Raspberry Pi and Sensors
In this activity, we are going to integrate a HC-SR04 Ultrasonic Module Distance Measuring Sensor to measure distance. Modern self-driving cars can use ultrasonic in conjunction with other sensors which may include radar, cameras, GPS and potentially LIDAR. In some cases, ultrasonic sensors can be more reliably that other proximity sensor for detecting movement in an area, such as the presence of a person in a room.
Note, this activity was designed based on the guide here
Lets get started by referring to the Raspberry Pi pinout. Then, carefully examine the circuit diagram that we will be using below.
Finally, examine the picture, of my SR04 wired up, below to confirm your understanding. You may want to click on ti to get a high res version. Note that to reduce the number of resistors we were required to purchase, I have used 2 x 1k Resistors rather than a single 1k resistor.
Please read here for a more thorough description of the electronics used in this activity.
Put simply, ultrasound relies on sound waves, so picture a speaker, hitting a surface and reflecting back and being received by a microphone. The sounds are not audible to us as they are a higher frequency than we can hear.
These ultrasound sensors will measure the time duration between when the ultrasound signal is sent out, and when it is received back. Working out the distance of the object from the sensor will require us to understand the speed of sound.
The speed of sound is 343m per second. Now the unit we are using is cm so let's multiply 343 by 100 to get to cm, so 34300. Now, the signal we will send out will need to hit a surface and bounce back so to prevent the distances from appearing twice as far, lets divide 34300 by 2 to get
#!/usr/bin/python3 import RPi.GPIO as GPIO import time GPIO.setmode(GPIO.BCM) TRIG = 23 ECHO = 24 print("Distance Measurement In Progress") GPIO.setup(TRIG,GPIO.OUT) GPIO.setup(ECHO,GPIO.IN) GPIO.output(TRIG, False) print("Waiting For Sensor To Settle") time.sleep(2) GPIO.output(TRIG, True) time.sleep(0.00001) GPIO.output(TRIG, False) while GPIO.input(ECHO)==0: pulse_start = time.time() while GPIO.input(ECHO)==1: pulse_end = time.time() pulse_duration = pulse_end - pulse_start distance = pulse_duration * 17150 distance = round(distance, 2) print("Distance:",distance,"cm") GPIO.cleanup()