We wager that you can determine the answer to this question based on our prior response. Running an AC unit with a soft starter shouldn’t be a problem because the Honda EU2200i has 10% more power than a Honda generator with 2,000 watts of electricity.
Your other devices and appliances will be able to function without being burdened by the new, demanding AC unit thanks to the extra 10% power.
The 2,200-watt generator will function just fine with your AC unit, much like investing in a 3,000-watt generator will allow you to power more appliances in your RV.
Your RV should be adequately cooled by the 13,500 BTU air conditioner, which is located in the middle of the street.
It’s improbable that two air conditioners will function on one little generator, despite the fact that most people want two air conditioners to make sure their entire RV is cooled to their preferred temperature.
Consequently, you have the choice of selecting a different BTU rating even if a 13,500 BTU air conditioner will function on a 2,200-watt generator. A small generator will enable 11,000 BTU air conditioners to function better, but your RV won’t be adequately cooled.
On the other side, a 15,000 BTU air conditioner might not be able to manage a 2,200 watt generator. The only way you could test this is if you bought a soft starter and utilized it in conjunction with the strong AC unit.
In This Article...
For a 13500 BTU air conditioner, what size generator do I need?
To run your RV’s air conditioning, you simply need a generator with enough power. A 13500 BTU air conditioner can be powered by a 3000-watt portable generator.
The majority of the time, you’ll also have a few other appliances running in addition to your RV rooftop AC unit.
You may discover my suggestions for the best generator for RV air conditioners at the conclusion, including both rooftop and portable RV AC.
Can a 12000 BTU air conditioner be powered by a 2000 watt generator?
How much electricity your window air conditioner will use from your generator is one of the most critical factors to take into account when installing one, as we previously indicated. There are several different sizes of these air conditioners, ranging from 5000 BTU to 14000 BTU.
A 5000 BTU air conditioner uses about 450 running watts. An 8000 BTU air conditioner could consume as little as 715 watts, depending on the size of the room. The minimal power requirement for a 14000 BTU air conditioner is 1250 watts.
You can operate a small- to medium-sized window unit with a 1000-watt generator and be fine. A large window unit will require at least a 2000-watt generator to run. If you need to run several appliances at once, a larger generator would be a better choice.
You should also take into consideration purchasing more than one generator because doing so can be advantageous. By doing this, you may maintain operations without placing an undue burden on a single generator. A 2000-watt generator can typically power equipment with a 14000 BTU capacity.
Conclusion
In general, numerous criteria, like the size of your property and the quantity of cooling power you want, will determine what size generator you need for a window ac unit. But we advise choosing a generator that generates at least 1,000 watts of power. This will guarantee that you have sufficient energy to operate your window air conditioner effectively.
Follow these recommendations and upgrade to a newer, more efficient size generator for your window air conditioner if you have trouble running it on a generator.
Can a 13500 BTU air conditioner be powered by a 3500 watt generator?
The air conditioning system in your RV consumes the most power. A typical 15,000 BTU air conditioner needs roughly 3,500 watts of power to start up and 1,500 watts to stay running. A 15,000 BTU air conditioner is typically used in RVs. A 13,500 BTU unit, which uses a little bit less electricity, is appropriate for small RVs and trailers.
A 15,000 BTU air conditioner should be startable if you have a 3,500 watt generator. You will still have another 2,000 watts of generator electricity available once it is operational for additional appliances. Even a 1,000 watt microwave can be operated. A 1,500 watt hair dryer or toaster will still work. Most of these other appliances run for no more than two to ten minutes.
A 13500 BTU RV air conditioner uses how many amps to run?
Using 120VAC, RV air conditioners operate (standard alternating current used in homes). While some of the larger and more varied RVs have two, the majority just have one air conditioner. They are graded according to their BTU-based cooling capacity. Although some are 15,000 BTU, the normal size is 13,500 BTU.
The Coleman 13500 btu rv ac, which is rated at 13.3 amps, and the Dometic 13500 btu rv ac, which draws 12.413.3 amps, are two extremely popular versions. All campgrounds, save for the worst ones, will have enough electricity to run at least one RV air conditioner of this kind.
Note: If you have a 15000 BTU RV air conditioner, you’ll need additional power at the campsite or from your RV generator because its amp draw is a little higher—13 to 15 amps.
How big of a generator am I going to need to run a 15,000 BTU air conditioner?
You will need a larger generator if your camper, RV, or vehicle has air conditioning!
These days, 15,000 BTU air conditioners are standard equipment in most recreational vehicles. This size of unit needs 3,500 watts of power just to turn on. The device requires just about 1,500 watts once it is operating. You will want a generator with at least 3,500 “surge watts if your RV only has one air conditioning unit.
