The Denso TN121000-4101 alternator typically has an output of 100 Amps.
The Denso TN121000 4540 is an automotive alternator that typically produces an output of around 100 amps. This output may vary slightly depending on the specific application and vehicle model it is used in. Always refer to the manufacturer's specifications or the vehicle's manual for precise details.
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.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
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).
The power output of a 12-volt battery producing 2.7 amps can be calculated using the formula: Power (watts) = Voltage (volts) x Current (amps). So, in this case, the power output would be 12 volts x 2.7 amps = 32.4 watts.
The Denso TN121000 4540 is an automotive alternator that typically produces an output of around 100 amps. This output may vary slightly depending on the specific application and vehicle model it is used in. Always refer to the manufacturer's specifications or the vehicle's manual for precise details.
12 volt 120 amp heres the sitehttp://www.vicic.com.tw/alternators/gvd12212.htm
That alternator produces 136 amps.
3.9L / 5.2L engine - Denso Alternator Part No: 53008646 rated at 81 amps 3.9L / 5.2L / 5.9 L engine - Denso Alternator Part No:53008647 rated at 117 amps 3.9L / 5.2L / 5.9 L engine - Denso Alternator Part No:53008651 rated at 136 amps
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.
amps - how much electrical output
who knows 30kva means 30000 volts per ampere so if the output is 100 volts the amps will be 300 amps so do the math.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
The maximum current output of a CT is 5 amps. Connected to a meter this will be full scale. What ever the ratio of the CT will dictate the scale face on the meter. A 500 amp CT's output will be 5 amps at 500 amps on the buss. 250 amps on the buss, the CT will output 2.5 amp or half scale on the meter face.
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).
It depends on what the output voltage is. You only specified the input voltage, not the output voltage. The equation is 75 Kva = {some} amps times {some} kilovolts. (Minus incidental losses, of course, but you still need to know output volts.)
The alternator (or generator) of a vehicle is the unit that converts the mechanical energy from the drive-belt into electricity. Amperage (amps) are the output level of the alternator. Alternator part number, as well as output amps are specific to each vehicle.Another AnswerYour question is a little like asking, "How long is a length of string?"! The rated output current of an alternator depends on its rated output power rating and its rated terminal voltage. The rated output power can vary tremendously, according to the physical size of the machine.