The motor will keep on running for a while but the current will rise on the other two phases and the overload relay will fall out, if its properly set and the motor will stop if the overload relay is set to high the motor will burn out
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in the start Motor will start to shake the if there is no protection devices for over-load on the motor it will simple explode:)
I have a personal experment on that.
On a three phase motor, the phases give you direction for how to hook the motor up to make it spin one direction vs. the other. If you hook up such a motor blindly with all three phases, it may spin in the opposite direction you want; to fix, you swap any two of the three phase connections.
If your three phase motor runs backward, you have two phases swapped. double check a, b and c phase to find which ones are misplaced.
A 3-phase motor will not run on single-phase power or if one of the three phases is disconnected. If the motor is not running, there is no back-EMF generated in the coils, and they draw excessive current, thus overheating.
A three-phase motor will not start if one or two phases aren't connected. If while running one or two phases "drop out", it will continue to run for awhile, but will eventually burn out, unless connected to a motor saver.
Because the three phases are 120 degrees apart which kind of gives a "rotational magnetic field" as apposed to a two phase motor (your common 220 volt motor) where the phases are 180 degrees apart and the magnetic field opposes itself until the motor is spinning.
why three phase induction motor is delta connected
The motor will pull different amounts of power on the different phases, which will result in not operating smoothly for three phase motors.
On a three phase motor, the phases give you direction for how to hook the motor up to make it spin one direction vs. the other. If you hook up such a motor blindly with all three phases, it may spin in the opposite direction you want; to fix, you swap any two of the three phase connections.
If your three phase motor runs backward, you have two phases swapped. double check a, b and c phase to find which ones are misplaced.
A 3-phase motor will not run on single-phase power or if one of the three phases is disconnected. If the motor is not running, there is no back-EMF generated in the coils, and they draw excessive current, thus overheating.
To use a single/one phase motor instead of a three phase motor is possible if you have a three phase power supply as you will only need to tap one of the three phases together with neutral and an earthwire, however to use a three phase motor instead of a single phase will require the provision of three phase power supply.
This question doesn't really make any sense - any of the two phase? A three phase induction motor requires 3 phases to start - if a single phase is lost while the motor is already running then yes the motor will continue to run. A three phase motor will not start if it is missing a phase.
A three-phase motor will not start if one or two phases aren't connected. If while running one or two phases "drop out", it will continue to run for awhile, but will eventually burn out, unless connected to a motor saver.
A three phase motor will not operate on single phase. The motor will run on two phases but will not start. Motors running on just two phases is called single phasing. The line current of the two legs will go high and it is this factor that the motor controller uses to trip the contactor to open the circuit and isolate the motor from the power source.
If a three phase motor in running in reverse, then one of the phases is reversed, plain and simple. If the wiring is correct at the motor, perhaps the phase reversal occurred someplace else.
Because the three phases are 120 degrees apart which kind of gives a "rotational magnetic field" as apposed to a two phase motor (your common 220 volt motor) where the phases are 180 degrees apart and the magnetic field opposes itself until the motor is spinning.
No, unless it is a three phase motor and you reverse only two of the phases.