Frequently Asked Questions about MAC090C-0-GD-4-C/110-A-0/WI520LX/S001
Q: What is the significance of the 0.47 Nm/A torque constant in the MAC090C-0-GD-4-C/110-A-0/WI520LX/S001 motor?
A: The torque constant indicates the motor's efficiency in converting electrical energy into mechanical torque. A higher value means more torque is generated per ampere, leading to a more responsive and powerful operation.
Q: How does the thermal time constant affect the performance of the MAC090C-0-GD-4-C/110-A-0/WI520LX/S001?
A: The thermal time constant represents the time it takes for the motor to reach 63.2% of its total temperature change under a step temperature change condition. A longer thermal time constant indicates better thermal stability during extended operations.
Q: What does the rotor moment of inertia tell us about the MAC090C-0-GD-4-C/110-A-0/WI520LX/S001?
A: The rotor moment of inertia affects the motor's acceleration and deceleration capabilities. A low inertia value is ideal for applications requiring quick starts and stops.
Q: Can the MAC090C-0-GD-4-C/110-A-0/WI520LX/S001 handle high peak currents without damage?
A: Yes, it is designed to withstand a maximum peak current of 223 A, which allows it to operate reliably under sudden high power demands.
Q: What role does the integrated tachometer feedback play in the MAC090C-0-GD-4-C/110-A-0/WI520LX/S001 motor's functionality?
A: Tachometer feedback provides real-time speed measurements, which is vital for maintaining precise control over the motor's speed, especially in applications requiring exact speed regulation.