As an alternative, you could change your air conditioner by including a “soft start. As a result, the device only needs 1,800–2,000 watts of power to kickstart. 1,500 watts will still be required to keep it functioning. After installing a soft start, many boondockers have claimed to be able to run a 15,000 BTU air conditioner with a 2,200 watt Honda generator. The most well-known soft start, named “Easy Start,” is produced by MicroAir (See them on Amazon).
Obviously, you will need a larger generator if your RV has two or more air conditioners. If you have two units, you will want a generator with a minimum surge power output of 5,000 watts. This is due to the fact that you still need 3,500 watts to kick start the second air conditioning unit after the first one has started and settled down to using only 1,500 watts. You still have another 2,000 watts available to power other equipment, watch television, and run a microwave once both units have dimmed to a combined 3,000 watts.
Can an inverter with 2000 watts power an air conditioner?
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As one can see, the majority of these power generators are capable of supporting even larger AC units, such as the 12.000 BTU window air conditioner and the 10.000 BTU RV air conditioner.
Check your AC unit’s real power rating once more; different AC models, AC efficiency classes, features, etc. have varying power needs.
Will a 2000 watt generator be able to power an air conditioner? In general, YES, but make important to confirm the precise power needs of your air conditioner before selecting a generator.
Just in case, the ‘Parallel Ready’ option, which allows two units to be linked in parallel to double the output power, is a nice feature of most modern power generators and can be very useful. If you require even more power, stronger portable generators may be an option.
Can a tiny split AC be powered by a 2000 watt generator?
Your generator only uses 2,500 watts of power. Could you turn on your ductless mini split with it? Yes, you may if your micro split uses less than 10,000 BTUs! It’s simple to find the ideal ductless mini split system when you shop with PowerSave AC.
What size inverter is required to power an air conditioner in an RV?
The usual roof air conditioner for an RV is rated at 13500 or 15000 BTUs; when in use, these air conditioners normally consume 1300–1600 Watts. These ACs can, however, temporarily consume up to 7500 Watts when they are starting.
The inverter’s rated power must be between 3000 and 4000 Watts in order to effectively power an RV air conditioner. However, you would only require 2000 Watts of inverter power if you used a soft starter mechanism.
Which size generator is required to power a portable air conditioner?
Few things are as annoying as an unexpected power interruption that keeps the air conditioner from providing comfort. Generators can save your life, but you need to have the correct size for your requirements. Our response may be useful to you if you’ve had trouble finding the ideal generator for your air conditioner.
Window air conditioners can be run by generators that produce 1200-5000W for the typical 5000-10,000 BTU window air conditioners. Depending on the extra starting watts needed for the compressor to start, this amount may vary. A 10,000 BTU window air conditioner, for instance, has a beginning watt of 3000 and a running watt of 1200. It can only be powered by a generator with a maximum output of 4200 watts.
There are countless variables that might affect an AC unit’s requirements, and understanding those requirements is crucial. Continue reading to learn more about how to pick the best generator.
How many watts does a 12000 BTU air conditioner require to run?
After providing you with a general response to the question, “How much power does an air conditioner use?,” let’s examine the more complex variables that can affect those figures.
Your Air Conditioner’s Capacity
It should come as no surprise that the largest factor affecting energy use is air conditioner capacity. Experts use British thermal units to measure capacity. Generally speaking, you require around 20 BTUs per square foot, adjusted for your particular home’s characteristics and local environment. Your home’s size will determine how much cooling capacity is needed, which can increase your energy costs.
Your Air Conditioner’s Efficiency Rating
Of fact, not every air conditioner that delivers the required BTUs will function with the same efficiency. A rating for seasonal energy efficiency ratio (SEER) is a feature of air conditioners. It is the product of the cooling output divided by the hourly watt usage for each season. The more SEER points your air conditioner has, the more effective it will be. Although there are units with ratings as high as 25, federal rules only need a minimum SEER rating of 13 or 14, depending on your environment.
Climate
You’re going to require a stronger air conditioner in places like Arizona than, say, New York. Increased energy use will result from those extra BTUs. Getting a PRV to assure the safe operation of all plumbing equipment is another smart move.
Your Maintenance Routine
To maintain your air conditioner operating at its best, American Home Water and Air suggests having it professionally serviced at least twice a year. However, there is a crucial task you must complete on your own in between expert services: changing or cleaning your filters. You might be shocked at how quickly dirt and other particles can clog your filters and interfere with airflow. Check out this article for advice on how to clean your air conditioner’s reusable filters once a month. In contrast, disposable filters need to be changed once a month.
Temperature Settings
The efficiency of an air conditioner can be increased in a straightforward manner by keeping the temperature set at the same level all day. The unit’s default temperature of 75 degrees, which is advised by some manufacturers, should not be changed. Higher energy use may result from lowering the temperature of your air conditioner or adjusting it during the day.