A kw (kilowatt) is 1000 amps x volts.
If you assume your one phase system has 120 volts, then divide by 120.
Cheap, but close enough for most work, assume 100 volts,
then each amp is a tenth of a kilowatt.
That's 277 volts of alternating current. This is typically one phase of a 480v 3 phase system. Don't worry that 3 x 277 adds up to more than 480v. A 277v line is typically one phase of a 480v 3 phase system.
A rotary phase converter is commonly used to convert a single phase electrical power source to three phases. This allows you to use three phases instead of one.
If you have a 200 amp main breaker, it will trip when any one of three phases exceeds 200 amps. This does not give you 600 amps total, only 200 amps total, but on each of three phases. Your three phase machinery and equipment will likely load all phases evenly, and a good electrical design will load your lights and receptacles evenly on all three phases. Doing this reduces the possibility that two phases are loaded at 100 amps, but one is loaded at 205 amps, so the main trips for example.
There is one part of the question missing. To find an answer the kW of the heater must be stated. Then the equations used are, to change kW to watts, Kw/1000 = watts. Once that is found then use, I = W/E, Amps = Watts/Volts. This will give you the value in amperage of the heater.
I think you will find (in the US at least), that almost all utilities will refuse to provide 3-phase power to a residence. If you have just one thing such as a motor that you need three-phase to run, you can purchase a phase convertor to convert your single-phase to 3.
If all three legs of the system are balanced then zero amps will flow all the way up to 100 amps if only one leg of the three phase system is used. The neutral in a wye three phase system carries only the unbalanced current. This is why in services for a three phase four wire system you are allowed to reduce the size of the neutral conductor.
Va=volts x amps. The K stands for one thousand. So 1 Kva is one thousand watts. So 415v times 120a= 49,800 what's. You divide that by a thousand and you get 49.8. So it would be 49.8 Kva.
You can buy a converter. Here is one example of many available on the web.Phase-A-Matic PAM-300HD Phase Converter, Static, 1-3 HPPhase Converter, Static, Input Voltage 208-242, Output Voltage 208-242, Input Phase AC 1, Output Phase AC 3, Input (Amps) 15, Output Amps 9.6 ...
One ampere (A) is equal to 1,000 milliamperes (mA). This means that to convert from amps to milliamperes, you multiply the number of amps by 1,000. Conversely, to convert from milliamperes to amps, you divide the number of milliamperes by 1,000.
To convert microamps to amps, you need to divide the value in microamps by 1,000,000. This is because one microamp is equal to one millionth of an amp. So, if you have a current of 500 μA (microamps), you would divide 500 by 1,000,000 to get 0.0005 amps.
Phase converters are mostly used to convert single phase electricity into multiple phases or to convert multiple phases into one. They are usually installed to provide three phase electricity where an individual may not get it otherwise.
Phase converters are mostly used to convert single phase electricity into multiple phases or to convert multiple phases into one. They are usually installed to provide three phase electricity where an individual may not get it otherwise.
Well, hello there! Converting kVAR to amps involves a bit of math, but don't worry, it's just like painting happy little trees. You can use the formula: Amps = kVAR / (volts * sqrt(3)). Just remember to take your time and enjoy the process, my friend. Happy converting!
It is very unlikely that you will ever come across an archaic 'two-phase' system, so your question is of academic interest only. A two-phase, three-wire, system is one in which phase voltages are generated 90 electrical degrees apart and whose line voltage is, therefore, 1.414 greater than its phase voltage. So, the answer to your question is no.
You need to have a properly sized Phase Converter Installed. What do you need 2 phase for? Is it just one piece of equipment? If so it may be is easier and cheaper to convert the equipment.If you are looking for a Licensed electrician you can find one at www.contraxtor.comAnswerDo you really mean a 'two-phase' system? This is an archaic system in which the phase voltages are displaced by 90 electrical degrees. Many people mistake this term for the 'split-phase' system, used in North America, to provide a 240/120-V service. If you do mean a 'split-phase' system, then you will need a single-phase transformer whose primary is connected across any pair of the three-phase line conductors, and a centre-tapped 240-V secondary. The centre tapped connection is earthed (grounded) to provide the neutral connection, and the potential of each end of that winding is 120 V with respect to the neutral. Of course, the turns ratio of your transformer must be appropriate for your three-phase supply. As the original answer indicates, this work will need to be performed by a licensed electrician.
Those two are completely unrelated; it doesn't make sense to convert them.
To convert a three-phase three-wire system to single-phase, you should ground one of the phases using a grounding rod or electrode. However, please note that this method may not adhere to electrical codes and safety regulations. It is advised to consult with a qualified electrician before attempting any modifications to your electrical system.