The FCAL-150KG from LAUMAS is a high-precision load cell designed for weight measurement and control applications in the industrial field. The sensor uses advanced pressure-sensing technology to accurately measure the weight of an object in real-time. With a rated load capacity of 150kg, the Italian LAUMAS FCAL-150kg load cell can measure in a wide range of weights with high accuracy and stability. The sensor has a measurement accuracy of 002%FS for high measurement accuracy even under extreme conditions, such as temperature and humidity changes.
The sensor adopts a biaxial heavy load measurement design, which can effectively resist the interference of external forces and ensure the accuracy of the measurement results. At the same time, it also has high linearity and low creep effect, which allows it to maintain stable performance over long periods of use.
The FCAL-150KG sensor is made of stainless steel, which has good durability and corrosion resistance. It also has an IP68 rating for the ability to work in harsh working environments such as moisture, corrosion, and dust.
In addition, the sensor has a variety of communication interface options, such as RS485, RS232 and Modbus, which can easily exchange and control data with other devices. It also offers a variety of calibration and correction options to suit different application needs.
All in all, the FCAL-150KG from LAUMAS is a high-precision, stable and durable load cell for weight measurement and control applications in a wide range of industrial sectors.
Other capacities of the Italian laumasfcal load cell.
fcal-50kg
fcal-75kg
fcal-150kg
fcal-300kg
The LAUMASFCAL-150KG load cell is a sensor used to measure the weight of objects. It uses strain gauge technology to calculate the weight of an object by measuring its strain exerted on the sensor.
Here's how the sensor works:
1.Strain gauges are installed on the metal elastic beams of the sensor. Strain gauges generate strain with the force exerted by the object on the sensor.
2.When an object is applied to the sensor, the strain gauge undergoes a slight deformation. This deformation can be measured by the change in resistance.
3.The circuitry inside the sensor converts the change in resistance into a corresponding voltage signal.
4.By measuring the magnitude of the voltage signal, the weight of the object can be calculated.
The calibration method is as follows:
1.First, the sensor is mounted on an object of known weight, such as a standard weight.
2.At a known weight, the voltage signal output by the sensor is recorded.
3.Using this known weight and the corresponding voltage signal, a calibration curve or equation is established.
4.In practice, the weight of an object can be calculated based on a calibration curve or equation by measuring the voltage signal output by the sensor.
It is important to note that the calibration process should be performed prior to the installation and use of the sensor, and it should be checked and recalibrated regularly to ensure accuracy. In addition, when installing the sensor, care should also be taken to avoid external interference and uneven application of force to ensure the accuracy of the measurement results.