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How do solar systems work?
A photovoltaic (PV) solar system is comprised of solar panels, racks for placing the panels on your roof, electrical wiring and an inverter. From sunrise to sunset, the solar panels generate electricity (DC) which is sent to an inverter. The inverter converts the DC electricity into alternating current (AC), which is the type of electricity required for household use. The AC power is delivered directly to your home’s main electrical service panel for use by you and your family.
What is a Microinverter?
A microinverter is a small electronic device that sits beneath each solar panel. It’s main task is to convert direct current (DC) from your solar panels into alternating current (AC) electricity that you can use in your home or export to the grid.
Can I run my entire house on solar power?
You can power your entire house using solar energy. By installing solar panels, you can generate electricity from sunlight and run your home's appliances, lighting, and other electrical systems. An inverter converts the solar-generated electricity into a usable form, and batteries can store excess energy for use during cloudy days or at night. Factors like your energy consumption, the size of the solar system, available sunlight, and location are all important. Our professional installers will help you determine the right setup for your needs.
What financing options are available for solar panel installations?
There are several financing options for solar installations, including solar loans, solar leases, and Power Purchase Agreements (PPAs).
How is using multiple microinverters more reliable than using one string inverter?
With a string inverter there is a single point of failure. If the string inverter fails, the entire array is offline. However, with a microinverter each individual PV module has its own dedicated inverter. If the microinverter (or the associated PV module) should fail. only that PV module is offline while the remainder of the system continues to operate. Enphase microinverters have a publicly stated defect rate of 0.05%, which equates to 1 in 2000. Given that the Enphase defect rate is better than most string inverters, this results in a PV installation with higher reliability and a higher overall system uptime over the life of the array.
Additionally, Enphase microinverters have an estimated useful life of more than 25 years, compared with string inverters that typically last around 10 years.
If one panel fails, does the rest of the system continue to produce energy?
If the microinverter (or the associated PV module) should fail, only that PV module is offline. The remainder of the system continues to operate as normal – a key benefit of AC modules.
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