MS2N06-E0BRN-CMSG0-NNNNN-NN
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MPN: R911385619
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The MS2N06-E0BRN-CMSG0-NNNNN-NN, from Bosch Rexroth Indramat's MS2N Synchronous Servo Motors series, features a rotatable connector and natural convection cooling as standard. This motor boasts a rated torque range of 3.5 Nm to 9.0 Nm and is equipped with a multi-turn absolute encoder and an IP65 protection class.
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Product Description:
The Bosch Rexroth MS2N06 E0BRN CMSG0 NNNNN NN Servo motor delivers accurate results in motion control. It has a 116mm frame size and offers a continuous output of 2.63kW. It maintains a steady torque of 8.05Nm at 100K. The motor delivers a standstill torque figure of 13Nm at 60K. It also offers 16.3Nm of standstill at 100K.
The MS2N06-E0BRN-CMSG0-NNNNN-NN servo motor draws the standstill current of 13.7 A at 100K. It has a rated current of 7.2 A at 100K and can be used in power-efficient applications. The Bosch servo motor achieves a peak torque of 53.4Nm at 20°C, decreasing slightly to 49.0Nm at 100K. This ensures strong performance from startup through warm operation. It can draw a maximum current of 50.8A, allowing it to handle demanding loads reliably. The servo motor has a maximum electrical rotational and mechanical speed of 6000 rpm. This guarantees rapid responsiveness in demanding operations. The MS2N06-E0BRN-CMSG0-NNNNN-NN servo motor consists of five pole pairs, adding to its smooth operation and the torques delivered. The motor has a torque coefficient of 1.29 Nm/A and a back emf coefficient of 78.4 V/1000 min-1. This optimizes the motor performance in different conditions. It has low inertia so that it can change its position and speed rapidly. The coil resistance of the motor is 0.638 Ω at 20°C. Its inductance of 6.895 mH results in stable operating conditions.
The MS2N06-E0BRN-CMSG0-NNNNN-NN servo motor has a heat dissipation time of 20 minutes and 48.6 seconds in the case of the winding. This makes the motor efficient in heat management. This makes it suitable for an application demanding a low-inertia motor for industrial automation. The motor also offers electrical stability due to the leakage capacitance of 3.87 nF. The angular mass of the motor is 0.00089 kg·m2.
Frequently Asked Questions about MS2N06-E0BRN-CMSG0-NNNNN-NN:
Q: Why does MS2N06 E0BRN CMSG0 NNNNN NN use five pole pairs?
A: The five pole pairs in MS2N06 E0BRN CMSG0 NNNNN NN enhance torque smoothness and reduce cogging for precision motion control.
Q: How does 0.638Ω coil resistance benefit MS2N06 E0BRN CMSG0 NNNNN NN?
A: The specific coil resistance balances current draw and heat generation improving thermal stability in MS2N06 E0BRN CMSG0 NNNNN NN.
Q: Why is back EMF 78.4V/1000min⁻¹ significant in MS2N06 E0BRN CMSG0 NNNNN NN?
A: This back EMF value provides predictable voltage feedback for accurate speed regulation in MS2N06 E0BRN CMSG0 NNNNN NN.
Q: How does low inertia improve MS2N06 E0BRN CMSG0 NNNNN NN response?
A: The low inertia of MS2N06 E0BRN CMSG0 NNNNN NN enables faster acceleration and deceleration ideal for dynamic industrial cycles.
Q: Why include 6.895mH inductance in MS2N06 E0BRN CMSG0 NNNNN NN?
A: The 6.895mH inductance stabilizes current flow reducing electrical noise in MS2N06 E0BRN CMSG0 NNNNN NN during high-speed use.
