MS2E10-D0BHN-CMVK0-NNNNN-NN
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MPN: R914505566
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The MS2E10-D0BHN-CMVK0-NNNNN-NN synchronous servomotor delivers a standstill torque of 51 Nm, a rated power of 6.4 kW, and weighs between 34 and 39 Kilograms. Part of the MS2E Synchronous Servomotors series by Bosch Rexroth Indramat, it boasts a rated speed of 2000 rpm and a maximum electrical speed of 4000 rpm.
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Product Description:
The MS2E10-D0BHN-CMVK0-NNNNN-NN is a Servomotor made by Bosch Rexroth Indramat. It delivers precise torque and speed control for industrial automation. Its rated operation produces 21.9 Nm torque and 9.25 A current to generate 4.6 kW of power at 2000/min-1 speed.
The MS2E10-D0BHN-CMVK0-NNNNN-NN servomotor reaches a standstill torque level of 30.2 Nm while resting at 12.6 A current supply. This motor functions optimally at both electrical and mechanical restrictions. This is because its electrical speed reaches 4000 1/min but its mechanical limit is at 6000 1/min. The maximum torque output reaches 76.8 Nm at cold conditions. The value decreases to 70.5 Nm after warming up. These declarations guarantee constant operational performance, although loads vary. The MS2E10-D0BHN-CMVK0-NNNNN-NN servomotor maintains a torque constant value of 2.60 Nm/A and a voltage constant at 20 °C equal to 157.8 V/1000 min¹. The motor structure features five poles. This produces both precise magnetic detection capability and efficient energy processing power. This electric motor has winding resistance of 0.74 Ohms and inductive characteristics of 18.7 mH. Its electrical stability depends on a leakage capacitance of 1.9 nF. The winding thermal time constant addresses reliable thermal management with a value of 99.3 seconds. The overall motor time constant reaches 33.0 minutes.
The MS2E10-D0BHN-CMVK0-NNNNN-NN servomotor provides 23.5 kg of weight. It is built to operate in complex motion systems. A rotor with 0.0048 kg·m² and smooth acceleration and braking control is built into the system. The servomotor performs consistently while operating continuously despite changes in temperature load. The shape of motor windings together with the designed motor housings enhances thermal drainage effectiveness. This product demonstrates high peak current functionality reaching up to 38.5 A without sacrificing control capabilities. The torque stability system operates at all speed levels to deliver precise automated motions.
Frequently Asked Questions about MS2E10-D0BHN-CMVK0-NNNNN-NN:
Q: Why is a leakage capacitance of 1.9 nF included in the MS2E10-D0BHN-CMVK0-NNNNN-NN?
A: This capacitance minimizes voltage spikes, thereby enhancing the motor's electrical stability during dynamic load conditions.
Q: What is the role of the 18.7 mH inductance in the MS2E10-D0BHN-CMVK0-NNNNN-NN motor?
A: The high inductance smooths out current fluctuations, helping to reduce electromagnetic interference and improve energy efficiency.
Q: How does the five-pole structure enhance performance in the MS2E10-D0BHN-CMVK0-NNNNN-NN servomotor?
A: The five-pole structure in MS2E10-D0BHN-CMVK0-NNNNN-NN enables accurate magnetic flux detection and smooth torque output, improving control accuracy in automation applications.
Q: How does a rotor inertia of 0.0048 kgm² benefit the MS2E10-D0BHN-CMVK0-NNNNN-NN motor?
A: Low rotor inertia allows for fast response in acceleration and deceleration, optimizing performance in high-speed positioning systems.
Q: Why is a winding resistance of 0.74 Ohms important in the MS2E10-D0BHN-CMVK0-NNNNN-NN servomotor?
A: This resistance value reduces power loss and heating, contributing to overall energy efficiency and motor longevity.
