Gearing or Electronic Gearing links two or more axes such that the position of the “slave” axis is a function of the position of the “master” axis.
Mechanical gearing consists of a master unit and a slave unit-linked mechanically by a ratio determined by the number of teeth on the input gear and the output gear.
Electronic gearing can achieve the same relationship without mechanical linkage. This can be useful in a variety of systems, such as:
1. In-feed systems where two pinch-rollers must rotate in an inverse relationship (-1:1)
2. Conveying systems where the ratio between the pay-out and take-up spool continuously changes as product moves from one spool to the other (ratio of (1:4) at the start, ratio of (4:1) at the end)
The RMP should update within a single sample cycle (default is 1ms). Reaction time is mostly dependent on when the Master Source is written to the ESC for the next Network Exchange & Post Exchange waiting for the Slave to respond to the new data in its ESC.
- Cyclic Data is Exchanged with Network (including Gearing Master Axis Actual Position [One possible Gearing Source])
- EtherCAT Master updates RMP Gearing Master's Actual Position.
- RMP Motion Control processes <<What to do Next>>. While processing the Gearing Slave, it takes the Master Axis’s Actual Position, multiples Feedback Source by the numerator, devices result by the denominator, and finally sets the value as Command Value for Gearing Slave.
- EtherCAT Master takes Position Demand for all Axes.
- Cyclic Data is Exchanged with Network (including Gearing Slave Axis's Scaled Position Demand).