MS2N07-C1BNN-CMSG0-NNANN-NN
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MPN: R911380402
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The Bosch Rexroth Indramat MS2N07-C1BNN-CMSG0-NNANN-NN motor belongs to the MS2N Synchronous Servo Motors series and features natural convection cooling. It provides a rated power of 2.0 kW and a rated torque of 6.3 Nm. The motor is equipped with a multi-turn absolute encoder and a straight, rotatable connector.
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Product Description:
The MS2N07-C1BNN-CMSG0-NNANN-NN Servo Motor is designed and developed by Bosch Rexroth. It is specialized for industrial automation applications. It provides a nominal torque of 9.60 Nm at 100K conditions. The motor has a nominal speed of 3020 min⁻¹ during rated operation. It delivers 3.04 kW nominal power output at standard thermal conditions.
The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor runs with five pole pairs for magnetic field rotation. It offers a torque constant of 1.88 Nm/A measured at 20°C. The voltage constant is 114.0 V/1000 min⁻¹ under identical temperature. The current rating reaches 5.80 A when operating at 100K. Its winding resistance is 0.8 ohms at a stable 20 °C environment. The winding inductance measures 15.2 mH under factory test conditions. At 60K conditions, the servo motor achieves 11.5 Nm stall torque. The standstill current in these conditions reaches up to 6.6 A. The stall torque drops to 0 Nm with 14.5 A standstill current at 100K. The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor produces up to 46.0 Nm torque at 20°C. When warmed to 100K, the maximum torque reduces to 42.2 Nm. The peak current during load spikes can rise up to 29.5 A. The servo motor reaches a top mechanical and electrical speed of 6000 min⁻¹.
The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor has a rotor moment of inertia measured as 0.00305 kgm². The heat dissipation constant for the windings is rated at 37.8 seconds. The thermal time constant of the entire motor body is 14.8 minutes. The mass of the motor unit is measured at 12.0 kilograms. These parameters ensure optimized control under varying load demands. The motor has a leakage capacitance value of 1.85 nF. All thermal and electrical properties support integration into precise industrial systems. The servo motor is suitable for advanced motion applications.
Frequently Asked Questions about MS2N07-C1BNN-CMSG0-NNANN-NN:
Q: How does the MS2N07-C1BNN-CMSG0-NNANN-NN servo motor handle peak torque demands in rapid acceleration cycles?
A: The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor manages acceleration peaks by leveraging its 29.5 A surge capacity, ensuring torque stability and preventing performance dips during dynamic industrial motion sequences.
Q: What control tuning factors optimize MS2N07-C1BNN-CMSG0-NNANN-NN servo motor response at high rotational speeds?
A: The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor, for precise high control speed, benefits from PID gain calibration matched to its five-pole-pair configuration and voltage constant of 114.0 V/1000 min⁻¹.
Q: How does winding inductance impact MS2N07-C1BNN-CMSG0-NNANN-NN servo motor’s integration with digital drives?
A: The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor’s 15.2 mH winding inductance influences drive selection by requiring PWM switching strategies that minimize current ripple and maintain precise torque control.
Q: Which thermal management methods extend MS2N07-C1BNN-CMSG0-NNANN-NN servo motor performance under elevated load duty cycles?
A: The enhanced airflow or liquid-cooled housings integration helps the MS2N07-C1BNN-CMSG0-NNANN-NN servo motor sustain torque output by reducing winding temperatures and avoiding early thermal saturation.
Q: How does rotor inertia of MS2N07-C1BNN-CMSG0-NNANN-NN servo motor affect multi-axis synchronization accuracy?
A: The MS2N07-C1BNN-CMSG0-NNANN-NN servo motor’s 0.00305 kgm² rotor inertia aids in stable motion control, reducing overshoot and improving synchronization in coordinated multi-axis industrial systems.
