Schneider Electric 17S Series User Manual

123

The following is the procedure for calculating the power dissipated by the Regen 
resistor in a simple system wherein friction is negligible. Ignoring friction in the 
following calculations gives worst case results since friction will absorb a portion of 
the energy during deceleration. An example of each step in this procedure is 
provided later in this chapter.

Continued on next page

1

Plot speed versus time and torque versus time for the entire move cycle.
(Magnitude of the torque is not required; only the direction is required.)

2

Identify each section of the plot where the drive is decelerating the load or 
where speed and torque have opposite signs.

3

Calculate the energy returned to the drive in each deceleration using the 

formula E = ½ J

t

 

ω

2

 

Where

E = Energy in joules

J

t

 = Total system inertia, including motor, in kg(m

2

)

ω

 = Speed at start of deceleration in radians per second

(ω

 = 2 

π

 RPM / 60)

4

Compare the energy in each deceleration with the energy required to turn 
on the Regen circuit. (See Drive Energy Absorption Capability table.) If the 
energy is less than that listed in the table, disregard that deceleration for 
the remainder of the calculations.

5

Calculate the energy dissipated by the Regen resistor by subtracting the 
energy listed in the table from the energy of the deceleration.

E

dissipated

 = E

generated

 – E

absorbed by capacitors

6

Calculate the pulse power of each deceleration by dividing the dissipated 
energy by the time of the deceleration.

P

pulse

 = E

dissipated

 / T

decel (seconds)

7

Calculate the continuous power dissipated by the Regen resistor by 
totaling all the dissipated energy and dividing it by the total cycle time.

P

continuous

 = (E1

dissipated

 + E2

dissipated

+… +En

dissipated

) / T

total cycle (seconds)