Lenze Smart Motor m300 - Spring-Applied Holding Brake Specifications

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Spring-applied holding brake

Versions

Standard

1 x 10

switching cycles, repeang

1 x 10

switching cycles, repeang

Long-life

10 x 10

Switching cycles, repeang

15 x 10

Switching cycles, repeang

Control Via internal electronics

Holding brake, acve when equipment deenergized

Degree of protecon

Without manual release lever IP55

With manual release lever IP54

Fricon 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 inera kgcm² 0.15 0.61

Braking torque is stac Nm 4 8

Min. stac braking torque tolerance % -25 -25

Max. stac braking torque tolerance % 35 35

Reversing cycles

1x 10

Repeve cycles

1x 10

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 inera kgcm² 0.15 0.61

Braking torque is stac Nm 4 8

Min. stac braking torque tolerance % -25 -25

Max. stac braking torque tolerance % 35 35

Reversing cycles

15x 10

Repeve cycles

10x 10

Maximum switching energy J 3000 7500

Product extensions

Brakes

Spring-applied holding brake

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Lenze Smart Motor m300 - Spring-Applied Holding Brake Specifications

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