180 amps. Assuming the panel will be loaded only 80%.
Single-phase, 2.5 amps; three-phase 1.443 amps.
An electrical panel for 3 phase power with three hot connections and a neutral bar. It's capacity would be 200 amps on each of the three legs.
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.
Yes - a 3 phase load (in a balanced network) that consumes 270A would have a flow of 90A down each phase
It means 225 amps on each phase.
Single-phase, 2.5 amps; three-phase 1.443 amps.
An electrical panel for 3 phase power with three hot connections and a neutral bar. It's capacity would be 200 amps on each of the three legs.
50 Amps Single Phase 20 Amps Three 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.
See discuss question below
To answer this question a voltage needs to be stated and whether the load is three phase or single phase. Without the voltage the amperage can not be calculated. For single phase, Amps = kva x 1000/voltage, for three phase, Amps = kva x 1000/1.73 x voltage.
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.
Yes - a 3 phase load (in a balanced network) that consumes 270A would have a flow of 90A down each phase
135 A at 120 v single-phase is 16.2 kVA. With a 208 v three-phase supply you get three single-phase 120 v supplies, so the same kVA is produced with a balanced load of 45 amps on each phase.
21.739 a 21.739 a
A voltage of 240 volts is not a common three phase voltage. Single phase kva of 240 voltas and 50 amps is I x E/1000 = 240 x 50 = 12000/1000 = 12 kVa -- Assuming the 240 volts is phase to phase voltage, and this is a three phase application: KVA = V*I*sqrt (3) = 20.78KVA
For single phase,kva=voltage(volts)xcurrent(amps)/1000 For,three phase,kva=1.732xvoltsxamps/1000