Solar panels offer numerous environmental and economic benefits for homeowners and businesses, and the solar industry is quickly growing throughout the United States. It’s estimated that homeowners save $1,500 each year when they install a solar panel system, amounting to $25,500-$33,000 in savings throughout the system’s life.
For solar system owners across the country, however, optimizing the production of solar energy means different things. It’s no secret that the angle of a solar panel impacts its production – but by just how much? And what’s the optimal tilt angle for solar panels?
The truth is, there is no single, ideal angle for solar panels: at different times of the year, the optimal angle may differ significantly. The optimal tilt angle is different for every location, varying due to factors like the seasons and the average position of the sun in that particular location.
So, how can you determine the best tilt angle for your solar panels? If you live in an urban area in the United States, you might simply be able to find the best solar panel direction by zip code.
Our guide will help you understand everything you need to know about why solar panels need a tilt angle, how it is calculated, and what it means for production.
Why do solar panels need to tilt at an angle?
Solar radiation is emitted by the sun in differing quantities around the world. Solar technologies, such as solar panels, serve to capture this radiation and turn it into usable energy.
Solar panels utilize photovoltaics (PV), one of the main two solar technologies. When sunlight hits a solar panel, energy from the sun is absorbed by the PV cells in the panel. This energy then creates electrical charges that cause electricity to flow.
To optimize the amount of sunlight that hits the surface of a solar panel, they are tilted vertically, at a ‘tilt angle’. This is because the sun’s position in the sky moves throughout the day, and its position and angle also changes with the seasons.
While solar panels do work in cold weather, energy production can be impacted in places where the winter is longer, and there is less sunlight and length of daylight.
In all locations, however, the goal is for solar panels to be exactly perpendicular to the incoming solar rays, so that they can produce the most electricity possible.
Generally, the sun is at a higher position during summers and a lower position during winters. However, there is an average position between the two, which is optimal for photovoltaic panels.
This average position corresponds to the latitude of the place where you are housing the panels: tilting it at that average angle would produce the highest output.
While some solar system owners opt to keep their panels at a fixed angle throughout the year, this method is not the best way to optimize solar output. Because the sun is generally higher in the summer and lower in the winter, you can capture more energy during the whole year by adjusting the tilt of the panels according to the season.
How to calculate your optimal tilt angle
Let’s dive into how to calculate the optimal tilt angle for your solar panels. As a general rule of thumb, keep in mind that the panels need to be more vertical during winter to face the lower sun directly, and more tilted towards the ground during summer to face the higher sun.
The angle of your solar panel’s tilt during the summer and winter simply depends on where you live.
There are two methods for calculating the tilt angle for solar panels. Both of these angles require latitude degrees.
1. Adding and subtracting latitude
Whatever your latitude is, you can subtract 15° from it to calculate the angle for summer.
For winter, you can calculate the angle by adding 15°. For fall or spring, you can just subtract 2.5° from the latitude. For example, if the latitude of your city is 35°, then the tilt angle for summer would be 20° (35° – 15°) and for winter 50° (35° + 15°).
2. Multiplying the latitude
The second method is more effective, and more accurate, because it calculates the angle not only for the season but also for the midday sun, which is when the sun is hottest during any day.
For winters, you multiply the latitude by 0.9 and then add 29°. For summers, you multiply the latitude by 0.9 and then subtract 23.5°.
The same latitude of 35° would have a tilt angle of 59.6° for winter and 7.1° for summer. This total calculation is about 10° more or less from the readings obtained using the first method.
Are solar trackers helpful?
Some solar system owners opt to install solar tracking systems rather than adjust the tilt of their panels themselves.
Solar tracking systems allow solar panels to follow the sun’s path as it moves from east to west. They improve solar panels’ exposure to sunlight and increase the amount of energy they produce by ensuring they face the sun for as much time as possible.
However, solar trackers are only viable on ground-mounted panels, which is not often the case in domestic use. For roof-mounted panels, it is difficult to use trackers.
Also, these systems can be costly, raising your overall budget for solar energy solutions. Whether you own or lease your solar panel, these trackers require more complex installations for domestic systems.
