2 calculating the regenerative power capacity, 2 calculating the regenerative power capacity - 87, Calculating the regenerative power capacity -87 – Yaskawa Sigma II Series Servo System User Manual

Sigma II User’s Manual

Chapter 5: Parameter Settings and Functions

5-87

Connect the servo amplifier and regenerative resistor unit as shown in the following
diagram.

Note: Adequate cooling must be provided for regenerative resistors because they reach very high

temperatures. Also use heat-resistant, non-flammable wire and make sure that the wiring does not
come into contact with the resistors.

5.6.2

Calculating the Regenerative Power Capacity

Simple Calculation Method

When driving a servomotor normally along the horizontal axis, check the external
regenerative resistor requirements using the calculation method shown below.

Servo Amplifiers with Capacity of 400W or Less

Servo amplifiers with a capacity of 400W or less do not have built-in regenerative
resistors. The energy that can be absorbed by capacitors is shown in the following
table. If the rotational energy in the servo system exceeds these values, then connect
a regenerative resistor externally.

Calculate the rotational energy in the servo system using the following equation:

Where: J = J

M

+ J

L

J

M

: Servomotor rotor inertia (kg-m

2

)

J

L

: Motor axis conversion load inertia (kg-m

2

)

N

M

: Rotation speed of the servomotor (rpm)

Voltage

Applicable Servo

Amplifiers

Regenerative Energy

that Can be Processed

(joules)

Comments

100V

SGDH-A3BE

7.8

Value when the input voltage is 100V

AC

SGDH-A5BE to -02BE

15.7

200V

SGDH-A3AE, -A5AE

18.5

Value when the input voltage is 200V

AC

SGDH-01AE to -04AE

37.1

Servo amplifier

Regenerative

*The user must provide the regenerative resistor.

B3

B2

B1

resistor unit*

R2

R1

E

S

=

J x (N

M

)

2

182

Joules