This Instructable describes how to make a weighing scale using readily available off the shelf parts.
Materials needed:
The wiring diagram is made assuming the load cell is constructed like this picture.
To make sure you get it right, be sure to figure out which two terminals on the load cells have the highest resistance between them (E.g. Black and White, to match the schematic), wire them in a big color matching loop, like B-B W-W B-B W-W and then excite (E+/E-) two opposite center taps (R) and sense (A+/A-) on the other pair of center taps.
This page on Sackexchange has even better information: https://arduino.stackexchange.com/questions/11946/how-to-get-weight-data-from-glass-electronic-bathroom-scale-sensors/18698#18698
See the wiring diagram for how to connect the load cells, HX711, and Arduino.
Some of the load cell wires are connected together to form what is called a Wheatstone bridge arrangement. This can get a little confusing. A good option for connecting all the load cells in a clean, easy to understand way is the SparkFun load cell combinator board - https://www.sparkfun.com/products/13878
This arrangement allows the loads on all of the different load cell sensors to be combined and measured at once.
The HX711 library is available here: https://github.com/bogde/HX711
See this link on the Arduino website for instructions on how to add the library to your Arduino IDE: https://www.arduino.cc/en/Guide/Libraries
Sparkfun has great Arduino programs to run the scale. The most up to date versions are available on GitHub and reprinted below: https://github.com/sparkfun/HX711-Load-Cell-Amplifier
The first software step is to determine calibration factors for the scale. To do this, run this code:
/* Example using the SparkFun HX711 breakout board with a scale By: Nathan Seidle SparkFun Electronics Date: November 19th, 2014 License: This code is public domain but you buy me a beer if you use this and we meet someday (Beerware license). This is the calibration sketch. Use it to determine the calibration_factor that the main example uses. It also outputs the zero_factor useful for projects that have a permanent mass on the scale in between power cycles. Setup your scale and start the sketch WITHOUT a weight on the scale Once readings are displayed place the weight on the scale Press +/- or a/z to adjust the calibration_factor until the output readings match the known weight Use this calibration_factor on the example sketch This example assumes pounds (lbs). If you prefer kilograms, change the Serial.print(" lbs"); line to kg. The calibration factor will be significantly different but it will be linearly related to lbs (1 lbs = 0.453592 kg). Your calibration factor may be very positive or very negative. It all depends on the setup of your scale system and the direction the sensors deflect from zero state This example code uses bogde's excellent library:"https://github.com/bogde/HX711" bogde's library is released under a GNU GENERAL PUBLIC LICENSE Arduino pin 2 -> HX711 CLK 3 -> DOUT 5V -> VCC GND -> GND Most any pin on the Arduino Uno will be compatible with DOUT/CLK. The HX711 board can be powered from 2.7V to 5V so the Arduino 5V power should be fine. */ #include "HX711.h" #define DOUT 3 #define CLK 2 HX711 scale; float calibration_factor = -7050; //-7050 worked for my 440lb max scale setup void setup() { Serial.begin(9600); Serial.println("HX711 calibration sketch"); Serial.println("Remove all weight from scale"); Serial.println("After readings begin, place known weight on scale"); Serial.println("Press + or a to increase calibration factor"); Serial.println("Press - or z to decrease calibration factor"); scale.begin(DOUT, CLK); scale.set_scale(); scale.tare(); //Reset the scale to 0 long zero_factor = scale.read_average(); //Get a baseline reading Serial.print("Zero factor: "); //This can be used to remove the need to tare the scale. Useful in permanent scale projects. Serial.println(zero_factor); } void loop() { scale.set_scale(calibration_factor); //Adjust to this calibration factor Serial.print("Reading: "); Serial.print(scale.get_units(), 1); Serial.print(" lbs"); //Change this to kg and re-adjust the calibration factor if you follow SI units like a sane person Serial.print(" calibration_factor: "); Serial.print(calibration_factor); Serial.println(); if(Serial.available()) { char temp = Serial.read(); if(temp == '+' || temp == 'a') calibration_factor += 10; else if(temp == '-' || temp == 'z') calibration_factor -= 10; } }
After calibrating the scale, you can run this sample program, then hack it up for your own purposes:
/* Example using the SparkFun HX711 breakout board with a scale By: Nathan Seidle SparkFun Electronics Date: November 19th, 2014 License: This code is public domain but you buy me a beer if you use this and we meet someday (Beerware license). This example demonstrates basic scale output. See the calibration sketch to get the calibration_factor for your specific load cell setup. This example code uses bogde's excellent library:"https://github.com/bogde/HX711" bogde's library is released under a GNU GENERAL PUBLIC LICENSE The HX711 does one thing well: read load cells. The breakout board is compatible with any wheat-stone bridge based load cell which should allow a user to measure everything from a few grams to tens of tons. Arduino pin 2 -> HX711 CLK 3 -> DAT 5V -> VCC GND -> GND The HX711 board can be powered from 2.7V to 5V so the Arduino 5V power should be fine. */ #include "HX711.h" #define calibration_factor -7050.0 //This value is obtained using the SparkFun_HX711_Calibration sketch #define DOUT 3 #define CLK 2 HX711 scale; void setup() { Serial.begin(9600); Serial.println("HX711 scale demo"); scale.begin(DOUT, CLK); scale.set_scale(calibration_factor); //This value is obtained by using the SparkFun_HX711_Calibration sketch scale.tare(); //Assuming there is no weight on the scale at start up, reset the scale to 0 Serial.println("Readings:"); } void loop() { Serial.print("Reading: "); Serial.print(scale.get_units(), 1); //scale.get_units() returns a float Serial.print(" lbs"); //You can change this to kg but you'll need to refactor the calibration_factor Serial.println(); }