The PID controller measures the process output and calculates the difference (error) between what is measured and the set point. While these controllers can be built using analog circuits, implementing them using a digital controller provides greater flexibility in adjusting the control algorithm and in fine-tuning the controller settings. The purpose of a controller is to compensate for the effects of disturbances on process variables and to force a process variable to track a desired set point. Industrial controllers utilizing this technique are used for controlling processes like those found in chemical plants, those for temperature control, for certain automotive applications, etc. One of the most common automatic control methods used in industry is the Proportional-plus-Integral-and-Derivative (PID) controller. The architecture of data acquisition and control systems which have their own DSP processors makes them well-suited for use in PID applications.
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