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How solar works

As the electricity flows into your solar power electrical system, it is either used in your building or “sold” back to your electric utility service for later use. Your electric meter literally runs backwards when you are producing net energy and forward when you use it.

Your solar system produces more energy in the summer, when energy rates are highest, and you can bank excess energy credits to use when you need them within a one-year cycle. You only pay for your yearly net power usage

Solar System types

When you understand a little about how solar energy works, it is easier to choose a system that will meet your needs. A solar powered home can generate between 75 and 100% of its own power, resulting in immediate savings now, and increased savings in the future as the cost of electricity increases with inflation.

Converting Sunlight to Electrical Power

Solar power cells convert sunlight into electricity, using the energy of speeding photons to create an electrical current within a solar panel.
Photons are created in the center of the sun by the fusion of atoms. It takes a photon about a million years to work its way to the surface of the sun, but once free it is hurled through space so fast that it reaches earth in just eight minutes - after traveling 93 million miles.

This tremendous energy from the sun is abundant, and has been powering the earth for billions of years - feeding plants, redistributing and refreshing water supplies and ultimately creating other forms of energy (such as fossil fuels) that largely power our civilization today.

Over the past several decades, scientists have been learning to harness this ancient energy source with more efficiency to do the work of non-renewable fuels - without pollution, noise or radiation, and not subject to economic whims that drive costs higher each year.

1. Solar Panel: Converts sunlight into electricity. The power that can be produced by solar panel will depend on the size and number of solar cells and offcourse the light intensity of the sun.
2. Charge controller: The charge controller feeds current into the battery bank at the required voltage. Good charge controllers draw the best performance out of the batteries and are very important for economics because they influence efficiency.
3. Battery bank: The battery bank is typically made up of six or more individual batteries connected with stout cables in either series or parallel arrangements. This component enables the system to be used during night time.
4. Inverter: The inverter changes DC to AC voltages suitable for use with household equipment. An inverter is optional if you use DC loads exclusively

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