To understand the value of SEPCO’s solar-powered solutions, you may be wondering, “How do solar-powered LED lights work?” Explore SEPCO’s guide on how solar-powered lights work to comprehend the science behind solar lighting.
So, How Do Solar-Powered Lights Work?
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The solar modules come in a variety of Wattages and can be put together to create even more power. The needs of the device or devices and the geographic location of the installation determines the needed amount of solar power. For example, one light in Texas may use an 85-Watt panel, but the same light would need a larger panel or panels in Michigan. Making sure that you have the correct Wattage is necessary for the application is critical when determining the solar panel used.
Current—a flow of electrical energy
Diode—a device through which electrical current can move freely only in one direction
Electron—subatomic particle having a negative charge
Inverter—a device capable of converting electrical energy from DC to AC or vice versa.
Photovoltaic—produces electrical voltage when exposed to light
Semiconductor—a crystalline substance having electrical conductivity somewhere between a conductor and an insulator
Silicon—a nonmetallic element used often as a semiconductor
Solar power is the technology of harnessing usable energy from the sun. Solar panels are made up of photovoltaic (PV) cells. A module is a group of cells electrically connected and packaged in one frame. PV cells are composed of special materials called semiconductors, most commonly silicon. When energy in the form of heat from the sun is added to the silicon, it causes electrons to break free from their orbit around the nuclei of the silicon atoms. These atoms are left with a positive charge, while the electrons carry a negative charge. The electrons, or free carriers, carry an electrical current. The free carriers roam around until they find atoms lacking an electron and then fall into the orbit of these atoms. The electric field surrounding the solar cells acts as a diode allowing electrons to flow in a certain direction. This flow is an electrical current. When using metal on the top and bottom of the cells, we can direct that current to be usable outside of the panel, which is the explanation behind how solar-powered lights work.
A solar power system requires an energy storage unit called a battery in order to use the energy obtained throughout the day. The batteries need to be deep-cycle, which can discharge a great portion of their stored energy while maintaining a long lifespan. The batteries are 100% recyclable and qualify as non-hazardous goods for air, land, and sea shipment.
The use of batteries requires a charge controller. The charge controller ensures that the batteries are not overcharged during the day or drained too much at night. Once the battery has been drained down to a certain level, the controller will not allow more current to be drained in order to protect the battery from damage.
The electricity produced by the solar power system is direct current or DC. SEPCO’s systems can run DC electric devices directly. If the device requires AC, SEPCO’s product line offers an inverter upgrade to run these devices.
Now that you understand how solar-powered LED lights work, you can better understand why SEPCO’s lighting solutions make more cost-effective and sustainable options for companies around the world looking to save money and go green.
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