MS2N10-D0BNN-ASVH2-NNNNN-NN
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MPN: R914501728
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The MS2N10-D0BNN-ASVH2-NNNNN-NN is a synchronous servo motor featuring a natural convection cooling method. Manufactured by Bosch Rexroth Indramat, it is part of the MS2N Synchronous Servo Motors series and offers a rated speed of 3000 rpm. This motor has IP65 protection and a voltage class of 400V.
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Product Description:
The MS2N10-D0BNN-ASVH2-NNNNN-NN Servomotor is built to deliver swift rotational capability and manages speed as high as 6000 rpm. Its thermal response time of nearly 39 minutes highlights its ability to gradually adjust to variations in heat. Bosch Rexroth Indramat designs these modules to perform reliable motion control tasks in industrial automation applications.
The rotating part of the MS2N10-D0BNN-ASVH2-NNNNN-NN servomotor has very little resistance to change in speed which results in quicker acceleration and deceleration. Its electromagnetic coils are set up for a nominal rotation of 3000 revolutions in a minute. It uses its own built in fan effect, with no external cooler attached to cool itself. This module position sensor gives relatively simple feedback with 16 detection intervals per turn using the Hiperface communication standard. Its feedback device can only track one complete rotation with absolute accuracy and is not able to count beyond that. It comes with two separate plug connectors (sizes M40 and M17) and these plugs can be rotated for flexible cable rotating. It is included with a safety brake for holding the shaft when power is off and disengages once voltage is applied. Its mounting surface complies with normal machining tolerances rather than extra tight accuracy. It utilizes common industrial bearings with no special reinforcement or precision upgrades.
This MS2N10-D0BNN-ASVH2-NNNNN-NN servomotor mounting arrangement follows the B5 / IM3001 format and a temperature sensor (PT1000)) is included inside. Its exterior has a regular protective paint layer in jet black. When it is energized and not moving, it is able to hold a rotating force of 51 newton meters at a winding temperature increase of 60 kelvin. It consumes 28.2 amperes of current while keeping still at the same thermal condition (60 K).
Frequently Asked Questions about MS2N10-D0BNN-ASVH2-NNNNN-NN:
Q: How does a single-turn absolute encoder impact positioning accuracy?
A: It provides exact shaft position within one rotation, ensuring precise control. However, it cannot track beyond one revolution, so external counters are needed for multi-turn tasks.
Q: How does the MS2N10-D0BNN-ASVH2-NNNNN-NN brake system enhance safety?
A: The electrically released brake holds the shaft when unpowered, preventing unwanted motion. This is vital for vertical loads or safety-critical stops.
Q: Why does a thermal time constant of nearly 39 minutes matter in real use?
A: It indicates the motor heats and cools gradually, allowing stable operation under fluctuating loads. This helps prevent sudden thermal shutdowns in variable duty cycles.
Q: What impact does a standard flange tolerance have during machine alignment?
A: It ensures straightforward mounting but may introduce small alignment deviations. For high-precision systems, this could require compensation in the mechanical setup.
Q: How does using standard industrial bearings influence motor lifespan?
A: Standard bearings balance cost and durability for general-purpose applications. They may wear faster under extreme axial or radial loads compared to reinforced designs.
