Two Velocity Jerk Ratio
In the Two-Velocity Jerk Ratio profile, the shape of the acceleration curve is determined by the acceleration jerk ratio, which is defined as the ratio of the time where the acceleration is changing (jerk is nonzero) to the total acceleration time. After the axis accelerates to the profile velocity, the axis accelerates at a constant intermediate acceleration rate until it reaches the second velocity. After reaching the second velocity, the axis decelerates using the deceleration jerk ratio. The acceleration jerk ratio and deceleration jerk ratio must be values between 0 and 1 inclusive.
The intermediate acceleration used to accelerate from the first velocity to the second velocity is calculated automatically. The intermediate acceleration can never exceed the specified profile acceleration. If the target position is too close to reach the second velocity with the given acceleration and deceleration, the axis will start decelerating before reaching the second velocity.
The first velocity must be smaller than the second velocity. If the first velocity is greater than the second velocity, it will be set equal to the second velocity.
Two-velocity profiles are incompatible with jog or velocity commands.
This profile uses the following profile parameters:
Parameter |
Description |
|---|---|
First target velocity |
|
Average acceleration |
|
Average deceleration |
|
Acceleration jerk ratio |
|
Deceleration jerk ratio |
|
Initial velocity |
|
Final velocity |
|
Second target velocity |
The following plots show the position, velocity, acceleration, and jerk of a two-velocity jerk ratio profile with a jerk ratio of 0.5.
