Yes, I was personally electrocuted at work by a transformer that had 480 volts. I have experienced memory loss for 2 years now. I also have some other conditions including depression, sleep deprivation, irritability's and others. I was wondering if any body has reported on memory loss due to electrocution and how severe it is.
Yes, you would typically need a transformer to step up the voltage from 480 volts to 575 volts in order to safely run a machine that requires 575 volts. Operating the machine at a lower voltage than specified can lead to performance issues and potential damage.
if it's single-phase, 25,000 divided by 480.
No, SJ cord is only rated for 300 volts and is not suitable for use with 480 volts. It is important to use the correct voltage rated cord for safety and to prevent damage to equipment. Look for cords that are specifically rated for 480 volts.
BIL (Basic Impulse Level) is the maximum voltage a insulation system can withstand without breaking down. For 600 volts, the BIL would typically be around 10 kV or higher, while for 480 volts, it would be around 8 kV or higher. BIL is important for protecting equipment from voltage surges and ensuring reliable operation.
To determine the amps for a 1 ton cooling unit at 480 Volts, you would need to know the power rating of the unit in Watts. Once you have the Watts, you can use the formula Amps = Watts/Volts to calculate the amperage.
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.
240/220 480 volts 3 phase
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.
Yes, you would typically need a transformer to step up the voltage from 480 volts to 575 volts in order to safely run a machine that requires 575 volts. Operating the machine at a lower voltage than specified can lead to performance issues and potential damage.
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.
No, SJ cord is only rated for 300 volts and is not suitable for use with 480 volts. It is important to use the correct voltage rated cord for safety and to prevent damage to equipment. Look for cords that are specifically rated for 480 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.
480 volts is probably 3-phase (Line to line) voltage, so: 1500K / (480 x 1.732) = I = 1804Amps
Across a 480 volt three phase system, 480 volts should appear across L1 and L2, L2 and L3 and L3 and L1.
BIL (Basic Impulse Level) is the maximum voltage a insulation system can withstand without breaking down. For 600 volts, the BIL would typically be around 10 kV or higher, while for 480 volts, it would be around 8 kV or higher. BIL is important for protecting equipment from voltage surges and ensuring reliable operation.
To determine the amps for a 1 ton cooling unit at 480 Volts, you would need to know the power rating of the unit in Watts. Once you have the Watts, you can use the formula Amps = Watts/Volts to calculate the amperage.