MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN
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MPN: R911409744
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The MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN is a synchronous servo motor with natural convection cooling and an IP65 protection class. Manufactured by Bosch Rexroth Indramat as part of the MS2N Synchronous Servo Motors series, it delivers a rated power of 1.0 kW and operates at 3000 rpm with a 16-bit single-turn encoder.
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Product Description:
The MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN Synchronous servo motor has integrated feedback and precise torque output. The synchronous servo motor is manufactured by Bosch Rexroth. Compact integration and reliable operation are made possible by its self-cooling design and frame size 05 construction. Two rotating M17 connections form the electrical connection's double cable arrangement.
At 20°C, the MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN synchronous servo motor offers a back EMF constant of 56.3 V/krpm and a torque sensitivity of 0.93 Nm/A. It is possible to obtain a peak RMS current of 30.2 A. It is a multiturn Hiperface design that the encoder system utilizes in order to accomplish the resolution of 4096 revolutions and 128 signal periods. At a temperature of 20 degrees Celsius, the motor winding was measured to have a minimum inductance of 7.6 millihertz and a resistance of 1.26 ohms. A maximum shaft speed and electrical rotor speed of 6000 rpm are possible while operating this motor, which makes use of a winding design rated for 6000 rpm. There are five pairs of poles. Motor uses B5 / IM3001 mounting design with integrated PT1000 temperature sensor; coating is standard RAL 9005 black varnish. Standard flange exactness is maintained.
The MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN synchronous servo motor is responsible for 5.9 kg. Its use in factory automation is backed by these mechanical and electrical specs. The rotor's conventional bearing arrangement results in a low level of inertia. The thermal time constant for the motor is sixteen minutes, whereas the thermal time constant for the winding process is thirty-six seconds. The design does not have any holding brakes or adjustments that are not previously available. In addition, the shaft is smooth, and there is no sealing ring on the shaft.
Frequently Asked Questions about MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN:
Q: Does MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN support a multiturn encoder?
A: Yes, the motor uses a multiturn Hiperface encoder with 4096 revolutions. This supports accurate multi-position feedback for advanced motion control.
Q: Do MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN motors include shaft sealing?
A: No, the shaft is smooth without a sealing ring. This reduces mechanical complexity and is suitable for specific application requirements.
Q: Why is winding thermal time constant important here?
A: The 36.2 s winding thermal time constant allows reliable temperature response monitoring. It helps maintain consistent motor performance under varying loads.
Q: Does MS2N05-C0BTN-BMDH0-NNNNN-GM100N2050BN-NN include a holding brake?
A: No, the motor is designed without a holding brake. This is ideal where external holding mechanisms or load conditions provide natural stability.
Q: How does phase resistance affect performance here?
A: The 1.26 Ω phase resistance controls current flow and thermal behavior. It influences the efficiency and dynamic response of the motor.
