void setLEDs()
{
ledPWM.analogWrite(redLED, Red);
ledPWM.analogWrite(greenLED, Green);
ledPWM.analogWrite(blueLED, Blue);
Serial.println("----------------");
Serial.println(Red);
Serial.println(Green);
Serial.println(Blue);
}
void init() {
Serial.begin(SERIAL_BAUD_RATE); // 115200 by default
Serial.systemDebugOutput(true); // Enable debug output to serial
// WIFI not needed for demo. So disabling WIFI.
WifiStation.enable(false);
WifiAccessPoint.enable(false);
// Setting PWM values on 8 different pins
HW_pwm.analogWrite(4, 22222);
HW_pwm.analogWrite(5, 11111);
HW_pwm.analogWrite(0, 22222);
HW_pwm.analogWrite(2, 11111);
HW_pwm.analogWrite(15, 22222);
HW_pwm.analogWrite(13, 11111);
HW_pwm.analogWrite(12, 22222);
HW_pwm.analogWrite(14, 11111);
debugf("PWM output set on all 8 Pins. Kindly check...");
debugf("Now Pin 2 will go from 0 to VCC to 0 in cycles.");
procTimer.initializeMs(100, doPWM).start();
}
void doPWM() {
if (countUp == true) {
i += inc;
if (i >= 22222) {
i = 22222;
countUp = false;
}
} else {
i -= inc;
if (i <= 0) {
i = 0;
countUp = true;
}
}
HW_pwm.analogWrite(2, i);
}
