【Baizhou Technology】Italy LAUMAS FCAX-1500KG is a load cell produced in Italy. It is a device specifically designed to measure and monitor the weight or load of an object. The sensor has a weight capacity of 1500kg and is suitable for medium weight applications. High-precision weighing technology provides stable and accurate measurement results. The sensor has a unique structure and material for durability and long life. It is manufactured with a special alloy material for excellent durability and corrosion resistance.
In addition, the Italian Laumas FCAX-1500KG load cell has an IP68 degree of protection and can be used in harsh environmental conditions. It is dust- and water-resistant and can work reliably in wet or dusty environments.
The sensor uses bridge load cell technology to adapt to a wide range of operating conditions. It also has a temperature compensation function that corrects measurement errors due to temperature changes.
The LAUMAS FCAX-1500KG load cell is compatible with a wide range of weighing systems and data acquisition devices with a variety of interface options. It can be connected to a computer or control system via an analog output, a digital output, or a communication interface.
In conclusion, the Italian LAUMAS FCAX-1500KG load cell is a load cell that is highly accurate, durable and suitable for a wide range of conditions. It is a reliable solution for a wide range of applications, including industrial production, logistics and warehousing, automotive manufacturing, and more.
LAUMAS FCAX load cell other measuring ranges
fcax-30kg
fcax-50kg
fcax-75kg
fcax-150kg
fcax-300kg
fcax-500kg
fcax-750kg
fcax-1000kg
fcax-1500kg
The LAUMASFCAX-1500KG load cell is a device used to measure the weight of an object. It uses strain gauges and electronic sensors for weight measurement.
How it works:1Sensor structure: The FCAX-1500KG sensor usually consists of an elastic element (such as a spring) and a strain gauge. When an object is applied to the sensor, the elastic element deforms, causing the resistance value of the strain gauge to change.
2.Strain gauge: A strain gauge is a metal sheet with resistance change characteristics, and its resistance value will change with the magnitude of strain (deformation).
3.Bridge circuits: Sensors typically employ bridge circuits to measure the change in resistance of strain gauges. A bridge circuit is a circuit consisting of four resistors, two of which are connected together, called an excitation resistor, and the other two resistors are connected together, called a measurement resistor. A change in the resistance of the strain gauge causes a change in the resistance value of the measured resistor, resulting in a voltage signal.
4.Signal processing: The voltage signal of the measured resistor can be converted into a gravimetric value after being amplified and filtered.
Calibration Method:1Zero calibration: Place the sensor in a weightless state and adjust the zero calibrator so that the output signal is zero.
2.Tuning calibration: An object of known weight is placed on the sensor, and the tuning calibration is performed according to the actual weight of the object and the signal value output by the sensor. Calibration can be performed according to the sensor's technical specifications and guidance in the user manual.
It is important to note that calibration is an important step to ensure that the output of the sensor is accurate and reliable, and it is recommended to refer to the sensor's instruction manual or contact the manufacturer for detailed calibration methods and guidance.