Solar panel systems, also known as photovoltaic or PV systems, convert sunlight into electricity using a chemical process similar to the photovoltaic effect of the Sun on plants and trees. Solar panels can produce electricity on cloudy days, but not as much as on a sunny day. If you pay more than $100 each month in utility bills, you can likely save money with the renewable power from the Sun.
To produce power, solar cells (usually 36, 60, 72 or 96) are interconnected, encased in tempered glass and bordered by an aluminum frame to form a solar panel. For the typical home, about 10 to 20 solar panels are cabled together to create what is known as an array. The solar array should provide enough power for a typical household. As depicted in this inforgraphic, the key components of a solar electric system include:
Inverter: The inverter (or power converter) converts the direct current (DC) power from the panels to alternating current (AC) used in your home. Some of the newest PV modules include micro-inverters that are integrated at the factory, so no additional equipment is needed.
Electrical Panel: Power travels from the inverter to the breaker box or electrical service panel. The power from the electrical panel is then distributed throughout the home or back to the utility grid for use.
Utility Meter: When excess power is produced by the solar system (for instance during a work day at a residence or over the weekend at a business), the electrical power will flow into the grid through the electric meter. This will cause the meter to run backwards, generating a credit with the utility company that can be used to offset future usage. The arrangement is known as net metering and is usually mandated by the State Public Utility Commission.
Solar arrays are best mounted at a fixed angle facing south, allowing them to capture the most sunlight over the course of a day. Because of their modularity, solar panel systems can be designed to meet most power needs, no matter how large or how small. You can connect solar panels to an electric utility system (grid-connected), or they can stand alone (off-grid) with an optional battery storage system.
A grid-connected solar panel system receives back-up power from the utility company when the solar power system is not producing enough energy. When the solar panels produce excess power, the utility is often required to purchase the power through a metering and rate arrangement. Under this arrangement, also known as net-metering, the utility essentially pays you the retail price in the form of energy credits for the electricity you provide into the grid. We can help you with the installation requirements for your utility company.