Eugen 2502 Postat Septembrie 3, 2022 Partajează Postat Septembrie 3, 2022 Salut , am si eu o intrebare , vreau sa fac un CNC cu gravare laser , folosesc urmatoarele componente : Arduino Uno , CNC shield , 2 DVD-ROM pentru stepper motor, IRFZ44N Mosfet, 250MW laser diode , o sursa de alimentare 12V SMPS(2AMP), 2x A4988 drivere, rezistenta de 47E, rezistenta de 10K. Montajul e complet , Codul nu sunt sigur daca indeplineste toate comenzile necesare , imi da rateuri si nu se misca motoarele , am setat pentru drivere amperajul de 0.4 A , si pentru executare folosex GRBL. Ce as putea sa fac sau care este problema de nu imi functioneaza? CODUL ESTE : #include <Servo.h> #include <AFMotor.h> #define LINE_BUFFER_LENGTH 512 char STEP = MICROSTEP ; // Servo position for Up and Down const int penZUp = 95; const int penZDown = 83; // Servo on PWM pin 10 const int penServoPin =10 ; // Should be right for DVD steppers, but is not too important here const int stepsPerRevolution = 48; // create servo object to control a servo Servo penServo; // Initialize steppers for X- and Y-axis using this Arduino pins for the L293D H-bridge AF_Stepper myStepperY(stepsPerRevolution,1); AF_Stepper myStepperX(stepsPerRevolution,2); /* Structures, global variables */ struct point { float x; float y; float z; }; // Current position of plothead struct point actuatorPos; // Drawing settings, should be OK float StepInc = 1; int StepDelay = 0; int LineDelay =0; int penDelay = 50; // Motor steps to go 1 millimeter. // Use test sketch to go 100 steps. Measure the length of line. // Calculate steps per mm. Enter here. float StepsPerMillimeterX = 100.0; float StepsPerMillimeterY = 100.0; // Drawing robot limits, in mm // OK to start with. Could go up to 50 mm if calibrated well. float Xmin = 0; float Xmax = 40; float Ymin = 0; float Ymax = 40; float Zmin = 0; float Zmax = 1; float Xpos = Xmin; float Ypos = Ymin; float Zpos = Zmax; // Set to true to get debug output. boolean verbose = false; // Needs to interpret // G1 for moving // G4 P300 (wait 150ms) // M300 S30 (pen down) // M300 S50 (pen up) // Discard anything with a ( // Discard any other command! /********************** * void setup() - Initialisations ***********************/ void setup() { // Setup Serial.begin( 9600 ); penServo.attach(penServoPin); penServo.write(penZUp); delay(100); // Decrease if necessary myStepperX.setSpeed(600); myStepperY.setSpeed(600); // Set & move to initial default position // TBD // Notifications!!! Serial.println("Mini CNC Plotter alive and kicking!"); Serial.print("X range is from "); Serial.print(Xmin); Serial.print(" to "); Serial.print(Xmax); Serial.println(" mm."); Serial.print("Y range is from "); Serial.print(Ymin); Serial.print(" to "); Serial.print(Ymax); Serial.println(" mm."); } /********************** * void loop() - Main loop ***********************/ void loop() { delay(100); char line[ LINE_BUFFER_LENGTH ]; char c; int lineIndex; bool lineIsComment, lineSemiColon; lineIndex = 0; lineSemiColon = false; lineIsComment = false; while (1) { // Serial reception - Mostly from Grbl, added semicolon support while ( Serial.available()>0 ) { c = Serial.read(); if (( c == '\n') || (c == '\r') ) { // End of line reached if ( lineIndex > 0 ) { // Line is complete. Then execute! line[ lineIndex ] = '\0'; // Terminate string if (verbose) { Serial.print( "Received : "); Serial.println( line ); } processIncomingLine( line, lineIndex ); lineIndex = 0; } else { // Empty or comment line. Skip block. } lineIsComment = false; lineSemiColon = false; Serial.println("ok"); } else { if ( (lineIsComment) || (lineSemiColon) ) { // Throw away all comment characters if ( c == ')' ) lineIsComment = false; // End of comment. Resume line. } else { if ( c <= ' ' ) { // Throw away whitepace and control characters } else if ( c == '/' ) { // Block delete not supported. Ignore character. } else if ( c == '(' ) { // Enable comments flag and ignore all characters until ')' or EOL. lineIsComment = true; } else if ( c == ';' ) { lineSemiColon = true; } else if ( lineIndex >= LINE_BUFFER_LENGTH-1 ) { Serial.println( "ERROR - lineBuffer overflow" ); lineIsComment = false; lineSemiColon = false; } else if ( c >= 'a' && c <= 'z' ) { // Upcase lowercase line[ lineIndex++ ] = c-'a'+'A'; } else { line[ lineIndex++ ] = c; } } } } } } void processIncomingLine( char* line, int charNB ) { int currentIndex = 0; char buffer[ 64 ]; // Hope that 64 is enough for 1 parameter struct point newPos; newPos.x = 0.0; newPos.y = 0.0; // Needs to interpret // G1 for moving // G4 P300 (wait 150ms) // G1 X60 Y30 // G1 X30 Y50 // M300 S30 (pen down) // M300 S50 (pen up) // Discard anything with a ( // Discard any other command! while( currentIndex < charNB ) { switch ( line[ currentIndex++ ] ) { // Select command, if any case 'U': penUp(); break; case 'D': penDown(); break; case 'G': buffer[0] = line[ currentIndex++ ]; // /!