MS2N10-E0BHN-BMVK0-NNNNN-NN
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MPN: R911391088
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The Bosch Rexroth Indramat MS2N10-E0BHN-BMVK0-NNNNN-NN is part of the MS2N Synchronous Servo Motors series, featuring a frame size of 10 and surface cooling via natural convection. It delivers a rated power of 7.33 kW and a rated current of 17.8 A. The motor offers IP65 protection and a maximum speed of 6000 rpm.
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Product Description:
The MS2N10-E0BHN-BMVK0-NNNNNN-NN is a servo motor produced by Bosch Rexroth Indramat. It is primarily designed for industrial automation applications that necessitate high levels of precision and efficiency. Because of its dependable performance, this motor is ideal for use with a wide range of control systems and machinery.
At 100K, the MS2N10-E0BHN-BMVK0-NNNNNN-NN servo motor can reach a maximum electrical speed of 4000 min⁻¹, and it has a rated speed of 2000 min⁻¹. With a temperature of 100K, it can produce a maximum torque of 152.0 Nm and a rated torque of 53.2 Nm. With a 100K standstill current of 31.0 A and a 60K standstill current of 25.0 A, the standstill torque is 67.7 Nm. The rotor possesses 0.0114 kg·m² moment of inertia. With a torque constant of 2.9 Nm/A at 20 degrees C, this motor is perfect for dynamic control applications. The motor has a standard varnish coating (RAL 9005 black) and weighs 45 kg. You will not need any additional cooling for this motor because it runs in self-cooling mode. It features a multiturn design with absolute encoding for 4,096 revolutions and an encoder with standard performance, providing 128 signal periods. A rotatable double cable connector M40/M17 is used for the electrical connection. A half-key balancing system, a shaft sealing ring, and a keyway are all features of the shaft.
The winding thermal time constant of the MS2N10-E0BHN-BMVK0-NNNNN-NN servo motor is 122.5 minutes. This bearing is of the conventional variety. Because it lacks a retaining brake, the motor may be more easily integrated with a wide range of systems. The flange precision is industry standard. Leakage capacitance measures 16.1 nF in the motor. The PT1000 temperature sensor and the B5/IM3001 standard form the basis of the electrical design.
Frequently Asked Questions about MS2N10-E0BHN-BMVK0-NNNNN-NN:
Q: Does MS2N10-E0BHN-BMVK0-NNNNN-NN have a holding brake?
A: No, the MS2N10-E0BHN-BMVK0-NNNNN-NN doesn’t include a holding brake. This design choice offers more flexibility and allows for smooth integration into various systems.
Q: How does the low rotor inertia of MS2N10-E0BHN-BMVK0-NNNNN-NN benefit performance?
A: The low rotor inertia minimizes response time and increases dynamic performance. This characteristic is ideal for applications requiring quick acceleration and deceleration.
Q: Why does MS2N10-E0BHN-BMVK0-NNNNN-NN have a winding inductance of 12.3 mH?
A: The 12.3 mH winding inductance reduces the impact of high-frequency noise. It improves motor efficiency, ensuring stable and reliable operation in various systems.
Q: How does the encoder with 4,096 revolutions benefit MS2N10-E0BHN-BMVK0-NNNNN-NN?
A: The encoder provides high-resolution feedback with 4,096 revolutions absolute encoding. It ensures precise motion control and improves overall system accuracy.
Q: Does MS2N10-E0BHN-BMVK0-NNNNN-NN support self-cooling?
A: Yes, the MS2N10-E0BHN-BMVK0-NNNNN-NN operates in self-cooling mode. This eliminates the need for additional cooling equipment, making it more cost-effective and efficient in most applications.
