20180723
Fork of MX28 by
Mx28.cpp
- Committer:
- gert_lauritsen
- Date:
- 2014-09-10
- Revision:
- 1:c866ce96ceb3
- Parent:
- 0:45d73665e91f
- Child:
- 2:2e32ee9f0e51
File content as of revision 1:c866ce96ceb3:
#include <stdlib.h> #include <stdio.h> #include "mbed.h" #include "Mx28.h" unsigned char Instruction_Packet_Array[15]; // Array to hold instruction packet data unsigned char Status_Packet_Array[8]; // Array to hold returned status packet data unsigned int Time_Counter; // Timer for time out watchers unsigned char Direction_Pin; // Pin to control TX/RX buffer chip unsigned char Status_Return_Value = READ; // Status packet return states ( NON , READ , ALL ) //------------------------------------------------------------------------------------------------------------------------------- // Private Methods //------------------------------------------------------------------------------------------------------------------------------- void DynamixelClass::debugframe(void) { for (int i=0; i<10; i++) printf("%x,",Instruction_Packet_Array[i]); printf("\r\n"); } void DynamixelClass::debugStatusframe(void) { for (int i=0; i<10; i++) printf("%x,",Status_Packet_Array[i]); printf("\r\n"); } void DynamixelClass::transmitInstructionPacket(void){ // Transmit instruction packet to Dynamixel unsigned char Counter; Counter = 0; servoSerialDir->write(1); // Set TX Buffer pin to HIGH servoSerial->putc(HEADER); // Write Header (0xFF) data 1 to serial servoSerial->putc(HEADER); // Write Header (0xFF) data 2 to serial servoSerial->putc(Instruction_Packet_Array[0]); // Write Dynamixal ID to serial servoSerial->putc(Instruction_Packet_Array[1]); // Write packet length to serial do{ servoSerial->putc(Instruction_Packet_Array[Counter + 2]); // Write Instuction & Parameters (if there is any) to serial Counter++; }while((Instruction_Packet_Array[1] - 2) >= Counter); servoSerial->putc(Instruction_Packet_Array[Counter + 2]); // Write check sum to serial wait_us((Counter + 4)*190); servoSerialDir->write(0); // Set TX Buffer pin to LOW after data has been sent } unsigned int DynamixelClass::readStatusPacket(void){ unsigned char Counter = 0x00; static unsigned char InBuff[20]; unsigned char i, j, RxState; Status_Packet_Array[0] = 0x00; Status_Packet_Array[1] = 0x00; Status_Packet_Array[2] = 0x00; Status_Packet_Array[3] = 0x00; i=0; RxState=0; j=0; InBuff[0]=0; Timer timer; timer.start(); while (RxState<3){ // Wait for " header + header + frame length + error " RX data if (timer.read_ms() >= STATUS_PACKET_TIMEOUT){ return Status_Packet_Array[2] = 0x80; // Return with Error if Serial data not received with in time limit } if (servoSerial->readable()) { InBuff[i]=servoSerial->getc(); if (InBuff[0]==0xff) i++; // When we have the first header we starts to inc data to inbuffer if ((i>=(STATUS_FRAME_BUFFER-1)) &&(RxState==0)) RxState++; //read header switch (RxState) { case 1: {//Read header if ((InBuff[j] == 0xFF) && (InBuff[j+1]== 0xFF)){ // checkes that we have got the buffer j=2; Status_Packet_Array[0] = InBuff[j++]; // ID sent from Dynamixel Status_Packet_Array[1] = InBuff[j++]; // Frame Length of status packet Status_Packet_Array[2] = InBuff[j++]; // Error (char) RxState++; led2->write(0); } } break; case 2: {//Read data if (i>Status_Packet_Array[1]+3) { //We have recieved all data do{ Status_Packet_Array[3 + Counter] = InBuff[j++]; Counter++; }while(Status_Packet_Array[1] > Counter); // Read Parameter(s) into array Status_Packet_Array[Counter + 4] = InBuff[j++]; // Read Check sum RxState++; } } break; } //switch } }//while.. timer.stop(); // debugStatusframe(); return 0x00; } //------------------------------------------------------------------------------------------------------------------------------- // Public Methods //------------------------------------------------------------------------------------------------------------------------------- DynamixelClass::DynamixelClass(int baud, PinName D_Pin, PinName tx, PinName rx){ servoSerial=new Serial(tx, rx); servoSerial->baud(baud); servoSerialDir= new DigitalOut(D_Pin); servoSerialDir->write(0); led2=new