Version: 1.0.0
Socket API
Socket Setup
There are 4 sockets available in firmware. In the supplied firmware Socket1 is used for direct communication to the motor. Socket2 is used for Modbus-TCP communication. They can be reassigned as needed.
There is a 5th socket used only for setup. This socket should not be changed or used.
The IP address, socket type (UDP/TCP) and port numbers are typically set using the USB interface. The values are saved in the EEPROM and recalled on power-up. However, for development purposes, the ethernet and socket information can be set in code
File | net_func.c |
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Function | ER ReadEEP_NetData(void) |
Example | ER ReadEEP_NetData(void) - net_func.c gNET_ADR[0].ipaddr = 0xC0A80114; SOC1_PORT = 10001; SOC1Type = TYPE_TCP; SOC2_PORT = 502; SOC2Type = TYPE_TCP; SOC3_PORT = 123; SOC3Type = TYPE_TCP; SOC4_PORT = 456; SOC4Type = TYPE_TCP; //Additional device data can be set such as //gNET_ADR[0].gateway //gNET_ADR[0].mask //DHCP_ENA - 1/0 |
Socket Send
Each socket has a function that can be called to send data. Passed arguments are a byte array and length. The array is then copied to the sockets send buffer before setting a flag letting the OS know to send the data.
The default size for the socket send buffers are
UB SOC1TxBuffer[256]; UB SOC2TxBuffer[64]; UB SOC3TxBuffer[64]; UB SOC4TxBuffer[64];
The buffer sizes can be increased as needed. They are found in net_func.c
The socket send functions are
File | net_func.c |
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Function | void SendSOC1(UB *buffer, UB len) |
Example | The example below is used to send data received from the motor controller to socket1 ControlCommunication(void) - uart.c UB buffer[256]; UB len; ... SendSOC1(buffer, len); //send out on Ethernet ... |
Socket Receive
Each socket has a function that is called when data is received. This function has the length of the received data. The received data is in the sockets received buffer.
The default size for the socket receive buffers are
UB SOC1RxBuffer[256]; UB SOC2RxBuffer[64]; UB SOC3RxBuffer[64]; UB SOC4RxBuffer[64];
The buffer sizes can be increased as needed. They are found in net_func.c
The socket receive functions are
File | net_func.c |
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Function | void ReceiveSOC1(UH len) |
Example | The example below is used to receive on socket1 and send it to the motor. ReceiveSOC1(UH len) - net_func.c static void ReceiveSOC1(UH len) { putDataToMotor(SOC1RxBuffer, len); } |
Motor Data
There are two structs used used in the transmit and receive of motor data.
- Receive data from the motor - MotorInfoStruct
- Transmit data to the motor - MotorControlStruct
The structs are then passed as arguments to motor_SetControl and motor_GetInfo
Receiving Motor Info Data
The following struct is located in motorcontrol.h
typedef struct { //DO not change this order. Used in memcopy with CSI structure long CPUTime; long ActualPosition; long TargetPosition; unsigned short MotorStatus; short PercentActualCurrent; short PercentOverloadTorque; short AnalogIn; unsigned char DigitalIN; unsigned char Temperature; short DCVoltage; unsigned short usReserved; unsigned char MotionGeneratorDisplay; unsigned char ErrorCode; //not in mem structure long ActualSpeed; }MotorInfoStruct;
A local copy of the struct can be updated using the following function
File | motorcontrol.c |
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Function | ER motor_GetInfo(MotorInfoStruct *MotorInfoAddr) |
Example | The example below is used to populate a local info struct in main.c. It is called cyclically in the 125us task. Note that in the source provided it is commented out. Example - motor_GetInfo MotorControlStruct MotorControlMDB; MotorInfoStruct MotorInfoMDB; void timer125us_tsk( void ) { UB SpeedCounter=0; while(1) { P_EX_INPUT5 = ~P_IN1; P_EX_INPUT6 = ~P_IN4; P_OUT1 = ~P_EX_OUTPUT3; ScanIO(); if(SpeedCounter == 200) //update speed every 25ms. { UpdateSpeed(); SpeedCounter=0; } SpeedCounter++; //Testing functions below motor_GetInfo(&MotorInfoMDB); motor_SetControl(&MotorControlMDB); slp_tsk(); } } |
Sending Motor Control Data
The following struct is located in motorcontrol.h
typedef struct { //DO NOT change this order. Used in memcopy with CSI structure long TargetPos; long TargetSpeed; short TargetTorque; unsigned short TargetAcc; unsigned short TargetDec; unsigned char ControlWord; unsigned char MotionGenerator; unsigned char DigitalIO; }MotorControlStruct;
A local copy of the struct can be used to update the struct transmitted to the motor using the following function
File | motorcontrol.c |
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Function | ER motor_SetControl(MotorControlStruct *MotorControlAddr) |
Example | The example below is used to populate a local info struct in main.c. It is called cyclically in the 125us task. Note that in the source provided it is commented out. Example - motor_GetInfo MotorControlStruct MotorControlMDB; MotorInfoStruct MotorInfoMDB; void timer125us_tsk( void ) { UB SpeedCounter=0; while(1) { P_EX_INPUT5 = ~P_IN1; P_EX_INPUT6 = ~P_IN4; P_OUT1 = ~P_EX_OUTPUT3; ScanIO(); if(SpeedCounter == 200) //update speed every 25ms. { UpdateSpeed(); SpeedCounter=0; } SpeedCounter++; //Testing functions below motor_GetInfo(&MotorInfoMDB); motor_SetControl(&MotorControlMDB); slp_tsk(); } } |
Writing Motor Registers
There are additional registers on the motor for setting up parameters such as home routines, inputs, outputs, resolution, etc. These registers can be written to with the function motor_SetRegister. There is a queue size of 16 registers. 1 register is written each 100us.
File | motorcontrol.c |
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Function | ER motor_SetRegister(unsigned short dataAddr, long value); |
Example | The example below is used by modbus to write to a specific register Example - motor_SetRegister - modbus.c static ER_RET modbusWriteRegisters(void) { UH mdbAddr; long value; UB numRegisters; char str[32]; numRegisters = ModbusMessage.numRegisters>>1; for (int i = 0; i < numRegisters; i++) { mdbAddr = ModbusMessage.startingAddress + (i<<1); memcpy(&value, &ModbusMessage.data[i<<2],4); value = swapLongBytes(value); motor_SetRegister(modbusToMotorRegisters(mdbAddr),value); if(Get_LogData()) { sprintf(str, "MDB W:%d=%d\r\n",mdbAddr,value); putStringToLog(str); } } return ER_OK; } |
Reading Motor Registers
There are additional registers on the motor for setting up parameters such as home routines, inputs, outputs, resolution, etc. These registers can be read with the following function
File | motorcontrol.c |
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Function | ER motor_GetRegister(unsigned short dataAddr, long *value); |
Example | The example below is used by modbus to read a specific register Example - motor_GetRegister - modbus.c static long GetMdbRegisterData(UH addr) { long res = 0; addr = modbusToMotorRegisters(addr); motor_GetRegister(addr, &res); return swapLongBytes(res); //modbus uses MSB on 16bit values. } |