 7735_en_00 The Inline Controller under PC WorX CPU_Set_Value_Request 02CBhex st system parameter 02CBhex Command code of the request Number of subsequent words XXXXhex The value depends on the length of the system parameter Number of system parameters to which new values are assigned O0O0Olhex Call SNTP service 0481hex ID of the system parameter to which new values are assigned call SNTP service New value of the
40. ion the block provides information about the current mobile phone provider and the receive field strength of the GSM modem SMS_SEND This block can be used to send an SMS using the GSM modem of the controller SMS_RECEIVE This block can be used to receive an SMS using the GSM modem of the controller The SMS_SEND and SMS_RECEIVE function blocks can be instantiated multiple times for example to exchange specific SMS with multiple devices of an application The function blocks for GSM GPRS mobile phone functions are described in the PC WorX online help 3 12 PHOENIX CONTACT 7735_en_00 The Inline Controller under PC WorX 3 9 Function blocks for PCP communication The function blocks are used to establish PCP communication between the Inline Controller and PCP devices in INTERBUS The Inline Controller supports connections to a maximum of eight PCP devices The function blocks are valid for Table 3 4 Overview of function blocks Function block Short description PCP_CONNECT This block can be used to set up communication connections to each PCP device in INTERBUS PCP_WRITE This block enables PCP objects to be written PCP_READ This block enables data to be read from PCP objects PCP_SERVER This block enables PCP service indications to be received and responses to be sent a The communication blocks are described in the PC Worx online help 7735_en_00 PHOENIX CONTACT 3 13 UM EN ILC 150 GSM GPRS
41. is not operating The connector pin assignment of Use the PRG CAB MINI DIN the programming cable or of the programming cable connector adapter used is Order No 2730611 for the incorrect Inline Controller The devices onthe remote bus cannot The IBS IL 24 RB T PAC Inline Insert the terminal as the first be started up terminal is not installed directly Inline terminal directly next to the after the Inline Controller Inline Controller The diagnostic LED of a device is The device has not been Check the connection to the flashing quickly assembled correctly previous module bus contacts For additional information about errors their causes and remedies please refer to the online help for the PC WorX function blocks described in Section 3 The Inline Controller under PC Worx A2 Updating the Inline Controller firmware The firmware integrated software on the Inline Controller can be updated using the Ethernet interface Such firmware updates are exclusively used for adding new functions that are implemented within the scope of continuous product improvement No firmware update is required for normal system operation To update the firmware please proceed according to the Firmware update gt 4 6F 1 13 application note This can be downloaded from www download phoenixcontact com 7735_en_00 PHOENIX CONTACT A 1 UM EN ILC 150 GSM GPRS A3 Connecting unshielded cables Unshielded cables
42. k the Inline Controller can be accessed via Ethernet and TCP IP or UDP IP Integrated communication functions enable direct and effective data exchange via Ethernet The Ethernet network provides universal options for communicating with the Inline Controller Using the send and receive communication blocks information e g necessary coupling variables can be exchanged between Inline Controllers via Ethernet This enables distributed modular automation solutions to be configured The existing IEC 61131 5 blocks have thus been extended to include a TCP IP mode anda UDP IP mode When using the AX OPC server Version 2 30 provided in the AUTOMATIONWORX Software Suite Version 1 40 or later Inline Controller data is available in the Ethernet network in a standardized format and can be used for the different visualization packages The I O level is connected to the Inline Controller using INTERBUS The Inline Controller can also be used as the head of an INTERBUS Inline station It is possible to connect an Inline local bus as well as a remote bus In this way you can create acomplete INTERBUS system maximum of 4 remote bus levels using the Inline Controller as the distributed control system PHOENIX CONTACT 2 1 UM EN ILC 150 GSM GPRS 2 2 Possible fields of application of the ILC 150 GSM GPRS The ILC 150 GSM GPRS Inline Controller can be used as a distributed control system of an Inline station which is connected to an Ethernet syste
