Spring-applied holding brake
Versions
Standard
1 x 10
6
switching cycles, repeang
1 x 10
6
switching cycles, repeang
Long-life
10 x 10
6
Switching cycles, repeang
15 x 10
6
Switching cycles, repeang
Control Via internal electronics
Holding brake, acve when equipment deenergized
Degree of protecon
Without manual release lever IP55
With manual release lever IP54
Fricon lining Low-wear
Brake rotor Low noise
Brake design Not adjustable
Braking torque assignment
Motor
Standard design
06 08
Nm Nm
MSEMA 063-42 4
MSEMA 080-32 8
Motor
LongLife design
06 08
Nm Nm
MSEMA 063-42 4
MSEMA 080-32 8
Rated data, Standard design, IP54/55
Holding brake 06 08
Power input
180 V DC W 20 25
Moment of inera kgcm² 0.15 0.61
Braking torque is stac Nm 4 8
Min. stac braking torque tolerance % -25 -25
Max. stac braking torque tolerance % 35 35
Reversing cycles
1x 10
6
1x 10
6
Repeve cycles
1x 10
6
1x 10
6
Maximum switching energy J 3000 7500
Rated data, LongLife design, IP54/55
Holding brake 06 08
Power input
180 V DC W 20 25
Moment of inera kgcm² 0.15 0.61
Braking torque is stac Nm 4 8
Min. stac braking torque tolerance % -25 -25
Max. stac braking torque tolerance % 35 35
Reversing cycles
15x 10
6
15x 10
6
Repeve cycles
10x 10
6
10x 10
6
Maximum switching energy J 3000 7500
Product extensions
Brakes
Spring-applied holding brake
46