MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN
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MPN: R911387157
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The MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN synchronous servo motor features a frame size of 05, natural convection cooling, and a nominal speed of 3400 min⁻¹. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it boasts IP65 protection and a nominal torque of 2.4 Nm.
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Product Description:
The product MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN belongs to the MS2N Synchronous Servo Motor series which is manufactured by Bosch Rexroth. The MS2N synchronous servo motors are optimized for applications requiring high precision and fast response. The motor supports a rated speed of 2850 1/min at 100K. It delivers a rated torque of 3.72 Nm under the same conditions.
The MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN Servo Motor has a rated current required is 2.36 A and a rated power is 1.11 kW. At 60K the standstill torque is 3.75 Nm with a standstill current of 2.29 A. Under 100K the standstill torque increases to 4.45 Nm. The related standstill current at 100K is 2.75 A. The motor provides a maximum torque of 11.5 Nm at 20 °C. Under 100K warm conditions maximum torque is 10.6 Nm. The maximum current drawn by the unit is 8.4 A. The torque constant of this servo motor is 1.78 Nm/A at 20 °C. It includes a winding inductance of 56.4 mH. The rotor’s moment of inertia is 0.00017 kg·m² which supports quick acceleration. The servo motor has five pole pairs for high-resolution performance. The encoder is a multiturn with 4096 revolutions for accurate positioning. The cooling is managed through a self-cooling mode. It functions best at ambient temperatures between 0 and 40 °C. The surface is coated with a conventional varnish that has a black finish (RAL 9005).
The MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN Servo Motor has a frame length is classified as B Class. It operates well by using a standard bearing. It is determined that the rotor inertia is minimal for responsive dynamics. The flange accuracy is standard and ensures consistent mounting. An M23 connector is used in a single cable to make the electrical connection.
Frequently Asked Questions about MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN:
Q: What is the benefit of the 1.78 Nm/A torque constant in MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN?
A: This high torque constant increases torque output per amp, enhancing motor efficiency. It reduces energy losses in demanding applications.
Q: How does the 0.00017 kg·m² rotor inertia influence system performance?
A: It allows for ultra-fast acceleration and deceleration. Ideal for precision applications requiring responsive motion changes.
Q: What does 56.4 mH winding inductance mean for motor operation?
A: The higher inductance stabilizes current flow during switching events. This contributes to smoother torque production and reduced motor vibration.
Q: Why is the 8.4 A maximum current important?
A: It supports brief high-torque demands without damaging the motor. Useful during acceleration bursts or load spikes.
Q: How does a multiturn encoder with 4096 revolutions improve accuracy in MS2N05-B0BNN-CMSH0-NNNNN-GE120N1010AN-NN?
A: It maintains absolute position over multiple shaft rotations. This eliminates the need for homing in power cycles.