43. le load current of 8 A is not exceeded total current at Uj and Us 2 15 6 24V ILC supply NOTE The 24 V ILC supply has protection against polarity reversal and surge voltage These protective elements are only used to protect the power supply unit The rating of the preconnected fuse must be such that the maximum permissible load current of 2 A is not exceeded 2 15 7 Jumpers Terminals 1 3 and 2 3 on connector 1 can be jumpered if the communications power and the segment power are not to be electrically isolated 2 22 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 16 Digital inputs and outputs There are 16 24 V DC inputs and four 24 V DC outputs 7735B011 Figure 2 18 Assignment of the terminal points of connectors 2 to 4 Table 2 2 Terminal point assignment Terminal point Assignment Remark woo output Ea Co C mazz ND __ _ _ Groundcontactfor and wiretermination 13 23 FE Functionalearth ground for Swire termination Ke CN C E C C i The outputs are supplied with 24 V DC from the segment supply Us Input terminal points 7735_en_00 PHOENIX CONTACT 2 23 UM EN ILC 150 GSM GPRS Table 2 2 Terminal point assignment continued Terminal point Assignment Remark a C Ee E at az a3 aa a The inputs are supplied with 24 V DC from the main supply Uj The outputs have protection when the ground conne
44. ly Voltage sssececsseeeeeeeees 2 20 Connecting unshielded Cables c cccceseeeeeeeenees A 2 Connection elements ccccccseeeeeceseseeeceeeeeeeeeeees 2 4 CONNECIOIS aie AEA 2 4 2 11 CONTO DOX a isaac iets ied eek ete tes eahedieewen 2 10 See also terminal box Control CAINE secccectt arcxestaxtacencerartancteatetnecbaancecasessadem 2 10 D Default upon delivery ccccceeeeeeeeeeeeeeeeeeeeeeeseeseeeeens 3 1 Diagnostic and status indicators ceeeeeeeeee 2 4 Diagnostic INGICAtOIS c eee a 2 5 Diagnostic parameter register cceceeeeeeeeeeeeeeees 4 3 Diagnostic status reQiSter ec eeeeeeeeeeeeeeeeeeeeeeaes 4 2 DIGI AT INDUS reinsar ss eee eee 2 23 DIG WAL OULDUNS i 2c ssaxt2cacrasaebqileadeceiasetcaiaeinnsrserieinicsanites 2 23 DIN TAPeina ncnacoumartend etuaaeee coswehosaseeteceade 2 10 E Electronics DASE 0 ccccccecceceeceeceeceseuseeeeeeeseeeeuans 2 4 2 11 ENGADE 2 10 End DIGUG erste n aN 2 4 2 10 ENO CaSe Saina dude E akecseenteee A 1 Error CIAQGNOSIICS encase 2 5 EHE E berrera aaa A 2 14 Ethernet connection ccccccseceeseseeseseeeseeeeeseeseeseaes 2 4 Ethernet interface ccccccsssceeccesseeeceeeseeeeseeeeeeens 2 14 7735_en_00 F Fall back characteristic curve cceeeeeneeeeee eens 2 19 Female antenna connector cceceeeeeeeeeeeeeeeeaneeees 2 4 Fields Of application cccccccss
45. m A single Inline local bus Figure 2 1 as well as a complete INTERBUS system with a maximum of 4 remote bus levels Figure 2 2 can be connected to the Inline Controller L L_ _ C KJ 8 exo FAtco o ociasiaai alsa sa 63 CE Jat tft afl atl otal otal ota See oolcclsaiasigaisaiaa se SO OO OOOO n olo olo olo olo oloo amlooloolool00o000000 0000 OO 00 00 00 e Ethernet 7735A001 Figure 2 1 Connected Inline local bus Inline local bus E le 2 INTERBUS Remote bus levels E di 3 i INTERBUS H di 4 ii
46. meterization memory The Inline Controller has an integrated parameterization memory For additional information about the parameterization memory please refer to Parameterization memory and Internet Explorer on page 3 7 2 8 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 9 Internal basic circuit diagram GSM GPRS E U Antenna a U A Un ETH Ni Figure 2 6 Internal basic circuit diagram Key Microprocessor Converter Protocol chip LED GSM GPRS modem and GSM GPRS T antenna with SMA connection ce Transmitter NPN transistor SIM card the SIM card is not supplied as standard Ogui RJ45 female connector The gray areas in the basic circuit diagram represent the electrically isolated areas A Ethernet interface B Logic C I O i Other symbols used are explained in the IL SYS INST UM E user manual 7735_en_00 PHOENIX CONTACT 2 9 UM EN ILC 150 GSM GPRS 2 10 Mounting and removing the Inline Controller For notes and instructions on mounting and removing Inline terminals please refer to the IB IL SYS PRO UM E user manual for INTERBUS the IL SYS INST UM E Inline installation manual or the Inline system manual for your bus system NOTE Q Before mounting or removing the Inline Controller ensure that the power supply is switched off and cannot be switched on again by unauthorized persons An Inline station is set up by mountin
