U.S. Department of Energy - Energy Efficiency and Renewable Energy

Solar Energy Technologies Program

PV Systems

A photo of a photovoltaic cell.

A photovoltaic cell, the most basic building block of a PV system.

Photo of a PV array in Canyonlands.

This array supplies 6.5 kilowatts of electricity to the Canyonlands Needles Outpost, an all-purpose general store, restaurant, gas station, and campground that serves visitors to the national park near Moab, Utah.

Photo of silicon modules.

These two silicon modules are rated at about 50 watts each and generate power to illuminate an entry sign.

A photovoltaic (PV) or solar cell is the basic building block of a PV (or solar electric) system. An individual PV cell is usually quite small, typically producing about 1 or 2 watts of power. To boost the power output of PV cells, we connect them together to form larger units called modules. Modules, in turn, can be connected to form even larger units called arrays, which can be interconnected to produce more power, and so on. In this way, we can build PV systems able to meet almost any electric power need, whether small or large.

PV systems can be classified into two general categories: flat-plate systems or concentrator systems. We will talk about the differences between these two types of systems later on.

By themselves, modules or arrays do not represent an entire PV system. We also need structures to put them on that point them toward the sun, and components that take the direct-current electricity produced by modules and "condition" that electricity, usually by converting it to alternate-current electricity. We might also want to store some electricity, usually in batteries, for later use. All these items are referred to as the "balance of system" (BOS) components.

Combining modules with the BOS components creates an entire PV system. This system is usually everything we need to meet a particular energy demand, such as powering a water pump, or the appliances and lights in a home, or, if the PV system is large enough, all the electrical requirements of a whole community.

Illustration of solar cells combined to make a module and modules combined to make an array.

The basic photovoltaic or solar cell typically produces only a small amount of power. To produce more power, cells can be interconnected to form modules, which can in turn be connected into arrays to produce yet more power. Because of this modularity, PV systems can be designed to meet any electrical requirement, no matter how large or how small.