Welcome to 15.5 kW to amps, which stands for 15.5 kilowatts to amperes. If you have been wondering how many amps is 15.5 kW, then you have come to the right post, too. To obtain 15.5 kW in amps in case of direct current (DC), we only have to know the potential difference in volts (V). Welcome to 2.6 kW to amps, which stands for 2.6 kilowatts to amperes. If you have been wondering how many amps is 2.6 kW, then you have come to the right post, too. To obtain 2.6 kW in amps in case of direct current (DC), we only have to know the potential difference in volts (V). Instructions: Select the number of phases from the drop-down list. Enter the motor rated voltage in volts (V) Enter the motor power rating and select the appropriate unit (HP or kW) Enter the power factor and efficiency of the motor. Click on the "Calculate" button to see the results. Note: Please note that this calculator is provided for Batteries run at 12V or 24V. Using this equation, we can convert watts directly to amps, if we know the voltage. The higher the wattage, the lower the amps will be for the same amount of watts. 1 amp is equal to 220 watts at 220V voltage. 1 amp is equal to 110 watts at 110V voltage. 1 amp is equal to 120 watts at 120V voltage. Welcome to 15 kW to amps, which stands for 15 kilowatts to amperes. If you have been wondering how many amps is 15 kW, then you have come to the right post, too. To obtain 15 kW in amps in case of direct current (DC), we only have to know the potential difference in volts (V). Welcome to 326.2 kW to amps, which stands for 326.2 kilowatts to amperes. If you have been wondering how many amps is 326.2 kW, then you have come to the right post, too. To obtain 326.2 kW in amps in case of direct current (DC), we only have to know the potential difference in volts (V). The power P in kilowatts (kW) is equal to the current I in amps (A), times the voltage V in volts (V) divided by 1000: P (kW) = I (A) × V (V) / 1000. AC single phase amps to kilowatts calculation. The power P in kilowatts (kW) is equal to the power factor PF times the phase current I in amps (A), times the RMS voltage V in volts (V) divided by P(kW) = 3 × PF × I(A) × VL-N (V) / 1000. The real power P in kilowatts (kW) is equal to 3, multiplied by the power factor PF, multiplied by the phase current I in amps (A), multiplied by the line to neutral RMS voltage VL-N in volts (V), divided by 1000. See Also: Amps to kVA calculator. Amps to mA calculator. 1FVtfe.