47. mission between a Phoenix Contact controller and any other UDP IP compatible device e g ILC PC ILC PLC Implement all time and connection monitoring in the application program The Inline Controller supports eight TCP IP or UDP IP connections to another communication partner The function blocks are valid for Order designation From hardware From firmware version version IEC 61131 5 ILC 150 GSM GPRS TCPIP Table 3 2 Overview of function blocks The communication blocks are described in the PC Worx online help The extensions for the TCP IP and UDP IP function blocks are described in the TCP UDP COMMUNICATION application note PHOENIX CONTACT 3 11 UM EN ILC 150 GSM GPRS 3 8 Function blocks for GSM GPRS mobile phone functions In the latest firmware version the device supports the sending and receiving of SMS via the GSM modem The function for transmitting data viaa GPRS connection using the GSM modem is supported in firmware Version 3 x or later The function blocks are used to send and receive SMS via a mobile phone GSM GPRS connection The function blocks are valid for Order designation From firmware version Table 3 3 Overview of function blocks Function block Short description MOBILE_CONNECT This function block is used to Parameterize and enable disable the GSM modem of the controller Switch between SMS and transparent mode Supported in firmware Version 3 x In addit
48. n of symbols used and signal words hazards Obey all safety messages that follow this symbol to avoid possible This is the safety alert symbol It is used to alert you to potential personal injury A injury or death DANGER This indicates a hazardous situation which if not avoided will result in death or serious injury WARNING This indicates a hazardous situation which if not avoided could result in death or serious injury CAUTION This indicates a hazardous situation which if not avoided could result in minor or moderate injury The following types of messages provide information about possible property damage and general information concerning proper operation and ease of use NOTE This symbol and the accompanying text alerts the reader to a situation which may cause damage or malfunction to the device either hardware or software or surrounding property This symbol and the accompanying text provides additional information to the reader It is also used as a reference to other sources of information manuals data sheets literature on the subject matter product etc 7735_en_00 7735_en_00 UM EN ILC 150 GSM GPRS General terms and conditions of use for technical documentation Phoenix Contact reserves the right to alter correct and or improve the technical documentation and the products described in the technical documentation at its own discretion and without giving prior notice insofar a
49. nal should be installed directly to the right of the Inline Controller during mounting and removal The terminal must be removed prior to mounting or removing the Inline Controller Otherwise the locking clips and jumper contacts will be damaged Mounting position Mount the Inline Controller horizontally as shown in Figure 2 7 The specified temperature range see Ambient conditions on page 5 5 is only guaranteed if the Inline Controller is mounted in this position 2 10 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller Mounting When mounting the Inline Controller proceed as shown in Figure 2 7 e Disconnect the power to the station e Place the Inline Controller onto the DIN rail from above detail A and push down detail B e Then attach all the electronics bases required to set up the station Observe the information provided in the above user manuals a Ensure that all featherkeys and keyways on adjacent terminals are securely interlocked e Once all the bases have been snapped on plug the connectors into the appropriate bases First place the front connector shaft latching in the front snap on mechanism detail C1 Then press the top of the connector towards the base until it snaps into the back snap on mechanism C2 B C Y _ ty C2 p Ar 4 C1 74060007 Figure 2 7 Snapping on the Inline Controller Removal When removing the Inline Controller proceed as shown in Figure 2 9
