YASKAWA Sigma II Series User Manual page 209

Servo system

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Sigma II User's Manual

6.4.3

Making Manual Adjustments

The auto-tuning function uses a gain adjustment algorithm with a comparatively

large safety margin by considering a variety of mechanical systems to which the

servo amplifier is applied. Therefore, the servo amplifier may not satisfy the

response characteristics of some applications. The auto-tuning function is not avail-

able to machines with low rigidity or high fluctuation.

In such cases, observe the mechanical systems and make manual adjustments of

parameters.

Speed Control

Required Parameters

The following parameters are used.

•

Speed Loop Gain (Pn100)

This parameter is used for determining the responsiveness of the speed loop. For

the best response, set this parameter as high as possible, without exceeding the

point where the mechanical system vibrates. The value of speed loop gain is the

same as the set value of Pn100 if the inertia ratio set in Pn103 is correct.

Speed loop gain Kv = Set value of Pn100 (Hz)

Set Pn103 to the following value.

Pn103 Setting Value =

Note: In the case of manual adjustments of parameters, the user must set the value of parameter Pn103. The

inertia ratio can be obtained if the servo gain constant is written with parameter Fn007 after auto-tun-

ing has been performed. For details regarding Fn007, refer to 6.3 Auto-Tuning.

•

Speed Loop Integral Time Constant (Pn101)

The speed loop has an integral element so that the speed loop can respond to

minute inputs. This integral element delays the operation of the servo system,

resulting in a longer positioning settling time. As the value of the time constant

increases, the response becomes slower. If the load inertia is large or the

mechanical system is likely to vibrate, make sure that the speed loop integral

time constant is large enough. Use the following formula to calculate the opti-

mum integral time constant.

Servomotor rotor inertia (J

≥ 2.3 ×

Where: T

= Integral time constant [s]

= Speed loop gain (calculated from the above) [Hz]

Motor load inertia (J

2π × K

6-28

Chapter 6: Servo Adjustment

)

× 100%

)

YASKAWA Sigma II Series User Manual page 209

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