Frequently Asked Questions about MAC112D-0-ED-3-C/130-A-2
Q: What are the advantages of the rotor moment of inertia being 0.270 kgm² in the MAC112D-0-ED-3-C/130-A-2 motor?
A: A rotor moment of inertia of 0.270 kgm² provides the motor with the necessary momentum for smooth operation and stability, particularly beneficial in applications requiring precise control over acceleration and deceleration.
Q: With a thermal time constant of 40 minutes, how does the MAC112D-0-ED-3-C/130-A-2 manage thermal efficiency during operations?
A: A thermal time constant of 40 minutes means that the motor has a moderate ability to withstand thermal buildup, which allows it to operate effectively under consistent loads while maintaining temperature stability, reducing the risk of overheating.
Q: How does the winding inductance of 3.0 mH affect the performance of this motor?
A: The winding inductance of 3.0 mH plays a crucial role in the motor's electrical time constant, influencing how quickly the motor can react to changes in current, which is vital for dynamic performance and control accuracy.
Q: Can the MAC112D-0-ED-3-C/130-A-2 handle high peak currents in industrial applications?
A: Yes, with its capacity to handle a peak pulse current of 400 A, this motor is well-equipped to manage high current demands, allowing it to perform rapid movements and apply high torque when necessary.
Q: What does the weight of 48 kg imply for the installation of the MAC112D-0-ED-3-C/130-A-2 motor?
A: The motor's weight of 48 kg requires careful consideration during installation to ensure that the mounting structure and machinery can support it, which is especially important for maintaining system stability and safety.