// hobbyprojects
// ArduinoNanoPropellerLEDAnalogClock20190403A
int LED1 = 2;
int LED2 = 3;
int LED3 = 4;
int LED4 = 5;
int LED5 = 6;
int LED6 = 7;
int LED7 = 8;
int LED8 = 9;
int LED9 = 10;
int LED10 = 11;
int LED11 = 12;
int LED12 = A1;
int LED13 = A2;
int LED14 = A3;
int LED15 = A4;
int LED16 = A5;
int sensorPin = A0;
unsigned int n,ADCvalue,propeller_posn;
unsigned long previousTime = 0;
byte hours = 12; // set hours
byte minutes = 15; // set minutes
byte seconds = 00; // set seconds
int val;
void setup()
{
pinMode(LED1,OUTPUT);
pinMode(LED2,OUTPUT);
pinMode(LED3,OUTPUT);
pinMode(LED4,OUTPUT);
pinMode(LED5,OUTPUT);
pinMode(LED6,OUTPUT);
pinMode(LED7,OUTPUT);
pinMode(LED8,OUTPUT);
pinMode(LED9,OUTPUT);
pinMode(LED10,OUTPUT);
pinMode(LED11,OUTPUT);
pinMode(LED12,OUTPUT);
pinMode(LED13,OUTPUT);
pinMode(LED14,OUTPUT);
pinMode(LED15,OUTPUT);
pinMode(LED16,OUTPUT);
pinMode(sensorPin,INPUT_PULLUP);
if(hours == 12)
hours = 0;
}
void loop()
{
val = digitalRead(sensorPin);
while (val == LOW)
{
val = digitalRead(sensorPin);
}
if (millis() >= (previousTime))
{
previousTime = previousTime + 1000;
seconds = seconds+1;
if (seconds == 60)
{
seconds = 0;
minutes = minutes+1;
}
if (minutes == 60)
{
minutes = 0;
hours = hours+1;
}
if (hours == 12)
{
hours = 0;
}
}
propeller_posn=30;
n=0;
while(n < 60)
{
drawMinuteMarker();
if ((propeller_posn==0) || (propeller_posn==5) || (propeller_posn==10) || (propeller_posn==15) || (propeller_posn==20) || (propeller_posn==25) || (propeller_posn==30) || (propeller_posn==35) || (propeller_posn==40) || (propeller_posn==45) || (propeller_posn==50) || (propeller_posn==55))
drawHourMarker();
if ((propeller_posn==0) || (propeller_posn==15) || (propeller_posn==30) || (propeller_posn==45))
drawQuarterMarker();
if((propeller_posn == hours*5) || (( propeller_posn == 0 ) && (hours == 0)))
drawHoursHand();
if(propeller_posn == minutes)
drawMinutesHand();
if(propeller_posn == seconds)
drawSecondsHand();
delayMicroseconds(140); // for LED pixel width (change the value according to motor speed. Increase for low speed, decrease for high speed motor)
displayClear();
drawInner_Circle();
delayMicroseconds(600); // for the gap between LED pixels/minutes markers (change the value according to motor speed. Increase for low speed, decrease for high speed motor)
n++;
propeller_posn++;
if(propeller_posn == 60)
propeller_posn=0;
}
val = digitalRead(sensorPin);
while (val == HIGH)
{
val = digitalRead(sensorPin);
}
}
//=========================
void displayClear()
{
digitalWrite(LED1,LOW);
digitalWrite(LED2,LOW);
digitalWrite(LED3,LOW);
digitalWrite(LED4,LOW);
digitalWrite(LED5,LOW);
digitalWrite(LED6,LOW);
digitalWrite(LED7,LOW);
digitalWrite(LED8,LOW);
digitalWrite(LED9,LOW);
digitalWrite(LED10,LOW);
digitalWrite(LED11,LOW);
digitalWrite(LED12,LOW);
digitalWrite(LED13,LOW);
digitalWrite(LED14,LOW);
digitalWrite(LED15,LOW);
digitalWrite(LED16,LOW);
}
void drawMinuteMarker()
{
digitalWrite(LED16,HIGH);
}
void drawHourMarker()
{
digitalWrite(LED15,HIGH);
digitalWrite(LED14,HIGH);
}
void drawQuarterMarker()
{
digitalWrite(LED13,HIGH);
digitalWrite(LED12,HIGH);
}
void drawHoursHand()
{
digitalWrite(LED1,HIGH);
digitalWrite(LED2,HIGH);
digitalWrite(LED3,HIGH);
digitalWrite(LED4,HIGH);
digitalWrite(LED5,HIGH);
digitalWrite(LED6,HIGH);
digitalWrite(LED7,HIGH);
}
void drawMinutesHand()
{
digitalWrite(LED1,HIGH);
digitalWrite(LED2,HIGH);
digitalWrite(LED3,HIGH);
digitalWrite(LED4,HIGH);
digitalWrite(LED5,HIGH);
digitalWrite(LED6,HIGH);
digitalWrite(LED7,HIGH);
digitalWrite(LED8,HIGH);
digitalWrite(LED9,HIGH);
}
void drawSecondsHand()
{
digitalWrite(LED1,HIGH);
digitalWrite(LED2,HIGH);
digitalWrite(LED3,HIGH);
digitalWrite(LED4,HIGH);
digitalWrite(LED5,HIGH);
digitalWrite(LED6,HIGH);
digitalWrite(LED7,HIGH);
digitalWrite(LED8,HIGH);
digitalWrite(LED9,HIGH);
digitalWrite(LED10,HIGH);
digitalWrite(LED11,HIGH);
}
void drawInner_Circle()
{
digitalWrite(LED1,HIGH);
delayMicroseconds(30);
digitalWrite(LED1,LOW);
}
Comments