MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN
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MPN: R911399507
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The MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN synchronous servo motor features a rated power of 1.4 kW, a rated torque of 4.5 Nm, a rated speed of 3000 rpm, and natural convection cooling. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it includes IP65 protection for versatile applications.
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Product Description:
The model MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN is a 3-phase synchronous servo motor from Bosch Rexroth. It delivers precise torque control, enhanced efficiency and high resolution feedback for demanding industrial automation applications.
The MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN Synchronous Servo Motor belongs to the MS2N series of 3-phase permanent magnet motors and offers high torque density with precise position feedback. Its rated power output is 5.9 kW that is suitable for dynamic automation environments. It comes with an IP64 protection class without a shaft sealing ring. The motor also features a winding inductance of 20.2 mH which impacts the motor’s dynamic response, electrical time constant and the performance of current control loops in servo applications. This servo motor provides a standstill torque of 35.5 Nm and a rated torque of 30.1 Nm at 100 K. The corresponding standstill current for the motor is 14.1 A while the rated current reaches 12.1 A. The maximum current capability of the model is 36.4 A that supports high peak load cycles. The motor delivers a torque constant of 2.76 Nm/A at + 20 °C. This enables smooth and linear torque generation across its operating range.
The MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN servo motor is equipped with a winding resistance of 1.3 Ω which directly affects copper losses and influences current flow through the stator windings. The leakage capacitance is 4.1 nF that affects the electromagnetic behavior and insulation monitoring. This model features a multiturn encoder design with 4,096 revolutions absolute feedback. This ensures high resolution position tracking in complex motion applications. The standard flange exactness enhances mounting consistency and system alignment. The robust build quality and reliable thermal characteristics of this motor support long term use in continuous duty cycles.
Frequently Asked Questions about MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN:
Q: How does the MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN manage torque delivery in dynamic automation cycles?
A: The motor provides 30.1 Nm rated torque with smooth control across varying loads. Its 2.76 Nm/A torque constant ensures linear torque response in high-performance industrial applications.
Q: What impact does the multiturn encoder of the MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN have on system accuracy?
A: The encoder delivers 4,096 revolutions absolute feedback for precise motion tracking. This enhances position resolution and enables complex automation with repeatable accuracy.
Q: How does the MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN handle peak current demands during overload conditions?
A: The motor supports up to 36.4 A maximum current for short load peaks. This capability improves system stability during transient events and demanding duty cycles.
Q: What thermal operating behavior should be considered when using MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN in industrial environments?
A: The model operates efficiently between 0 and +40 °C under rated load. It allows derated use up to +60 °C to maintain safe continuous performance.
Q: How do the winding resistance and inductance of MS2N07-D0BHA-CMVH0-NNNNN-GM140N1010BN-NN influence electrical behavior?
A: Its 1.3 Ohm resistance and 20.2 mH inductance affect current dynamics. These parameters ensure optimized drive compatibility and reliable motor response under varying frequencies.