\ Dirty - Only works with 2 digit commands // buffer[1] = line[ currentIndex++ ]; // buffer[2] = '\0'; buffer[1] = '\0'; switch ( atoi( buffer ) ){ // Select G command case 0: // G00 & G01 - Movement or fast movement. Same here case 1: // /!\ Dirty - Suppose that X is before Y char* indexX = strchr( line+currentIndex, 'X' ); // Get X/Y position in the string (if any) char* indexY = strchr( line+currentIndex, 'Y' ); if ( indexY <= 0 ) { newPos.x = atof( indexX + 1); newPos.y = actuatorPos.y; } else if ( indexX <= 0 ) { newPos.y = atof( indexY + 1); newPos.x = actuatorPos.x; } else { newPos.y = atof( indexY + 1); indexY = '\0'; newPos.x = atof( indexX + 1); } drawLine(newPos.x, newPos.y ); // Serial.println("ok"); actuatorPos.x = newPos.x; actuatorPos.y = newPos.y; break; } break; case 'M': buffer[0] = line[ currentIndex++ ]; // /!\ Dirty - Only works with 3 digit commands buffer[1] = line[ currentIndex++ ]; buffer[2] = line[ currentIndex++ ]; buffer[3] = '\0'; switch ( atoi( buffer ) ){ case 300: { char* indexS = strchr( line+currentIndex, 'S' ); float Spos = atof( indexS + 1); // Serial.println("ok"); if (Spos == 30) { penDown(); } if (Spos == 50) { penUp(); } break; } case 114: // M114 - Repport position Serial.print( "Absolute position : X = " ); Serial.print( actuatorPos.x ); Serial.print( " - Y = " ); Serial.println( actuatorPos.y ); break; default: Serial.print( "Command not recognized : M"); Serial.println( buffer ); } } } } /********************************* * Draw a line from (x0;y0) to (x1;y1). * Bresenham algo from https://www.marginallyclever.com/blog/2013/08/how-to-build-an-2-axis-arduino-cnc-gcode-interpreter/ * int (x1;y1) : Starting coordinates * int (x2;y2) : Ending coordinates **********************************/ void drawLine(float x1, float y1) { if (verbose) { Serial.print("fx1, fy1: "); Serial.print(x1); Serial.print(","); Serial.print(y1); Serial.println(""); } // Bring instructions within limits if (x1 >= Xmax) { x1 = Xmax; } if (x1 <= Xmin) { x1 = Xmin; } if (y1 >= Ymax) { y1 = Ymax; } if (y1 <= Ymin) { y1 = Ymin; } if (verbose) { Serial.print("Xpos, Ypos: "); Serial.print(Xpos); Serial.print(","); Serial.print(Ypos); Serial.println(""); } if (verbose) { Serial.print("x1, y1: "); Serial.print(x1); Serial.print(","); Serial.print(y1); Serial.println(""); } // Convert coordinates to steps x1 = (int)(x1*StepsPerMillimeterX); y1 = (int)(y1*StepsPerMillimeterY); float x0 = Xpos; float y0 = Ypos; // Let's find out the change for the coordinates long dx = abs(x1-x0); long dy = abs(y1-y0); int sx = x0<x1 ? StepInc : -StepInc; int sy = y0<y1 ? StepInc : -StepInc; long i; long over = 0; if (dx > dy) { for (i=0; i<dx; ++i) { myStepperX.onestep(sx,STEP); over+=dy; if (over>=dx) { over-=dx; myStepperY.onestep(sy,STEP); } delay(StepDelay); } } else { for (i=0; i<dy; ++i) { myStepperY.onestep(sy,STEP); over+=dx; if (over>=dy) { over-=dy; myStepperX.onestep(sx,STEP); } delay(StepDelay); } } if (verbose) { Serial.print("dx, dy:"); Serial.print(dx); Serial.print(","); Serial.print(dy); Serial.println(""); } if (verbose) { Serial.print("Going to ("); Serial.print(x0); Serial.print(","); Serial.print(y0); Serial.println(")"); } // Delay before any next lines are submitted delay(LineDelay); // Update the positions Xpos = x1; Ypos = y1; } // Raises pen void penUp() { penServo.write(penZUp); delay(penDelay); Zpos=Zmax; digitalWrite(15, LOW); digitalWrite(16, HIGH); if (verbose) { Serial.println("Pen up!"); } } // Lowers pen void penDown() { penServo.write(penZDown); delay(penDelay); Zpos=Zmin; digitalWrite(15, HIGH); digitalWrite(16, LOW); if (verbose) { Serial.println("Pen down."); } } Link spre comentariu
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