Everyone uses some kind of electronic gadget while in their car, SUV, or motor-home. You might stream music on your smartphone, check for directions on your global positioning system (GPS) or play a portable video game. Since most of these electronic devices can be plugged into the cigarette lighter Contact online >>
Everyone uses some kind of electronic gadget while in their car, SUV, or motor-home. You might stream music on your smartphone, check for directions on your global positioning system (GPS) or play a portable video game. Since most of these electronic devices can be plugged into the cigarette lighter (or power port) in your vehicle, you may be wondering, "what is an inverter and why would I ever need one?".
Well, perhaps you want to use something a little more elaborate while you''re on the open road. Maybe you want to make toast, watch an LCD TV, or even write an article on your laptop computer. These devices plug into regular wall outlets, not cigarette lighters. Making sure your electronic gear gets the juice it needs while on the road isn''t a simple matter of finding the right adapter. You need a power inverter.
What kind of power inverter is the right one for the job? How do you install one? And how exactly does an inverter change the current from one form to another? Don''t worry, as inverter technology isn''t super complicated. In this article, we''ll explore all the positives and negatives of DC to AC power inverters.
Power inverters convert direct current (DC), the power that comes from a car battery, into alternating current (AC), the kind of power supplied to your home and the power larger electronics need to function.
Most cars and motor homes derive their power from a 12-volt battery. In some cases, a heavy-duty 24-volt battery might be used. It''s important to know your vehicle''s voltage because the voltage rating of the inverter you select should match the voltage of the battery. In either case, the battery provides direct current.
This means that the current flows continuously from the negative terminal of the battery, through the completed circuit and back to the positive terminal of the battery. The flow is in one direction only, hence the name direct current. The ability to provide direct current power is inherent to the nature of batteries.
An inverter increases the DC voltage, and then changes it to alternating current before sending it out to power a device. These devices were initially designed to do the opposite — to convert alternating current into direct current. Since these converters could basically be run in reverse to accomplish the opposite effect, they were called inverters.
Each type of inverter has its unique advantages and applications, illustrating the diversity and adaptability of inverter technology in meeting the world''s evolving energy needs.
The earliest AC power inverters were electro-mechanical devices. Direct current would flow down one end of a circuit with an electromagnet. As soon as the current hit the magnet, the magnet would activate. This would pull a wire attached to a spring arm, forcing the wire to contact the circuit. This would change the flow of the current to the other side of the circuit, cutting power from the electromagnet.
Modern inverters use oscillator circuits to accomplish the same process. They''re made with transistors or semiconductors, so there''s no longer the need for a spring arm flipping back and forth to alternate the current. It''s not quite as simple as that, however. Alternating current forms a sine wave. The output of an inverter is a very square wave, not like the smooth, round wave of a perfect sine.
Cleaning up the sine wave requires a series of filters, inductors and capacitors. Inexpensive inverters have little or no filtering. The alternating current they produce has a very square wave, which is fine if you just want to make coffee or run something with a simple electric motor. If you need a smoother sine wave, you''ll need an inverter with better filtering. Of course, better filtering also costs a little more.
Inverters can get extremely expensive, even costing thousands of dollars, that is, if you''re looking for an inverter with a smooth sine. The good news: Given a large enough budget, you can purchase an AC power inverter that produces virtually perfect AC sines. In fact, some high-end DC to AC inverters (such as modified sine wave inverters) can make sine waves that are even smoother than the AC power supplied to your house.
So, with all of these choices, how do you pick the right inverter for the job? Do you spring for a solar inverter or a mechanical inverter? The first step is to match the inverter to the voltage of the battery you''ll be using for power. In the majority of cases, you''ll be using a 12-volt battery, so you would want to select a 12-volt inverter.
The next step is to determine which devices you plan to power with the inverter. Look for a label somewhere on each device that tells you the wattage it requires to operate. The wattage rating of your inverter must exceed the total wattage of all the devices you plan to run simultaneously.
For instance, if you wanted to run a 600-watt blender and a 600-watt coffee maker at the same time, you''d need an inverter capable of a 1,200-watt output. However, if you knew you would never be making coffee and fruit smoothies at the exact same time, you''d only need a 600-watt inverter.
Unfortunately, things aren''t quite that simple. Devices that have electric motors, as well as some televisions, draw a higher wattage than their normal operating wattage rating when they first start up. This is known as peak or surge, and this information should also be listed on the device''s label. Most inverters also have a peak rating, so make sure the inverter''s peak rating is higher than the peak wattage of the device you intend to power.
Microwaves are a special case. As an example, you may know that your microwave is a 500-watt microwave. This is actually the cooking wattage. The power wattage might be twice that amount. Again, check the label on the device to make sure.
When it comes to choosing an inverter, air conditioners can be just as tricky. It''s essential to determine the correct AC electricity capacity for your space and pay attention to energy efficiency ratings like EER or SEER to forecast potential electricity bill reductions.
If you plan to run your inverter through the cigarette lighter in your car, it''s a safe bet that you won''t be using any high-wattage devices. In fact, if you try to pass more than about 400 watts through a cigarette lighter connection, it will fail — and it might even start a fire in your vehicle.
The final specification to look for is the wave output of the inverter. If you''ll be powering any of the equipment that is sensitive to square waves, look for an inverter with a "perfect sine" wave output.
Be prepared for sticker shock — a perfect sine inverter can cost almost 10 times as much as the same wattage inverter with a modified sine output. Modified sine wave means that the current is run through some filtering, so it isn''t a square wave, but it isn''t totally smooth either.
Inverters are very easy to install. Most of them are "plug and play" devices, especially smaller, low-wattage inverters. These inverters have a cable with a plug that fits into the cigarette lighter on your car or truck. They''re meant to be portable, so there''s no other mounting to be done.
If you purchase an inverter that allows higher wattages, proper installation becomes a bit more critical. Below 400 watts, the cigarette lighter connection is still a possibility, but wattages above that require direct connection to the battery. The inverter''s input cables have clips that can be attached to the terminals of the battery, similar to a set of jumper cables. If the installation is to be permanent, the cables can be bolted to the terminals.
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