Post by wbj0t on mobus tcp slave device. read/write holdings with 2 variables. ^{CODESYS Forge talk (Post)}
Hi there. I have an issue to read and set time for the controller. In the issue many registers described as writable by 6/16 functions, and, in this time, also(!) readable! For example: I have time registers: min, hour, day, mon, year. By specifications it is possible check time (so I need always update these varibles in loop) and set time by writing these same registers, BUT how to set, if they will immediatle updated by current time after writing? So, I need to separate one address at two variables. I have seen option mark: Overlay of the process image by the holding and input register. I understand this so: When I READ by function 3, I will get variable that connected with the same INPUT address and when I WRITE by 6/16 this will change second variable that connected with HOLDING address. BUT, this mark doesnt work, when I write 6/16 and try to get by function 3, I will get written value instead INPUT variable. So, what to do?
Last updated: 2024-03-20

Post by tama00 on GPIOs not running with Raspberry Pi 4 (and SPI connection) ^{CODESYS Forge talk (Post)}
Hello everyone, I have a working SPI connection (with transferExt) between a Raspberry master with Codesys and an ESP32 slave. I would also like to use a few GPIO pins. Is there a problem with using SPI AND GPIOs? Environment: Raspberry Pi 4+ with Raspian from Oct 23 Codesys V3.4 SP19 Patch 5 with Runtime Version 4.10.0.0 Device: GPIOs B+/Pi2 My problem: The status is displayed as “GPIOs : not running”. And also during mapping the message “The bus is not running. The values shown are perhaps not actual”. However, the variable changes that I make in my program are displayed under “Current Value”. In the Logic Analyzer, the pin toggles during transmission with small intervals of +-4us (seems to be a cyclical disorder, but I don't know where exactly it could be coming from). This applies to pins that I actually use (output) but also to the other GPIOs (not used). With GPIO 4, the line remains permanently high. Attached is a screenshot from the Logic Analyzer. Channel 1,3,5 were GPIO pin 26, 22, 17 Would be very grateful for help. Best regards
Last updated: 2024-05-06

Post by wbj0t on System libs and I/O Drivers ^{CODESYS Forge talk (Post)}
Hi everyone. My question about: where I can learn (read or watch) an info about codesys workflow through the system IO libs? I want to know how to implement I/O drivers by my self. In the system libs I see many interfaces, methods etc... But there is no explanation about them, just names of methods and fields of the FBs. I know about this page: https://forge.codesys.com/drv/io-drivers/doc/Generic/ There is so BIG the device description file and not so clear explaining of the attributes and elements, also some elements or attributes missed at it all. Yes, there are code examples on this page, but, so shortly and, for example, code about Modbus drivers is absent. And even if I try to add the IoDrvFB with lib, I get and error, something like: "failed to load IoDrvFB driver". And what about the book of codesys that written by Gary Pratt? Is there information about system libs and drivers in this book more clearly? Thank you :)
Last updated: 2024-02-02

Post by alexgooi on Modbus writing on value change ^{CODESYS Forge talk (Post)}
Hi Duvan, You could make this in 1 single object (FB), Indeed don't use a function for this beacuse you need some memory to keep the old value. For i := 0 TO 200 BY 1 DO //Check if the value has been changed IF Old_Value[i] <> Value[i] THEN //Set the trigger to TRUE Trigger[i] := TRUE; Old_Value[i] := Value[i]; END_IF END_FOR If you define the Value array as an In_Out and the Trigger as an In_Out you arn't claiming any aditional memory to your system. You ofcourse then need to add some code arround it that does something with the trigger and writes it back to FALSE again. If you want more flexability you also could use pointers instead of using the IN_OUT FOR i := 0 TO 200 BY 1 DO address := address_Input + i * SIZEOF(*Put type here); IF Address^ <> Old_Value[i] THEN Trigger[i] := TRUE; Old_Value[i] := Address^; END_IF END_FOR
Last updated: 2024-04-02

Post by jkessler on IoDrvModbusTCP_Diag not defined when using MODBUS ^{CODESYS Forge talk (Post)}
Hi, Same for me ! Works in Codesys 3.5.19 but not in 3.5.20. I'm currenly using with a WAGO PLC200 [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'IoDrvModbusTCP_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'IoDrvModbusTCP_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlave_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlave_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlaveUnit_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlaveUnit_Diag' n’est pas un composant de 'IoDrvModbusTCP' Thanks in advance
Last updated: 2024-05-29