DigitalOut(LED2); } DynamixelClass::~DynamixelClass(){ if(servoSerial != NULL) delete servoSerial; } unsigned int DynamixelClass::reset(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = RESET_LENGTH; Instruction_Packet_Array[2] = COMMAND_RESET; Instruction_Packet_Array[3] = ~(ID + RESET_LENGTH + COMMAND_RESET); //Checksum; if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } void DynamixelClass::NewBaudRate(int baud) { //Change the baudrate on then MBED int Baudrate_BPS = 0; Baudrate_BPS =(int) 2000000 / (baud + 1); // Calculate Baudrate as ber "Robotis e-manual" servoSerial->baud(Baudrate_BPS); } unsigned int DynamixelClass::ping(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = PING_LENGTH; Instruction_Packet_Array[2] = COMMAND_PING; Instruction_Packet_Array[3] = ~(ID + PING_LENGTH + COMMAND_PING); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::setStatusPaketReturnDelay(unsigned char ID,unsigned char ReturnDelay){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_RETURN_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_RETURN_DELAY_TIME; Instruction_Packet_Array[4] = (char) (ReturnDelay/2); Instruction_Packet_Array[5] = ~(ID + SET_RETURN_LENGTH + COMMAND_WRITE_DATA + EEPROM_RETURN_DELAY_TIME + (char)(ReturnDelay/2)); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setID(unsigned char ID, unsigned char New_ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_ID_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_ID; Instruction_Packet_Array[4] = New_ID; Instruction_Packet_Array[5] = ~(ID + SET_ID_LENGTH + COMMAND_WRITE_DATA+ EEPROM_ID + New_ID); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setBaudRate(unsigned char ID, long Baud){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_BD_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_BAUD_RATE; // if (Baud > 2250000){ if (Baud >= 1000000){ switch (Baud){ case 2250000: Instruction_Packet_Array[4] = 0xFA; break; case 2500000: Instruction_Packet_Array[4] = 0xFB; break; case 3000000: Instruction_Packet_Array[4] = 0xFC; break; case 1000000: Instruction_Packet_Array[4] = 0x01; } }else{ Instruction_Packet_Array[4] = (char)((2000000/Baud) - 1); } Instruction_Packet_Array[5] = ~(ID + SET_BD_LENGTH + COMMAND_WRITE_DATA + EEPROM_BAUD_RATE + (char)((2000000/Baud) - 1) ); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setMaxTorque( unsigned char ID, int Torque){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_MAX_TORQUE_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_MAX_TORQUE_L ; Instruction_Packet_Array[4] = (char)(Torque); Instruction_Packet_Array[5] = (char)(Torque >> 8); Instruction_Packet_Array[6] = ~(ID + SET_MAX_TORQUE_LENGTH + COMMAND_WRITE_DATA + EEPROM_MAX_TORQUE_L + (char)(Torque) + (char)(Torque >> 8)); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setHoldingTorque(unsigned char ID, bool Set){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_HOLDING_TORQUE_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_TORQUE_ENABLE; Instruction_Packet_Array[4] = Set; Instruction_Packet_Array[5] = ~(ID + SET_HOLDING_TORQUE_LENGTH + COMMAND_WRITE_DATA + RAM_TORQUE_ENABLE + Set); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setAlarmShutdown(unsigned char ID,unsigned char Set){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_ALARM_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_ALARM_SHUTDOWN; Instruction_Packet_Array[4] = Set; Instruction_Packet_Array[5] = ~(ID + SET_ALARM_LENGTH + COMMAND_WRITE_DATA + EEPROM_ALARM_SHUTDOWN + Set); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setStatusPaket(unsigned char ID,unsigned char Set){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_RETURN_LEVEL_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_RETURN_LEVEL; Instruction_Packet_Array[4] = Set; Instruction_Packet_Array[5] = ~(ID + SET_RETURN_LEVEL_LENGTH + COMMAND_WRITE_DATA + EEPROM_RETURN_LEVEL + Set); Status_Return_Value = Set; if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setMode(unsigned char ID, bool Dynamixel_Mode, unsigned int Dynamixel_CW_Limit,unsigned int