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How to Choose the Best Solar Panels For Homes

The best solar panels for homes should be able to capture as much sunlight as possible. Things like hazy skies or shadows from trees or adjacent buildings reduce energy production.

Solar Panels

Monocrystalline panels are made from a single crystal of silicon and generally have higher efficiency levels than polycrystalline options. They also tend to have a sleeker appearance since they often have black frames and back sheets. For professional help, contact Utah Solar Company.

Solar energy harnesses the power of sunlight to generate renewable electricity. It’s an abundant natural resource that can provide energy to meet your home’s electrical needs and reduce your dependence on fossil fuels.

Solar panels convert solar radiation into usable electric current through a process known as photovoltaic effect. Sunlight interacts with silicon atoms to create an electric field, which funnels electrons to conductive metal. The electric current then passes through the circuits of your home, delivering energy for your appliances and devices.

A typical residential solar panel consists of solar cells arranged in an array to produce a sufficient amount of energy for your needs. The size of your solar array will depend on the amount of electricity you use and the available roof space.

Generally speaking, larger solar systems generate more energy than your site consumes, so excess electricity gets sent back to the utility grid. However, smaller systems may not be able to keep up with your energy needs.

Many different types of solar panels exist, each with its own advantages and disadvantages. Monocrystalline solar cells are a popular choice because they feature single-crystal composition, which gives them higher efficiency than polycrystalline cells. They also have a clipped corner appearance, which blends well with most roofs. Polycrystalline solar cells, on the other hand, have a more distinctive blue hue because light bounces off the silicon fragments differently than it does with monocrystalline wafers.

Solar panel technology is evolving, with new products leveraging the same basic principles of conversion to offer a range of consumer applications. For example, Goal Zero power stations are portable and lightweight solar generators that can be used to provide power for camping, hiking, and other outdoor activities.

Solar cells are small, flat pieces of semiconductor material that can produce up to 2 watts per square foot. They’re often mounted on a support frame or rack that can be fixed or tilted, usually within 30 degrees of south in the Northern Hemisphere or north in the Southern Hemisphere. More complex installations can utilize motor-driven tracking racks that automatically reorient the solar panels to follow the daily and seasonal movements of the sun.


The costs of solar panels vary depending on the type of panel you choose and your location. For example, monocrystalline panels are typically more expensive than polycrystalline or thin-film because they’re made using a single silicon crystal, which requires more energy to manufacture. Thin-film panels, on the other hand, use silicon fragments and are therefore less expensive to make.

In addition to the solar module itself, homeowners should also consider the cost of other parts of the system, including racking equipment and inverters. In general, these “balance-of-system” elements typically account for about half of the total equipment cost.

Other factors can also affect the cost of solar panels, such as whether you’re able to take advantage of federal tax credits and rebates. As of 2023, the average cost of a home solar energy system in the US is $31,460 (before any incentives).

How long it will take for your system to pay off in savings depends on state energy prices, available sunlight and your own electricity use. However, most solar systems reach a breakeven point within a decade, making them a smart investment for most homeowners.

If you’re considering solar, you should weigh the upfront and long-term costs of your investment to decide if it’s right for you. The best way to do this is by calculating your potential savings and compare them to your initial system cost.

The upfront cost of a solar energy system can be offset by the federal solar investment credit, which is worth 30% of the overall system cost. If you purchase your solar system with cash, this credit will reduce your upfront costs significantly. However, if you don’t have enough money to buy a system outright, you may want to consider signing a power purchase agreement or PPA instead.

Once your system is installed, you’ll need to monitor and maintain it to ensure that it continues to produce electricity. You can save on maintenance costs by choosing a durable solar panel with a strong warranty. Additionally, it’s helpful to stay informed about local energy prices and policies.

Energy Efficiency

Solar energy is the most abundant renewable resource in the world, and capturing that power with residential solar panels can reduce our dependence on fossil fuels. Solar panel efficiency is one of the key considerations when choosing a system, and higher ratings translate to greater electricity generation per square foot. The best panels use advanced technology to reach optimum conversion rates. Monocrystalline photovoltaic cells are the most efficient, followed by polycrystalline and thin-film panels. Other factors affect the efficiency of solar panels, including temperature, cell structure, and the color of the protective backsheet. Generally, black backsheets look more aesthetically pleasing, but they also absorb more heat, increasing resistance and reducing overall efficiency.

Solar PV cells convert sunlight into direct current (DC) electricity. An inverter then turns this DC electricity into alternating current (AC) electricity. AC electricity powers household appliances that operate on a continuous basis, like light bulbs, washing machines, and refrigerators. Many types of energy sources generate AC electricity, including coal, gas, nuclear, wind, and solar.

The amount of electricity a solar panel produces depends on its location, its tilt angle, and the direction it faces. It will produce more electricity during the day when the sun is high in the sky and less when it’s low.

A solar panel’s efficiency declines over time through a process called degradation. This is a natural phenomenon that occurs over time due to prolonged exposure to the sun, heat, ice, and wind. To keep your solar system at its peak performance, we recommend keeping the panels clean and avoiding shading as much as possible.

We can help you find the best rated solar panels for your roof. We’ll consider the optimum size, shape, and placement of your solar panels to ensure that you get maximum energy efficiency. Our experienced technicians can also explain the benefits of different solar panel technologies, such as bifacial and tandem solar cells.

A solar panel consists of multiple solar cells, each with a positive and negative side that creates an electric field. When photons hit the cells, they knock electrons loose from the atoms of the semiconductor material. Conductors on the front and back sides of the cells complete the electrical circuit, and when the circuit is complete, the cell produces electricity. The more solar cells in a panel, the more electricity it will generate.


The installation of solar panels can be a complex process. There are many factors to consider including your home’s energy consumption, the state of your roof and local electricity rates. It is also important to consider any potential financial incentives and financing programs you may be eligible for.

The most common type of solar panel installation is a fixed mount, in which the panels are placed on a tilted support frame or rack known as a “solar tracker”. Solar tracksers follow the daily and seasonal movement of the sun to increase solar exposure, allowing for greater efficiency and higher production levels. More advanced solar power systems use motor-driven tracking systems to orient solar panels to capture the maximum amount of sunlight.

Solar panels are connected with electrical wiring that runs through the racking, and then to the inverter and other components. The inverter converts the direct current (DC) produced by the panels into alternating current (AC), which is then fed into your home’s electricity system. An energy meter is also installed to monitor how much electricity you’re using and how much you’re generating.

While the installation of solar panels can be a do-it-yourself project, it is best to hire a qualified and insured professional with experience working with electricity. Since there is significant electrical wiring involved, it’s crucial to ensure that all work is performed safely.

Regardless of the size of your system, it’s important to obtain multiple bids from installers. Bids should include the cost of hardware, installation, connecting to the grid, and sales tax. They should also include a breakdown of the estimated annual cost per kilowatt hour and the payback period. It’s also a good idea to ask for references from other homeowners who have recently gone solar, and check online resources for reviews. Choosing a trusted and experienced installer will help you save money on the cost of your PV system. And remember, the sooner your solar energy system is up and running, the sooner you’ll start saving money on your electric bill. Moreover, purchasing your own system will protect you from increasing utility rates and locking in your energy costs for decades to come.