Post by jkessler on IoDrvModbusTCP_Diag not defined when using MODBUS ^{CODESYS Forge talk (Post)}
Hi, Same for me ! Works in Codesys 3.5.19 but not in 3.5.20. I'm currenly using with a WAGO PLC200 [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'IoDrvModbusTCP_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'IoDrvModbusTCP_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlave_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlave_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlaveUnit_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlaveUnit_Diag' n’est pas un composant de 'IoDrvModbusTCP' Thanks in advance
Last updated: 2024-05-29

Post by jkessler on IoDrvModbusTCP_Diag not defined when using MODBUS ^{CODESYS Forge talk (Post)}
Hi, Same for me ! Works in Codesys 3.5.19 but not in 3.5.20. I'm currenly using with a WAGO PLC200 [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'IoDrvModbusTCP_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'IoDrvModbusTCP_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlave_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlave_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlaveUnit_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlaveUnit_Diag' n’est pas un composant de 'IoDrvModbusTCP' Thanks in advance
Last updated: 2024-05-29

Post by jkessler on IoDrvModbusTCP_Diag not defined when using MODBUS ^{CODESYS Forge talk (Post)}
Hi, Same for me ! Works in Codesys 3.5.19 but not in 3.5.20. I'm currenly using with a WAGO PLC200 [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'IoDrvModbusTCP_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'IoDrvModbusTCP_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlave_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlave_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlaveUnit_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlaveUnit_Diag' n’est pas un composant de 'IoDrvModbusTCP' Thanks in advance
Last updated: 2024-05-29

Post by jkessler on IoDrvModbusTCP_Diag not defined when using MODBUS ^{CODESYS Forge talk (Post)}
Hi, Same for me ! Works in Codesys 3.5.19 but not in 3.5.20. I'm currenly using with a WAGO PLC200 [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'IoDrvModbusTCP_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'IoDrvModbusTCP_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlave_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlave_Diag' n’est pas un composant de 'IoDrvModbusTCP' [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0046: Identificateur 'ModbusTCPSlaveUnit_Diag' non défini [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0080: Le bloc fonctionnel 'IoDrvModbusTCP' doit être instancié pour permettre l’accès [ERREUR] EmPlcProgram: Application [Device: Logique API]: C0004: 'ModbusTCPSlaveUnit_Diag' n’est pas un composant de 'IoDrvModbusTCP' Thanks in advance
Last updated: 2024-05-29

