MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN
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MPN: R911410619
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The MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN servo motor from the MS2N family boasts a rated speed of 6000 rpm, a rated torque of 1.91 Nm, and uses natural convection for cooling. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it features IP65 protection and operates at a rated voltage of 400 VAC.
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Product Description:
Bosch Rexroth Indramat company designed the MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN Servo Motor. It outputs a nominal torque of 6.40 Nm at 100K thermal conditions. This servo motor is designed to support 2.01 kW continuous power output. It has a winding heat time constant of 32.5 seconds.
The MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN servo motor has a thermal time constant of 17.4 minutes. The resistance of its winding is 2.75 ohms at 20 degrees C. The torque constant of this motor is 1.93 Nm/A at the same temperature. The component has a leakage capacitance of 1.84 nF. At an operating temperature of 100K, the peak torque is achieved as 38.4 Nm. Its electrical as well as mechanical maximum supported speed is equal to 6000 rpm. The MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN servo motor features five pole pairs to be controlled through a synchronized rotation. The motor is about 9.0 kg in weight. The highest torque of the servo motor at 20 degrees C is about 41.8 Nm. Its maximum allowable current is 25.5 A RMS. The servo motor has a current consumption of 3.82 A of current at 100K nominal temperature. Its continuous operating speed under the same thermal environment is 3000 revolutions per minute.
The MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN servo motor is designed to work in automation areas that involve optimal torque delivery. The motor delivers a stall torque of 9.0 Nm at 60K thermal condition. At 100K, the stall torque provides a value of 11.1 Nm. Its resistance, inductance, and thermal features are tailored to do similar duty cycles. The motor is high on temperature and speed ranges that it works with. The balance of power and torque allows the device to be used with variable loading. The model serves the demands of servo systems in the automated world.
Frequently Asked Questions about MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN:
Q: Why is the thermal time constant of the MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor important?
A: The thermal time constant of 17.4 minutes helps the MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor reach stable temperatures, ensuring reliable operation during varying load conditions.
Q: Why is the 25.5A current limit in the MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor provided?
A: The 25.5A current limit ensures the motor avoids overloading, maintaining consistent performance while preventing electrical damage and thermal stress in continuous use.
Q: What is the significance of the 41.8 Nm peak torque of MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor?
A: The 41.8 Nm peak torque offers increased performance for demanding applications, allowing the motor to manage high load surges and maintain system stability in high-demand operations.
Q: What are the benefits of the 9.0 Nm stall torque of MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor?
A: The 9.0 Nm stall torque at 60K ensures that the MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor can handle high-power demands, providing reliable deceleration and efficient motor control during load changes.
Q: How does the five-pole pair design optimize MS2N06-D1BNN-CMSH0-NNNNN-GE120N1008BN-NN motor control?
A: The five-pole pair design ensures synchronized rotation for precise control in high-performance automation systems. This reduces noise and improves operational stability in complex applications.
