MS2N06-C0BNN-CSSH0-NNNNN-NN
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MPN: R911392317
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The MS2N06-C0BNN-CSSH0-NNNNN-NN is a synchronous servo motor with natural cooling and no holding brake. Manufactured by Bosch Rexroth Indramat as part of the MS2N Synchronous Servo Motors series, it features a rated torque of 6.10 Nm. The motor operates at 3000 rpm, has an IP65 protection class, and uses a single-turn absolute encoder.
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Product Description:
The Bosch Rexroth Indramat's manufactured MS2N06-C0BNN-CSSH0-NNNNN-NN Synchronous Servo Motor is engineered to provide accurate electrical-to-mechanical energy conversion. This servo motor has a maximum mechanical speed of 6000 1/min, which allows high-speed operation in rapid-motion automation systems.
This MS2N06-C0BNN-CSSH0-NNNNN-NN Synchronous Servo Motor has a rated speed of 3000 1/min at 100K to make it ideal for continuous-duty operation where a steady rotational speed is needed for long durations. This synchronous servo motor generates a maximum torque of 17.3 Nm at 20 °C (cold), suitable for applications where heavy startup force or periodic loads are needed. This servo motor has a rated current of 3.51 A at 100K and can sustain a maximum current of 12.75 A to ensure thermal stability even in the most demanding situations. This motor also has a torque constant of 1.73 Nm/A when the temperature is 20 °C to provide a stable torque output against varying current. The winding resistance of this servo motor is 4.48 Ω at 20 °C to support thorough thermal calculation and power loss analysis for efficient system design. The thermal time constant of the MS2N06-C0BNN-CSSH0-NNNNN-NN synchronous motor is 14.1 minutes to enhance the prediction of the heating behavior and prevent overheating due to continuous operation or sudden load surges.
This servo motor’s single-turn absolute encoder with 1 revolution provides accurate angular position feedback without homing or recalibration after power cycles. The smooth shaft of the MS2N06-C0BNN-CSSH0-NNNNN-NN motor enables direct coupling with a variety of systems with minimum mechanical backlash. This synchronous motor employs an M23 single-cable connection for both power and signal transmission to minimize wiring complexity. The connection of this motor is also rotatable, which makes it easier to manage cables in compact or movable machine structures. The Leakage capacitance of this motor is 1.24 nF, which helps in reducing interference and ensuring signal integrity in electrically noisy environments.
Frequently Asked Questions about MS2N06-C0BNN-CSSH0-NNNNN-NN:
Q: Why is a smooth shaft used in the MS2N06-C0BNN-CSSH0-NNNNN-NN?
A: A smooth shaft ensures minimal backlash in couplings. This is important for applications requiring exact positioning and low mechanical vibration.
Q: How does the 1.24 nF leakage capacitance affect signal stability?
A: It minimizes capacitive interference in signal lines, maintaining data integrity. This helps in environments with high-frequency switching devices.
Q: How does a rotatable M23 connector benefit installation?
A: It allows cable direction adjustment during setup. This reduces strain on cables and supports compact machinery layouts.
Q: Why is a single-turn encoder suitable for MS2N06-C0BNN-CSSH0-NNNNN-NN?
A: It provides absolute position feedback for one revolution without needing homing. This is ideal for systems with short-stroke motion profiles.
Q: What is the role of 4.48 Ω winding resistance in thermal performance?
A: It directly impacts power loss and heat generation. Lower resistance helps maintain efficiency during extended motor use.
