High-precision measurement: The use of precision resistance strain gauge technology, combined with advanced signal processing algorithms, to ensure that in the range of 100kg to 5t, the measurement accuracy is stable at ±0.2%, providing accurate data support for various weighing applications.Cantilever beam structure design: The unique cantilever beam structure allows...

High precision measurement: Using precision resistance strain gauge technology, combined with advanced signal processing algorithms, the measurement accuracy is stable at ±0.2%, providing accurate data support for various weighing applications.Cantilever beam structure design: The unique cantilever beam structure allows the sensor to effectively distribute stress when subjected to vertical loads, improving measurement...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

The ring force sensor adopts the spoke type elastic structure and shear stress principle, which has the core advantages of low profile, anti-biased load, high precision and high strength. Its range covers a wide range (50kg to 5T), suitable for a variety of industrial scenarios, suitable for tensile force, pressure...

The ring force sensor adopts the spoke type elastic structure and shear stress principle, which has the core advantages of low profile, anti-biased load, high precision and high strength. Its range covers a wide range (50kg to 5T), suitable for a variety of industrial scenarios, suitable for tensile force, pressure...

Chelley Multi-Axis Force Sensors: Precision 3D Force Sensing for Robotic Arm Applications Chelley Sensors specializes in high-precision multi-axis force sensors, including our advanced 3D force/torque sensors, engineered to meet the rigorous demands of robotic arm testing and integration. Our sensors provide critical force and torque feedback in all three spatial...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

The foil load cell is designed with high-precision foil strain technology for excellent long-term stability and resistance to mechanical fatigue. Its measuring range covers 1kg to 250kg, suitable for electronic batching systems, weighers, storage scales and industrial measurement and control fields, to provide accurate and reliable solutions for force and...

Output sensitivity：2.0±0.2 mV/VNon-linearity：±0.03~±0.05 %F·SLag error：±0.03 %F·SRepeatability：±0.03 %F·SCreep：±0.03 %F·SZero temperature coefficient：±0.05 %F·S/10℃Sensitivity temperature coefficient：±0.05 %F·S/10℃Input resistance：400±6ΩSafe overload：150 %F·SInsulation resistance：≥2000M  ΩIncentive voltage：9V～12VProtection class：IP65Material：Aluminium alloyCable：φ3×140cmOperating temperature：-20℃~+70℃

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

The miniature load sensor adopts flat diaphragm integrated structure and small size, which is suitable for mobile phone key touch test, industrial assembly and other space-limited scenes. The elastomer is made of aero-grade stainless steel with high-precision strain gauges to ensure measurement accuracy and long-term stability. The hex nut waterproof...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

Designed for industrial automation scenarios, the cantilever beam tension sensor uses stainless steel elastomechanism and alloy steel body construction, with high precision measurement (range 0-1000N) and excellent fatigue resistance, supporting 150% safe overload. Its low thermal drift and IP66 waterproof design are suitable for extreme environments such as high temperature,...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

Output sensitivity：2.0±0.2 mV/VNon-linearity：±0.03~±0.05 %F·SLag error：±0.03 %F·SRepeatability：±0.03 %F·SCreep：±0.03 %F·SZero temperature coefficient：±0.05 %F·S/10℃Sensitivity temperature coefficient：±0.05 %F·S/10℃Input resistance：400±6ΩSafe overload：150 %F·SInsulation resistance：≥2000M  ΩIncentive voltage：9V～12VProtection class：IP65Material：Aluminium alloyCable：φ3×140cmOperating temperature：-20℃~+70℃

High precision measurement: The use of unique sensing elements and signal processing technology to ensure that the measurement data is accurate and reliable to meet the needs of high precision weighing.  Strong stability: Optimized structural design and high-quality materials ensure the stability of the sensor in various environments, and long-term...

Square S-shaped structure, suitable for tensile and compression bidirectional measurement, rated load covering 2 tons to 5 tons, compatible with multi-range selection and non-standard customization. The sensor core is made of alloy steel elastomer, which has high fatigue resistance and hardenability. Equipped with high-precision strain gauge, excellent thermal stability, can...