Yaskawa SGDB User Manual

SERVO ADJUSTMENT

A.4.1 Guidelines for Gain Settings According to Load Inertia Ratio cont.

552

Load/Inertia Ratio

(GD

L

2

/GD

M

2

)

Position Loop Gain

(Cn-1A) [1/s]

Speed Loop Gain

(Cn-04)

Speed Loop

Integration Time

Constant (Cn-05)

[ms]

1 x

30 to 50

30 to 50

10 to 40

3 x

60 to 100

Slightly increase for

5 x

90 to 150

Slightly increase for

inertia ratio of 20 x, or

greater

10 x

160 to 270

greater.

15 x

240 to 400

20 x

310 to 520

30 x

450 to 770

For an inertia ratio of 10 x, or greater, slightly reduce the position loop gain and speed
loop gain below the values shown and set the integration time constant to a higher
value before starting the adjustment.
As the inertia ratio increases, set the position loop gain and speed loop gain to the
lower limit of the range of values specified. Conversely, increase the speed loop in-
tegration time constant.

J

Machines with Low Rigidity

Machines driven by timing belts, chains or wave reduction gears (product name: Har-
monic Drive).
Example: Conveyors, articulated robots

Load/Inertia Ratio

(GD

L

2

/GD

M

2

)

Position Loop Gain

(Cn-1A) [1/s]

Speed Loop Gain

(Cn-04)

Speed Loop

Integration Time

Constant (Cn-05)

[ms]

1 x

10 to 20

10 to 20

50 to 120

3 x

20 to 40

Slightly increase for

5 x

30 to 60

Slightly increase for

inertia ratio of 20 x, or

greater

10 x

50 to 110

greater.

15 x

80 to 160

20 x

100 to 210

30 x

150 to 310

For an inertia ratio of 10 x, or greater, slightly reduce the position loop gain and speed
loop gain below the values shown and set the integration time constant to a higher
value before starting the adjustment.
As the inertia ratio increases, set the position loop gain and speed loop gain to the
lower limit of the range of values specified. Conversely, increase the speed loop in-
tegration time constant.

A