Speed corrections, Winding bemf shape correction, 1 winding bemf shape correction – ElmoMC SimplIQ Digital Servo Drives-Bell Command Reference User Manual

Because of the cogging, motor motion may be unsmooth. The cogging correction
function automatically generates torque additions that compensate for the cogging
torque.

Cogging correction works very well at slow speeds. At high speeds, cogging becomes
a high frequency disturbance. On the one hand, cogging correction becomes less
important because the high frequency less disturbs motion; on the other hand, the
correction becomes less efficient due to the limitations of the current amplifier.

Field
angle

Predictor for current

loop delay compensation

[3]

e

PF

s

−

Lookup

table

/

d dt

1

PF[4]

PF[5]

ω

Cogging
correction
torque

×

Speed dependent gain

Figure 21: Cogging correction scheme

Therefore,

SimplIQ

uses the cogging correction scheme above in order to apply

cogging correction at reasonable speeds, reducing the correction as speed increases.

The cogging correction may be enabled and disabled as a whole, using the parameter
PN[2].

9.3. Speed

Corrections

The

SimplIQ

is a full vector drive. It compensates for the following disturbances:

- Winding BEMF shape.

- Voltage required for driving the motor inductance.

All the speed corrections may be disabled or enabled as a whole using the parameter
PN[3].

9.3.1

Winding BEMF Shape Correction

The BEMF model serves the following purposes:

- Current scale corrections, in order to minimize ripple torques.

- Winding shape correction, for better current control in the presence of EMF.

SimplIQ for Steppers Application Note

The Current Controller

MAN-STECR (Ver. 1.1)

101