As a result, solar panel trackers are most commonly used in commercial solar projects, where maximum output is needed all the time. The added cost and complexity of this tracking feature generally requires more panels to make it a worthy investment.
Fortunately, if you know your optimal solar panel direction by zip code, you will not need to install a tracking system.
What other factors affect the angle of a solar panel?
Aside from your location, latitude, and season, there are a few other factors at play that can impact the output of your solar system.
Roof design
Most homeowners opt to install solar panels on the roof of their house to save space. These homeowners must take the pitch of their roof into account: most roofs have an inclination of 30 to 40 degrees. At this pitch, the solar panel can lie flat on the roof and get enough sunlight to produce adequate electricity.
When a roof is very steep, it can be difficult to achieve the most optimal tilt angle for the panel, especially if it is lower than the angle of the roof. In such a scenario, the best thing to do would be to keep the panels lying flat.
The same is the case with a low-angled roof, which may require a special racking system to install the panels at the correct angle. Placing them flush against the roof would produce lower output.
If your roof is flat, you would need a racking system to place them at any angle you need. However, when it comes to installing solar panels on the roof, space could be an issue. You do not want the panels to be too close together as their shade might limit the exposure to the adjacent panels.
To combat this issue, some homeowners opt to replace their roof with solar panels.
Online calculators can help you determine your roof’s capacity to hold solar panels of varying weights.
Direction of the panels
The tilt angle of a solar panel is not the only angle that must be considered to produce the best outcome from photovoltaic panels, the direction the panels are facing is vital as well.
In technical terms, this measure is called the Azimuth angle, referring to the horizontal orientation of the panels in relation to the equator.
Generally, solar panels should be facing towards the equator:
- In the northern hemisphere, it is best to face the panels south as the sun is always in the south within the northern hemisphere.
- If you are in the southern hemisphere, then face them north.
It’s important to note that the south or north indicated by your compass may not be the most accurate, as it is the magnetic south or north. In some places, the reading may be inaccurate by up to 25°. However, an inaccuracy of less than 10° would not make much of a difference in your Azimuth angle.
Winter weather and snow
Winter weather can consist of snow, sleet, and hail, and the sun is at a lower position during the winter. Days are also shorter, giving less time for your solar panels to soak up the sun’s rays.
Because the sun is lower, you’ll want to keep your solar panels tilted at a lower angle during the winter to ensure they face the sun directly. However, such low angles can trap snow on the surface of the panel, reducing its output. When any material rests on the surface of a solar panel, from snow and dust to leaves, its production is hindered.
If you live in a place where it regularly snows, it may make sense to keep the panels at a steep angle, or the angle suitable for the summer, so that snow easily falls off.
Temperature
Solar panels are sturdy enough to withstand high temperatures. However, in some places where the temperatures soar very high during summer, heatwaves may negatively affect output.
Depending on where they are installed, hot temperatures can reduce the output efficiency of solar panels by 10 to 25%. But why?
Because the electricity generated by solar panels comes from a flow of electrons inside the electrical circuit, these electrons can bounce around too much when temperatures soar. This reduces the amount of electricity generated by much – and this reduces voltage, or the amount of electricity generated.
For instance, in cities like Phoenix, Arizona, solar panels require proper airflow around the panels to keep them working in their optimal state.
Solar panel angle by zip code
Now that we know all of the different factors that can impact your solar panel production, you can figure out the optimal solar panel direction by zip code.
The table below features a solar panel angle by zip code for at least one city from every state in the United States. There is an angle for both the summer and winter months that will deliver optimal results for your solar panel system.