50. ne Controller Table 4 5 System variables of the control processor COP_DIAG_STATUS_REG_RT_ERR BOOL A runtime error out of realtime has occurred on the control processor COP_DIAG_STATUS_REG_FAT_ERR BOOL A fatal error has occurred on the control processor Division by zero for example leads to a fatal error COP_DIAG_STATUS_REG_WARN BOOL A warning has been issued on the control processor COP_DIAG_STATUS_REG_PON BOOL Power ON COP The control processor is ready to operate COP_DIAG_STATUS_REG_FC_RUN BOOL Runtime system RUN COP_DIAG_PARAM_2_REG WORD Extended diagnostic parameter register of the control processor The system variable below shows status information about the control processor of the Inline Controller Table 4 6 System variable of the control processor COP_CPU_LOAD_WARNING BOOL The control processor is reaching the limits of its capacity 4 7 Battery realtime clock Table 4 7 System variables of the battery and realtime clock System variable Type Meaning o RTC_BATTERY_LOW BOOL The realtime clock battery is low RTC_DATA_INVALID BOOL Realtime clock data is invalid 7735_en_00 PHOENIX CONTACT 4 5 UM EN ILC 150 GSM GPRS 4 8 Power supplies Table 4 8 System variables of the power supplies POWER_SUPPLY_MAIN_OK BOOL The 24 V main power supply is OK POWER_SUPPLY_INPUTS_OK BOOL The 24 V power supply for the local inputs is OK POWER_SUPPLY_OUTPUTS_0_3_ OK BOOL The 24 V power
51. nternet Properties Enable folder view for FTP sites 7735_en_00 The Inline Controller under PC WorX 3 5 2 Activating deactivating the FTP server To protect the Inline Controller against unauthorized access it may be necessary to deactivate the FTP server The CPU_Set_Value_Request service with Var ID 0172 is used for this This service activates or deactivates the FTP server for the runtime of the firmware The set FTP server state is stored retentively and mapped to the ETH_SRV_FTP_ACTIVE system variables This setting is restored the next time the Inline Controller is rebooted Value range for the CPU_Set_Value_Request service Var ID 0172hex Value 0000hex Deactivate FTP server 0001 hex Activate FTP server Device Details ILC 150 GSM GPRS 192 168 0 2 CPU Service Editor CPU Request CPU Confirmation CPO Set Value Request Code Parameter Count Var Count Var ID 1 F Value Library D Program Files Phoenis Contacti S CPU_Set_F_Addr_Aeguest A CPU Set ATC Request CPU Set Value Request Firmware_Update Mew Line Ctrl Enter Send Library lt lt Offline EE IF Settings EJ Extended Settings a Communication g CPU Service Editor 4 Bus inte 4 Figure 3 7 Deactivating the FTP server 3 5 3 Activating deactivating the HTTP server To protect the Inline Controller against unauthorized access it may be necessary to deactivate the HTTP server The CP
52. plication program was stopped at an unspecified point PLCDEBUG_BPSET BOOL Breakpoint set At least one breakpoint has been set in the application program PLCDEBUG_FORCE BOOL Variable s forced At least one variable is being continuously a forced by PROGRAM WORX PLCDEBUG_POWERFLOW BOOL Powerflow ON In Powerflow mode you can see which parts of your application program are being processed This bit indicates whether Powerflow mode is active PLC_TICKS_PER_SEC System ticks per second This variable shows how many pulses the system clock of the Inline Controller delivers per second PLC_SYS_TICK_CNT DINT Number of system ticks This variable shows the total number of pulses delivered by the system clock since the last startup PLC_TASK_AVAILABLE INT Number of available PLC tasks PLC_SYSTASK_AVAILABLE INT Number of available system tasks PLC_MAX_ERRORS DINT Maximum number of Errors Warnings and Logging Events If this maximum number is reached the controller is stopped PLC_ERRORS DINT Maximum number of Errors Warnings and Logging Events currently entered PLC TASK DEFINED INT Number of tasks used PLC_TASK_1 Record Information about task 1 17 ea Record aaa eee about task 8 elements 9 4 4 PHOENIX CONTACT 7735_en_00 System variables and status information 4 6 Control processor The system variables listed below show the states of the diagnostic status register on the control processor of the Inli
