Usually when a rate of current is stated on a 3 phase board it means per phase. Therefore, you woiuld be able to draw up to 200A per phase, providing the supply authorities incomer permits this. It should be noted that, it is better to balance the phases with each other as far as the loading current goes, this will keep your max demand lower and your bills down.
If the two panels are paralleled and are fed from a 200 amp splitter then the over current protection up stream from the splitter has to be rated at no more than 200 amps.
To answer this question the motor's voltage must be stated and whether the supply voltage is single phase or three phase.
It means 225 amps on each phase.
Single-phase, 2.5 amps; three-phase 1.443 amps.
This depends on what voltage the range is rated for and if it is single phase or three phase. At 220 volts single phase it is about 60 amps, 240 v single phase , 53 amps and at 480 v three phase about 15 amps.
There is no 'formula' which defines the ampere. The ampere is defined in terms of the resulting force between two parallel, current-carrying, conductors, due to the magnetic fields surrounding those conductors.
To answer this question the motor's voltage must be stated and whether the supply voltage is single phase or three phase.
It means 225 amps on each phase.
This question cannot be answered as asked. you would need to know also the voltage and phasing. Assuming we are dealing with 120-volt, single phase, 11,500 watts would be 55-running amps. Assuming we are dealing 208-volts, three phase, 11,500 watts would be 32 running amps and assuming we are dealing with 250-volt three phase, 11,500 watts would be 26.5 running amps. I hope I have answered your question.
Single-phase, 2.5 amps; three-phase 1.443 amps.
50 Amps Single Phase 20 Amps Three Phase
12 Amperes is.
In a standard 3 phase system in North America, 7kVa would be equivalent to 19.5 amps on each phase. The equation is: 7kva*1000/208v/1.73=19.45 amps (3 phase)
This depends on what voltage the range is rated for and if it is single phase or three phase. At 220 volts single phase it is about 60 amps, 240 v single phase , 53 amps and at 480 v three phase about 15 amps.
There is no 'formula' which defines the ampere. The ampere is defined in terms of the resulting force between two parallel, current-carrying, conductors, due to the magnetic fields surrounding those conductors.
106 amps
88 amps
At 240v single phase it's 70.8 amps. If it runs on 2 wires plus ground, take the voltage rating of the equipment and divide that into the watts to get amps. At 480v 3 phase it's 25.8 amps. At 208v 3 phase it's 47.2 amps. <<>> There are zero amps in 14 kW. A voltage needs to be stated. I = W/E, Amps = Watts/Volts.