Split-flap display
From Fixme.ch
Someone donated three flip flop to fixme, it would be good to make them work and display whatever we would like to.
Contents
Circuit board
Controller
8 bit micro Full datasheet : File:MC68HC705P6A-7151.pdf
T bridge
basically switch the power Full datasheet : File:DSA-60676.pdf
Manual driving
Principle
The stepper-motors can be driven directly by an Arduino powering the coils properly. The Arduino output is low-power so the motor needs to be driven in "high-torque" mode, ie. 2 coils at a time. That is to say, instead of having the magnetic field going N > E > S > W, it goes NE > SE > SW > NW.
To lower the electrical stress on the Arduino, it would be great to drive the motors with H-Bridges (or maybe T-bridge like in the original design).
Show me the code
The code is there (not pushed to any GIT):
// Roue des minutes :
// Engrenage moteur avec 4 aimants, capteur à effet Hall sur la PCB a la verticale // Il faut compter 79 passages pour faire un tour de flaps. Vérifier s'il y a une dérive. // Conclusion pour afficher le bon nombre : mapper 79*4 pas sur 62 positions (00->60 + blancs) // Tempo du moteur pas à pas #define tempo 14 #define SEC 10 #define MIN 6 #define HOR 2 unsigned int h = 0, m = 0, s = 0; unsigned int hM = 0, mM = 0, sM = 0; void setup() { // Define outputs for(int i=0; i<12; i++) pinMode(i+1, OUTPUT); Serial.begin(9600); Serial.setTimeout(30*1000); } void rot(unsigned char hms, unsigned int target) { // Demande invalide if((hms != SEC && hms != MIN && hms != HOR) || target > 60) { Serial.println("Incorrect !"); return; } // Flap 00 > 29 : numéros // Flap 30 : blanc // Flap 31 > 60 : numéros-1 // Flap 61 : blanc // Position actuelle unsigned int* current; if(hms == SEC) current = &s; else if(hms == MIN) current = &m; else current = &h; Serial.print("Position actuelle : "); Serial.println(*current); Serial.print("Target : "); Serial.println(target); // Action ! // On flip les flaps tant qu'on est pas arrivé à destination Serial.print("Action sur les pins "); Serial.print(hms+3); Serial.print(", "); Serial.print(hms+2); Serial.print(", "); Serial.print(hms+1); Serial.print(", "); Serial.println(hms); while(*current != target) { Serial.print("Position actuelle : "); int lol = *current; Serial.println(lol); for(int i = 0; i<4; i++) { // Step 5 digitalWrite(hms+3, LOW); digitalWrite(hms+2, HIGH); digitalWrite(hms+1, LOW); digitalWrite(hms, HIGH); delay(tempo); // Step 7 digitalWrite(hms+3, HIGH); digitalWrite(hms+2, LOW); digitalWrite(hms+1, LOW); digitalWrite(hms, HIGH); delay(tempo); // Step 1 digitalWrite(hms+3, HIGH); digitalWrite(hms+2, LOW); digitalWrite(hms+1, HIGH); digitalWrite(hms, LOW); delay(tempo); // Step 3 digitalWrite(hms+3, LOW); digitalWrite(hms+2, HIGH); digitalWrite(hms+1, HIGH); digitalWrite(hms, LOW); delay(tempo); } // Demi-step pour faire tomber le flap, mais pas 2 digitalWrite(hms+3, LOW); digitalWrite(hms+2, HIGH); digitalWrite(hms+1, LOW); digitalWrite(hms, LOW); delay(tempo*2); (*current)++; if(*current >= 61) *current = 0; } // Stop motor digitalWrite(hms+3, LOW); digitalWrite(hms+2, LOW); digitalWrite(hms+1, LOW); digitalWrite(hms, LOW); Serial.println("Done"); } void loop() { if (Serial.available() > 0) { unsigned char b = Serial.read(); if(b == 'h' || b == 'm' || b == 's') { int roue; if(b == 'h') roue = HOR; else if(b = 'm') roue = MIN; else roue = SEC; Serial.print("Roue selectionnee : "); Serial.println(roue); int nb = Serial.parseInt(); Serial.println(nb); rot(roue,nb); } else if(b == 'w') { Serial.println("Give me 3 values !"); h = Serial.parseInt(); m = Serial.parseInt(); s = Serial.parseInt(); } else if(b == '+') { rot(MIN,m+1); } } }