Dynamixel_CCW_Limit){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_MODE_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_CW_ANGLE_LIMIT_L; if ( Dynamixel_Mode == WHEEL) { // Set WHEEL mode, this is done by setting both the clockwise and anti-clockwise angle limits to ZERO Instruction_Packet_Array[4] = 0x00; Instruction_Packet_Array[5] = 0x00; Instruction_Packet_Array[6] = 0x00; Instruction_Packet_Array[7] = 0x00; Instruction_Packet_Array[8] = ~(ID + SET_MODE_LENGTH + COMMAND_WRITE_DATA + EEPROM_CW_ANGLE_LIMIT_L); }else { // Else set SERVO mode Instruction_Packet_Array[4] = (char)(Dynamixel_CW_Limit); Instruction_Packet_Array[5] = (char)((Dynamixel_CW_Limit & 0x0F00) >> 8); Instruction_Packet_Array[6] = (char)(Dynamixel_CCW_Limit); Instruction_Packet_Array[7] = (char)((Dynamixel_CCW_Limit & 0x0F00) >> 8); Instruction_Packet_Array[8] = ~(ID + SET_MODE_LENGTH + COMMAND_WRITE_DATA + EEPROM_CW_ANGLE_LIMIT_L + (char)(Dynamixel_CW_Limit) + (char)((Dynamixel_CW_Limit & 0x0F00) >> 8) + (char)(Dynamixel_CCW_Limit) + (char)((Dynamixel_CCW_Limit & 0x0F00) >> 8)); } if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (Status_Return_Value == ALL){ readStatusPacket(); if (Status_Packet_Array[2] != 0){ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } return 0x00; //if no errors } unsigned int DynamixelClass::setPunch(unsigned char ID,unsigned int Punch){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_PUNCH_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_PUNCH_L; Instruction_Packet_Array[4] = (char)(Punch); Instruction_Packet_Array[5] = (char)(Punch >> 8); Instruction_Packet_Array[6] = ~(ID + SET_PUNCH_LENGTH + COMMAND_WRITE_DATA + RAM_PUNCH_L + (char)(Punch) + (char)(Punch >> 8) ); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setPID(unsigned char ID ,unsigned char P,unsigned char I,unsigned char D){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_PID_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_PROPORTIONAL_GAIN; Instruction_Packet_Array[4] = P; Instruction_Packet_Array[5] = I; Instruction_Packet_Array[6] = D; Instruction_Packet_Array[7] = ~(ID + SET_PID_LENGTH + COMMAND_WRITE_DATA + RAM_PROPORTIONAL_GAIN + P + I + D ); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setTemp(unsigned char ID,unsigned char temp){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_TEMP_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_LIMIT_TEMPERATURE; Instruction_Packet_Array[4] = temp; Instruction_Packet_Array[5] = ~(ID + SET_TEMP_LENGTH + COMMAND_WRITE_DATA + EEPROM_LIMIT_TEMPERATURE + temp); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::setVoltage(unsigned char ID,unsigned char Volt_L, unsigned char Volt_H){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SET_VOLT_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = EEPROM_LOW_LIMIT_VOLTAGE; Instruction_Packet_Array[4] = Volt_L; Instruction_Packet_Array[5] = Volt_H; Instruction_Packet_Array[6] = ~(ID + SET_VOLT_LENGTH + COMMAND_WRITE_DATA + EEPROM_LOW_LIMIT_VOLTAGE + Volt_L + Volt_H); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::servo(unsigned char ID,unsigned int Position,unsigned int Speed){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SERVO_GOAL_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_GOAL_POSITION_L; Instruction_Packet_Array[4] = (char)(Position); Instruction_Packet_Array[5] = (char)((Position & 0x0F00) >> 8); Instruction_Packet_Array[6] = (char)(Speed); Instruction_Packet_Array[7] = (char)((Speed & 0x0F00) >> 8); Instruction_Packet_Array[8] = ~(ID + SERVO_GOAL_LENGTH + COMMAND_WRITE_DATA + RAM_GOAL_POSITION_L + Position + (char)((Position & 0x0F00) >> 8) + Speed + (char)((Speed & 0x0F00) >> 8)); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::servoPreload(unsigned char ID,unsigned int Position,unsigned int Speed){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = SERVO_GOAL_LENGTH; Instruction_Packet_Array[2] = COMMAND_REG_WRITE_DATA; Instruction_Packet_Array[3] = RAM_GOAL_POSITION_L; Instruction_Packet_Array[4] = (char)(Position); Instruction_Packet_Array[5] = (char)(Position >> 