Programming Reference/Librarys
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analogWriteResolution() is an extension of the Analog API for the Arduino Due.
analogWriteResolution() sets the resolution of the analogWrite() function. It defaults to 8 bits (values between 0-255) for backward compatibility with AVR based boards.
The Due has the following hardare capabilities: * 12 pins with 8-bit PWM (as the other AVR based boards) * 2 pins with 12-bit DAC (Digital-to-Analog Converter)
By setting the write resolution to 12, you can use analogWrite() with values between 0 and 4095 to exploit the full DAC resolution or to set the PWM signal without rolling over.
analogWriteResolution(bits)
bits: determines the resolution (in bits) of the values used in the analogWrite() function. The value can range from 1 to 32. If you choose a resolution higher or lower than your board's hardware capabilities, the value used in analogWrite() will be either truncated if it's too high or padded with zeros if it's too low. See the note below for details.
None.
If you set the analogWriteResolution() value to a value higher than your board's capabilities, the Arduino will discard the extra bits. For example: using the Due with analogWriteResolution(16) on a 12-bit DAC pin, only the first 12 bits of the values passed to analogWrite() will be used and the last 4 bits will be discarded.
If you set the analogWriteResolution() value to a value lower than your board's capabilities, the missing bits will be padded with zeros to fill the hardware required size. For example: using the Due with analogWriteResolution(8) on a 12-bit DAC pin, the Arduino will add 4 zero bits to the 8-bit value used in analogWrite() to obtain the 12 bits required.
void setup(){ // open a serial connection Serial.begin(9600); // make our digital pin an output pinMode(11, OUTPUT); pinMode(12, OUTPUT); pinMode(13, OUTPUT); } void loop(){ // read the input on A0 and map it to a PWM pin // with an attached LED int sensorVal = analogRead(A0); Serial.print("Analog Read) : "); Serial.print(sensorVal); // the default PWM resolution analogWriteResolution(8); analogWrite(11, map(sensorVal, 0, 1023, 0 ,255)); Serial.print(" , 8-bit PWM value : "); Serial.print(map(sensorVal, 0, 1023, 0 ,255)); // change the PWM resolution to 12 bits // the full 12 bit resolution is only supported // on the Due analogWriteResolution(12); analogWrite(12, map(sensorVal, 0, 1023, 0, 4095)); Serial.print(" , 12-bit PWM value : "); Serial.print(map(sensorVal, 0, 1023, 0, 4095)); // change the PWM resolution to 4 bits analogWriteResolution(4); analogWrite(13, map(sensorVal, 0, 1023, 0, 127)); Serial.print(", 4-bit PWM value : "); Serial.println(map(sensorVal, 0, 1023, 0, 127)); delay(5); }
* analogWrite * analogRead * map Source: arduino.cc