Put a second, identical unit right next to it and run them in parallel. If your single phase supply is designed to produce X volts and Y amps, you cannot produce more than Y amps with it without burning it up.
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Check with your electrical inspection department before doing the above fix. There is a new main breaker to take into account that has to be changed out from a 50 amp breaker to a 100 amp breaker. This process will involve the disconnection from the utility company and a reconnection which they will not do unless an electrical permit has been taken out and an inspection made.
To do this job yourself you have to know wire sizes, ampacity of wires and proper electrical workmanship. Such a project should be left to a licensed electrical contractor to take out the proper permits and call for proper inspections. By taking this route it will leave you confident that if any mishaps happen to the installation down the road your insurance company will be behind you 100%.
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.
Single-phase, 2.5 amps; three-phase 1.443 amps.
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
Impossible to say without more details. It depends entirely on the voltage of the supply and whether it's single-phase or three-phase.
Typically 75 amps on natural gas, 85 amps using propane. Peak amps(for less than a second) to start a big appliance, like an A/C condenser, are 130.
62.5 amps
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.
Single-phase, 2.5 amps; three-phase 1.443 amps.
The answer is that it depends upon the a. efficiency (to determine its input power). b. supply voltage. c. nature of the supply (single-phase, three-phase, d.c., etc.)
75 Amps theoretically Need to know if the generator is 3 phase or single 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.
50 Amps Single Phase 20 Amps Three Phase
Typically single phase motors go up to 10hp. Wouldn't be very efficient at about 100 amps. A 20hp 3 phase motor at 230v pulls 52 amps. The 10hp single phase 230v pulls 50 amps.
Impossible to say without more details. It depends entirely on the voltage of the supply and whether it's single-phase or three-phase.
You don't need three-phase power; tanning beds run on single-phase. You've got enough amps.
Assuming you can get a three-phase 230 v supply, which has 133 v between neutral and each live, the full-load current assuming a 30% increase for power-factor and efficiency considerations would be 120 amps. In Europe the standard three-phase supply is 400 v. In the US three-phase supplies are normally 208 v or 480 v and an alternative option is a 240/480 v split-phase (single-phase) supply.
In the U.S. single phase at 200 amps is average.