The thermostatic sensor described is a chrome-plated device designed to regulate temperature within a specific range.
Hysteresis refers to the small temperature difference required for the thermostatic sensor to switch between heating and cooling modes. In this case, the hysteresis value is 0.8K, indicating that the sensor will maintain the desired temperature within a narrow band of 0.8 degrees Kelvin.
The thermostatic sensor features thread ends, allowing for easy installation and compatibility with a variety of heating systems. These threads enable secure and reliable connections between the sensor and other components within the heating system.
The thermostatic sensor offers a temperature range of 6℃ to 28℃, meaning it can effectively control temperatures within this span. In terms of pressure, the sensor can handle a maximum working pressure of 10 bar.
The thermostatic sensor being described is a chrome-plated device designed for precise temperature regulation within a specific range. With a temperature range of 6℃ to 28℃ and a maximum operating temperature of 110℃, it is well-suited for various heating applications. This sensor is capable of withstanding high pressures, with a maximum working pressure of 10 bar and a maximum differential pressure of 1 bar. Its compliance with the EN215 standard ensures its reliability and adherence to industry norms. With thread ends, the sensor allows for easy installation and compatibility with different heating systems. It maintains stability through a hysteresis value of 0.8K, ensuring minimal temperature fluctuations. Overall, the sensor provides a dependable solution for maintaining desired temperatures in heating systems while offering durability and ease of installation.
The thermostatic sensor’s temperature range of 6℃ to 28℃ and maximum operating temperature of 110℃ make it versatile for a range of heating applications. It offers precise control, allowing users to maintain specific temperatures within the designated range. The sensor’s chrome-plated construction enhances its durability and resistance to corrosion. Additionally, its ability to handle a maximum working pressure of 10 bar and a maximum differential pressure of 1 bar ensures reliable operation under varying system conditions. The EN215 compliance guarantees that the sensor meets industry standards and quality requirements. With thread ends, the sensor simplifies installation and enables compatibility with different heating systems. Its low hysteresis value of 0.8K ensures temperature stability, preventing rapid fluctuations and maintaining a comfortable environment. Overall, the thermostatic sensor provides an efficient and reliable solution for temperature control in heating systems, catering to a wide range of applications.