Compare the highest-rated home solar professionals in Fallston, Maryland. All contractors are licensed, insured, and verified through our rigorous screening process.
A leading regional solar installer with a strong presence in Maryland, known for comprehensive in-house services from design and installation to maintenance. They are a SunPower Master Dealer, offering some of the industry's most efficient panels and robust warranties.
A reputable, locally-owned installer based in Bel Air, making them one of the closest and most accessible providers for Fallston residents. They emphasize custom system design and strong customer service, with extensive experience in grid-tied residential systems.
A well-established company that serves multiple states, including a strong operational base in Maryland. They offer a full suite of services, including leasing options and battery backup installations like the Tesla Powerwall, and are known for their expertise with local incentives.
The home solar market in Fallston, MD, is characterized by moderate competition, primarily from established regional and national installers based in surrounding areas like Bel Air, Baltimore, and Salisbury. The average quality of service is high, as these providers are well-versed in Maryland's specific incentives, including the state's Solar Renewable Energy Credit (SREC) program. Typical pricing for a residential system in Fallston is competitive with the national average, generally ranging from $15,000 to $30,000 before the federal investment tax credit (ITC), with the final cost heavily dependent on system size, panel quality, and roof complexity. Homeowners have a solid selection of reputable, licensed, and insured contractors to choose from.
4.7+ star average from verified customer reviews
All contractors are properly licensed and insured
10+ years average experience in the industry
Familiar with Fallston regulations and climate
Get answers to common questions about home solar services in Fallston, Maryland.
For a typical 6-8 kW system in Fallston, homeowners can expect an average gross cost between $18,000 and $28,000 before incentives. Crucially, you can significantly reduce this through the 30% federal solar Investment Tax Credit (ITC) and Maryland's state-specific incentives, including a property tax exemption for the added home value from solar and the state's Solar Renewable Energy Credit (SREC) program, which pays you for the clean energy your system produces.
Fallston's climate is well-suited for solar, with ample annual sunshine. Panels operate efficiently in cooler temperatures, so spring and fall often yield excellent production. While winter brings shorter days and potential snow cover (which typically slides off angled panels), summer's longer, sunnier days provide peak generation. Importantly, modern panels still produce energy on cloudy days, ensuring year-round energy savings.
All installations in Fallston require an electrical permit from Harford County and must comply with the County's building codes. Your chosen installer will typically manage this process. Additionally, if your home is within a homeowners association (HOA), Maryland state law (the "Solar Rights Act") prohibits HOAs from unreasonably restricting solar installations, though they can have reasonable aesthetic guidelines you must follow.
Prioritize local Maryland-based installers with strong experience in Harford County, as they will be most familiar with specific permitting and interconnection processes with BG&E (Baltimore Gas and Electric). Always verify they are licensed, insured, and certified by a body like NABCEP. Obtain multiple detailed quotes, check reviews on independent sites, and ask for local references to see completed projects in our area.
Going completely off-grid in Fallston is technically possible but generally not practical or cost-effective for most homes due to our seasonal weather variations. Staying connected to the BG&E grid through a net metering agreement is the standard and recommended approach. This allows you to export excess power for credits when you produce more than you use (like on sunny summer days) and draw power from the grid at night or during prolonged cloudy periods, ensuring reliability without the extreme expense of a very large battery bank.