MS2N05-D0BHN-BMDG1-NNNNN-NN
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MPN: R911384394
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The Bosch Rexroth Indramat MS2N05-D0BHN-BMDG1-NNNNN-NN is part of the MS2N Synchronous Servo Motors series and features a motor-integrated multiturn absolute encoder. It has a rated speed of 3000 rpm and offers a maximum torque of 4.5 Nm. This motor is naturally cooled via convection and is classified under IP65 protection.
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Product Description:
The MS2N05-D0BHN-BMDG1-NNNNN-NN is an efficient Synchronous servo motor with built-in encoder feedback and holding brake devices that can produce torque reliably. Improved motion profiles with reduced inertia characteristics are supported by the servo motor.
At 100K, the motor's stall torque is 9.35 Nm, and it can produce 1.58 kW of continuous power. The winding is rated at 2000 rpm, which is the base speed. Both the operating current and the static current at 100K are 3.03 A and 3.63 A, respectively. At 60K, the static torque is 7.9 Nm and the stall current is 3.05 A. A multiturn encoder with 4096 revolutions and 128 signal periods using Hiperface® is used by the MS2N05-D0BHN-BMDG1-NNNNN-NN. Accurate feedback is provided by the inbuilt encoder. A rated voltage of 24 V and a current rating of 0.73 A are used by the holding brake. There is a hard cap of 30 ms for engagement and 80 ms for release. The rotor's low inertia and smooth shaft with a sealing ring provide for an efficient design. The design adheres to the B5/IM3001 standard with PT1000, and the cooling mode is self-cooling. A two-cable system with two M17 rotatable connections makes up the electrical connection.
Conventional bearing and flange arrangements are used by the MS2N05-D0BHN-BMDG1-NNNNN-NN synchronous servo motor. The surface of the motor is protected by the usual black RAL 9005 varnish finish. About 15.15 A is the surge current. The mechanical structure is supported by a frame length of D. With the electrical interface and the rotating M17 connections, mounting is made versatile. The motor can be easily integrated into modular automation systems due to its design. Accurate control is made possible by the encoder's architecture, which allows for continuous position tracking. The servo motor's electrically released brake ensures dependable holding capabilities.
Frequently Asked Questions about MS2N05-D0BHN-BMDG1-NNNNN-NN:
Q: Why does MS2N05-D0BHN-BMDG1-NNNNN-NN have a shaft sealing?
A: The shaft sealing protects internal components from contamination. It ensures durability and reduces maintenance over extended motor operation.
Q: Why does MS2N05-D0BHN-BMDG1-NNNNN-NN use low inertia?
A: Low inertia allows quick acceleration and deceleration. It enhances performance where a fast, dynamic response is required.
Q: How does MS2N05-D0BHN-BMDG1-NNNNN-NN manage encoder tracking?
A: It uses a multiturn encoder with 4096 revolutions. This enables precise position tracking and improves control accuracy.
Q: Does MS2N05-D0BHN-BMDG1-NNNNN-NN support flexible wiring?
A: Yes, it includes double cable connections with two rotatable M17 connectors. This offers easier installation and electrical flexibility.
Q: Why does MS2N05-D0BHN-BMDG1-NNNNN-NN have a self-cooling system?
A: Self-cooling helps maintain a stable motor temperature. It eliminates the need for external cooling hardware in most use cases.
