4-51
4 System Design
G5 Series AC Servo Drives With Built-in EtherCAT Communications, Linear Motor Type
4-4 Regenerative Energy Absorption
4
4-4-1 Calculating the Regenerative Energy
4-4 Regenerative Energy Absorption
A Servo Drive uses its built-in capacitors to absorb the regenerative energy produced during Linear
Motor deceleration. If the amount of regenerative energy is too much for the built-in capacitors to
absorb, it also uses an Internal Regeneration Resistor. An overvoltage error occurs, however, if the
amount of regenerative energy from the Linear Motor is too large. If this occurs, reduce the regenerative
energy by changing operating patterns or increase the regeneration process capacity by connecting
External Regeneration Units.
• Some Servo Drive models do not have any built-in Internal Regeneration Resistor.
• The regeneration absorption capacity of a Servo Drive varies depending on the Servo Drive
model.
For information on whether or not your Servo Drive has an Internal Regeneration Resistor and its
regeneration absorption capacity, refer to 4-4-2 Servo Drive Regeneration Absorption Capacity
on page 4-53
This section describes how to calculate the regenerative energy for the horizontal axis.
In the output force graph, acceleration in a positive direction is shown as positive, and acceleration in a
negative direction is shown as negative.
The regenerative energy values in each region can be derived from the following equations.
Note Due to the loss of motor winding resistance and PWM, the actual regenerative energy will be approx. 90% of
the values derived from these equations.
4-4-1 Calculating the Regenerative Energy
Motor operation
Motor output torque
+V1
-
V2
FD1
FD2
t 1 t 2
T
E
g1Eg1
Eg2Eg2
V
1
,
V
2
:
Speed of deceleration [mm/s]
Deceleration force [N]
Deceleration time [s]
F
D1
,
F
D2
:
t
1
,
t
2
:
To Next Page
Loading...
Need help?
General
