MS2N06-D1BNN-CMSH0-NNNNE-NN
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MPN: R911384941
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The Bosch Rexroth Indramat MS2N06-D1BNN-CMSH0-NNNNE-NN is a Synchronous Servomotor from the MS2N Synchronous Servo Motors series, featuring an IP65 protection class. It delivers a rated power of 1.6 kW and a rated torque of 5.1 Nm. The motor uses natural convection cooling and a singleturn Hiperface encoder.
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Product Description:
The MS2N06-D1BNN-CMSH0-NNNNE-NN Servo Motor is developed by Bosch Rexroth Indramat company to serve industrial automation tasks. It operates with a standstill current of 6.25 A at 100K. The rated speed under 100K conditions is 3000 1/min. The rated torque at 100K is measured as 6.40 Nm. The servo motor supports a mechanical speed of up to 6000 1/min.
The MS2N06-D1BNN-CMSH0-NNNNE-NN servo motor includes five pole pairs for optimized motor control. The moment of inertia for the rotor is 0.0014 kgm^2. The torque constant at 20 degrees C is specified as 1.93 Nm/A. The voltage constant at 20 degrees C is defined as 117.3 V per 1000 1/min. This servo motor has a winding resistance of 2.75 Ohms. Its value of Standstill torque under 60K is recorded as 9.0 Nm. The corresponding standstill current at 60K thermal condition is 5.05 A. The motor uses an operating current of 3.82 A at 100K. The power output of the motor is 2.01 kW under 100K conditions. The unit delivers a maximum torque of 41.8 Nm when cold. The maximum electrical speed of the device is also limited to 6000 1/min. The maximum current supported is 25.5A in RMS value. The motor supports the winding inductance of 18.0 mH.
The thermal time constant of the MS2N06-D1BNN-CMSH0-NNNNE-NN servo motor winding is 32.5 seconds. The rotor's low inertia supports faster dynamic response. The constant torque-to-current ratio enables consistent motor performance. High maximum torque allows momentary load surges. There are 5 pole pairs present in the motor for different servo operations. The current values support thermal and operational safety. The winding and thermal properties are suited for precise duty cycles. The leakage capacitance of this device model is measured at 1.84 nF.
Frequently Asked Questions about MS2N06-D1BNN-CMSH0-NNNNE-NN:
Q: What is the importance of the low inertia of the MS2N06-D1BNN-CMSH0-NNNNE-NN motor?
A: The low inertia of the MS2N06-D1BNN-CMSH0-NNNNE-NN motor ensures faster dynamic response, improving precision and reducing mechanical delay in high-speed applications.
Q: How does the 1.93 Nm/A torque constant of the MS2N06-D1BNN-CMSH0-NNNNE-NN motor help?
A: The 1.93 Nm/A torque constant ensures efficient torque generation, offering high performance while maintaining energy efficiency for industrial automation tasks.
Q: Why does the MS2N06-D1BNN-CMSH0-NNNNE-NN motor have a 32.5 second thermal time constant?
A: The 32.5 second thermal time constant allows the MS2N06-D1BNN-CMSH0-NNNNE-NN motor to stabilize its temperature effectively, ensuring reliable performance during high-duty cycles.
Q: What benefits does the 25.5A maximum current drawn by the MS2N06-D1BNN-CMSH0-NNNNE-NN motor provide?
A: The 25.5A maximum current capacity ensures that the motor can handle momentary load surges and maintain performance under heavy electrical demands.
Q: How does the standstill torque of the MS2N06-D1BNN-CMSH0-NNNNE-NN motor differ under different thermal conditions?
A: The standstill torque of 9.0 Nm at 60K ensures that the motor performs efficiently under low-temperature conditions, providing consistent performance during deceleration and braking.
