What is cogging?

by Massimo Redaelli

06 Luglio 2020

What is cogging?

Cogging is a parasite force generated in all iron core permanent magnet motors due to the presence of ferromagnetic "teeth" in the structure containing the windings (Figure 1).

che cos e il coging 1

Figura 1


Each tooth - moving while facing the magnetic plate - has a preferred position in correspondence to each magnet. In these positions, the tooth (which, do not forget, is made of iron) is attracted by the magnet and is in a stable equilibrium condition (polar axis Figure 2.1 and 2.3).

che cos e il coging 1 che cos e il coging 1 che cos e il coging 1
Figura 2.1
Figura 2.2
Figura 2.3

During the movement alongside the magnetic plate, we will move from one position of stable balance to the next, crossing an unstable position (corresponding to the interpolar axis 2.2). This causes " bumps" during the movement, precisely as it happens when we ride an undulating road with a bicycle.



Negative effects

Cogging is, therefore, a periodic disturbing force (force ripple) that compromises the fluidity of movement of any iron core motor. The ripple frequency is proportional to the moving velocity of the motor; on the application side, we can observe that:
  • When movements are slow, the speed of the control loop partially compensates for this disturbance;
  • In fast movements the motor "overflies" the cogging, the higher frequency is mechanically filtered by the moving mass;
  • It is in applications with intermediate speed movements that cogging is suffered the most;
As a general rule, cogging is <5% of the motor peak force.

Measures for cogging reduction

There are several techniques to reduce cogging; the most functional are those that start from the electromagnetic design of the engine itself.

The inclination of magnets or slots

One of the most common techniques is to slightly incline the magnets to the direction of motion (Figure 3) so that when each tooth passes over each magnet, the face area between tooth and magnet increases more gradually than when the teeth are straight.

che cos e il coging 5
Figura 3

This is what happens, for example, when you take a bump with a machine: if you take it perpendicularly the impact with the bump is considerable, if you tilt the direction of entry slightly the impact is less.
Another analogy can be made with the world of gearboxes: having a motor with inclined magnets is the same as having a gearbox with helicoidal gears.
Figure 4 shows how the effect of tilting magnets acts in favour of a reduction in cogging, especially on higher-end harmonics.

che cos e il coging 6Figura 4

Yoke size

In the primary of a motor, several teeth are facing the secondary.
What we just said also applies to every tooth, and cogging is the sum of all the forces acting on each tooth.In addition to the teeth, the closing yokes (at the beginning and end) have also an influence on cogging. Careful sizing of these yokes leads, as in the case of Tecnotion motors, to the minimisation of cogging.

Electronic compensation

Since the disturbance is repetitive (in each position the motor will always suffer the same force disturbance), it is also possible to compensate for it by inserting a current feedforward. The value of the feedforward must be different in each position of the motor. It is, therefore, necessary to store these values in a lookup table inside the drive: for each position of the motor, inside the electrical angle, there will be precise current feedforward values.
Not all drives allow these options.


Increased air-gap

A further trick is to move the primary slightly away from the secondary by increasing the air-gap, in this way the cogging is reduced, but so is the thrust that the engine can deliver.



Conclusions

Cogging is, therefore, an intrinsic disruptive force of any iron core motor that compromises the fluidity of its motion. If you want to limit the speed ripple introduced by cogging (for example in laser cutting machines to obtain precise cuts), it is essential to use a motor that has been designed to have reduced cogging. Tecnotion motors are based on this principle.

For even more demanding applications in terms of precision and linearity of motion (measuring machines or lithographic printing machines) the most logical solution, if not the only one, is to switch to ironless motors where the problem is solved at the root.




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