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The inverter should supply at least 1 kW and if it is for extended use more than 4-5 minutes it should supply 1.5 kW.
In an uninterrupted power supply there has to be a source of power when the electrical utility is not there. The only supply that is available is a battery that is in or connected to the UPS.
When 500 mA of current is flowing from a 4-volt supply, the supply is delivering 2 watts of electrical power. We can't tell how much of that power is actually available from the motor in the form of mechanical power, and how much of it is only heating up the parts of the motor.
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.
Probably ok if the new supply can produce the required amount of current in amps.
just connect the supply of motor to power supply..and run..then ovserve the motor sounds,temperature and vibration.
A motor
Your question is rather confusing. Are you asking what the power requirement is for the supply to a d.c. motor? In which case, it depends entirely on the power rating of that motor, which can range from a few watts up to thousands of watts.
With no three phase power supply you can't use a three phase motor of any kind at all!
Yes. A motor is considered to be a load of the power supply in use.
The inverter should supply at least 1 kW and if it is for extended use more than 4-5 minutes it should supply 1.5 kW.
If you lose power the electric motor may supply power.
You don't. A three phase motor will not start unless it is connected to a three phase supply.
You need a DC power supply in order to connect a 24v DC motor to household power.
In an uninterrupted power supply there has to be a source of power when the electrical utility is not there. The only supply that is available is a battery that is in or connected to the UPS.
When 500 mA of current is flowing from a 4-volt supply, the supply is delivering 2 watts of electrical power. We can't tell how much of that power is actually available from the motor in the form of mechanical power, and how much of it is only heating up the parts of the motor.
In principle a generator is the same as a motor. In a dc motor the voltage generated by the rotating armature is slightly less than the supply voltage which causes power to flow in from the supply. If an engine is then coupled to the shaft causing it to rotate faster, then it generates more voltage and power flows back into the supply. That is how a motor becomes a generator.