In AC motor applications, "load torque" and "breakaway torque" are important concepts related to the mechanical behavior of the motor and the load it is driving. These terms help describe the interaction between the motor's rotational force (torque) and the external load it needs to overcome.
Load Torque:
Load torque refers to the amount of torque that a motor must generate to overcome the resistance or load that is attached to it. This load can include factors such as friction, inertia, and the actual mechanical load being driven by the motor (e.g., conveyor belts, pumps, fans). Load torque determines the amount of force the motor needs to exert to maintain a certain rotational speed and overcome any resistance that opposes its motion. In equations, load torque is often denoted as "T_load."
Breakaway Torque:
Breakaway torque, also known as "stiction torque" or "starting torque," is the minimum torque required for an AC motor to initiate motion from a standstill or to overcome static friction and inertia. When a motor starts from rest, it needs to overcome the resistance caused by static friction and any initial inertia of the load. Breakaway torque is the torque that enables the motor to overcome these forces and start rotating. Once the motor is in motion, it typically requires less torque to maintain its speed than what was needed to start it initially. Breakaway torque is crucial in applications where the motor needs to reliably start moving without getting stuck due to high friction forces.
In summary, load torque pertains to the ongoing torque requirement to maintain motion against a load, while breakaway torque is the torque needed to initiate motion from a standstill. Both these concepts are critical in designing and selecting AC motors for various applications to ensure that the motor can handle the required load and start reliably under different conditions.