The LAUMAS FCOL-350kg load cell is a high-performance load cell that is suitable for various industrial applications and weighing needs of heavy loads. The sensor uses state-of-the-art weighing technology and offers excellent stability and accuracy. The Italian LAUMAS FCOL-350KG load cell is made of aluminum alloy material, which has good corrosion resistance and compressive resistance. Its design has been carefully optimized to ensure high-precision weighing results. In addition, the sensor has high vibration resistance and good temperature compensation, which can provide reliable weighing results in harsh working environments.
The Italian LAUMAS FCOL-350KG load cell adopts a double-shielded structure, which effectively eliminates electromagnetic interference from the outside world and improves the stability and reliability of the sensor. At the same time, it also has high overload capacity and overload capacity, which is able to work under high load conditions and maintain good weighing performance.
In addition, the Italian LAUMAS FCOL-350KG load cell has a variety of interface options that can be connected to different weighing systems and controllers. It can communicate through RS485, RS232, MODBUS and other interfaces, and supports a variety of communication protocols. This enables seamless integration with a wide range of industrial equipment and systems for real-time monitoring and data transmission.
In conclusion, the Italian LAUMAS FCOL-350KG load cell is a high-performance load cell with accurate weighing performance, good stability and reliability, and can be seamlessly integrated with various industrial equipment and systems to meet the weighing needs of different industrial applications.
LAUMAS FCOL load cell in ItalyOther capacities
fcol-20kg
fcol-50kg
fcol-100kg
fcol-200kg
fcol-350kg
fcol-500kg
The Italian LAUMAS FCOL-350KG load cell is an electronic load cell that is used to measure the weight of objects. Its working principle is based on the principle of electrical strain.
In the sensor, there is a load cell cantilever (loadcell), which is usually made of a metal elastomer. When an object is placed on the sensor, the cantilever lever of the sensor bends, causing strain on the elastomer. This strain changes the value of resistance inside the sensor.
Here's how it works: The bridge circuit in the sensor measures the resistance inside the sensor. When an object is applied to a sensor, the bridge circuit detects a change in the resistance value, which determines the weight of the object.
The calibration method is as follows:
1.First, the load cell is mounted on a device or platform that needs to measure weight.
2.Zerocalibration of the sensor. When no object is placed on the sensor, adjust the zero calibration button or knob to the point where the indicator shows zero.
3.Place an object of known weight, such as a standard weight, on the sensor and enter its weight into a calibration device or indicator.
4.Perform a spancalibration. Based on the difference between the known weight and the weight measured by the sensor, adjust the proportional calibration button or knob on the calibration device or indicator so that the display matches the known weight.
5.Repeat the above steps until the sensor is measuring accurately.
Please note that calibration methods may vary depending on the sensor model and manufacturer. It is recommended to read the relevant instruction manual or contact the manufacturer for accurate calibration guidance before use.