Post by mondinmr on Direct Pointers in IOMapping for EtherCAT with IoDrvEthercatLib.ETCSlave_Dia ^{CODESYS Forge talk (Post)}
I have found a very interesting solution using: IoConfigTaskMap IoConfigConnectorMap IoConfigChannelMap The first is the list of IO tasks. The second is the connector for each IO module in the IOMap. The third is the individual input or output on the IOMap. One of the properties of the connector is another pointer to a connector, which corresponds with the connector of the EtherCAT slave. Through this information, it is possible to understand to which EtherCAT slave an IO connectormap corresponds. I am attaching an FB that allows for the construction of an IO map and finding the pointer to the actual IOs in the IOMap based on the bitoffset. FUNCTION_BLOCK IOExplorer VAR_INPUT END_VAR VAR_OUTPUT END_VAR VAR inputChannels: COL.LinkedList; outputChannels: COL.LinkedList; ulintFactory: COL.UlintElementFactory; END_VAR METHOD inputAtBitOffsetOfConnector : POINTER TO BYTE VAR_INPUT conn: POINTER TO IoConfigConnectorMap; bitOffset: UDINT; END_VAR VAR it: COL.LinkedListIterator; itf: COL.IElement; elem: COL.iUlintElement; channelInfo: POINTER TO ADVChannelInfo; bitOffsetR: UDINT; END_VAR inputChannels.ElementIterator(it); WHILE it.HasNext() DO it.Next(itfElement => itf); __QUERYINTERFACE(itf, elem); {warning disable C0033} channelInfo := TO___UXINT(elem.UlintValue); {warning restire C0033} IF channelInfo^.connectorField = conn THEN IF bitOffsetR = bitOffset THEN inputAtBitOffsetOfConnector := channelInfo^.addr; RETURN; END_IF bitOffsetR := bitOffsetR + channelInfo^.size; ELSE bitOffsetR := 0; END_IF END_WHILE inputAtBitOffsetOfConnector := 0; END_METHOD METHOD outputAtBitOffsetOfConnector : POINTER TO BYTE VAR_INPUT conn: POINTER TO IoConfigConnectorMap; bitOffset: UDINT; END_VAR VAR it: COL.LinkedListIterator; itf: COL.IElement; elem: COL.iUlintElement; channelInfo: POINTER TO ADVChannelInfo; bitOffsetR: UDINT; END_VAR outputChannels.ElementIterator(it); WHILE it.HasNext() DO it.Next(itfElement => itf); __QUERYINTERFACE(itf, elem); {warning disable C0033} channelInfo := TO___UXINT(elem.UlintValue); {warning restire C0033} IF channelInfo^.connectorField = conn THEN IF bitOffsetR = bitOffset THEN outputAtBitOffsetOfConnector := channelInfo^.addr; RETURN; END_IF bitOffsetR := bitOffsetR + channelInfo^.size; ELSE bitOffsetR := 0; END_IF END_WHILE outputAtBitOffsetOfConnector := 0; END_METHOD METHOD scanIO VAR_INPUT END_VAR VAR numTasks: DINT := IoConfig_Globals.nIoConfigTaskMapCount; tType: WORD; ioTask: POINTER TO IoConfigTaskMap; numCon: WORD; connector: POINTER TO IoConfigConnectorMap; numCh: DWORD; channelInfo: POINTER TO ADVChannelInfo; iTsk: DINT; iCon: WORD; iCh: DWORD; i: DINT; _tmpConnList: COL.IList; elem: COL.IUlintElement; itf: COL.IElement; tmpCh: POINTER TO ADVChannelInfo; lastE: DINT; e: COL.COLLECTION_ERROR; e1: Error; END_VAR VAR_INST lF: COL.ListFactory; END_VAR IF outputChannels.CountElements() > 0 OR inputChannels.CountElements() > 0 THEN RETURN; END_IF _tmpConnList := lF.CreateDynamicList(16, 16); //Iterate through all IO tasks FOR iTsk := 0 TO numTasks - 1 DO ioTask := ADR(IoConfig_Globals.pIoConfigTaskMap[iTsk]); //Store the type of the task (Input or Output) tType := ioTask^.wType; numCon := ioTask^.wNumOfConnectorMap; //Iterate through all connectors of the task FOR iCon := 0 TO numCon - 1 DO connector := ADR(ioTask^.pConnectorMapList[iCon]); numCh := connector^.dwNumOfChannels; //Iterate through all channels of the connector FOR iCh := 0 TO numCh - 1 DO //Create a new channel info object and fill it with the address, connector and size of the channel //Connectors is address of field connector in this case like EtherCAT slave //Address is the address of the IOMap //Size is the size of channel data in bits in IOMap channelInfo := __NEW(ADVChannelInfo); channelInfo^.addr := connector^.pChannelMapList[iCh].pbyIecAddress; channelInfo^.connectorField := connector^.pConnector; channelInfo^.size := connector^.pChannelMapList[iCh].wSize; //We put the channel info a temporary ordered list //Order is based on the address of IOMap lastE := TO_DINT(_tmpConnList.CountElements()) - 1; FOR i := 0 TO lastE DO _tmpConnList.GetElementAt(udiPosition := TO_UDINT(i), itfElement => itf); __QUERYINTERFACE(itf, elem); {warning disable C0033} tmpCh := TO___UXINT(elem.UlintValue); {warning restire C0033} //If the address of the channel is smaller than the address of the channel in the list IF tmpCh^.addr > channelInfo^.addr THEN //Insert the channel in the list at the current position _tmpConnList.InsertElementAt(TO_UDINT(i), ulintFactory.Create(TO_ULINT(channelInfo))); //Clear the channel info pointer channelInfo := 0; //Exit the loop i := lastE + 1; END_IF END_FOR //If the channel info is not 0, it means that the channel was not inserted in the list IF channelInfo <> 0 THEN //Add the channel to the end of the list elem := ulintFactory.Create(TO_ULINT(channelInfo)); _tmpConnList.AddElement(elem); END_IF END_FOR //Iterate temporary list and add the channels to the input or output list lastE := TO_DINT(_tmpConnList.CountElements()) - 1; FOR i := 0 TO lastE DO _tmpConnList.GetElementAt(udiPosition := TO_UDINT(i), itfElement => itf); __QUERYINTERFACE(itf, elem); {warning disable C0033} tmpCh := TO___UXINT(elem.UlintValue); {warning restire C0033} //If type is input, add the channel to the input list IF tType = TaskMapTypes.TMT_INPUTS THEN e := inputChannels.AddElement(ulintFactory.Create(TO_ULINT(tmpCh))); //If type is output, add the channel to the output list ELSIF tType = TaskMapTypes.TMT_OUTPUTS THEN e := outputChannels.AddElement(ulintFactory.Create(TO_ULINT(tmpCh))); ELSE __DELETE(tmpCh); END_IF END_FOR //Clear the temporary list _tmpConnList.RemoveAllElements(); END_FOR END_FOR END_METHOD
Last updated: 2024-02-13

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