20-09-2017, 01:05 PM
Temperature controllers control the temperature by taking an input from a temperature sensor such as a thermocouple or RTD, and providing an output to a control element to achieve or maintain a required temperature or setpoint.
Eurotherm temperature controllers are recognized by high precision PID algorithms, which are incorporated in the control strategy along with high-precision inputs and outputs.
Precision PID control (Proportional, Integral, Derivative) has the advantage over the basic PID temperature control solutions which, although they can save money, do not have the level of control and precision to control the temperature consistently or to react in a way efficient in the face of unforeseen events.
However, precision PID temperature controllers have built-in algorithms to accurately control temperature and reach set points with a minimum of overpass during ramps, which means that process variables stabilize more quickly. Eurotherm products have a "reduction" algorithm that helps prevent application overrun and self-tuning to automatically set ideal parameters on PID control loops.
Eurotherm temperature controllers are recognized by high precision PID algorithms, which are incorporated in the control strategy along with high-precision inputs and outputs.
Precision PID control (Proportional, Integral, Derivative) has the advantage over the basic PID temperature control solutions which, although they can save money, do not have the level of control and precision to control the temperature consistently or to react in a way efficient in the face of unforeseen events.
However, precision PID temperature controllers have built-in algorithms to accurately control temperature and reach set points with a minimum of overpass during ramps, which means that process variables stabilize more quickly. Eurotherm products have a "reduction" algorithm that helps prevent application overrun and self-tuning to automatically set ideal parameters on PID control loops.