MS2E07-D0BNN-CMSG2-NNNNN-NN
Wake Industrial LLC is not an authorized distributor of this product.
MPN: R911397872
No Tariffs On US Orders- Straightforward Pricing: No Rush Fees, No Credit Card Fees
The Bosch Rexroth Indramat MS2E07-D0BNN-CMSG2-NNNNN-NN is part of the MS2E Synchronous Servomotors series and features a holding brake, size 2. It is self-cooled, offers a maximum torque of 79.7 Nm, and has a shaft diameter of 32 mm. The motor meets the IP65 international protection code standard.
To contact sales for pricing and lead time:
Payment Methods
Shipping Methods
Our Credentials
Product Description:
The MS2E07-D0BNN-CMSG2-NNNNN-NN Servomotor is a part of the MS2E series. It is made by Bosch Rexroth Indramat to operates for accurate motion control requirements in industrial automation. The speed rating for this motor reaches 2215 revolutions per minute. The motor generates a torque of 11.9 Newton meters.
The generation capacity of this MS2E07-D0BNN-CMSG2-NNNNN-NN servomotor reaches 2.76 kilowatts. The motor generates 22.0 Nm of torque by drawing 11.55 Amperes of current at standstill. The motor draws 6.5 Amperes as its rated operational current. The motor reaches a maximum root mean square current output of 49.5 A. The electric speed control matches the mechanical speed output rate at 6000 revolutions per minute. The operation synchronization of this motor relies on five pairs of magnetic poles. The torque output of this MS2E07-D0BNN-CMSG2-NNNNN-NN servomotor reaches 2.04 Newton meters for every Ampere of current at room temperature conditions. The motor has a rated voltage constant measurement of 124.1 volts per 1000 min⁻¹ at same conditions. The enclosed wire of this device presents a 0.671 Ohm resistance value and shows 10.0 mH inductance. This motor has 4.0 nF as its leakage capacitance. The moment of inertia for the rotor is at 0.00251 kgm2 which provides precise control of acceleration and deceleration. The winding component has a thermal time constant equal to 54.0 seconds.
The complete weight for the MS2E07-D0BNN-CMSG2-NNNNN-NN servomotor amounts to 20 kilograms. The motor operates at 18.7 minutes as its thermal time constant. The servomotor contains a holding brake which can produce 36.00 Nm of torque. At a rated condition of 24 Volts DC power supply, the brake operates using 0.94 Amperes current. The servomotor reaches its maximum torque point of 79.7 Nm when operating at 20°C. However, it sustains 73.2 Nm when operating at 100K conditions.
Frequently Asked Questions about MS2E07-D0BNN-CMSG2-NNNNN-NN:
Q: Why is the 10.0 mH inductance important for the MS2E07-D0BNN-CMSG2-NNNNN-NN servomotor?
A: The 10.0 mH inductance supports stable current flow and protects the motor from high-frequency electrical noise during operation.
Q: How does the 0.671 Ohm resistance impact performance in MS2E07-D0BNN-CMSG2-NNNNN-NN?
A: The 0.671 Ohm resistance minimizes power losses and ensures better heat dissipation, maintaining consistent motor efficiency under varying loads.
Q: How does the 36.00 Nm brake torque enhance MS2E07-D0BNN-CMSG2-NNNNN-NN safety?
A: The 36.00 Nm brake torque keeps the shaft stationary during emergency stops or power-off states, ensuring operational safety and stability.
Q: What is the significance of a thermal time constant of 54.0 s in MS2E07-D0BNN-CMSG2-NNNNN-NN?
A: The thermal time constant of 54.0 seconds aids in managing internal heat accumulation, enhancing longevity and reducing thermal stress.
Q: Why is a 0.00251 kgm2 rotor inertia critical in MS2E07-D0BNN-CMSG2-NNNNN-NN?
A: A rotor inertia of 0.00251 kgm2 ensures quick response to acceleration changes, allowing precision in dynamic motion control.
