It depends upon the Generator system voltage. For 3 Phase, 600 Volt system, it will be 73 Amps For 3 Phase, 480 Volt system, it will be 90 Amps For 3 Phase, 208 Volt system, it will be 208 Amps
Full load amps for a three phase, 375KVA generator is 375 / (voltage in kV) / sqrt(3).
You can't determine the output voltage of a transformer by knowing kva. Transformers will be marked as to input and output voltages. Some will have multiple input and output voltages. The output voltage depends on the ratio of coil turns between input and output.
Yes, you can use both, but watts is more useful; it provides the total amount of power the generator can output.
if you have 200 kva so it's 160 KW then ,you need 400 A MCCB and setting at 0.9 and use cable 4c.185 mm2 if the SMDB is nearby and all this will be change according to the ambient temperature and the electrical code used in your area
KVA means product of voltage and current. For 3 phase generator, its KVA = (1.732 X (Line Voltage) X Current)/1000.Put line voltage in this equation and get current.
The formula you are looking for is , A = kva x 1000/Volts.
To calculate the output amps of a 600kVA generator at 240V, you would use the formula Amps = kVA / Volts. In this case, it would be 600kVA / 240V = 2500 amps.
62.5 amps
To answer this question the voltage of the generator must be given.
The amps you can get from a 500 kVA transformer would depend on the voltage of the transformer's output. To calculate amperage, you can use the formula: Amps = Power (kVA) / Voltage. For example, if the output voltage is 480V, you would get approximately 1041 amps (500 kVA / 480V).
To determine the amperage output of a generator, you need to know the voltage of the system it will be operating. If we assume a standard 240V system, a 5.5kVA generator would be good for approximately 22.9 amps (5500 watts ÷ 240V). However, please consult the generator's specifications and an electrician to ensure it meets the specific requirements of your electrical system.
To calculate the amperage of a 40 kVA load, you will need to know the voltage. The formula is: Amps = kVA / Volts. Assuming a standard line voltage of 120V, the amperage for a 40 kVA load would be approximately 333 amps.
Full load amps for a three phase, 375KVA generator is 375 / (voltage in kV) / sqrt(3).
A 1 KVA generator can deliver 1000 volts times amps. Now, watts can be calculated by multiplying volts times amps. Therefore, this suggests that a 1KVA generator can deliver a 1000W or 1KW output. The reason that the generator is not quoted in Watts is because most loads do not impose a perfect load. It means that the current can be at its highest at a different time to the voltage being at it's highest. Because of this, the generator cannot be fully efficient and the amount of power delivered is less than the suggested maximum. For more information, it is worth looking up "inductive loads" or "power factor" and look for more detailed explanations. So, to answer the question, there is no simple calculation to convert VA into Watts.
A 15 KVA - Generator operating at 380 Volts can cater to only 22.79 Amps. It cannot cater to a 60 Amps breaker
Yes, but your input current is going to be high at 133 amps. The output of the transformer is not going to be 16 KVA, that is the rating of the transformer.
At what voltage? When you know the voltage then, to get the amps those kilovolt-amps contain, you simply divide the kilovolt-amps by the voltage.