53. pment INTERBUS Number of I O points Number of data words Number of bus segments Transmission speed Technical data and ordering data 7 5V DC 5 1 5 0 8 A DC internally protected against short circuit A 0 8 0 6 0 4 0 2 25 15 5 5 25 35 45 55 T C 7406A023 A Logic current in A Ta C Ambient temperature in C 24V DC 15 20 5 0 5ADC Electronic short circuit protection 4096 maximum 256 maximum 32 Maximum 500 kbps or 2 Mbps a This speed is automatically set according to the connected Inline terminals Only use terminals with a uniform transmission speed in the entire connected Inline system local bus and remote bus Transmission reliability Protocol Number of devices in the INTERBUS system Total number of bus devices Number of remote bus devices Number of PCP devices Number of remote bus levels 7735_en_00 CR check hamming distance 4 EN 50254 128 maximum 32 Maximum 8 4 maximum see Section 2 2 on page 2 2 PHOENIX CONTACT 5 3 UM EN ILC 150 GSM GPRS Network interface Type Ethernet 10Base T and 100Base TX Speed 10 Mbits 10Base T 100 Mbits 100Base TX half duplex full duplex auto negotiation a This speed cannot be set manually It is set automatically by means of auto negotiation Connection method Inline local bus interface Electrical isolation Number of devices Digital inputs Number Input design
54. r The following information is stored in the diagnostic parameter register Error location Error code 15 ala 0 Segment number Position in the segment Example device number 3 1 6219A040 Figure 4 1 Error location in the diagnostic parameter register Special case If an interface error cannot be located the value 128 is indicated in the diagnostic parameter register i e bit 7 is set The diagnostic parameter register is rewritten whenever an error occurs The diagnostic parameter register contains the value 0 if no errors are detected Table 4 3 System variables of the diagnostic parameter register MASTER_DIAG_PARAM_REG_HI BYTE Diagnostic parameter register high byte MASTER_DIAG_PARAM_REG_LOW BYTE Diagnostic parameter register low byte MASTER_DIAG_PARAM_2_REG_HI BYTE Extended diagnostic parameter register high byte MASTER_DIAG_PARAM_2_REG_LOW BYTE Extended diagnostic parameter register low byte 7735_en_00 PHOENIX CONTACT 4 3 UM EN ILC 150 GSM GPRS 4 5 IEC 61131 runtime system There is a separate group of variables for the IEC 61131 runtime system Table 4 4 System variables of the IEC 61131 runtime system PLCMODE_ON BOOL PLC status ON The runtime system on the Inline Controller is ready to operate PLCMODE_RUN BOOL PLC status RUN The application program is running PLCMODE_STOP BOOL PLC status STOP The application program is currently not running PLCMODE_HALT BOOL PLC status HALT The ap
55. rding to EN 61000 6 4 Noise emission of housing EN 55011 Conformance with R amp TTE directive 1999 5 EC EMC EN 61000 6 2 Noise immunity electromagnetic compatibility Security EN 60950 Protection of personnel with regard to electrical safety Health EC Gazette 1999 519 EC Limitation of exposure of the population to electromagnetic fields Radio DIN EN 301511 Effective use of the frequency spectrum and prevention of radio interference Approvals For the latest approvals please visit www download phoenixcontact com 7735_en_00 Technical data and ordering data Criterion B 6 kV contact discharge 8 kV air discharge Criterion A Field strength 10 V m Criterion B Supply lines 2 kV Signal data lines 2 kV Criterion B Signal data lines 1 kV Supply lines 0 5 kV Criterion A Test voltage 10 V Class A Generic standard for the industrial sector EC Council recommendation of July 12 1999 PHOENIX CONTACT 5 7 UM EN ILC 150 GSM GPRS 5 2 Ordering data 5 2 1 Products Description Inline Controller complete with accessories connectors and labeling fields 5 2 2 Accessories Description Inline connector set for Inline bus coupler with connected I Os GSM dual band antenna with omnidirectional characteristics Antenna cable with SMA connector 2m Degree of protection IP65 Dimensions 76 mm x 20 mm QUINT POWER power supplies 5 2 3 Software Description PC WorX automation software
