Load Cell Guide: Difference between revisions

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===Connecting Your Load Cell to Your Load Cell Interface===
===Connecting Your Load Cell to Your Load Cell Interface===
After selecting a load cell interface, you can easily connect your load cell to it using a 2mm screwdriver.
After selecting a load cell interface, you can easily connect your load cell to it using a 2mm screwdriver.
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<center>''Load cell connected to PhidgetBridge 4-Input</center>
<center>''Load cell connected to PhidgetBridge 4-Input</center>
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Revision as of 18:55, 17 April 2023

Introduction

Do you need to build a system that can measure weight? Using load cells and load cell interfaces from Phidgets Inc. makes this extremely simple! Watch the video below, or keep reading for more information.




Common types of strain gauge load cells.

What Is a Load Cell?

A load cell is a device that converts mechanical force into a signal that can be measured.


There are different types of load cells, such as pneumatic, hydraulic, capacitive, etc. but strain gauge load cells are the most common.





Strain Gauge Load Cells

Strain gauge load cells use a small resistive sensor called a strain gauge to convert mechanical force into an electrical signal.

There are many different types of strain gauge load cells (some can be seen in the image above). Each type of load cell is designed for a particular application, however, they all have the same basic components:

1 green.png An inflexible frame or body, generally made of aluminum or a steel alloy.
2 green.png One or more strain gauges.
3 green.png Wires for power, ground, and signals.



Singlepoint straingauge exposed.png
Strain gauges are typically covered in a protective coating. Here, the coating has been removed from a single-point load cell to expose the strain gauges underneath.


Strain Gauge Basics

A strain gauge consists of a thin metal wire that is arranged in a specific pattern and attached to a flexible, non-conductive backing material.

Strain gauge single.png
A strain gauge.


As the strain gauge experiences tensile or compressives forces, the metal wire deforms which causes the resistance of the strain gauge to change. This change in resistance causes a voltage change which can be measured. To learn more about strain gauges and how they work, visit our strain gauge primer.

Which Load Cell Should I Use?

There are many different types of strain gauge load cells to choose from. Phidgets Inc. carries the following types:


Type Description Capacity
Single-Point Used for small to medium-capacity weighing scales (e.g. kitchen scale). 50kg Singlepoint illustration.png
S-Type Used to measure tension (e.g. hanging loads), and, less commonly, compressive forces. 500kg Stype illustration.png
Button Used for weighing scales, especially where space is limited. 1000kg Button illustration.png


Single-Point Load Cells

Single-point load cells, sometimes referred to as Platform or Binocular load cells, are easy-to-use load cells that are commonly seen in small weighing scales (e.g. kitchen scale).


Form Factor

A single-point load cell with a capacity of 780g

These load cells are beam shaped and typically have two circular holes machined out of the middle (hence, 'binocular load cells'). These holes encourage bending along the measurement axis. They also have mounting holes (generally 1-2) at both ends for simple installation.

Use Cases

Single point load cells are primarily used to create platform scales, like the Weighing Scale Kit. They are ideal for this task, because they support off-axis loading. This means that users can place their object anywhere on the surface of the scale and the results will still be accurate.

Installation

Single-point load cells typically have an arrow showing which direction the load should be applied. One end of the load cell is secured to the base of the platform, while the other is secured to the top plate.

Singlepoint scale installed.jpg
A 5kg single-point load cell installed in a small weighing platform.

S-Type Load Cells

S-type load cells, sometimes referred to as Z-type or S-beam load cells, are easy-to-use load cells that allow you to measure both tensile and compressive forces.

Form Factor

A S-Type load cell with a capacity of 500kg

These load cells are S-shaped, with two mounting holes located at the top and bottom.

Use Cases

S-type load cells are primarily used to measure the weight of suspended loads, the strength/durability of wires, cables, ropes, etc., and any other tensile application. They can also be used in compression, though it is less common.

Installation

S-type load cells are generally used with eye bolts or rod end bearings which provide an easy connection point to the rest of a system.

S type eye bolt.jpg
A 100kg S-Type load cell with eye bolts attached.

Button Load Cells

Button load cells, sometimes called load buttons, are low-profile load cells that allow you to measure compressive forces.

Form Factor

A button load cell with a capacity of 50kg

These load cells are small and cylindrical. They have a small button protruding from the top where mechanical force is intended to be focused. They also have mounting holes (generally 3-4) on the bottom.

Use Cases

Button load cells are primarily used for weighing applications where space is limited. Multiple button load cells can be used together to increase weighing capacity.

Installation

The bottom of the load cell can be easily secured to a base using the mounting holes. A top plate can be added, though precise cutouts for the protruding buttons are required.

Button installed.jpg
Three 50kg button load cells installed in a weighing platform (top plate not shown).



How Do I Get Data From My Load Cell?

The output from a load cell is a very small analog voltage. Amplification is required in order to obtain useful data. Luckily, the load cell interfaces from Phidgets Inc. do this for you, and provide a clean, stable digital value to work with.

Selecting a Load Cell Interface

Phidgets Inc. offers two load cells interfaces:

DAQ1500 square.jpg 1046 square.jpg



Relevant Specifications

Wheatstone Bridge Phidget (DAQ1500_0) PhidgetBridge 4-Input (1046_0B)
Controlled By VINT USB
Load Cell Inputs 2 4
Maximum Sample Rate (One Input Used) 50Hz 122Hz
Maximum Sample Rate (All Inputs Used) 10Hz 122Hz
ADC Resolution 24 bits - 59.9nV/V 24 bits - 59.9nV/V
Avg System Cost $60USD $90USD

Connecting Your Load Cell to Your Load Cell Interface

After selecting a load cell interface, you can easily connect your load cell to it using a 2mm screwdriver.

1046 side wires.jpg
Load cell connected to PhidgetBridge 4-Input



Be sure to check the data sheet for your specific load cell before connecting.

Wire Color Function Load Cell Interface Port
Red VCC 5V
Green + +
White - -
Black GND G

How Do I Convert My Load Cell Output To Pounds, Grams, Newtons, etc.

The output from a load cell is normally reported with units of volts per volt (V/V) or milliVolt per volt (mV/V).


Bridge controlpanel 1 arr.png


The raw output from a load cell measured using the Phidget Control Panel.


In order to convert the units into something more meaningful like grams, pounds, newtons, etc. a simple calibration is required. For more information, visit our load cell calibration primer.


Bridge controlpanel 2 arr.png


The calibrated output from a load cell. Here, weight is being measured in grams.



Load Cells - Related Topics