MS2N05-B0BNN-CMSH1-NNNNN-NN
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MPN: R911398264
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The MS2N05-B0BNN-CMSH1-NNNNN-NN is a Servo Motor manufactured by Bosch Rexroth Indramat. Part of the MS2N Synchronous Servo Motors series, it features a rated power of 0.5 kW and a rated torque of 1.59 Nm. The motor comes with natural convection cooling and an IP65 protection class.
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Product Description:
The MS2N05-B0BNN-CMSH1-NNNNN-NN Servo Motor is the development of Bosch Rexroth and it can achieve the highest rotational speed of 6000 RPM. It also has the capability of dissipating heat through natural convection or internal design features. The current drawn by this MS2N Synchronous Servo Motors series module is 2.29 amperes when holding position.
The MS2N05-B0BNN-CMSH1-NNNNN-NN servo motor is ideal for industrial automation applications that need quick acceleration and deceleration as it has a lower inertia. Its advanced 20-bit encoder provides extremely precise position feedback which uses ACUROlink digital interface for robust and fast data transfer. Its continuous torque generating capacity is 3.72 newton meters to match mechanical load requirements. Between its windings and frame the capacitive coupling is 1.3 nF which may affect EMC in installations. The exact numeric measure of rotor inertia is 0.00028 kg·m² which is essential for dynamic response. The continuous electric power it can convert into mechanical output when working under rated conditions is 1100 watts. Its nominal speed rating based on its winding design is 3000 1/min. When heated it then takes 12.7 minutes of time to reach its temperature to 63% of the final value.
The MS2N05-B0BNN-CMSH1-NNNNN-NN servo motor stator windings have an electrical inductance of 56.4 mH which suggests quicker current response. To deliver its rated torque and power it operates at 2850 RPM of speed. It includes 5 pole pairs which results in 237.5 Hz electrical frequency at rated speed. During high torque demand it safely handles 8.4 amperes of maximum current. Its multiturn encoder not only tracks just angular position within one revolution but also the number of full revolutions up to 4096.
Frequently Asked Questions about MS2N05-B0BNN-CMSH1-NNNNN-NN:
Q: How does the low rotor inertia benefit dynamic motion applications?
A: Low rotor inertia enables faster acceleration and deceleration, ideal for precise and rapid positioning tasks. It significantly improves responsiveness in motion control systems.
Q: Why is a multiturn encoder with 4,096 revolutions used in the MS2N05-B0BNN-CMSH1-NNNNN-NN?
A: This multiturn encoder retains absolute position across revolutions, even without power. It ensures accurate homing and positioning without the need for external sensors.
Q: How does the ACUROlink digital interface improve communication reliability?
A: ACUROlink ensures high-speed and interference-resistant data transmission. This results in more robust real-time control and reduces signal degradation over long cable runs.
Q: Why is the leakage capacitance of 1.3 nF significant in industrial installations?
A: A leakage capacitance of 1.3 nF may influence electromagnetic compatibility (EMC). It helps determine the grounding and filtering requirements in control cabinet designs.
Q: What advantage does the 12.7-minute motor thermal time constant offer?
A: It allows more stable thermal behavior during fluctuating loads. This provides protection against overheating and enables more predictable motor duty cycles.
