bikecpu/Bike_Computer
Arctic Code 32a6a664ba Bike_Computer-prod.ino
This is the file that you would want to run in your "production environment" IE, after testing and the device has been mounted to your bike
2015-02-01 20:18:35 -06:00

106 lines
2.9 KiB
Plaintext

/* Bike Computer V1
Provides controls to basic functions on a bike, such as turning on and off lights,
Measuring distance traveled, average speed, and logs to a microSD card.
Future versions will also be able to communicate to other
microcontrollers through the serial interface.
Version 1 (This version) will be responsible for detecting ambiant light and ramping
up/down the front and rear LED brightness once light levels reach a certain level.
Other responsibilities will be blinking pairs of LEDs (front and back) on either side
of the bike to indicate turning.
*/
// D4 and D5 are reserved for I2C
// Headlight
const int ambientIn = A0; // Analog input pin that the potentiometer is attached to
const int headlight = 3; // Analog output pin that the LED is attached to
const int incrBy = 5; // Amount to increase or decrease LED brightness by
int sensorValue = 0; // value read from the pot
int outputValue = 0; // value output to the PWM (analog out)
// Blinkers
const int lBnkSw = A1; // Left Blinker switch
const int rBnkSw = A2; // Right Blinker switch
const int lBnk = 6; // Left Blinker
const int rBnk = 7; // Right Blinker
const int bnkSpeed = 500; // in ms, 500 = twice a second
int lBnkSt = LOW;
int rBnkSt = LOW;
int lBnkSwSt = 0;
int rBnkSwSt = 0;
unsigned long previousMillis = 0;
void setup() {
// Set out outputs
pinMode(headlight, OUTPUT);
pinMode(lBnk, OUTPUT);
pinMode(rBnk, OUTPUT);
// Set our inputs
pinMode(ambientIn, INPUT);
pinMode(lBnkSw, INPUT);
pinMode(rBnkSw, INPUT);
}
void headLight(){ // Main function for determining whether or not to ramp up or ramp down the headlight and taillight. Uses ambient light sensor for that
sensorValue = analogRead(ambientIn);
if(sensorValue <= 45 && outputValue <= 250){
outputValue = outputValue + incrBy;
}
if(sensorValue >= 50 && outputValue > 0){
outputValue = outputValue - incrBy;
}
analogWrite(headlight, outputValue);
}
void blinker(){ // Controls the blinkers
unsigned long currentMillis = millis();
// Get info from switches
lBnkSwSt = digitalRead(lBnkSw);
rBnkSwSt = digitalRead(rBnkSw);
// Automatically turn off LEDs if switch is off
if(lBnkSwSt == LOW){ digitalWrite(lBnk, LOW); }
if(rBnkSwSt == LOW){ digitalWrite(rBnk, LOW); }
if(lBnkSwSt == HIGH){ // Test if left blinker switch is on
if(currentMillis - previousMillis >= bnkSpeed){
previousMillis = currentMillis;
if(lBnkSt == LOW)
lBnkSt = HIGH;
else
lBnkSt = LOW;
digitalWrite(lBnk, lBnkSt); // Begin blinking
}
}
if(rBnkSwSt == HIGH){ // Test if right blinker is on
if(currentMillis - previousMillis >= bnkSpeed){
previousMillis = currentMillis;
if(rBnkSt == LOW)
rBnkSt = HIGH;
else
rBnkSt = LOW;
digitalWrite(rBnk, rBnkSt); // Begin blinking
}
}
}
void loop() {
headLight();
blinker();
}