MS2N06-B1BNN-BSUH0-NNNNN-NN
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MPN: R914001057
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The MS2N06-B1BNN-BSUH0-NNNNN-NN is a size 06 synchronous servo motor with a continuous stall torque of 2.8 Nm. Manufactured by Bosch Rexroth Indramat as part of their MS2N Synchronous Servo Motors series, it features an integrated multiturn absolute encoder and offers IP65 protection with natural convection cooling.
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Product Description:
Bosch Indramat manufactures the MS2N Synchronous Servo Motor for advanced motion systems. The MS2N06-B1BNN-BSUH0-NNNNN-NN delivers precise torque control and efficient performance. It is suitable for automation tasks requiring accurate positioning and consistent torque. The standstill torque is 3.25 Nm at 60K with a standstill current of 2.22 A. At 100K, the standstill torque increases to 3.60 Nm with a standstill current of 2.47 A.
The MS2N06-B1BNN-BSUH0-NNNNN-NN Synchronous Servo Motor has a rated torque under 100K conditions of 2.71 Nm with a rated current of 1.93 A. The motor achieves a rated speed of 3000 1/min. At 20 °C, the maximum torque is 10.2 Nm. It supports a maximum current of 7.8 A under peak demand. The rotor's rotational inertia is 0.00048 kgm². This motor is ideal for applications where fast response and accuracy are essential. This ensures quick dynamic response and stable control. At 20 °C the servo motor's torque constant is 1.62 Nm/A and there is a 98.2 V per 1000 min⁻¹ voltage constant. The accurate torque and speed control are supported by these values. The winding resistance of the MS2N Synchronous Servo Motor is 12.2 ohms. The design includes five pole pairs for balanced magnetic field generation. The technical build supports controlled acceleration and smooth operation.
The MS2N06-B1BNN-BSUH0-NNNNN-NN Synchronous Servo Motor has a leakage capacitance of 0.6 nF which reduces the risk of signal interference. It is engineered to operate in ambient temperatures from 0 to 40 °C. The MS2N06-B1BNN-BSUH0-NNNNN-NN model offers high reliability in continuous industrial use. It combines electrical efficiency with mechanical stability. It maintains performance across a wide range of speeds. The winding inductance is rated at 52.4 mH for stable motor behavior.
Frequently Asked Questions about MS2N06-B1BNN-BSUH0-NNNNN-NN:
Q: Why does the motor have five pole pairs?
A: The five pole pairs improve torque smoothness and electromagnetic balance. The design ensures accurate response in position and speed control systems.
Q: How does the 0.00048 kgm² rotor inertia benefit the system?
A: The low rotor inertia enables fast acceleration and deceleration. The MS2N06-B1BNN-BSUH0-NNNNN-NN is ideal for highly dynamic motion cycles.
Q: Why is a 1.62 Nm/A torque constant important?
A: The torque constant allows predictable torque output per ampere. The value supports precise motor control under variable loads.
Q: What does the 52.4 mH winding inductance affect?
A: The inductance stabilizes current flow through motor windings. The MS2N06-B1BNN-BSUH0-NNNNN-NN benefits from reduced ripple during PWM operation.
Q: Why is voltage constant rated at 98.2 V/1000 min⁻¹?
A: The voltage constant correlates with back EMF and motor speed. The value ensures accurate voltage feedback for closed-loop drives.
