MS2N10-D1BNN-AMVG0-NNANN-NN
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MPN: R911380287
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The MS2N10-D1BNN-AMVG0-NNANN-NN is a synchronous servo motor with a rated power of 1.42 kW and a rated torque of 4.77 Nm. Manufactured by Bosch Rexroth Indramat, this motor is part of the MS2N Synchronous Servo Motors series and operates at a rated speed of 3000 rpm with IP65 protection. It features natural cooling and a 20-bit singleturn absolute encoder.
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Product Description:
The synchronous servo motor MS2N10-D1BNN-AMVG0-NNANN-NN from Bosch Rexroth is developed for precision drive automation tasks. It uses five pole pairs for efficient operation and its torque constant at 20 °C is 1.76 Nm/A. The motor design ensures IP65 protection with shaft sealing ring and it operates with cooling mode of IC410 through natural convection.
The MS2N10-D1BNN-AMVG0-NNANN-NN motor delivers a standstill torque of 56.0 Nm at 100 K by utilizing a standstill current of 34.3 A. Its rated speed reaches 2460 r/min under continuous load conditions and its rated torque is specified as 24.7 Nm. This motor consumes a nominal power of 6.35 kW, along with 16 A of current from a 3 x 400 VAC supply. It can deliver maximum torque of 174 Nm when operates in cold condition and at 100 K, its peak torque value is reduced to 160 Nm. The MS2N10 motor possess a maximum current capacity of 121.5 A under full load for a brief time and it supports a peak operating speed of 6000 r/min. Its winding has a thermal constant of 93.3 seconds and it takes 38.8 minutes as a whole to drop in temperature by half of the present value that helps in thermal stability. This unit comes without a holding brake and its total mass on its own is 36 kg.
The MS2N10-D1BNN-AMVG0-NNANN-NN motor uses HIPERFACE basic multiturn encoder for feedback that offers 16 signal periods with sin/cos 1Vss output and provides up to 4096 absolute revolutions. The motor uses a double cable of M40/M17 for electrical and feedback connections. It has a smooth shaft type and its flange design follows IM B5 per DIN 42948. The motor’s winding has an inductive value of 3.23 mH and its leakage capacitance is 3.33 nF.
Frequently Asked Questions about MS2N10-D1BNN-AMVG0-NNANN-NN:
Q: How does the HIPERFACE multiturn encoder in the MS2N10-D1BNN-AMVG0-NNANN-NN motor improve performance?
A: It provides precise position feedback with up to 4096 revolutions, ensuring highly accurate control in applications demanding synchronized motion and repeatability.
Q: Why is the thermal time constant of 93.3 seconds significant for this motor?
A: It allows stable thermal management by reducing overheating risks and ensuring consistent performance during frequent acceleration and deceleration cycles.
Q: What role does the leakage capacitance of 3.33 nF play in the motor?
A: It minimizes electrical interference, improving electromagnetic compatibility (EMC) when the motor is integrated into sensitive automation systems.
Q: Why is the use of M40/M17 double cable connections important?
A: It separates power and feedback signals, reducing noise interference and ensuring reliable communication with drive controllers.
Q: How does the inductive winding value of 3.23 mH affect operation?
A: It stabilizes current flow, helping to smooth out rapid torque changes and reducing harmonic distortions in high-speed operations.
