Stepper motors typically require a large number of pulses per revolution.

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Multiple Choice

Stepper motors typically require a large number of pulses per revolution.

Explanation:
Stepper motors move in fixed steps, so they’re driven by a pulse train where each pulse makes the rotor advance by one discrete angle. To complete a full 360 degrees, you must send as many pulses as there are steps in one revolution. That’s why these motors typically require hundreds of pulses to turn once (for example, 200 steps per revolution for a common 1.8° stepper, or 400 steps for a 0.9° stepper). If you use microstepping, the number of pulses per revolution goes up even further, giving finer resolution while still being driven by pulses. So the statement is true.

Stepper motors move in fixed steps, so they’re driven by a pulse train where each pulse makes the rotor advance by one discrete angle. To complete a full 360 degrees, you must send as many pulses as there are steps in one revolution. That’s why these motors typically require hundreds of pulses to turn once (for example, 200 steps per revolution for a common 1.8° stepper, or 400 steps for a 0.9° stepper). If you use microstepping, the number of pulses per revolution goes up even further, giving finer resolution while still being driven by pulses. So the statement is true.

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