EBB Notes 1
Rachel & Mike, March 29(?)
Some functional if rough arduino code for a Parallax Ping))) module has been produced. It blinks an LED once per half second, with a larger duty cycle the closer an object is to the sensor. The Ping))) module is large and somewhat cumbersome, and appears to be quite inaccurate at distances greater than about 2-3 feet. There is a pair of MaxSonar-EZ1 modules in the Cyborg parts bin which look interesting to try as well.
Code:
/*
* Based on code found at http://arduino.cc/en/Tutorial/Ping
*/
int pin = 13;
int pingPin = 12;
int ledPin = 11;
double periodFactor = .5; // percent of one second
void setup() // run once, when the sketch starts
{
// pinMode(pin, OUTPUT); // sets the digital pin as output
Serial.begin(9600);
pinMode(ledPin, OUTPUT);
}
void loop() // run over and over again
{
long duration, inches, cm;
// The PING))) is triggered by a HIGH pulse of 2 or more microseconds.
// We give a short LOW pulse beforehand to ensure a clean HIGH pulse.
pinMode(pingPin, OUTPUT);
digitalWrite(pingPin, LOW);
delayMicroseconds(2);
digitalWrite(pingPin, HIGH);
delayMicroseconds(5);
digitalWrite(pingPin, LOW);
delayMicroseconds(2);
// The same pin is used to read the signal from the PING))): a HIGH
// pulse whose duration is the time (in microseconds) from the sending
// of the ping to the reception of its echo off of an object.
pinMode(pingPin, INPUT);
duration = pulseIn(pingPin, HIGH);
// convert the time into a distance
inches = microsecondsToInches(duration);
cm = microsecondsToCentimeters(duration);
Serial.print(inches);
Serial.print("in, ");
Serial.print(cm);
Serial.print("cm");
Serial.println();
pwm(duration);
}
void pwm(long microseconds)
{
Serial.print(microseconds);
Serial.println("ms");
long offCycle = microseconds / 18;
long onCycle = 1000 - offCycle;
digitalWrite(ledPin, HIGH);
delay(onCycle * periodFactor);
digitalWrite(ledPin, LOW);
delay(offCycle * periodFactor);
}
long microsecondsToInches(long microseconds)
{
// According to Parallax's datasheet for the PING))), there are
// 73.746 microseconds per inch (i.e. sound travels at 1130 feet per
// second). This gives the distance travelled by the ping, outbound
// and return, so we divide by 2 to get the distance of the obstacle.
// See: http://www.parallax.com/dl/docs/prod/acc/28015-PING-v1.3.pdf
return microseconds / 74 / 2;
}
long microsecondsToCentimeters(long microseconds)
{
// The speed of sound is 340 m/s or 29 microseconds per centimeter.
// The ping travels out and back, so to find the distance of the
// object we take half of the distance travelled.
return microseconds / 29 / 2;
}