MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN
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MPN: R911400051
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The Bosch Rexroth Indramat MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN motor is part of the MS2N Synchronous Servo Motors series and features natural convection cooling. It delivers a rated power of 1.05 kW and rated torque of 4.2 Nm. With IP65 protection and a single-cable absolute multiturn encoder, it ensures reliable performance.
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Product Description:
Bosch Indramat designs the MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN as a 1.74 kW AC motor. It supports a maximum current of 30.3 A and produces a voltage constant of 84.8 V/1000 RPM while the rated torque constant measured at 20°C is 1.4 Nm/A. This motor is designed to run with five pole pairs internally and weighs 8.4 kg in total.
The MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN AC motor offers a maximum torque of 4.74 Nm and spins at a normal speed of 3510 RPM. It consists of a single electrically released brake that takes about 30 ms to connect and 80 ms to disconnect. The brake operates on 24 VDC and possess a braking power of 400 j with a moment of inertia 0.0001070 kg·m². The MS2N05 AC motor comes with a multiturn encoder that perform on 4096 separate bit rotations and it uses Link interface. The suggested voltage range for the encoder is from 7 to 12 V and it uses at most 60 mA of current. The encoder is assigned a standard safety level of SIL2 and PL d. The MS2N05 AC motor has an M17 rotatable cable for electrical connections and it follows a self-cooling mechanism. The value of offered rotor inertia is 0.00051 kg·m². The MS2N05 AC motor’s winding resistance at 20°C is 1.76 Ω and an inductance of 11.18 mH.
The MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN AC motor can get a maximum mechanical and electrical speed of 6000 RPM. The winding thermal time constant is 45.8 minutes and that of the motor is 18.5 minutes. The MS2N05 AC motor’s shaft diameter is 24 mm and its length is 50 mm, the shaft has a smooth design without a sealing-ring. The motor provides mounting holes of 9 mm width and has a flange size of 116 mm.
Frequently Asked Questions about MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN:
Q: How does the self-cooling mechanism in the MS2N05 motor enhance performance?
A: The self-cooling mechanism prevents overheating during high-speed operations, ensuring reliable motor performance. This is crucial for maintaining the motor's longevity in demanding environments.
Q: Why is the winding resistance at 20°C important for the MS2N05 motor?
A: A winding resistance of 1.76 Ohm helps control the efficiency of the motor's electrical energy conversion. It ensures optimal energy utilization and reduces unnecessary heat generation, improving system efficiency.
Q: What role does the 24 mm shaft diameter play in the MS2N05-D0BRN-CMSH1-NNNNN-GM100N2050DN-NN motor’s design?
A: The 24 mm shaft diameter provides a robust and stable connection to the mechanical components, minimizing wear and ensuring consistent torque transmission. This ensures reliability in high-torque applications.
Q: How does the 400 J braking power impact the MS2N05 motor's performance?
A: The 400 J braking power ensures the motor's smooth deceleration, which is vital for safety in applications requiring precise stopping. It reduces mechanical stress and enhances the motor's lifespan.
Q: Why is a moment of inertia of 0.00051 kg·m² significant in the MS2N05 motor?
A: The low moment of inertia enables quick response and precise control during rapid speed changes, which is essential for high-performance applications. It improves dynamic performance, especially in automated machinery.
