MS2N07-D0BNN-CMUG0-NNANN-NN
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MPN: R911383767
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The Bosch Rexroth Indramat MS2N07-D0BNN-CMUG0-NNANN-NN, part of the MS2N Synchronous Servo Motors, is a highly efficient synchronous servo motor with natural convection cooling. It delivers a rated torque of 3.0 Nm and a peak torque of 13.5 Nm. The motor features an IP65 protection class and weighs approximately 3.2 kg.
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Product Description:
The MS2N07-D0BNN-CMUG0-NNANN-NN servo motor from Rexroth Indramat is made for industrial systems where accuracy and dependability are important. The motor features a rated speed of 2,940 rpm and a reported torque of 16.9 Nm. The rated current is 9.35 A, which is the same as the maximum power output of 5.2 kW.
The MS2N07-D0BNN-CMUG0-NNANN-NN servo motor has a maximum torque of 79.7 Nm when it is 20 °C cold and 73.2 Nm when it is 100 K warm. The top torque delivery is supported by a maximum current of 49.5 A at rms values. In both electrical and technical terms, the motor can go as fast as 6000 rpm per minute. The design includes 5 pole pairs that make power production and speed control work best. At 20 °C, the torque constant is 2.04 Nm/A, which makes sure that the reaction is consistent with the ampere input. At 20 °C, the voltage stays the same at 124.1 V per 1000 min⁻1, which makes power conversion work well. At 20 °C, the winding resistance is 0.671 Ω, which changes how much current flows and how much heat is generated. The motor has a leakage capacitance of 4.0 nF, which affects how it acts as shielding and its electromagnetic properties. The winding's thermal time constant is 54.0 s, which controls how it heats up when the electricity is turned on.
The MS2N07-D0BNN-CMUG0-NNANN-NN servo motor has a thermal time constant of 18.7 minutes, which shows how the motor body heats up overall. The inductance of the wire is 10.0 mH, which keeps the current from changing while it is working. The motor can work well in automation systems that need accuracy, repeatability, and controlled thermal reaction.
Frequently Asked Questions about MS2N07-D0BNN-CMUG0-NNANN-NN:
Q: Does MS2N07-D0BNN-CMUG0-NNANN-NN benefit from the winding resistance of 0.671 Ω?
A: The MS2N07-D0BNN-CMUG0-NNANN-NN winding resistance of 0.671 Ω reduces excessive current flow. It helps in controlling heating effects that increase efficiency and protect motor windings during operation.
Q: How does MS2N07-D0BNN-CMUG0-NNANN-NN achieve 6000 1/min speed?
A: The MS2N07-D0BNN-CMUG0-NNANN-NN achieves 6000 1/min speed through optimized winding design. The electrical and mechanical limits align to sustain continuous rotation that maintains efficiency at maximum load conditions.
Q: Why does MS2N07-D0BNN-CMUG0-NNANN-NN use a voltage constant of 124.1 V/1000 min⁻¹?
A: The motor has a voltage constant of 124.1 V/1000 min⁻¹ that enables efficient conversion of electrical input. It ensures a proportional voltage-to-speed relation that supports accurate drive control.
Q: How do thermal time constants affect MS2N07-D0BNN-CMUG0-NNANN-NN?
A: The MS2N07 motor has a winding thermal time constant of 54 s and a motor thermal time constant of 18.7 min. They define heat absorption and dissipation behavior.
Q: Do leakage capacitance values in MS2N07-D0BNN-CMUG0-NNANN-NN matter?
A: The servo motor has 4.0 nF leakage capacitance that impacts electromagnetic compatibility. It contributes to insulation properties that minimize interference and stabilize overall motor electrical behavior.
