// by Desta Courtney      www.usLEDsupply.com

int BluePin = 9;                   // Digital Pin 9 Connected to B on Amp
int GreenPin = 10;                 // Digital Pin 10 Connected to G on Amp
int RedPin = 11;                   // Digital Pin 11 Connected to R on Amp

int a = 1200;     // Blue on Time
int b = 0;
int c = 1200;     // Green on Time
int d = 0;
int e = 1200;     // Red on Time
int f = 0;
int g = 1200;     // Yellow on Time
int h = 0;
int i = 1200;     // Light Blue on Time
int j = 0;
int k = 1200;     // Puple on Time
int l = 0;
int x = 240;     // Sets On Level 0 = 100% (Lower Number will be brighter)
int y = 255;     // Sets Off Level 255 = 0% (Higher Number will be dimmer)


void setup()
{
  pinMode(BluePin, OUTPUT);      // sets the digital pin as output
  pinMode(GreenPin, OUTPUT);      // sets the digital pin as output
  pinMode(RedPin, OUTPUT);      // sets the digital pin as output
  analogWrite(BluePin, y);
  analogWrite(GreenPin, y);
  analogWrite(RedPin, y);
  
}

void loop()
{
    analogWrite(BluePin, x);
    delay(a);
    analogWrite(BluePin, y);
     
    delay(b);  
    
    analogWrite(GreenPin, x);
    delay(c);
    analogWrite(GreenPin, y);
    
    delay(d);
    
    analogWrite(RedPin, x);
    delay(e);
    analogWrite(RedPin, y);
    
    delay(f);
    
    analogWrite(BluePin, x);
    analogWrite(GreenPin, x);
    delay(g);
    analogWrite(BluePin, y);
    analogWrite(GreenPin, y);
    delay(h);
    
    analogWrite(RedPin, x);
    analogWrite(GreenPin, x);
    delay(i);
    analogWrite(RedPin, y);
    analogWrite(GreenPin, y);
    delay(j);
    
    analogWrite(BluePin, x);
    analogWrite(RedPin, x);
    delay(k);
    analogWrite(BluePin, y);
    analogWrite(RedPin, y);
    delay(l);
    

}