sh030106u.pdf - 第606页

17. APPLICATIO N OF FUNCTIONS 17 - 55 2) When you c hoose s witc hing by droop p ulses The vibra tion sup press ion control after gain sw itching a nd mode l loop gain after gain s witchin g cannot be used. a) Setting ex…

17. APPLICATION OF FUNCTIONS

17 - 54

Parameter Symbol Name Setting value Unit

PX10 VRF23B

Vibration suppression control 2 -

Vibration frequency damping after

gain switching

0.05

PX11 VRF24B

Vibration suppression control 2 -

Resonance frequency damping

after gain switching

0.05

b) Switching timing chart

After-switching gain

63.4%

CDT = 100 ms

Before-switching gain

Gain switching

Control command

from controller

OFF

Model loop gain 100 → 50 → 100

Load to motor inertia ratio/load to motor

mass ratio

4.00 → 10.00 → 4.00

Position loop gain 120 → 84 → 120

Speed loop gain 3000 → 4000 → 3000

Speed integral compensation 20 → 50 → 20

Vibration suppression control 1 - Vibration

frequency

50 → 60 → 50

Vibration suppression control 1 -

Resonance frequency

50 → 60 → 50

Vibration suppression control 1 - Vibration

frequency damping

0.20 → 0.15 → 0.20

Vibration suppression control 1 -

Resonance frequency damping

0.20 → 0.15 → 0.20

Vibration suppression control 2 - Vibration

frequency

20 → 30 → 20

Vibration suppression control 2 -

Resonance frequency

20 → 30 → 20

Vibration suppression control 2 - Vibration

frequency damping

0.10 → 0.05 → 0.10

Vibration suppression control 2 -

Resonance frequency damping

0.10 → 0.05 → 0.10

17. APPLICATION OF FUNCTIONS

17 - 55

2) When you choose switching by droop pulses

The vibration suppression control after gain switching and model loop gain after gain switching

cannot be used.

a) Setting example

Parameter Symbol Name Setting value Unit

PB06 GD2

Load to motor inertia ratio/load to

motor mass ratio

4.00 [Multiplier]

PB08 PG2 Position loop gain 120 [rad/s]

PB09 VG2 Speed loop gain 3000 [rad/s]

PB10 VIC Speed integral compensation 20 [ms]

PB29 GD2B

Load to motor inertia ratio/load to

motor mass ratio after gain

switching

10.00 [Multiplier]

PB30 PG2B

Position loop gain after gain

switching

84 [rad/s]

PB31 VG2B

Speed loop gain after gain

switching

4000 [rad/s]

PB32 VICB

Speed integral compensation after

gain switching

50 [ms]

PB26 CDP Gain switching selection 0003

(switching by droop pulses)

PB27 CDL Gain switching condition 50 [pulse]

PB28 CDT Gain switching time constant 100 [ms]

b) Switching timing chart

After-switching gain

63.4%

CDT = 100 ms

Before-switching gain

Gain switching

Droop pulses

[pulse]

+CDL

-CDL

Command pulses

Droop pulses

Command pulses

Load to motor inertia ratio/load to motor

mass ratio

4.00 → 10.00 → 4.00 → 10.00

Position loop gain 120 → 84 → 120 → 84

Speed loop gain 3000 → 4000 → 3000 → 4000

Speed integral compensation 20 → 50 → 20 → 50

17. APPLICATION OF FUNCTIONS

17 - 56

3) When the gain switching time constant is disabled

a) Switching time constant disabled was selected.

The gain switching time constant is disabled. The time constant is enabled at gain return.

The following example shows for [Pr. PB26 (CDP)] = 0103, [Pr. PB27 (CDL)] = 100 [pulse],

and [Pr. PB28 (CDT)] = 100 [ms].

Command pulses

Droop pulses

+100 pulses

-100 pulses

0Droop pulses [pulse]

Switching time constant

disabled

Switching at 0 ms

After-switching gain

Before-switching gain

Switching at [Pr. PB28 (CDT)] = 100 [ms] only when gain switching off (when returning)

CDT = 100 ms

63.4%

Switching at 0 ms

After-switching gain

Gain switching

b) Return time constant disabled was selected.

The gain switching time constant is enabled. The time constant is disabled at gain return.

The following example shows for [Pr. PB26 (CDP)] = 0201, [Pr. PB27 (CDL)] = 0, and [Pr.

PB28 (CDT)] = 100 [ms].

ONCDP (Gain switching)

After-switching gain

Before-switching gain

Switching at [Pr. PB28 (CDT)] = 100 [ms] only when gain switching on (when switching)

CDT = 100 ms

Return time constant disabled

Switching at 0 ms

OFF OFF

63.4%

Gain switching