56. ristic curve 7735_en_00 PHOENIX CONTACT 2 19 UM EN ILC 150 GSM GPRS 2 15 2 Power supply connection Supply the Inline Controller using external 24 V DC voltage sources The permissible voltage ranges from 20 4 V DC to 30 V DC ripple included The power consumption of the Inline Controller at 24 V is typically 4 8 W no local bus devices connected Only use power supplies that are suitable for operation with capacitive loads increased 2 20 PHOENIX CONTACT inrush current see Sizing of the power supply on page 2 19 Connect the power supplies to the connector for power supply as shown in Figure 2 17 Insert the connector in the Inline Controller Switch on the power supplies The UL UM and US LEDs light up and after around 10 seconds the FR and RDY LEDs start flashing The Inline Controller is now fully initialized PO NZ If the LEDs do not light up or start flashing there is a serious error on the Inline Controller Please contact Phoenix Contact we wy BO OX MA S rls AS WA SADR ASA L XA BSA RAD A npa MNN Cy 4 y NO amp lt KC AD CAD 3 4 oO HO 77354010 3 Figure 2 17 Supply voltage connection 7735_en_00 Description of the Inline Controller Connector 1 moan connector 24V DC 24 V segment The supplied voltage is directly led
57. rk is connected via an RJ45 female connector Use an Ethernet cable according to Cat 5 of IEEE 802 3 Planning and installation of your Ethernet network must be carried out according to the IAONA Industrial Ethernet Planning and Installation Guide see www iaona eu com The contact assignment of the interface is as follows Te female connector a ec 10 100Base T X a Ferec fao o a 7735A007 Figure 2 10 Ethernet interface T gE ME oP 6 RO a ot 7735A009 Figure 2 11 Connecting the Ethernet cable to the Inline Controller The interface is able to switch over the transmitter and receiver automatically auto crossover 2 14 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 12 SIM card NOTE Disconnect power to the Inline Controller before changing the SIM card The controller only supports 3 V SIM cards In the event of older SIM cards please contact your GSM service provider You will receive a SIM card from your GSM service provider which will be used to store all the important data for your connection e f the SIM card has been supplied in credit card format simply detach the small section of the card and remove protruding parts of plastic 7735A013 Figure 2 12 Inserting the SIM card Q NOTE Damage to the SIM card card holder When inserting removing the SIM card do not force the SIM card into the card holder as this could damage the SIM card and or c
58. rminal points 10 Diagnostic and status indicators 11 End plate as station end 2 4 PHOENIX CONTACT 7735_en_00 Description of the Inline Controller 2 5 Diagnostic and status indicators The diagnostic and status indicators are used for quick local error diagnostics GSM PWRI p PLC J 7735A004 Figure 2 4 Diagnostic and status indicators Local diagnostic and status indicators ETH State of the Ethernet interface pm Connection established successfully link The Inline Controller is able to contact another network device sr eee Data transmission activity Ethernet interface transmitting or receiving data PLC eee of the Inline Controller FR Green Inline Controller running p OFF IEC 61131 runtime system not ready to operate Flashing IEC 61131 runtime system successfully initialized Control function in READY STOP state program not processed 61131 runtime system successfully initialized and program running ee function in RUN state A runtime error has occurred in the IEC 61131 runtime system program o o No runtime error has occurred in the IEC 61131 runtime system program 7735_en_00 PHOENIX CONTACT 2 5 UM EN ILC 150 GSM GPRS GSM Diagnostics of the GSM connection GSM module not switched on Flashing GSM module logged into the GSM network Flashing quickly Searching for network GSM module not logged into the GSM network ON Transmission active
59. s dexetee a ieee N aa E 2 14 4 C 110 epee E ete enor eter enen reece er reer 2 15 219 AMEMA saaa aa a 2 17 214 NTERBUS erroa a ates iweee est ce tic daad hemtadcae a 2 18 ZW OC ANTS 6 oi crettaet ertcdiae teins nad eerste a 2 18 2 142 Remote DUS sisanne a A a tesa ta aoa 2 18 ZAG POWE SUD DIN zaera a a Gouacum ashi cesenctsadcaes 2 19 2 15 1 Sizing of the POWer SUPDIY scorci a aaaea 2 19 219 2 POWErSUPDIY CONMECHON wsiesiuntvscibve a wexctoveccetieaued ervesshwencetcetrteeanties 2 20 2 15 3 24V segment supply 24 V main supply ccccceceeeeeeceeeeeeeeeeeeeees 2 22 2 15 4 24 V segment supply ce cccceecesssececseeeeseeeeeseeeeseeeeesseseesseneeenens 2 22 Sloe 2A VIMAUNVONAG CY eaaa R A 2 22 215 6 24 VEC SUD Oly rians 2 22 21o daar U6 00 912 conan ene OCCT ae Aen anne O Ce ROn eee Reed meter E ena Sern 2 22 216 Digtalinputs ANG OULDUNS seesi aaa seed a N 2 23 3 The Inline Controller under PC WOrX ccccsccccseeecceeeeneeeeceneeceeeeeseueesseeeeseueesseeeesegeesseeeeseneeeas 3 1 3 1 Sotware versies eoe N E nesta 3 1 3 2 WP AdAS Saa aT ewes ys 3 1 3 3 Setting the realtime ClOCK cccccsseececceeeeceeceseeeeceeeeeeeeceeeeeseeauseeecsueeeesssaseees 3 4 3 3 1 Setting the realtime clock under PC WorX ceeceeeeeeeteeeeeeeeeeeaneeees 3 4 3 3 2 Setting the realtime Clock Via SNTP cccecceeeeeeeeeeeeeeeeeeeeeeeeanaaeeeeees 3 4 3 4 DOWNIOAG CHANGES facets ie ccnitier eeuitenioapenaut
