530 amps in average conditions, more in cold weather.
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The closest conversion will be; 405 mm2 is equal to 800 MCM AWG.
A 800 MCM aluminium conductor with an insulation factor of 90 degrees C is rated at 445 amps.
10 amps
50 amps.
140 AMPS
If you mean 2/0 copper wire it is rated 175 amps. # 2 wire is 115 amps. If you are referring to 2.0 metric it is rated 15 amps.
A #8 aluminium wire with an insulation factor of 90 degrees C is rated at 45 amps.
1 mm2 aluminium wire is not easy to buy but 1 mm2 copper wire is rated at 10 amps. Since the conductivity of aluminium is 7/12 that of copper, 1 mm2 aluminium wire would be rated at 7½ amps max (the same amount of heat is produced per metre by a current of sqrt(7/12) times that for copper).
A #6 aluminium conductor with an insulation factor of 90 degrees C is rated for 55 amps.
A #4 aluminium wire with an insulation factor of 75 and 90 degrees C is rated at 100 and 105 amps respectively.
#8 RW 90 degree wire
There are zero amps in 220 wire. When you talk of 220 wire you are making reference to the insulation factor of the wire. Wire in North America is rated for insulation in increments of 300, 600 and 1000 volts. For special applications 5000 volts still has insulation on it. Then there is 7500 volt cable that is classified as concentric neutral cable which is used mostly for underground primary installations. Any voltages higher than that is bare wire. For high voltage installations it is called ACSR. Aluminium Conductor Steel Reinforced. This type of cable uses a steel center support wire and the aluminium conductors are wound around the steel to carry the amperage. This combination of steel and aluminium allow the wire to be spaced over long distances between poles or towers. The amperage classification of wire is based on the circular diameter of the wire. The larger the diameter of the wire the higher the amperage capacity. Three equations to find amps when two factors are known are; Amps = Watts/Volts, Amps = Volts/Resistance and Amps = the sq. root of Watts/Resistance.
55 amps on copper wire.
# 8 RW90
10 amps
The amps that a four gauge wire will handle will depend with the thickness of the wire. If the wire is thin, the four gauge will handle 95 amps.
Wire is sized by the amperage applied to the wire. To answer this question a voltage needs to be stated. I = W/E. Amps = Watts/Volts. A #14 copper conductor is rated at 15 amps.
50 amps.
140 AMPS