MS2N10-E0BHN-CMVH3-NNNNN-NN
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MPN: R911384295
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The Bosch Rexroth Indramat MS2N10-E0BHN-CMVH3-NNNNN-NN motor is part of the MS2N Synchronous Servo Motors series and features natural convection cooling. It delivers a rated power of 2.74 kW and a maximum torque of 32.7 Nm. The motor includes an IP65 protection class and Hiperface DSL feedback.
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Product Description:
Bosch Rexroth Indramat manufactures the MS2N10-E0BHN-CMVH3-NNNNN-NN Synchronous Servo Motor for precise and efficient motion control. These MS2N Synchronous Servo Motors are designed for applications requiring high torque and accuracy. This motor ensures consistent performance in automation and motion systems.
The MS2N10-E0BHN-CMVH3-NNNNN-NN Synchronous Servo Motor provides a static torque at 60K of 67.7 Nm. It maintains a standstill current at 60K of 25.0 A for reliable torque generation. The standstill torque at 100K is 82.5 Nm which provides strong holding capability. The standstill current at 100K is 31.0 A, supporting stable torque at rest. The rated power at 100K is 11.15 kW for high output efficiency during continuous operation. The MS2N Synchronous Servo Motor achieves a maximum torque at 20°C of 234 Nm. It handles a maximum current of 102.5 A during peak load conditions. The maximum speed of 4000 rpm supports rapid and dynamic motion control. It features 5 pole pairs for smooth and balanced torque generation. The torque constant at 20°C is 2.9 Nm/A for efficient torque response. The voltage constant at 20°C is 176.4 V/1000/min, providing stable voltage behavior during operation. The rated speed at 100K is 2000 rpm for efficient motion control. It operates with a rated current at 100K of 20.5 A for continuous performance.
The winding resistance of this MS2N10-E0BHN-CMVH3-NNNNN-NN Synchronous Servo Motor is 0.244 ohms, minimizing energy loss. The winding inductance is 7.43 mH for smooth current transitions. It has a leakage capacitance of 6.2 nF for noise reduction and stable output. The thermal time constant of the winding is 122.5 seconds which supports effective heat dissipation. The thermal time constant of the motor is 44.6 minutes which ensures long-term thermal stability. The holding brake connects in 65 ms and disconnects in 250 ms for precise and quick braking performance.
Frequently Asked Questions about MS2N10-E0BHN-CMVH3-NNNNN-NN:
Q: How does the 5-pole-pair design in the MS2N10-E0BHN-CMVH3-NNNNN-NN servo motor benefit torque smoothness?
A: The 5 pole pairs increase the electrical cycles per mechanical revolution, reduce torque ripple and enhance smoothness. This improves positional accuracy in servo control systems.
Q: How does the 0.244 Ω winding resistance in this servo motor affect efficiency?
A: The lower winding resistance reduces I²R losses and heat generation under current flow, improving electrical efficiency and offering better continuous operation.
Q: Why is the inductance value of 7.43 mH relevant for the MS2N10-E0BHN-CMVH3-NNNNN-NN servo motor?
A: A moderate inductance like 7.43 mH provides a balanced trade-off: it smooths current transitions while allowing fast torque response in dynamic motion tasks.
Q: Why is the maximum current of 102.5 A for this servo motor important for peak performance?
A: The 102.5 A peak current allows the motor to deliver its maximum torque of 234 Nm at 20 °C, accommodating short bursts of high load demands without damage.
Q: How does the voltage constant of 176.4 V/1000 min for MS2N10-E0BHN-CMVH3-NNNNN-NN servo motor impact control?
A: The voltage constant indicates how much open-circuit voltage the motor generates per 1000 rpm, helping drive electronics correctly scale the supply and field weakening strategies.
