LAUMAS AZLI-200KG is a load cell made in Italy. With high accuracy and high performance, the sensor is suitable for a wide range of industrial applications and weighing needs. The LAUMAS AZLI-200KG load cell in Italy uses advanced strain gauge technology to provide accurate and reliable weighing data. It has a maximum weighing range of 200kg and is able to meet a wide range of weighing requirements.
The structure of the sensor is robust and durable, made of stainless steel material, which has good corrosion resistance and shock resistance. This makes the LAUMAS AZLI-200KG load cell suitable for a wide range of harsh working environments and application scenarios.
The Italian LAUMAS AZLI-200kg load cell is equipped with high-precision electronics that can measure and transmit weighing data in real time. It also offers a variety of interface options, including analog and digital outputs, for easy integration with a variety of control systems.
In addition, the Italian LAUMAS AZLI-200KG load cell also has an automatic temperature compensation function to ensure accuracy at different temperatures. It also has overload protection and automatic calibration to ensure the reliability and stability of the sensor.
In conclusion, the LAUMAS AZLI-200KG load cell is a reliable and accurate load cell for a wide range of industrial applications and weighing needs. Its high accuracy, durability, and wide range of interface options make it an ideal choice.
LAUMAS AZLI load cell other measuring ranges
azli-10kg
azli-20kg
azli-50kg
azli-100kg
azli-200kg
azli-300kg
azli-500kg
The Italian LAUMAS AZLI-200kg load cell is a device used to measure the weight of objects. It uses strain gauge technology to determine the weight of an object by measuring the strain it exerts on the sensor. Here's how the sensor works and how to handle common troubleshooting:
How it works:1The strain gauge of the sensor is mounted on an elastic carrier, and when the object is applied to the carrier, the carrier bends, causing the strain gauge to strain.
2.The resistance on the strain gauge changes as the strain changes, and this change is transmitted to the weighing indicator or controller via the circuit to display or process the weight data.
Common troubleshooting methods:
1.Zero drift: The weight displayed by the meter or controller is not zero when no object is applied to the sensor. The solution is to correct by adjusting the zero calibration of the sensor or by using the automatic zero calibration function.
2.Linearity deviation: When an object is applied to a sensor, the weight displayed by the meter or controller deviates from the actual weight. The solution is to correct by means of a linear calibration, which is calibrated according to the known standard weight.
3.Vibration Interference: When there is vibration around the sensor, it can cause fluctuations in weight readings. The solution is by adding anti-vibration measures, such as adding anti-vibration pads or reducing interference from vibration sources.
4.Temperature Effects: Changes in temperature may affect the precision and accuracy of the sensor. The workaround is to use temperature compensation or choose a sensor with a wider operating temperature range.
5.Power issues: If the sensor does not have sufficient power**, it can cause erratic or inaccurate readings. The solution is to make sure that the sensor has sufficient power and check that the power supply line is properly connected.
Please note that the above are just some common troubleshooting methods, and the specific fault causes and solutions may need to be debugged and troubleshooting on a case-by-case basis. If you encounter a serious failure or unsolvable problem, it is recommended to contact the manufacturer or professional technicians for repair and support.