I'm trying to create a distance measuring device to measure the salt levels of a water softener within a home. I'm a software engineer by trade but am new to learning the electronic side of hardware.

It seems like everything should work, I've read quite a bit of guides on how to measure distance with the HC-SR04, but it seems that each recording I get is different which is odd given that the distance sensor is sitting face down on a wooden table. Should it not be reading 0 each time or something really close to it?

Below you will see a screenshot of the python results. Note that the results where it indicates that it returned a large number, those numbers were EXTREMELY large. Typically 3,000 and up to 120,000. Is it possible that something is going on with the GPIO pins themselves?

enter image description here

I might mention that my HC-SR04 is wired directly to the GPIO. My ground is grounded, VCC is to 5v, Echo has a 1k resistor on it and is on BCM22, and my Trigger is on BCM17.

Here is a picture of the HC-SR04 on the tabletop.

enter image description here

This is what my python file consists of.

import RPi.GPIO as GPIO
import os, signal
from time import time, sleep

while True:


        GPIO.output(17, GPIO.LOW)


        GPIO.output(17, GPIO.HIGH)


        GPIO.output(17, GPIO.LOW)

        while GPIO.input(22) == GPIO.LOW:
                pulse_start = time()

        while GPIO.input(22) == GPIO.HIGH:
                pulse_end = time()

        pulse_duration = pulse_end - pulse_start

        distance = pulse_duration * 17160.5
        distance = round(distance, 2)

        if (distance > 4):
                print("Distance recorded a really large number, something isn't right. Restarting...")

Any and all help on this would be appreciated. If I've done something wrong, I'll be the first to admit to it, but please do provide helpful feedback. I would prefer to NOT use a breadboard as space is limited.

  • Getting values that large means that the output pulse triggered for over six seconds. Can you use an oscilloscope to verify if the sensor is actually doing that or if your code just isn't running fast enough and is missing parts of the sensor's output pulses? – Blender Mar 9 at 3:19
  • @Blender, Unfortunately I do not have an oscilloscope. As I mentioned, I am very new to this side of things. Any other recommendations? Should my initial sleep be longer than .1? Maybe .5 or so? – Quinton Chester Mar 9 at 3:24
  • The Raspberry Pi's GPIO pins are 3.3V, yet this sensor is 5V. Your sensor may not be reliably picking up your initial trigger pulse because the voltage isn't high enough, and you might damage the GPIO pins by connecting them to a 5V source. – Blender Mar 9 at 3:37
  • @Blender, the power is 5v, the ground is fine, the echo has a 1k resistor on it thus dropping it from 5v. The out from the GPIO is enough to trigger the ultrasonic sensor, so it should be fine as well. – Quinton Chester Mar 9 at 3:47
  • The datasheet states that the minimum range is 2cm. Does your sensor work properly if you don't place it face down on a table? – Blender Mar 9 at 3:57

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