No. The voltage rating needs to be 600 volts for 480 volt power.
Yes, a three phase step up transformer with a primary of 480 volts and a secondary of 600 volts would be neededThis is quite common in North America where the US industrial / commercial voltage is 480 volts and Canada is 600 volts. The sizing of the transformer would depend on the connected load of the machine.
if it's single-phase, 25,000 divided by 480.
Volts isn't power. Volts times amps is power, also known as watts. Thus 480 volts at 2 amps consumes 960 watts, which is the same power usage of 240 volts at 4 amps or 120 volts at 8 Amps.
Use a step up 240 to 600 volt transformer.
Yes, but the 600 volts would have to be transformed down to 480 volts. Direct connection to the motor with 600 volts would overheat the motor to destruction.
No. The voltage rating needs to be 600 volts for 480 volt power.
Yes, a three phase step up transformer with a primary of 480 volts and a secondary of 600 volts would be neededThis is quite common in North America where the US industrial / commercial voltage is 480 volts and Canada is 600 volts. The sizing of the transformer would depend on the connected load of the machine.
480% of 600 is 2,880.
480 ÷ 600 × 100 = 80%
The star point or wye voltage of a 480 volt three phase four wire system is 277 volts. The 480 voltage is divided by the sq root of 3 (for 3 phases). The sq root of 3 is 1.73. 480 volts/1.73 = 277 volts. The same formula is used on all three phase four wire systems. 208 volts /1.73 = 120 volts, 416 volts /1.73 = 240 volts, 600 volts / 1.73 = 347 volts.
Not everything needs to be. Many standard wire insulations are rated at 600 volts, some 300, and some are more or less. It would be cost-prohibitive to have everything rated at 480 volts. Especially things designed to operate at 120 volts. Things rated for 480 but running at 120 would be physically larger than necessary, and therefore more expensive. If you're wondering why everything doesn't just run at 480 it's because it's not safe for residential applications.
From a three phase four wire distribution system the voltages would be as follows. From L1 to N - 277 volts. From L2 to N - 277 volts. From L3 to N - 277 volts. From L1 to L2 - 480 volts. From L2 to L3 - 480 volts. From L3 to L1 -480 volts.
1080-600 = 480
NO, the 480 Volts Y -- is 4 wire system, with three wires which are hot legs @ 480 volts between each three hot legs. A mid tap is a neutral leg (ground) the white wire. Which gives 277 volts between it and any of the three hot legs. so a 4wire 480 volt Y system. Gives 480 /277 volts.
if it's single-phase, 25,000 divided by 480.
Volts