How to select a brake – Rockwell Automation 1305 DYNAMIC BRAKES User Manual

1305 Dynamic Brake

4

1305-5.11 May, 1999

Step 5 — Determine the Maximum Generated Braking Torque

How to Select a Brake

(continued)

where:

TQ

B

= The required braking torque.

N

2

= The motor’s maximum speed.

P

M

= kW

P

M

=

TQ

B

×

N

2

——————

7,000

P

M

= [ ]

×

[ ]

————————

Three factor limit the application

The first is the brake assembly rating

P

T

— The peak power the brake

assembly can absorb at any instant regardless of the time limit.

The second is the average power that the brake assembly can absorb
during one braking duty cycle —

P

A

.

The third is the duty cycle or the number of times the brake assembly
can be operated over a given period of time —

DC

.

P

M

must be less than or equal to the brake assembly rating listed in

table 1

. If

P

M

exceeds the

P

T

value shown, the corresponding

drive/brake configuration will not be able to produce the braking
torque required for your application, and the drive will trip on an
overvoltage fault. Increasing the decel time

t

2

, reducing the load inertia

wk

2

L

, or doing both will lower

TQ

B

and

P

M

.

table 1

Drive Output Ratings

P

T

HP

kW

Dynamic Brake Kits

kW

230VAC

2

1.5

1305-KAA12

1.7

3

2.2

460VAC

1/2

0.37

1305-KBA03

1.7

3/4

0.55

1

0.75

2

1.5

1305-KBA06

1.7

3

2.2

1305-KBA06

5

4

1305-KBA09

3.4

Step 6 — Determine the Average Power Generated in One Cycle

where:

TQ

B

= The required braking torque.

N

1

= The motor’s minimum speed.

N

2

= The motor’s maximum speed.

P

A

= kW

P

A

= TQ

B

×

[N

1

+ N

2

]

————————
14,000

P

A

= [ ]

Ч

[ + ]

———————————
14,000