MS2N07-D0BHN-CMUG2-NNNNE-NN
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MPN: R914501322
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The MS2N07-D0BHN-CMUG2-NNNNE-NN is a synchronous servo motor manufactured by Bosch Rexroth Indramat. Part of the MS2N Synchronous Servo Motors series, it features a nominal power of 2.2 kW. The motor has a rated torque of 10 Nm and a maximum torque of 33 Nm. It uses a Multi-turn EnDat 2.2 encoder and has IP65 protection.
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Product Description:
The MS2N07-D0BHN-CMUG2-NNNNE-NN Synchronous Servo Motor from Bosch Rexroth Indramat provide consistent operation for automation systems. The motor delivers efficiency during repetitive cycles. Its structure maintains dependable torque transfer in dynamic axes. Continuous operation is supported through controlled electrical and thermal design.
The MS2N07-D0BHN-CMUG2-NNNNE-NN servo motor delivers a standstill torque of 22.0 Nm which provides stable positioning under static load and avoids drift during holding phases. The standstill current at 60K is 8.55 A. That value determines electrical demand during load holding and affects thermal stability at rest. The rated speed at 100K is 2000 1/min, which provides coordinated motion control for synchronized axes. Maximum torque at 20 °C reaches up to 79.7 Nm which supports short overload conditions and enables rapid acceleration. At 100K, the maximum torque is 73.2 Nm. The reduction reflects performance limits under elevated thermal stress but still provides significant drive capacity. The maximum current is 36.4 A. Required supply capability must therefore match this demand to maintain safe operation. The number of pole pairs is five which influences torque ripple behavior and defines commutation accuracy in high-precision tasks. The winding resistance at 20 °C is 1.30 ohm. This characteristic affects copper losses and impacts efficiency under load. The winding inductance measures 20.2 mH which supports smooth current flow and limits dynamic overshoot in high-frequency switching.
The MS2N07-D0BHN-CMUG2-NNNNE-NN servo motor has a leakage capacitance of 4.1 nF. The thermal time constant of the winding is 54.0 s. The thermal time constant of the motor is 18.7 min which defines the rate of overall housing temperature adjustment. The coordinated thermal properties enable predictable heating behavior during continuous duty. Controlled responses to both short-term and long-term loading protect the motor from thermal overstress. As a result the motor maintains accurate motion control under varied operating profiles.
Frequently Asked Questions about MS2N07-D0BHN-CMUG2-NNNNE-NN:
Q: How does the MS2N07-D0BHN-CMUG2-NNNNE-NN servo motor perform under static loads?
A: It provides 22.0 Nm standstill torque, ensuring precise shaft holding and preventing drift during extended positioning tasks in industrial automation.
Q: What thermal properties support the durability of this Indramat servo motor?
A: With a winding thermal time constant of 54.0 s and motor time constant of 18.7 min, heating is predictable and manageable.
Q: How does inductance contribute to motor performance?
A: A winding inductance of 20.2 mH smooths current flow and reduces overshoot in high-frequency switching operations, supporting stable drive response.
Q: How is overload capacity managed in the MS2N07-D0BHN-CMUG2-NNNNE-NN motor?
A: The motor delivers 79.7 Nm torque at 20 °C, enabling safe short-term overload handling while preserving performance consistency.
Q: What role does leakage capacitance play in system integration?
A: At 4.1 nF, leakage capacitance influences electromagnetic compatibility, requiring effective shielding to maintain compliance in automation environments.
