MS2N06-B1BNN-CMSG0-NNANN-NN
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MPN: R911375834
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The MS2N06-B1BNN-CMSG0-NNANN-NN servo motor offers a rated power of 0.95 kW, a rated torque of 3.2 Nm, natural cooling via convection, and IP65 enclosure protection. Part of the MS2N Synchronous Servo Motors by Bosch Rexroth Indramat, it features IM B5 flange mounting and an integrated absolute singleturn encoder for precise feedback.
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Product Description:
The MS2N06-B1BNN-CMSG0-NNANN-NN is a synchronous servo motor manufactured by Bosch Rexroth. For precision drive uses, it works well. With a resolution of 20 bits, the motor is built to give accurate input and can be used with ACUROlink encoder systems. The multiturn encoder can handle any number of full turns up to 4,096. It has a smooth shaft and a closing ring built into the shaft to meet certain needs.
At 100 K, the MS2N06-B1BNN-CMSG0-NNANN-NN servo motor can rotate at a speed of 3,000 rpm and a torque of 2.71 Nm. It has a maximum power of 0.85 kW and a winding that is best for 3,000 1/min. The frame length of the motor is B, and it cools itself. At 100K, the full-load current is 1.93 A and the standstill current is 2.47 A. It can handle up to 7.8 A of power at its peak. At a stop and 60K, the current drops to 2.22 A. At 100K, the highest torque is 9.45 Nm, and when it is cold (20°C), it goes up to 10.2 Nm. When the motor is at standstill, it has a torque of 3.60 Nm at 100K and 3.25 Nm at 60 K. The MS2N06-B1BNN-CMSG0-NNANN-NN motor has a moment value of 0.00048 kg·m² for its average rotor inertia. It has a single wire with an M23 connector that can be rotated for electrical connection.
The MS2N06-B1BNN-CMSG0-NNANN-NN servo motor comes with a normal bearing system that makes sure the rotation is always accurate. The exactness of the flange is set by a standard that matches the normal fitting tolerances. The motor only has one wire interface, which makes installation quick and easy. The encoder works well enough to meet SIL2 and PL d safety standards, and the flange design is aligned correctly according to standard practice.
Frequently Asked Questions about MS2N06-B1BNN-CMSG0-NNANN-NN:
Q: Why does MS2N06-B1BNN-CMSG0-NNANN-NN have self-cooling?
A: Self-cooling allows the motor to maintain thermal balance without external cooling components, optimizing compact installations and reducing design complexity.
Q: Does MS2N06-B1BNN-CMSG0-NNANN-NN support high peak torque?
A: Yes, it supports up to 10.2 Nm cold torque that allows short bursts of load handling without exceeding current thresholds.
Q: Why does MS2N06-B1BNN-CMSG0-NNANN-NN have standard bearings?
A: Standard bearings ensure consistent rotation and mechanical alignment that support general motion applications with expected durability and load handling.
Q: How does MS2N06-B1BNN-CMSG0-NNANN-NN ensure electrical efficiency?
A: Its single-cable M23 connection reduces wiring effort and minimizes signal interference which improves overall control reliability.
Q: Why does MS2N06-B1BNN-CMSG0-NNANN-NN have average rotor inertia?
A: Average rotor inertia provides a balanced response for dynamic and stable operations in positioning and speed control tasks.
