Справочник Пользователя для Microchip Technology PICDEM Mechatronics Demo Board DM163029 DM163029
Модели
DM163029
PICDEM
TM
Mechatronics Demo Board User’s Guide
DS51557C-page 38
©
2006 Microchip Technology Inc.
Instructions
Adjusting POT1 varies the speed of the motor. Toggle between single stepping, half
stepping, and microstepping modes by pressing SW2. At low speeds, the motor should
noticeably step in single stepping and half stepping modes. The movement will be quite
jerky in both modes, though to a lesser extent in the half stepping mode. In
microstepping mode, the jerky motion should be virtually eliminated.
stepping, and microstepping modes by pressing SW2. At low speeds, the motor should
noticeably step in single stepping and half stepping modes. The movement will be quite
jerky in both modes, though to a lesser extent in the half stepping mode. In
microstepping mode, the jerky motion should be virtually eliminated.
Discussion
Stepper motors are used in many positioning applications. For example, ink jet printers
and smaller CNC machines employ stepper motors. Stepper motors are ideal for these
applications because, as long as they are not overloaded, the distance a stepper motor
moves is always known. Stepper motors are also brushless, which makes them more
reliable than brushed motors. Finally, stepper motors are very responsive to starting
and stopping and will produce the highest torque at low speeds.
and smaller CNC machines employ stepper motors. Stepper motors are ideal for these
applications because, as long as they are not overloaded, the distance a stepper motor
moves is always known. Stepper motors are also brushless, which makes them more
reliable than brushed motors. Finally, stepper motors are very responsive to starting
and stopping and will produce the highest torque at low speeds.
Half stepping is used to give a stepping motor two times its rated step resolution.
However, there is a word of caution. A stepper motor is typically not rated to have more
than one winding energized at a time. As a result, the motor will heat up if both windings
are energized at the rated voltage of the motor. To offset this, when both windings are
energized simultaneously, the average current to each winding should be 0.707 times
the rated current.
However, there is a word of caution. A stepper motor is typically not rated to have more
than one winding energized at a time. As a result, the motor will heat up if both windings
are energized at the rated voltage of the motor. To offset this, when both windings are
energized simultaneously, the average current to each winding should be 0.707 times
the rated current.
Microstepping offers several advantages over single stepping and half stepping. First,
torque is fairly constant between steps. This results in smoother rotation and decreased
shaft oscillation. Secondly, a higher step resolution is achieved. This means a low-cost
motor can be used in an application that would normally require a more expensive,
higher resolution motor. Finally, the current in the motor windings is being controlled in
a way that prevents the motor from running outside its rated current, thereby eliminating
the excess heat associated with half stepping. The drawback to microstepping is that
the drive circuitry is more complex.
torque is fairly constant between steps. This results in smoother rotation and decreased
shaft oscillation. Secondly, a higher step resolution is achieved. This means a low-cost
motor can be used in an application that would normally require a more expensive,
higher resolution motor. Finally, the current in the motor windings is being controlled in
a way that prevents the motor from running outside its rated current, thereby eliminating
the excess heat associated with half stepping. The drawback to microstepping is that
the drive circuitry is more complex.