60. s this is reasonable for the user The same applies to any technical changes that serve the purpose of technical progress The receipt of technical documentation in particular data sheets installation instructions manuals etc does not constitute any further duty on the part of Phoenix Contact to furnish information on alterations to products and or technical documentation Any other agreement shall only apply if expressly confirmed in writing by Phoenix Contact Please note that the supplied documentation is product specific documentation only and that you are responsible for checking the suitability and intended use of the products in your specific application in particular with regard to observing the applicable standards and regulations Although Phoenix Contact makes every effort to ensure that the information content is accurate up to date and state of the art technical inaccuracies and or printing errors in the information cannot be ruled out Phoenix Contact does not offer any guarantees as to the reliability accuracy or completeness of the information All information made available in the technical data is supplied without any accompanying guarantee whether expressly mentioned implied or tacitly assumed This information does not include any guarantees regarding quality does not describe any fair marketable quality and does not make any claims as to quality guarantees or guarantees regarding the suitability for a special purpose P
61. supply for the local outputs is OK bit 0 to 3 4 9 Mode selector switch Table 4 9 System variables of the mode selector switch 4 10 System time Table 4 10 System variables of the system time System variable Type Meaning OOOO RTC_DAY INT System time day RTC_MONTH INT System time month RTC_YEAR INT System time year 4 6 PHOENIX CONTACT 7735_en_00 Technical data and ordering data 5 Technical data and ordering data 5 1 Technical data General data CE conformance Dimensions Weight Connection data for connectors Connection method Conductor cross section General supply According to R amp TTE directive 1999 5 EC 85 mm x 120 mm x 69 mm 285 g approximately Spring cage terminals 0 2 mm to 1 5 mm solid or stranded 24 16 AWG a Use a power supply without fall back characteristic curve see Sizing of the power supply on page 2 19 24 V main supply Uy Connection method Nominal value Tolerance Ripple Current consumption at nominal voltage typical Current consumption at nominal voltage maximum Continuation Safety equipment Surge voltage Polarity reversal Spring cage terminals 24V DC 20 20 5 6 mA 7 mA for each input set 8A Via potential routing Input protective diodes can be destroyed by permanent overload Pulse loads up to 1500 W are short circuited by the input protective diode Parallel diodes for protection against polarity reversal
62. system parameter 0000hex Deactivate SNTP client values for IP and Cycle that are stored in the parameterization memory are not overwritten 0003hex Activate SNTP service values entered for IP and Cycle are stored in the parameterization memory and used for synchronization IP address of the SNTP server 82 bit value Example IP address 192 168 0 2 Byte 1 COnex Byte 2 A8hex Byte 3 OOhex Byte 4 O2 hex XXXXhex Request cycle in minutes Value range OThex to C350hex 1 50 000 minutes PHOENIX CONTACT 3 5 UM EN ILC 150 GSM GPRS CPU_Set_Value_Confirmation Syntax CPU_Set_Value_Confirmation 82CBhex Positive message Word 1 Code Word 2 Word Negative message Word 1 Word 2 Word Word 4 Add_Error_Info Key Code 82CBnex Message code of the confirmation Parameter_Count Number of subsequent words With a positive message 0001 1 parameter word With a negative message 0002 2 2 parameter words Result Result of the service processing 0000hex Indicates a positive message The controller processed the service successfully XXXXhex Indicates a negative message The controller could not process the service successfully The Result parameter indicates why the service could not be processed Add_Error_Info Additional information about the error cause e g invalid parameter 3 4 Download changes This function is supported by firmware Version 3 x or later 3 6 PHOENIX CONTACT 7735
