Product Description

Rexroth Indramat manufactures the servo motor with MAC093B-0-OS-4-C/110-A-0/--GR284/S001 model number. At a nominal speed of 3000 revolutions per minute, the servo motor is intended to function. Even while operating continuously, it is capable of producing a constant torque of 14.5 Newton-meters when stuck in place. If surface cooling is installed on the motor, its torque output may be boosted even further to 20.0 Newton-meters, which will improve performance in demanding applications. The motor needs a constant current of 27 amps to provide this torque output while it is stationary. To handle the increased torque, surface cooling causes this current to rise to 34 amperes.

The rotor exhibits resistance to variations in rotational motion, as shown by its moment of inertia of 29 x 10^-4^ kgm^2^. The torque generated by the motor per ampere of current passing through the motor windings is also shown by its torque constant, which is 0.554 Nm/A at 20°C. It has 0.227 Ohm of winding resistance at 20°C. This represents, at ordinary operating temperature, the resistance of the motor's stator's copper windings. Performance and efficiency are usually improved with lower resistance. Four is the winding inductance. For the purpose of controlling and enhancing motor performance, this measures the motor winding's capacity to store electrical energy in a magnetic field.

At 134 A, the pulse current reaches its highest peak. Short bursts or pulses of this maximum current are all that the motor is intended to handle. Applications requiring quick acceleration or strong torque for short bursts of time must adhere to these criteria. (Or 45 minutes with surface cooling) is the thermal time constant. When operating under a constant load, this is how long it takes the motor to attain 63% of its ultimate temperature increase. Better continuous power production is possible with a motor that has a lower thermal time constant because it can dissipate heat faster. A motor of 16.5 kg in mass is present. Our warranty is valid for the entire year.