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it draws 210 amps
If we assume that the inverter is used in your car on 12 Volts DC and you are creating 120 VAC; and the 2500 watts refers to the AC side of inverter then for a resistive load Amps = Watts / Volts = 2500/120.
There is no answer to that because the current in amps must be multiplied by the voltage to find the power in watts.
Ues, a laptop with a 65 watt power adapter can be powered up with a 300 watt dc to ac inverter with 140 watt continuous operation with low voltage and overload protection
figure out how many amps are in a watt and x by 40
A 1,000 watt inverter giving 110 volts is rated at 9 amps.
it draws 210 amps
Amps x volts equals watts...200 amps at 12 volts would be 2400 watts...add a few more because. the inverter efficiency is not 100 percent...
If we assume that the inverter is used in your car on 12 Volts DC and you are creating 120 VAC; and the 2500 watts refers to the AC side of inverter then for a resistive load Amps = Watts / Volts = 2500/120.
we can use 12 no's
One 150 watt inverter reports 0.2 Amps (=approx 2.4watts) Another inverter (180 watts?) reported 0.4 Amps If you find a fairly complete spec sheet, it may tell you the Amps or Watts that it uses under "No Load". I'm the originator of the question, and I discovered the "additional" specs.
The formula for watts (or power) is Amps times voltage. Therefore with a 6 amp draw times 120 volts would be about 720 watts. A 1000 watt power inverter would do the job.
You will need a battery charger capable of providing up to75 amps at 12 volts DC. This is called a converter, not an inverter. An inverter takes 12 v and transforms it usually to 120v AC or 220v Ac. Keep in mind that your 1000 watt amp will not draw 100 amps only briefly at times if at all unless you are at maximum volume. You probably could get by with a 50 amp charger and a big capacitor to supply the boost for a few seconds.
Answer If, when you state "...240 watt 2.0amp..." you are indicating that 2 amps, or 240 watts at 120 volts, then that inverter will power a device which does NOT draw more than that amount of current. Check the plate or label on the compact fridge you want to power, and find the maximum current draw. For appliances, it will usually be stated in amps, rather than watts. If that amount is equal to or less than the output of your inverter, then it should work. Also, pay attention to the maximum current used by the appliance, versus the continuous output figure for the inverter, NOT the peak momentary output.
There is no answer to that because the current in amps must be multiplied by the voltage to find the power in watts.
Ues, a laptop with a 65 watt power adapter can be powered up with a 300 watt dc to ac inverter with 140 watt continuous operation with low voltage and overload protection
figure out how many amps are in a watt and x by 40