MS2N07-D0BNN-AMUG2-NNNNN-NN
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MPN: R911397784
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The MS2N07-D0BNN-AMUG2-NNNNN-NN is a synchronous servo motor featuring natural convection cooling and a frame size of 07. Manufactured by Bosch Rexroth Indramat under the MS2N Synchronous Servo Motors series, it has a rated power of 0.95 kW and a rated speed of 3000 rpm. Its protection class is IP65 and includes rotatable connectors.
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Product Description:
The MS2N07-D0BNN-AMUG2-NNNNN-NN Servo Motor from Bosch Rexroth Indramat is designed for efficient operation in automated systems. The configuration emphasizes efficiency, precision and stability during extended duty cycles. The motor provides accurate control in high-performance drive tasks.
The MS2N07-D0BNN-AMUG2-NNNNN-NN servo motor delivers a standstill torque of 22.0 Nm which secures holding capability during static positioning without drift. The standstill current at 60K is 11.55 A. Such current flow defines electrical demand and provides thermal stability during rated duty. The moment of inertia of the rotor is 0.00251 kg·m². Low inertia reduces overrun in quick cycle activities and speeds up acceleration. The maximum torque at 20 °C is 79.7 Nm. Short-term overload situations are supported by this torque reserve without affecting motor performance. The winding resistance at 20 °C is 0.671 Ω. The value contributes to heat generation and influences energy efficiency under electrical loading. The winding inductance is 10.0 mH which regulates current dynamics and stabilizes inverter-controlled operation. In automation jobs, the winding speed of 3000 min⁻¹ guarantees synchronization with servo driving needs. 54.0 s is the winding's thermal time constant. This parameter defines heating response and determines safe duty cycles in repetitive loading. The motor mass is 20 kg which provides mechanical stability while enabling integration into compact machine assemblies.
The MS2N07-D0BNN-AMUG2-NNNNN-NN servo motor has a multiturn encoder with 4,096 revolutions absolute. These advanced specifications in this motor provide easy integration in industrial applications that require accuracy and controlled performance. Because to the standard flange exactness, assembly tolerance is maintained while accurate alignment is possible during installation. The encoder design secures accurate position tracking across extended cycles and prevents cumulative error.
Frequently Asked Questions about MS2N07-D0BNN-AMUG2-NNNNN-NN:
Q: How does the MS2N07-D0BNN-AMUG2-NNNNN-NN perform in high-precision applications?
A: The motor provides high precision with its multiturn encoder, which ensures accurate position tracking for long cycles without cumulative errors, ideal for high-precision applications.
Q: What is the impact of the low inertia on the motor’s performance?
A: The low rotor moment of inertia (0.00251 kg·m²) of the motor enhances rapid acceleration and minimizes overshoot, making it suitable for fast cycle operations with minimal delay.
Q: How does the motor contribute to load management during industrial operations?
A: With its maximum torque of 79.7 Nm and standstill torque of 22.0 Nm, the motor ensures that high-load conditions are effectively managed, preventing motor overload in continuous duty operations.
Q: What makes the MS2N07-D0BNN-AMUG2-NNNNN-NN suitable for extended duty cycles?
A: The MS2N07-D0BNN-AMUG2-NNNNN-NN motor is designed for extended duty cycles, with a thermal time constant of 54.0 s, preventing thermal overloads and ensuring consistent performance even under prolonged operational conditions.
Q: Can the motor handle high-torque demands?
A: Yes, the motor’s maximum torque of 79.7 Nm supports short-term overloads, offering high torque reserves to handle demanding tasks without compromising motor integrity.