8); Instruction_Packet_Array[6] = (char)(Speed); Instruction_Packet_Array[7] = (char)(Speed >> 8); Instruction_Packet_Array[8] = ~(ID + SERVO_GOAL_LENGTH + COMMAND_REG_WRITE_DATA + RAM_GOAL_POSITION_L + (char)(Position) + (char)(Position >> 8) + (char)(Speed) + (char)(Speed >> 8)); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::wheel(unsigned char ID, bool Rotation,unsigned int Speed){ char Speed_H,Speed_L; Speed_L = Speed; if (Rotation == 0){ // Move Left Speed_H = Speed >> 8; } else if (Rotation == 1){ // Move Right Speed_H = (Speed >> 8)+4; } Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = WHEEL_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_GOAL_SPEED_L; Instruction_Packet_Array[4] = Speed_L; Instruction_Packet_Array[5] = Speed_H; Instruction_Packet_Array[6] = ~(ID + WHEEL_LENGTH + COMMAND_WRITE_DATA + RAM_GOAL_SPEED_L + Speed_L + Speed_H); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } void DynamixelClass::wheelSync(unsigned char ID1, bool Dir1, unsigned int Speed1, unsigned char ID2, bool Dir2, unsigned int Speed2, unsigned char ID3, bool Dir3, unsigned int Speed3){ char Speed1_H,Speed1_L; Speed1_L = Speed1; if (Dir1 == 0){ // Move Left Speed1_H = Speed1 >> 8; } else if (Dir1 == 1) // Move Right { Speed1_H = (Speed1 >> 8)+4; } char Speed2_H,Speed2_L; Speed2_L = Speed2; if (Dir2 == 0){ // Move Left Speed2_H = Speed2 >> 8; } else if (Dir2 == 1) // Move Right { Speed2_H = (Speed2 >> 8)+4; } char Speed3_H,Speed3_L; Speed3_L = Speed3; if (Dir3 == 0){ // Move Left Speed3_H = Speed3 >> 8; } else if (Dir3 == 1) // Move Right { Speed3_H = (Speed3 >> 8)+4; } Instruction_Packet_Array[0] = 0xFE; // When Writing a Sync comman you must address all(0xFE) servos Instruction_Packet_Array[1] = SYNC_LOAD_LENGTH; Instruction_Packet_Array[2] = COMMAND_SYNC_WRITE; Instruction_Packet_Array[3] = RAM_GOAL_SPEED_L; Instruction_Packet_Array[4] = SYNC_DATA_LENGTH; Instruction_Packet_Array[5] = ID1; Instruction_Packet_Array[6] = Speed1_L; Instruction_Packet_Array[7] = Speed1_H; Instruction_Packet_Array[8] = ID2; Instruction_Packet_Array[9] = Speed2_L; Instruction_Packet_Array[10] = Speed2_H; Instruction_Packet_Array[11] = ID3; Instruction_Packet_Array[12] = Speed3_L; Instruction_Packet_Array[13] = Speed3_H; Instruction_Packet_Array[14] = (char)(~(0xFE + SYNC_LOAD_LENGTH + COMMAND_SYNC_WRITE + RAM_GOAL_SPEED_L + SYNC_DATA_LENGTH + ID1 + Speed1_L + Speed1_H + ID2 + Speed2_L + Speed2_H + ID3 + Speed3_L + Speed3_H)); transmitInstructionPacket(); } unsigned int DynamixelClass::wheelPreload(unsigned char ID, bool Dir,unsigned int Speed){ char Speed_H,Speed_L; Speed_L = Speed; if (Dir == 0){ // Move Left Speed_H = Speed >> 8; } else if (Dir == 1) // Move Right { Speed_H = (Speed >> 8)+4; } Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = WHEEL_LENGTH; Instruction_Packet_Array[2] = COMMAND_REG_WRITE_DATA; Instruction_Packet_Array[3] = RAM_GOAL_SPEED_L; Instruction_Packet_Array[4] = Speed_L; Instruction_Packet_Array[5] = Speed_H; Instruction_Packet_Array[6] = ~(ID + WHEEL_LENGTH + COMMAND_REG_WRITE_DATA + RAM_GOAL_SPEED_L + Speed_L + Speed_H); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::action(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = RESET_LENGTH; Instruction_Packet_Array[2] = COMMAND_ACTION; Instruction_Packet_Array[3] = ~(ID + ACTION_LENGTH + COMMAND_ACTION); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::ledState(unsigned char ID, bool Status){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = LED_LENGTH; Instruction_Packet_Array[2] = COMMAND_WRITE_DATA; Instruction_Packet_Array[3] = RAM_LED; Instruction_Packet_Array[4] = Status; Instruction_Packet_Array[5] = ~(ID + LED_LENGTH + COMMAND_WRITE_DATA + RAM_LED + Status); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); if (ID == 0XFE || Status_Return_Value != ALL ){ // If ID of FE is used no status packets are returned so we do not need to check it return (0x00); }else{ readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[0]); // Return SERVO ID }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } } unsigned int