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Inverters
 
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About Inverters

An inverter, in the context of renewable energy, is a device that will convert your DC battery voltage into mains type AC power.

Most medium to large scale solar design is to power everything from mains type AC voltages "inverted" from the DC battery bank. The advantage this gives us is that we can purchase conventional appliances from the local electrical store. For example a simple light globe that gives good light output that is energy efficient quite hard to find and somewhat expensive in a 12 Volt DC version. Having a 24 or 48 volt lighting system makes finding a suitable light bulb even more difficult. If you get all your power from an inverter you can go off to the local supermarket and choose from a great selection of super efficient low power consumption light globes that will cost a fraction the price of anything that is only DC rated.

Automatic on/off operation

The inverter actually requires power to run itself. If you leave your inverter on, you may drain its battery bank. Most inverters are equipped with an automatic shut off feature (called "sleep mode," "load demand," "standby," "power saver" and other names). If you are using energy in the home (or business), the inverter senses this and turns itself on, and when there is low or no energy usage, the inverter will shut itself off.

Battery charging

Since the inverter is powered by its own battery bank, you may want to ensure that it has a self charging feature. Thus, when the inverter is in use, it will direct a small fraction of its energy to recharging itself.

Surge Capacity

This sounds like jargon, but it's really very simple. Some appliances (washing machines) or large machines (power tools) require more power than others. To operate any of these items properly, you must have an inverter that is capable of "powering up" to provide the short surge of energy required.

Kinds of inverters

Inverters come in two basic kinds:

  • A solar energy system connected to the grid (the larger electrical system that regularly supplies power to you and your neighbors) will require a synchronous inverter .
  • A solar energy system independent of the grid will use a stand alone inverter .
 

Inverter FAQs

Inverter ratings

The three ratings that you should look at when buying an inverter are:

  1. Continuous Rating: This is the amount of power you could expect to use continuously without the inverter overheating and shutting down.

  2. Half Hour Rating: This is handy as the continuous rating may be too low to run a high energy consumption power tool or appliance, however if the appliance was only to be used occasionally then the half hour rating may well suffice.

  3. Surge Rating: A high surge is required to start some appliances and once running they may need considerably less power to keep functioning. The inverter must be able to hold its surge rating for at least 5 seconds. TVs and refrigerators are examples of items that require only relatively low power once running, but require a high surge to start.

Modified sine wave and true sine wave inverters compared

There are basically two types of inverters: modified sine wave (aka modified square wave) and sine wave . The differences between these two types of inverters are subtle but significant in the way they operate.

Modified sine wave inverters

A modified sine wave inverter can adequately power some household appliances and power tools. It is cheaper, but may present certain compromises with some loads such as computers, microwave ovens, laser printers, clocks and cordless tool chargers. Virtually all low cost inverters are "modified sine wave". A modified sine wave is easier and cheaper to produce than a sine wave inverter. It is also a fact that cheaper modified sine wave inverters have given this type of inverter a bad name. These low cost inverters are generally available from electrical stores, hardware stores, automotive store and electronic suppliers. They usually lack many features such as auto-start or any type of tweaking ability. The devices are usually about 70% efficient, so expect some significant power losses if you are using a modified sine wave inverter in your system. We do not sell such devices.

Sine wave inverters

A sine wave inverter is designed to replicate and even improve the quality of electricity supplied by utility companies. To operate higher-end electronic equipment, a sine wave inverter is recommended. Efficiency has reached up to about 94% and the electricity from these devices is of a higher quality than grid power almost anywhere in the world. We only sell this kind of inverter.

A high quality inverter will include:

  • An auto-start system. An auto start allows an inverter to switch to a low power consumption standby state when nothing is connected and turned on. This will save you a lot of manual switching and/or wasted power
  • Tweaking ability. An ability to adjust parameters such as auto-start and battery depth of discharge is also helpful.
  • High quality heavy-duty power transformer. A heavy inverter usually means a high quality heavy-duty power transformer.

Can I turn an modified sine wave (MSW) inverter into a true sine wave (TSW) inverter?

If you have an MSW inverter and suspect you need a TSW inverter, please note there is no 'filter' or 'retrofit' you can apply to the output of an MSW inverter to 'clean up the output' or 'turn it into TSW'.

Inverter Tips:

In general, any device that senses either voltage peaks or zero crossings could have problems when running from MSW.  Devices such as these should be run from TSW inverters.  Ham radio and CB radio operators may notice RF noise from MSW inverters; in that case do not run the radio and the inverter at the same time. Electronics that modulate RF (radio frequency) signals on the AC line will not work and may be damaged. You may notice hum or buzz in the audio of TV's, radios and satellite systems used with MSW inverters.  Audiophiles or professionals using sophisticated audio, remote measurement, surveillance or telemetry equipment should use TSW.

Examples of problem devices are motor speed controllers employing triacs, and some small battery rechargers that do not incorporate a transformer between the utility power and the load.  To help you visualize this, if there isn't a 'wall wart' between the battery charger (or the battery in the device) and the AC plug, don't use MSW. 

Please note two other common problem loads, electric shavers and emergency flashlights.  Both of these items have batteries in them but connect directly into the wall to charge, without an external transformer.  Don't use items like these with an MSW inverter.  If you do use an MSW inverter with a transformer-less charger, your product will likely be damaged.   Garage door openers, laser printers and large strobes used in photography have all been reported as trouble loads for MSW inverters; they either don't work at all or stop working entirely, so don't take a chance - use TSW.

As a general rule, products operating through an AC adapter will work fine from an MSW inverter.  These include laptops and cell phone chargers, video games, camcorder and digital camera chargers.  Televisions generally work well; some VCR's with inexpensive power supplies run poorly. Consider switching to another brand of VCR in that case.   A potential solution for RV'ers or off-grid cottagers is to purchase our smallest TSW inverter to run TV, VCR and audio equipment, and a larger MSW inverter (such as the XPower 1750 Plus) for the coffee maker, hair dryer and microwave.

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