CEB Press/Manufacturing Instructions/Control Source Code v1.01

// State Machine for CEB Press // Open Source Ecology / Factor-E Farm // Benjamin Gatti - 10-5-2009 // This code is provided free to use and modify under the GPL

int State = 0; float TFactor = .6; boolean Run = 1;

int TD = 3000; int TL = 250; int TC = 660; int TP = 5000; int TR = 120; int TO = 2000; int TU = 600; int TE = 500;
 * 1) define STATEMIN 1
 * 2) define STATEDOWN 1 //Drop the press all the way down
 * 1) define STATELOAD 2 //Wait/Jiggle for chamber to fill
 * 1) define STATECLOSE 3 //Move Drawer to closed position - (Move for TC millis)
 * 1) define STATEPRESS 4  //Raise the press
 * 1) define STATERELEASE 5  //Drop the Press slightly (TR millis)
 * 1) define STATEOUT 6  //Move Drawer to open position - fully Out
 * 1) define STATEUP 7  //Raise the press all the way Up - lifting the Brick above the eject trough
 * 1) define STATEEJECT 8  //Move Drawer - full In
 * 1) define STATEMAX STATEEJECT

int solPressUp = 5; int solPressDown = 6; int solDrawerIn = 10; int solDrawerOut = 11; int Timer = 0; //clock for current state int ledPin = 13;               // LED connected to digital pin 13

void setup                   // run once, when the sketch starts { shutdown; pinMode(ledPin, OUTPUT);     // sets the digital pin as output pinMode(solPressUp, OUTPUT);     // sets the digital pin as output pinMode(solPressDown, OUTPUT);     // sets the digital pin as output pinMode(solDrawerIn, OUTPUT);     // sets the digital pin as output pinMode(solDrawerOut, OUTPUT);     // sets the digital pin as output

Run = 1; Serial.begin (19200); Serial.println("Started"); State = STATEMIN; shutdown; Timer = 100; } void shutdown{ digitalWrite(solPressUp,LOW); digitalWrite(solPressDown,LOW); digitalWrite(solDrawerIn,LOW); digitalWrite(solDrawerOut,LOW); }

void Transition { shutdown; // Serial.writeln (State,DEC) switch (State)   { case STATEDOWN: //Drop the press all the way down {     Timer = TD * TFactor; digitalWrite(solPressDown,HIGH); Serial.println("Down"); break; } case STATELOAD: //Wait/Jiggle for chamber to fill {     Timer = TL * TFactor; Serial.println("Load"); break; } case STATECLOSE:  //Move Drawer to closed position - (Move for TC millis) {     Timer = TC * TFactor; digitalWrite(solDrawerIn,HIGH); Serial.println("Close"); break; } case STATEPRESS: //Raise the press {     Timer = TP * TFactor; digitalWrite(solPressUp,HIGH); Serial.println("Press"); break; } case STATERELEASE: //Drop the Press slightly (TR millis) {     Timer = TR * TFactor; digitalWrite(solPressDown,HIGH); Serial.println("Release"); break; } case STATEOUT:   //Move Drawer to open position - fully Out {     Timer = TO * TFactor; digitalWrite(solDrawerOut,HIGH); Serial.println("Out"); break; } case STATEUP:  //Raise the press all the way Up - lifting the Brick above the eject trough {     Timer = TU * TFactor; digitalWrite(solPressUp,HIGH); Serial.println("Up"); break; } case STATEEJECT:   //Move Drawer - full In    { Timer = TE * TFactor; digitalWrite(solDrawerIn,HIGH); Serial.println("Eject"); break; } default: Run =0; Serial.println("Error on State Case Shut Down"); break; } }

void loop                    // run over and over again { if(Run==1) {   if (Timer>0){ delay(1); Timer--; }   else {     State++; if (State > STATEMAX) { State=STATEMIN; }     Transition; } }  else {   digitalWrite(solPressUp,LOW); digitalWrite(solPressDown,LOW); digitalWrite(solDrawerIn,LOW); digitalWrite(solDrawerOut,LOW); }

// digitalWrite(ledPin, HIGH);   // sets the LED on  //  digitalWrite(Chnl0, HIGH);   // sets the LED on  //  delay(500);                  // waits for a second // digitalWrite(ledPin, LOW);   // sets the LED on  //  digitalWrite(Chnl0, LOW);   // sets the LED on  //  delay(500);                  // waits for a second

}