Technica presents the T710 Load Cell Sensor

The T710 is a Single-Mode Fiber (SMF) based Fiber Bragg Grating (FBG) Load Cell Sensor that is self-temperature compensated for use in environments from -55°C to +200°C.

Ready for direct mounting and exhibiting excellent wavelength to load linearity. Self-temperature compensated. Calibration service available upon request. The full-scale (FS) accuracy and precision specifications take into account any hysteresis, non-linearities, and the repeatability of the sensor. The T710 sensor handling and installation is fast, easy and intuitive. Delivers the advantages inherent to FBG based sensors. Immune to lightning and electromagnetic interference (EMI). The T710 series Load Cell Sensors are fabricated using licensed and proprietary state-of-the-art laser manufacturing technologies.

Key Features

Small Size: The truly compact, miniature envelope of the T710 is engineered for high-performance sensing in harsh and space-constrained environments.

High Accuracy. Available in 2lb, 5lb, 10lb, 25lb, and 50lb capacities, this sensor delivers high-accuracy measurements suitable for a wide range of applications. It features exceptional performance with a non-linearity of less than 0.5% R.O., ensuring consistent and precise readings under varying load conditions. Ideal for both laboratory and industrial environments, its robust design supports repeatability and reliability over extended use.

High Temperature Rating. Engineered to perform reliably in harsh environments, the T710 boasts a high operating temperature rating of up to 200°C, making it ideal for demanding industrial, aerospace, and automotive applications. It offers outstanding thermal stability with temperature shift in zero and span both maintained below 0.005% of Rated Output per °C (R.O./°C). This ensures exceptional measurement consistency, even under rapid or sustained temperature fluctuations.

Precision Design. The T710 Load Cell includes M2 center mounting provisions that enable secure and stable installation. Despite its small footprint, the housing supports exceptional signal integrity and mechanical durability, making it ideal for embedded applications where both size and sensing performance are critical. Well suited for projects in harsh environments and can be daisy- chained for measuring multiple loads.