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1. A technique used to control the position of a servo motor by varying the width of electrical pulses.
2. A type of actuator that uses the piezoelectric effect to generate motion when an electric field is applied.
3. The part of a control system that converts the controller's output into a physical action or signal.
4. The difference between the reference input and the actual output of a control system.
5. Information about the system's output that is used to adjust the system's input.
6. A control strategy that accumulates the error signal over time to eliminate steady-state errors.
7. An electrical actuator that produces linear motion, often used in applications such as robotics or automation systems.
8. The desired value or target value that the system aims to achieve.
9. A device that measures a physical quantity and converts it into an electrical signal for the control system.
10. A control strategy where control output is proportional to the rate of change of the error signal.
11. A control system where the output is not fed back to the input.
12. The component of a control system that calculates the necessary adjustments to minimize the error signal.
13. A motor that uses electronic commutation instead of brushes to control the current flow in the windings, resulting in better efficiency and longevity.
14. A control algorithm that adjusts the output based on the proportional, integral, and derivative terms.
15. A type of electrical actuator that moves in discrete steps, based on digital pulses, allowing for precise control.
16. A device that converts electrical energy into mechanical energy to produce linear or rotary motion.
17. The desired value or setpoint that a control system tries to achieve.
18. A motor that operates as a closed-loop system, using feedback to control the position, speed, and torque accurately.
19. An electromagnetic device that uses a coil of wire to generate a magnetic field, which in turn produces mechanical motion.