Solar panels make use of one of the cleanest forms of energy: the sun’s free solar energy. They harness solar energy through photovoltaic technology and convert it into electric current that can directly power your house or business for little to no cost. However, there are many financial incentives available to you to further maximize your investment’s return on investment. If you are interested in solar energy design, then you may be interested in solar panel inverter installation as well.
Solar panel inverters come in two basic varieties: stand alone and connected. Stand alone solar panel inverters allow you to simply connect to your solar energy system with a simple wire. Connected solar panel inverters must be tied into a separate electrical circuit. Both types of inverters work by modifying the DC current produced by the solar power system’s solar cell. This changes the current into AC (American standard voltage) suitable for use in your home or office.
Solar panel inverters come in a variety of wattage rating. The higher the wattage rating of your solar panel, the more DC current produced. If you are using solar panels for just part of your home’s electricity needs, then this isn’t really necessary. However, if you expect to have solar energy as your primary source of electricity, then increasing the solar panel wattage will dramatically increase your overall electricity costs. If you are planning a solar panel system and want to know how many solar panels you will need, then calculate your total DC consumption at your house and divide by the number of solar panels you plan to purchase.
Solar panel inverter energy conversion requires two major components: solar cells and an inverter. The solar cells, also called photovoltaic cells (PV) are the actual solar panels that collect solar energy. The solar inverter connects the solar cells to the main household power grid. Understanding how these two parts work together is crucial to understanding solar panel inverter energy conversion.
The solar cells can be purchased and installed professionally. You may be able to purchase the parts you need to create your own solar panels from online sources, or by contacting a solar panel installers in your area. The solar cells may also be purchased through eBay or other online sources. Alternatively, you can create solar panels on your own using the step-by-step DIY solar energy instructions found online.
The second component of an effective solar panel system is the inverter. This device allows you to convert the DC energy into AC energy suitable for use in your home or office. This allows the solar panels to run continuously and provide your household with a continuous source of electricity. Some solar panel energy systems also include a storage battery, which will store excess energy produced during daytime and possibly store it for future use.
With solar panels energy systems becoming more popular, the number of solar panel energy conversion devices is quickly growing. This has caused a variety of price ranges for solar cells and their parts. You can find solar panel inverters starting at as low as $200, and as high as several thousand dollars. Depending upon the quality of the solar cells you purchase and the size of your residential solar system, the cost of the solar panel inverter will vary.
Your location will also play an important role in determining the type of solar panel system for you. You should find a local solar panel installers who has experience operating and maintaining the specific solar power equipment you want to connect. Also check to see what types of residential energy discounts are available in your area. Some solar panels may not be eligible for installation in some areas due to regulatory issues. Before deciding on an inverter, make sure that you have carefully reviewed all of the solar panels available to you and have discussed all possible installation locations with a solar panel installers who specializes in the types of solar panels you want installed. A good solar panel inverter is an essential part of solar energy systems.