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printer_controller_trajectory_planning [2016/08/04 16:06] – [Second Order Trajectory Planning] Traumflug | printer_controller_trajectory_planning [2016/08/04 22:08] – [Second Order Trajectory Planning] Traumflug | ||
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=== Step Based Acceleration Updates at Discrete Time Intervals === | === Step Based Acceleration Updates at Discrete Time Intervals === | ||
- | Instead of doing this computationally intensive acceleration calculation after every step, it's done every other microsecond | + | Instead of doing this computationally intensive acceleration calculation after every step, it's done every other millisecond |
This is what Teacup firmware uses when compiled with ACCELERATION_REPRAP. Achievable step rate on an 16\_MHz ATmega is some 40'000 steps per second. Faster hardware, like an ARM Cortex-M4 has been demonstrated to exceed 500' | This is what Teacup firmware uses when compiled with ACCELERATION_REPRAP. Achievable step rate on an 16\_MHz ATmega is some 40'000 steps per second. Faster hardware, like an ARM Cortex-M4 has been demonstrated to exceed 500' | ||
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To the left is a " | To the left is a " | ||
- | This jerk signal (now any value in the range {-1, 1}) is put into another integrator, which integrates up again.This gives acceleration. Yet another integrator in the chain gives velocity. The last integrator gives position, and that integrator happens to be not some mathematical formula, but our stepper motor. | + | This jerk signal (now any value) is put into another integrator, which integrates up again.This gives acceleration. Yet another integrator in the chain gives velocity. The last integrator gives position, and that integrator happens to be not some mathematical formula, but our stepper motor. |
The non-trivial part here is to calculate the original signal. There' | The non-trivial part here is to calculate the original signal. There' |
printer_controller_trajectory_planning.txt · Last modified: 2018/05/27 16:10 (external edit)