Delta RMC151 User Manual

RMC70/150 and RMCTools User Manual

then these commands can be issued even though the axis is not at the correct starting

point. When the pressure/force command is issued, the axis will move toward the

requested profile (curve, sine wave, gearing relationship, etc.) as defined by the

transition command.
When the RMC powers up, transitions are disabled on all axes. To enable pressure/force

transitions, issue the Transition Rate Prs/Frc (64) command. Once this command has

been issued, it does not need to be issued again, unless you wish to specify a different

transition, or if you need to re-enable pressure/force transitions after disabling them. To

disable pressure/force transitions, issue the Transition Disable (Prs/Frc) (63) command.
This command will not affect any transitions that are in progress.
Transition Types
This command provides the following transition options:

•

Seek (0)

The axis will move toward the requested profile using the Prs/Frc Rate and Prs/Frc

Accel Rate. When the pressure/force and pressure/force rate of the axis come close

to the position and velocity of the profile, the axis will "lock" onto the profile. Use this

option to get to the requested profile quickly and smoothly.

•

Reach (1)

The axis will move toward the requested profile using the Prs/Frc Rate and Prs/Frc

Accel Rate. When the pressure/force reaches the pressure/force of the profile, the

axis will "lock" onto the profile. Notice that this option does not require the

pressure/force rates to be close when it locks on, and therefore may cause the axis to

jerk. Use this option to get to the requested profile as quickly as possible.

•

Superimposed (2)

A trapezoidal move using the Prs/Frc Rate and Prs/Frc Accel Rate will be

superimposed onto the requested profile such that the axis will reach the profile.

Notice that since the move is superimposed onto the profile, the axis will not

necessarily move at the specified pressure/force rate and acceleration rate, but rather

at the sum of the rates and accel rates from the requested profile and superimposed

portions of the move.

This method will always guarantee that the axis will lock on to the requested profile,

even if the Prs/Frc Rate and Prs/Frc Accel Rate are slower than that of the

profile. The time it takes to lock on will be based on how far the current Target

Pressure/Force is from the profile and on the Prs/Frc Rate. For example, if the

Target Pressure/Force is 3, the requested profile is at 9, and the Prs/Frc Rate is 6, it

will take roughly one second to lock on. The "lock-on" of the Superimposed method

will usually be as smooth or smoother than Seek.

Choosing a Transition Type
In general, try the Seek method first. If it takes too long to lock on, switch to Reach. For

either of these methods, make sure to set the Prs/Frc Rate and Prs/Frc Accel Rate to

values higher than that of the profile it is trying to follow. Otherwise, the axis may never

catch up to the requested profile. Notice that if the master register is stopped, then all 3

methods will perform similarly.
If the transition is used for a gearing application, the behavior of any of the methods will

be the same if the master is not moving while the transition is taking place. If the master

is moving, and is a well-behaved Target Pressure/Force, then the Seek and Reach

methods will both behave very similarly. If the master is moving, but is noisy, such as an

analog reference signal, then the Reach method will "lock in" the quickest, but may

cause a jerk.
The Superimposed method is not as useful as the first two methods, but it can provide a

more predictable "lock-on", as described above. Also, this method will always guarantee

that the axis will lock on to the requested profile, even if the Prs/Frc Rate and Prs/Frc

Accel Rate are slower than that of the curve.

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Delta Computer Systems, Inc.