Hey guys,
I have a question regarding motor locked-rotor currents from the NEC. This comes from several practice exam questions regarding calculating max locked-rotor current of motors.
Table 430.7(B) is for locked-rotor indicating code letters, and applies to all motor design code letters.
Table 430.251(B) is for locked-rotor currents specifically for 3-phase or poly-phase Design B, C, and D motors.
I understand that for most motors (not Design B, C, and D), you can find the max locked-rotor power from Table 430.7(B) and then use basic power equations to solve for max locked-rotor current.
But my question specifically for Designs B, C, and D 3-phase motors is: for finding max locked-rotor current do we just simply use Table 430.251(B) to find the max locked rotor current? Or do we calculate which locked-rotor current is higher between Table 430.7(B) and Table 430.251(B)?
Thanks for any input on this!
I have a question regarding motor locked-rotor currents from the NEC. This comes from several practice exam questions regarding calculating max locked-rotor current of motors.
Table 430.7(B) is for locked-rotor indicating code letters, and applies to all motor design code letters.
Table 430.251(B) is for locked-rotor currents specifically for 3-phase or poly-phase Design B, C, and D motors.
I understand that for most motors (not Design B, C, and D), you can find the max locked-rotor power from Table 430.7(B) and then use basic power equations to solve for max locked-rotor current.
But my question specifically for Designs B, C, and D 3-phase motors is: for finding max locked-rotor current do we just simply use Table 430.251(B) to find the max locked rotor current? Or do we calculate which locked-rotor current is higher between Table 430.7(B) and Table 430.251(B)?
Thanks for any input on this!
