Within the diverse technology segment of the Load Cell field, Strain Gauge Load Cells currently command the largest share of the revenue and usage volume. These devices operate on the principle of piezo-resistivity: a strain gauge, a fine grid of conductive material, is bonded to a metallic spring element. When an external force is applied to the load cell body, the spring element deflects...
The Load Cell field is functionally segmented by the type of force measured and the physical design best suited for that application, with Compression Load Cells and Shear Beam Load Cells being two of the most popular and high-volume product categories. Compression cells are designed to measure forces pushing down on them; they are robust, highly durable, and capable of handling extremely high...
The backbone of most modern weighing and force measurement applications in industrial automation is the strain gauge load cell. This technology operates on a simple, yet highly precise, electromechanical principle: converting mechanical force into a measurable electrical signal. The core component is a metal body, or spring element, that is designed to deform slightly, typically less than 1...
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