4 gain setting reference values, 4 gain setting reference values - 40, Gain setting reference values -40 – Yaskawa Sigma II Series Servo System User Manual

Sigma II User’s Manual

Chapter 6: Servo Adjustment

6 - 40

6.4.4

Gain Setting Reference Values

This section describes servo gain reference values.
Refer to the following for optimal gain adjustments according to the rigidity of the
mechanical system. Refer to these values and use the previously mentioned methods
to make gain adjustments. These values are for reference only and do not mean that
the mechanical system has good response characteristics or is free from oscillation in
the specified ranges.
Observe the response by monitoring the response waveform and make the optimum
gain adjustments. If the rigidity of the machinery is high, gain increments exceeding
the described ranges are possible.

Machines with High Rigidity

These machines are directly connected to ball screws.
Examples: Chip mounting machine, bonding machine, and high-precision machine
tool

Machines with Medium Rigidity

These machines are driven by ball screws through speed reducers or long-length
machines directly driven by screws.
Examples: General machine tool, transverse robot, and conveyor

Machines with Low Rigidity

These machines are driven by timing belts, chains, or machines with harmonic gear
reducers.
Examples: Conveyor, and articulated robot

Position Loop Gain (Pn102)

Speed Loop Gain (Pn100)

Speed Loop Integral Time Constant

(Pn101)

50 to 70s

-1

50 to 70Hz

5 to 20ms

Position Loop Gain (Pn102)

Speed Loop Gain

(Pn100)

Speed Loop Integral Time Constant

(Pn101)

30 to 50s

-1

30 to 50Hz

10 to 40ms

Position Loop Gain (Pn102)

Speed Loop Gain (Pn100)

Speed Loop Integral Time Constant

(Pn101)

10 to 20s

-1

10 to 20Hz

50 to 120ms