PID (proportional, integral, derivative) control is not as complicated as it sounds. Follow these simple implementation steps for quick results. At work, I am one of three designated “servo guys,” and ...

This article explains proportional integral derivative (PID) control, including the math behind it, with the use case of a linear servo motor.

Figure 2 The output from PID reaches the inverse Clarke and Park transform where the exact opposite of Clarke and Park transformation takes place. Source: Texas Instruments In the last step of ...

Field-oriented control as a motor control scheme is indispensable for EV powertrains because of their noiseless and smooth motor operations.

[Adam] has been working on replacing the PID control with a more capable cascade-based control scheme, which can even compensate for gearbox backlash by virtue of monitoring the output shaft and ...

Proportional-integral-derivative (PID) is the most common industrial technology for closed-loop control.

You can bog down in math trying to understand the PID but [Electronoobs] recent video shows a very simple test setup that clearly demonstrates what’s going on with an Arduino, a motor, a ...

U.S. manufacturing production unexpectedly fell in January, weighed down by a sharp decline in motor vehicle output. Factory output dipped 0.1% last month after a downwardly revised 0.5% rebound ...