#include #define SERVO_FOUCHE 5 #define SERVO_PINCE_GAUCHE 8 #define SERVO_PINCE_DROITE 9 #define FOURCHE_TRANSPORT 5, 307 #define FOURCHE_LEVEE 5, 227 #define FOURCHE_PRISE 5, 345 #define DOIGT_PINCE_GAUCHE_FERME 2080 #define DOIGT_PINCE_GAUCHE_OUVRE 2367 #define DOIGT_PINCE_GAUCHE_PARKING 1550 #define ID_FEETECH_ASC_G 11 #define ID_FEETECH_ASC_D 10 SMS_STS sms_sts; int ID_Feetech = 4; struct position_t{ int nb_tour; uint position; } cible_haute, cible_basse, actuelle; /// @brief pilote la vitesse des moteurs /// @param vitesse vitesse signée, sera saturée à 255 void Moteur_set(int vitesse){ ledcWrite(3, 0); ledcWrite(4, 0); if(vitesse < 0){ vitesse = -vitesse; if(vitesse > 255){ vitesse = 255; } ledcWrite(3, vitesse); }else{ if(vitesse > 255){ vitesse = 255; } ledcWrite(4, vitesse); } } void Translateur_avance(){ Moteur_set(128); } void Translateur_recule(){ Moteur_set(-128); } void setup() { Serial.begin(115200);//sms舵机波特率115200 Serial1.begin(1000000,SERIAL_8N1, RX, TX);//sts舵机波特率1000000 sms_sts.pSerial = &Serial1; delay(1000); cible_haute.nb_tour = 0; cible_haute.position = 500; cible_basse.nb_tour = 2; cible_basse.position = 1500; actuelle.nb_tour = 0; //Servo fourche (12V) ledcAttach(5, 50, 12); // ledcWrite(5, 307); // Neutre ledcWrite(5, 307); // Position de transport //ledcWrite(5, 227); // Position levée (butée haute) //ledcWrite(5, 345); // Position de prise /* while(1){ ledcWrite(FOURCHE_PRISE); delay(1000); ledcWrite(FOURCHE_TRANSPORT); delay(1000); ledcWrite(FOURCHE_LEVEE); delay(1000); ledcWrite(FOURCHE_TRANSPORT); delay(5000); }*/ // Servo pinces à aimant ledcAttach(8, 50, 12); ledcWrite(8, 307); ledcAttach(9, 50, 12); ledcWrite(9, 307); // Moteur ledcAttach(3, 500, 8); ledcWrite(3, 0); ledcAttach(4, 500, 8); ledcWrite(4, 0); /*while(1){ ledcWrite(FOURCHE_PRISE); delay(1000); ledcWrite(FOURCHE_TRANSPORT); delay(1000); ledcWrite(FOURCHE_LEVEE); delay(1000); ledcWrite(FOURCHE_TRANSPORT); delay(1000); sms_sts.WritePosEx(3, DOIGT_PINCE_GAUCHE_PARKING, 2400, 50); delay(1000); sms_sts.WritePosEx(3, DOIGT_PINCE_GAUCHE_OUVRE, 2400, 50); delay(3000); sms_sts.WritePosEx(3, DOIGT_PINCE_GAUCHE_FERME, 2400, 50); delay(5000); sms_sts.WritePosEx(3, DOIGT_PINCE_GAUCHE_OUVRE, 2400, 50); delay(5000); }*/ if(sms_sts.FeedBack(ID_Feetech)!=-1){ actuelle.position = sms_sts.ReadPos(-1); }else{ do{ Serial.println("Erreur lecture"); delay(1000); }while(sms_sts.FeedBack(ID_Feetech) ==-1); actuelle.position = sms_sts.ReadPos(-1); } Ascenseur_init(); while(1){ Ascenseur_gestion(); } } void loop() { static int m_pos=0; static unsigned long myTime=0; static position_t cible; Serial.print(">millis:"); Serial.println(millis()); if(millis() > myTime + 4000){ myTime = millis(); } int ID = sms_sts.Ping(ID_Feetech); if(ID!=-1){ Serial.print("Servo ID:"); Serial.println(ID, DEC); delay(100); }else{ Serial.println("Ping servo ID error!"); delay(2000); } int Pos; int Speed; int Load; int Voltage; int Temper; int Move; int Current; if(sms_sts.FeedBack(ID)!=-1){ Pos = sms_sts.ReadPos(-1); Speed = sms_sts.ReadSpeed(-1); Load = sms_sts.ReadLoad(-1); Voltage = sms_sts.ReadVoltage(-1); Temper = sms_sts.ReadTemper(-1); Move = sms_sts.ReadMove(-1); Current = sms_sts.ReadCurrent(-1); Serial.print(">Position:"); Serial.println(Pos); Serial.print(">Speed:"); Serial.println(Speed); Serial.print(">Load:"); Serial.println(Load); Serial.print(">Voltage:"); Serial.println(Voltage); Serial.print(">Temper:"); Serial.println(Temper); Serial.print(">Move:"); Serial.println(Move); Serial.print(">Current:"); Serial.println(Current); delay(50); }else{ Serial.println("FeedBack err"); delay(500); } }