MS2N06-B1BNN-CMSH0-NNNNE-NN
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MPN: R911384929
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The MS2N06-B1BNN-CMSH0-NNNNE-NN synchronous servo motor has a rated power of 0.75 kW, a rated torque of 2.39 Nm, a maximum speed of 6000 rpm, and features IP65 protection. Part of the MS2N Synchronous Servo Motors series by Bosch Rexroth Indramat, it includes flange mounting and a rotatable connector for flexible installation.
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Product Description:
The MS2N06-B1BNN-CMSH0-NNNNE-NN Servo Motor delivers high-precision motion control for industrial automation. No integrated brake is present in this servo motor model configuration. The cooling of the motor is achieved through self-cooling without external components. Protection class is defined as IP65 when the shaft sealing ring is installed.
The MS2N06-B1BNN-CMSH0-NNNNE-NN Servo motor includes an absolute optical encoder with ACUROlink protocol. The motor can achieve a maximum torque of 10.2 Nm in cold operating conditions. Inductance between windings is 52.4 mH. The overall mass of the motor is 5.1 kg. It delivers a nominal torque output of 2.71 Nm. The thermal time constant of the winding is 15.7 seconds. The servo motor operates at a rated speed of 3000 rpm, with a maximum achievable speed reaching 6000 rpm under peak conditions. The required power output of this MS2N06-B1BNN-CMSH0-NNNNE-NN Servo motor reaches up to 0.85 kW. The current drawn by the motor is measured at 1.93 A under standard load. The torque constant is rated at 1.62 Nm/A of current. The electrical constant of the motor is 98.2 V per 1000 min⁻¹ speed. The maximum RMS current for the motor is documented at 7.8 A. The angular mass for this servo motor is 0.00048 kg·m². The winding resistance value is measured at 12.2 ohms at the reference state.
The leakage capacitance for this MS2N06-B1BNN-CMSH0-NNNNE-NN Servo motor is 0.6 nF. The motor body thermal time constant is rated at 12.2 minutes. The environmental humidity of the motor must not exceed 30% under dry clean conditions. Ambient temperature should remain between 0 to 40 °C during operation. Derating is required above 40 °C up to a limit of 60 °C. The servo motor meets thermal class 155 (F) standards.
Frequently Asked Questions about MS2N06-B1BNN-CMSH0-NNNNE-NN:
Q: How does the optical encoder benefit the MS2N06-B1BNN-CMSH0-NNNNE-NN Servo motor?
A: The absolute optical encoder enhances positional accuracy and ensures consistent feedback, crucial for high-precision automation. It supports the ACUROlink protocol for real-time data transmission.
Q: How does the 155 (F) thermal class benefit the MS2N06-B1BNN-CMSH0-NNNNE-NN?
A: It indicates the motor's insulation can withstand temperatures up to 155 °C. This ensures safe long-term operation under thermal stress.
Q: Why is self-cooling used in the MS2N06-B1BNN-CMSH0-NNNNE-NN Servo motor?
A: Self-cooling eliminates the need for external cooling components, reducing overall system complexity. It ensures continuous operation in moderate ambient conditions.
Q: Why is derating above 40 °C required for MS2N06-B1BNN-CMSH0-NNNNE-NN?
A: Derating prevents overheating when the ambient temperature exceeds optimal levels. It maintains motor reliability up to 60 °C.
Q: How does 12.2 Ohms winding resistance affect MS2N06-B1BNN-CMSH0-NNNNE-NN motor behavior?
A: Higher winding resistance helps control inrush current and thermal load. It supports safer and more efficient energy usage.