DynamixelClass::readTemperature(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_TEMP_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_PRESENT_TEMPERATURE; Instruction_Packet_Array[4] = READ_ONE_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_TEMP_LENGTH + COMMAND_READ_DATA + RAM_PRESENT_TEMPERATURE + READ_ONE_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return Status_Packet_Array[3]; }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::readPosition(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_POS_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_PRESENT_POSITION_L; Instruction_Packet_Array[4] = READ_TWO_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_POS_LENGTH + COMMAND_READ_DATA + RAM_PRESENT_POSITION_L + READ_TWO_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value // If there is no status packet error return value return Status_Packet_Array[4] << 8 | Status_Packet_Array[3]; // Return present position value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::readLoad(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_LOAD_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_PRESENT_LOAD_L; Instruction_Packet_Array[4] = READ_TWO_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_LOAD_LENGTH + COMMAND_READ_DATA + RAM_PRESENT_LOAD_L + READ_TWO_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return ((Status_Packet_Array[4] << 8) | Status_Packet_Array[3]); // Return present load value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::readSpeed(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_SPEED_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_PRESENT_SPEED_L; Instruction_Packet_Array[4] = READ_TWO_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_SPEED_LENGTH + COMMAND_READ_DATA + RAM_PRESENT_SPEED_L + READ_TWO_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[4] << 8) | Status_Packet_Array[3]; // Return present position value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::readVoltage(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_VOLT_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_PRESENT_VOLTAGE; Instruction_Packet_Array[4] = READ_ONE_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_VOLT_LENGTH + COMMAND_READ_DATA + RAM_PRESENT_VOLTAGE + READ_ONE_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return Status_Packet_Array[3]; // Return voltage value (value retured by Dynamixel is 10 times actual voltage) }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::checkRegister(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_REGISTER_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_REGISTER; Instruction_Packet_Array[4] = READ_ONE_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_REGISTER_LENGTH + COMMAND_READ_DATA + RAM_REGISTER + READ_ONE_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[3]); // Return register value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::checkMovement(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_MOVING_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_MOVING; Instruction_Packet_Array[4] = READ_ONE_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_MOVING_LENGTH + COMMAND_READ_DATA + RAM_MOVING + READ_ONE_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[3]); // Return movement value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } } unsigned int DynamixelClass::checkLock(unsigned char ID){ Instruction_Packet_Array[0] = ID; Instruction_Packet_Array[1] = READ_LOCK_LENGTH; Instruction_Packet_Array[2] = COMMAND_READ_DATA; Instruction_Packet_Array[3] = RAM_LOCK; Instruction_Packet_Array[4] = READ_ONE_BYTE_LENGTH; Instruction_Packet_Array[5] = ~(ID + READ_LOCK_LENGTH + COMMAND_READ_DATA + RAM_LOCK + READ_ONE_BYTE_LENGTH); if (servoSerial->readable()) while (servoSerial->readable()) servoSerial->getc(); //emthy buffer transmitInstructionPacket(); readStatusPacket(); if (Status_Packet_Array[2] == 0){ // If there is no status packet error return value return (Status_Packet_Array[3]); // Return Lock value }else{ return (Status_Packet_Array[2] | 0xF000); // If there is a error Returns error value } }