Rockwell Automation 20G PowerFlex 750-Series AC Drives User Manual

Rockwell Automation Publication 750-RM002B-EN-P - September 2013

215

Motor Control

Chapter 4

Step 6 – Estimating the Minimum Wattage requirements for the Dynamic
Brake Resistor

It is assumed that the application exhibits a periodic function of acceleration and
deceleration. If (t

3

- t

2

) = the time in seconds necessary for deceleration from

rated speed to 0 speed, and t

4

is the time in seconds before the process repeats

itself, then the average duty cycle is (t

3

- t

2

)/t

4

. The power as a function of time is

a linearly decreasing function from a value equal to the peak regenerative power
to 0 after (t

3

- t

2

) seconds have elapsed. The average power regenerated over the

interval of (t

3

- t

2

) seconds is Pb/2. The average power in watts regenerated over

the period t

4

is:

P

av

= Average dynamic brake resistor dissipation, in watts

t

3

- t

2

= Elapsed time to decelerate from rated speed to 0 speed, in seconds

t

4

= Total cycle time or period of process, in seconds

P

b

= Peak braking power, in watts

The Dynamic Brake Resistor power rating in watts that is chosen will be equal to
or greater than the value calculated in Step 6.

Step 7 – Calculate the requires Watt-Seconds (joules) for the resistor

To be sure the resistor’s thermal capabilities are not violated, a calculation to
determine the amount of energy dissipated into the resistor is made. This
determines the amount joules the resistor must be able to absorb

P

ws

= Required watt - seconds of the resistor

t

3

- t

2

= Elapsed time to decelerate from

ω

b speed to

ω

0 speed, seconds

P

b

= Peak braking power, watts

P

av

t

3

t

2

–

(

)

t

4

------------------

P

b

2

------

×

=

P

ws

t

3

t

2

–

(

)

P

b

2

------

Ч

=