Delta RMC151 User Manual

3 Controller Features

Point B. The ratio can be calculated as follows. See the Gear Absolute (25) command for

more details.
Gear Ratio = (Slave Point B - Slave Point A) / (Master Point B - Master Point A)

Clutching

Clutching is used for relative gearing commands. Clutching is the transition of the

motion of the slave axis at the time the gearing command is issued to the final specified

ratio. Most often, this cannot be done instantaneously.
Example 1

Consider a basic gearing application where Axis 1 (the slave axis) is to gear to Axis 0

(the gear master) with a 1:1 ratio. Before gearing, Axis 0 is moving at 10 in/sec and

Axis 1 is stopped. If the gearing were to start instantaneously, then Axis 1 must go from

0 in/sec to 10 in/sec instantaneously, which is impossible.

The RMC supports several methods of clutching, making it very flexible for use in many

gearing applications.

Clutching Methods

•

By Rate

Clutching by rate specifies the rate at which the slave axis' velocity changes in order

to reach the requested gear ratio. The rate is specified with an Acceleration and a

Jerk parameter. In Example 1 above, if the clutching Acceleration is 20 and the Jerk

is 1000, then Axis 1 will change from 0 in/sec to 10 in/sec at that rate. Once it

reaches 10 in/sec, it will lock in at the 1:1 ratio.
For more details, see the Gear Pos (Clutch by Rate) (39) command, which starts

gearing with clutching by rate.

•

By Time

Clutching by time specifies the amount of time it should take to reach the requested

gear ratio. In Example 1 above, if the clutching time is 0.5 seconds, then Axis 1 will

go from 0 in/sec to 10 in/sec in 0.5 seconds. It will then be geared at 1:1.
For more details, see the Gear Pos (Clutch by Time) (30) command, which starts

gearing with clutching by time.

•

By Distance

Clutching by distance specifies the distance in which the requested gear ratio should

be reached. This allows the user to specify the exact positions at which the axes

should be locked in at the specified gear ratio. This is especially useful for flying-

cutoff type applications.
Consider a gearing application where Axis 1 (the slave axis) is to gear to Axis 0 (the

gear master) with a 1:1 ratio. Before gearing, Axis 0 is moving at 10 in/sec and

Axis 1 is stopped. With clutching by distance, the user can specify that the axes

should start clutching when the master reaches 5 in. and reach the final gear ratio

when the master reaches 10 inches. The user also wants the slave to be at 2 inches

at this point.
Therefore, when the master reaches 5 inches, the slave will start moving when the

master reaches 5 inches. When the master reaches 10 inches, the slave will be at 2

inches, and will be geared 1:1 with the master.
For more details, see the Gear Pos (Clutch by Distance) (32) command, which

starts gearing with clutching by distance. This command is used in flying-cutoff type

applications.

Transitions

Transitions are used for absolute gearing commands. When an absolute gearing

command is issued to an axis, the axis must already be on the gearing relationship, or a

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