MDD093C-N-030-N2G-110GA0
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MPN: R911259786
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The MDD093C-N-030-N2G-110GA0 is a synchronous motor with a nominal motor speed of 3000 min-1 and a rotor moment of inertia of 42 x 10-4 kgm². Manufactured by Bosch Rexroth Indramat in the MDD Synchronous Motors series, this motor features IP65 protection and a mass of 22 kg. It delivers a peak current of 145.0 A.
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Product Description:
Bosch Rexroth Indramat made the MDD093C-N-030-N2G-110GA0, which is a Synchronous servo motor. In the MDD line, it's made for motion control tasks that need to be accurate and work well. For this servo motor, the motor is length C and size 093. It's not made with a stopping brake and has a simple output shaft that can be used with different types of machines.
The standard rotational speed of the MDD093C-N-030-N2G-110GA0 servo motor is 3000 revolutions per minute. Constant currents up to 32.2 amps are possible while it is not in use. The resistance of the wire is 0.23 ohms, and its inductance is 2.7 microhenries at 20°C. The thermal time constant of the motor is 50 minutes, thus, it's evident that its temperature remains constant while it's running. Standard wiring and easy installation in automation systems are made possible by the servo motor's power connector, which is located on side A. With a moment of inertia of 42 × 10⁻ kgm², the rotor may be controlled to speed up or slow down according to changes in the load. Applications involving industrial automation that demand constant performance and requirements are the target market for this servo motor.
The servo motor has a simple shaft built in so it can connect to different mechanical drive parts without any backlash. At 22.0 kg, the servo motor's weight maintains the ideal balance between mechanical load capacity and temperature control. The setup allows for a constant torque reaction that is proportional to the resistance and inductance factors. Because of these features, the MDD093C-N-030-N2G-110GA0 servo motor can maintain its motion output over specified cycles and temperature ranges. The servo motor works well in axis control and rotary pointing systems because of its design and setup, and the values of its parameters. This keeps the system stable and consistent across all operating loads.
Frequently Asked Questions about MDD093C-N-030-N2G-110GA0:
Q: Why does MDD093C-N-030-N2G-110GA0 use 32.2 A current?
A: It uses 32.2 A continuous current at standstill to maintain stable torque output during sustained operation without thermal overload.
Q: How does MDD093C-N-030-N2G-110GA0 manage thermal consistency?
A: The thermal time constant of 50 minutes ensures gradual heat buildup and supports steady performance across extended duty cycles.
Q: Why is 0.23 Ohm resistance used in MDD093C-N-030-N2G-110GA0?
A: This resistance optimizes the voltage-to-current ratio that ensures efficient current delivery with controlled thermal characteristics.
Q: Do the 2.7 mH inductance values affect MDD093C-N-030-N2G-110GA0?
A: Yes, the inductance value stabilizes current flow and helps reduce ripple for smooth motor control under varying load conditions.
Q: How does rotor inertia impact MDD093C-N-030-N2G-110GA0 performance?
A: The 42 × 10⁻⁴ kgm² rotor inertia supports precise speed regulation and smoother acceleration during dynamic transitions.
