MS2N05-B0BNN-CSSL1-NNNNN-NN
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MPN: R914001069
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The MS2N05-B0BNN-CSSL1-NNNNN-NN synchronous servo motor features a flange size of 70 mm, a rated speed of 3000 rpm, a rated power of 0.95 kW, and a rated torque of 3.0 Nm. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it employs an IP65 protection class for robust performance.
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Product Description:
The MS2N05-B0BNN-CSSL1-NNNNN-NN synchronous servo motor belongs to MS2N and id manufactured by Bosch Rexroth Indramat. For use in industrial automation, it has been carefully designed to fulfil the industrial criteria.
At 100K, the MS2N05-B0BNN-CSSL1-NNNNN-NN synchronous servo motor has a rated power of 1.11 kW, a torque constant of 1.78 Nm/A at 20C, and a rated current of 2.36 A. Maximum mechanical and electrical speeds of 6,000 1/min are possible with this motor, which also features a winding inductance of 56.4 mH. The motor's 20-bit ACUROlink SIL3 encoder allows for extremely accurate control. The greatest torque that this motor is capable of delivering is 10.6 Nm when heated to 100K and 11.5 Nm while cold. Its frame length is B. With a B5 / IM3001 flange, it is thoughtfully designed. On top of that, it has a temperature monitoring PT1000 built right in. There is a voltage constant of 108.4 V/1000 min-1 for the motor at 20C. One typical coat of RAL 9005 black varnish covers the motor. Both the winding and the motor have thermal time constants of 21.2 s and 12.7 min, respectively.
At 100K, the MS2N05-B0BNN-CSSL1-NNNNN-NN servo motor may reach a rated speed of 2850 1/min and a stationary torque of 3.75 Nm at 60K and 4.45 Nm at 100 K. With just one M23 cable, all electrical connections may be made. The motor has a keyway shaft that does not have a sealing ring and an encoder that only counts one turn. Standstill currents of 2.29 A at 60K and 2.75 A at 100K are provided by it. With 5 pole pairs, 1.3 nF of leakage capacitance, and a rotor inertia of 0.00028 kg*m2, this self-cooling motor is efficient.
Frequently Asked Questions about MS2N05-B0BNN-CSSL1-NNNNN-NN:
Q: Why does the MS2N05-B0BNN-CSSL1-NNNNN-NN use an advanced 20-bit encoder?
A: The advanced 20-bit encoder ensures precise control and positioning. It enhances the motor's performance in demanding applications.
Q: Does the MS2N05-B0BNN-CSSL1-NNNNN-NN have thermal protection for winding?
A: Yes the MS2N05-B0BNN-CSSL1-NNNNN-NN has a thermal time constant of 21.2 s. It helps to protect the motor.
Q: How does the MS2N05-B0BNN-CSSL1-NNNNN-NN achieve its self-cooling capability?
A: The self-cooling design allows it to dissipate heat. It maintains optimal operating temperatures without external cooling.
Q: Why is the winding inductance L12_min of MS2N05-B0BNN-CSSL1-NNNNN-NN 56.4 mH?
A: The winding inductance of 56.4 mH supports efficient energy transfer. It optimizes the motor's performance and response.
Q: How does the single cable connection benefit MS2N05-B0BNN-CSSL1-NNNNN-NN?
A: The single cable connection simplifies installation and reduces wiring complexity. It makes the setup and maintenance more efficient.