63. to 30 V DC Current consumption at nominal voltage minimum 70 mA no load operation i e no local bus devices connected bus inactive Current consumption at nominal voltage typical 200 mA Current consumption at nominal voltage maximum 860 mA 360 mA communications power 500 mA analog power supply Safety equipment Surge voltage Input protective diodes can be destroyed by permanent overload Pulse loads up to 1500 W are short circuited by the input protective diode Polarity reversal Serial diode in the lead path of the power supply unit in the event of an error only a low current flows In the event of an error no fuse trips within the external power supply unit NOTE Observe the current consumption of the Inline terminals Observe the logic current consumption of each device when configuring an Inline station It is specified in every terminal specific data sheet The current consumption can differ depending on the individual terminal The permissible number of devices that can be connected therefore depends on the specific station structure Protection of the external power supply unit Ensure protection of 2 A by fuses through the external power supply unit 5 2 PHOENIX CONTACT 7735_en_00 7 5 V communications power potential jumper Nominal value Tolerance Ripple Maximum output current Derating 24 V analog supply potential jumper Nominal value Tolerance Ripple Maximum output current Safety equi
64. to the potential jumper Uc voltage suppl s EREE NOTE Protect the supply voltage externally according to the connected load local bus devices with 8 A maximum Make sure the external fuse blows in any case 24 V DC 24 V supply The 7 5 V communications power U for the ILC and the connected local bus UiLc devices is generated from this voltage The 24 V analog voltage Uana for the local bus devices is also generated NOTE Protect the supply voltage externally according to the connected load local bus devices with 2 A maximum Make sure the external fuse blows in any case 24 V DC 24 V main The main voltage is led to the local bus devices via the potential jumpers U voltage suppl Uy ge supply NOTE Protect the supply voltage externally according to the connected load local bus devices with 8 A maximum Make sure the external fuse blows in any case LGND Reference The potential is reference ground for the communications power potential logic ground SGND Reference The reference potential is directly led to the potential jumper and is at the same potential time reference ground for the main and segment supply segment ground onto a grounded DIN rail Functional earth ground is only used to discharge interference NOTE The maximum total current flowing through the potential jumpers is 8 A o ore 3 5 D FE Functional Functional earth ground must be connected through the power supply The eart
65. wing restrictions No directory hierarchies are supported All file operations only affect the root directory of the parameterization memory The function blocks are valid for Table 3 1 Overview of function blocks Function block FILE_OPEN FILE_CLOSE FILE READ FILE_WRITE FILE_REMOVE FILE_TELL FILE_SEEK FILE_NOTIFY Short description Opens a file with a specific name Closes a file with a specific handle Reads from a file with a specific handle Writes to a file with a specific handle Deletes a file with a specific name Determines the current position of the file pointer in a file Moves the current file pointer to a new position Displays files that have recently been created deleted or modified The function blocks for handling files in the parameterization memory are described in the PC WorX online help 3 10 PHOENIX CONTACT 7735_en_00 7735_en_00 The Inline Controller under PC WorX 3 7 Function blocks for TCP IP and UDP IP communication The function blocks are used to establish Ethernet communication between two communication partners The existing IEC 61131 5 blocks have thus been extended to include a TCP IP mode and a UDP IP mode Possible applications include Communication between two Phoenix Contact controllers e g ILC RFC ILC FC ILC ILC Communication between a Phoenix Contact controller and any other TCP IP compatible device e g ILC PC ILC PLC Wireless data trans
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