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draw 0.104 amps
How many amps really depends on the size of freezer...but, normally during the START cycle (that lasts about 10-seconds, from the time the compressor kicks on, until it gets going), the surge of START can take 10-12 amps, though most freezers can comfortably start in a 68-degree F room at about 8-amps. Once the compressor is running, it takes 2-3 amps to keep the compressor running. When the compressor kicks off (standard cycle is about 80% off, 20% on for a new freezer), then it draws NO POWER at all, unless it has a heated lid-seal, and then it will draw about 1-amp...possibly on a timer cycle (<100-watts). Keep in mind...that <600 Kw/h rating for the energy star is based off of a MOSTLY-OFF cycle time...if that compressor has to run a lot (because you placed it on your back deck, or in your HOT garage) then you can expect power consumptions to double, triple, etc.!
40 amps
100 amps
8,33 Amps
draw 0.104 amps
How many amps really depends on the size of freezer...but, normally during the START cycle (that lasts about 10-seconds, from the time the compressor kicks on, until it gets going), the surge of START can take 10-12 amps, though most freezers can comfortably start in a 68-degree F room at about 8-amps. Once the compressor is running, it takes 2-3 amps to keep the compressor running. When the compressor kicks off (standard cycle is about 80% off, 20% on for a new freezer), then it draws NO POWER at all, unless it has a heated lid-seal, and then it will draw about 1-amp...possibly on a timer cycle (<100-watts). Keep in mind...that <600 Kw/h rating for the energy star is based off of a MOSTLY-OFF cycle time...if that compressor has to run a lot (because you placed it on your back deck, or in your HOT garage) then you can expect power consumptions to double, triple, etc.!
40 amps
About 0.6 amps for a 12v 21w bulb
100 amps
8,33 Amps
An electrical device may draw amps, but there is not a device that equates to amps. Amperes are the measure of current flow in a circuit.
Not sure if there's one formula but there are 2 concerns - start-up draw and running draw. Try investigating portable generators. They usually have this type of info to help decide how big your generator needs to be. <<>> The formula you are looking for is Amps = Watts/Volts.
Each computer will have an amperage rating. Using 80% rule for continuous load you should not exceed 16 Amps total. You'll have to add in your monitor power as well. Your start up current can be slightly higher due to bringing discs up to speed. A typical desktop might draw from 2 to 3 amps. Depending on type a monitor may draw from 1 to 3 amps. A typical laptop may draw 1.5 amps from charger.
Watts = Amps x Volts. Amps = Watts/Voltage. Amps = 2500/apply voltage here.
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
it draws 210 amps