The Cerabar is a versatile and reliable instrument used to measure pressure and level in industrial processes. It is widely used in industries such as chemical, pharmaceutical, and food processing. In this article, we will discuss the working principles of the Cerabar, its types, and applications.
Working Principle:
The Cerabar works based on the principle of measuring the pressure exerted by a fluid on a sensor. The sensor is made up of a diaphragm that deflects as the pressure changes. The amount of deflection is proportional to the pressure, and this is measured by a strain gauge that is bonded to the diaphragm.
The strain gauge is made up of a thin wire that changes resistance as it is stretched or compressed. The change in resistance is proportional to the change in pressure, and this is converted into an electrical signal by a Wheatstone bridge circuit.
Types of Cerabar:
There are several types of Cerabar available, each designed for a specific application. The most common types are:
Cerabar M: This type is designed for pressure measurement and is suitable for a wide range of applications. It is available in different materials and has different output options.
Cerabar S: This type is designed for level measurement and is suitable for liquids and solids. It is available in different materials and has different output options.
Cerabar P: This type is designed for pressure measurement in harsh environments and is suitable for applications such as oil and gas processing. It is available in different materials and has different output options.
Applications:
The Cerabar is used in a wide range of applications, including:
Chemical Processing: The Cerabar is used to measure pressure and level in chemical processing applications, ensuring precise control over the process.
Pharmaceutical Processing: The Cerabar is used to measure pressure and level in pharmaceutical processing applications, ensuring compliance with regulatory requirements.
Food Processing: The Cerabar is used to measure pressure and level in food processing applications, ensuring compliance with food safety regulations.
Conclusion:
In conclusion, the Cerabar is a versatile and reliable instrument used to measure pressure and level in a wide range of industrial processes. It is available in different types, each designed for a specific application. As technology advances, the Cerabar is becoming more accurate, reliable, and versatile, making it an indispensable tool for ensuring precise control over industrial processes and compliance with regulatory requirements.