YASKAWA SGDS Sigma III Series User Manual page 325

Servo amplifier for mechatrolink-ii communications

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11 Appendix

11.1.3 Calculating the Required Capacity of Regenerative Resistors

• n = J

• J

: Servomotor rotor moment of inertia (kg·m

• J

: Load converted to shaft moment of inertia (kg·m

(2) Calculating the Regenerative Energy

This section shows the procedure for calculating the regenerative resistor capacity when acceleration and

deceleration operation is as shown in the following diagram.

Rotation speed

Motor torque

(a) Calculation Procedure

The procedure for calculating the regenerative capacity is as follows:

Step

Note: 1. The "0.2" in the equation for calculating W

If the above calculation determines that the amount of regenerative power (Wk) processed by the built-in

resistor is not exceeded, then an external regenerative resistor is not required.

If the amount of regenerative power that can be processed by the built-in resistor is exceeded, then install an

external regenerative resistor for the capacity obtained from the above calculation.

11-8

: Motor rotation speed

Load torque

Item

Find the rotational energy of the servomotor.

Find the energy consumed by load loss

during the deceleration period.

Calculate the energy lost from servomotor

winding resistance.

Calculate the SERVOPACK energy that can

be absorbed.

Find the energy consumed by the

regenerative resistor.

Calculate the required regenerative resistor

capacity.

resistor's utilized load ratio is 20%.

2. The units for the various symbols are as follows:

to E

: Energy joules (J)

:Load torque (N·m)

:Regenerative resistor required capacity (W)

: Deceleration stopping time (s)

J:(= J

+ J

)(kg·m

)

T: Servomotor repeat operation period (s)

: Servomotor rotation speed (RPM)

)

Regenerative

torque

Symbol

= JN

= (π/60) N

(Value calculated from

"Servomotor Winding Resistance

Loss" diagrams)

Calculate from the "Absorbable

SERVOPACK Energy" diagrams.

= E

is the value for when the regenerative

Equation

/182

- (E

)

= E

/ (0.2

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