If you live in one of these zip codes or somewhere near them, you can use the readings to set up your racking system. These have been calculated using the solar panel angle calculator for solar noon, the exact halt of the day when the sun is at its brightest.
| City | Zip Code | Solar Panel Angle Summer | Solar Panel Angle Winter |
| Albuquerque, NM | 87101-87199 | 78° | 32° |
| Anchorage, AK | 99501-99587 | 29° | 6° |
| Annapolis, MD | 41401-21411 | 74° | 28° |
| Atlanta, GA | 30301-31196 | 80° | 32° |
| Austin, TX | 78701-78799 | 84° | 30° |
| Baton Rouge, LA | 70801-70898 | 84° | 36° |
| Birmingham, AL | 35005-35298 | 80° | 32° |
| Boca Raton, FL | 33427-33496 | 88° | 40° |
| Boise, ID | 83701-83735 | 72° | 24° |
| Boston, MA | 02101-02467 | 72° | 42° |
| Buffalo, NY | 14201-14280 | 72° | 43° |
| Casper, WY | 82601-82636 | 70° | 24° |
| Charlotte, NC | 28105-28299 | 78° | 35° |
| Charleston, SC | 29401-29499 | 80° | 34° |
| Chicago, IL | 60007-60827 | 72° | 24° |
| Cincinnati, OH | 45201-45299 | 74° | 28° |
| Columbus, OH | 43004-43291 | 74° | 26° |
| Concord, NH | 03301-03305 | 70° | 24° |
| Dallas, TX | 75001-75398 | 80° | 34° |
| Denver, CO | 80014-80293 | 76° | 40° |
| Detroit, MI | 48201-48288 | 72° | 24° |
| Dover, DE | 19901-19906 | 74° | 28° |
| East Providence, RI | 02860-02916 | 72° | 24° |
| Fargo, ND | 58102-58125 | 66° | 20° |
| Great Falls, MT | 59401-59405 | 66° | 18° |
| Hartford, CT | 06101-06167 | 72° | 24° |
| Honolulu, HI | 96801-96898 | 80° | 42° |
| Huntington, WV | 25701-25779 | 76° | 28° |
| Indianapolis, IN | 46107-46298 | 74° | 26° |
| Iowa City, IA | 52240-52246 | 72° | 24° |
| Jackson, MS | 39201-29276 | 82° | 34° |
| Little Rock, AR | 72002-72260 | 78° | 32° |
| Los Angeles, CA | 90001-91610 | 80° | 34° |
| Louisville, KY | 40018-40299 | 76° | 28° |
| Madison, WI | 53558-53794 | 70° | 24° |
| Minneapolis, MN | 55401-55488 | 68° | 22° |
| Montpellier, VT | 05601-05633 | 70° | 22° |
| Nashville, TN | 37011-37250 | 78° | 30° |
| New York, NY | 10004-11104 | 72° | 41° |
| Newark, NJ | 07102-07198 | 72° | 41° |
| Omaha, NB | 68007-68198 | 72° | 26° |
| Orlando, FL | 32801-32897 | 86° | 38° |
| Phoenix, AZ | 85001-85709 | 80° | 33° |
| Pittsburgh, PA | 15106-15295 | 74° | 26° |
| Portland, ME | 04019-04123 | 70° | 22° |
| Portland, OR | 97201-97296 | 68° | 46° |
| Raleigh, NC | 27601-27698 | 78° | 36° |
| Rapid City, SD | 57701-57709 | 70° | 22° |
| Reno, NV | 89501-89599 | 74° | 26° |
| Richmond, VA | 23173-23298 | 76° | 30° |
| Saint Louis, MO | 63101-63199 | 74° | 28° |
| Salt Lake City, UT | 84101-84199 | 74° | 26° |
| San Antonio, TX | 78006-78299 | 84° | 38° |
| San Diego, CA | 91911-92199 | 80° | 33° |
| San Francisco, CA | 94016-94188 | 76° | 38° |
| Santa Fe, NM | 87501-87507 | 78° | 30° |
| Seattle, WA | 98101-98199 | 66° | 18° |
| Springfield, IL | 62701-62796 | 72° | 24° |
| Tulsa, OK | 74014-70193 | 78° | 30° |
| Washington D.C. | 20001-20456 | 74° | 39° |
| Wichita, KS | 67101-67298 | 76° | 28° |
If you don’t want to adjust your solar panel angle every few months, you should keep it at an angle suited for the season you need it to be most productive, or for the season that lasts longest in your area. Keeping your solar panels at a fixed angle can still give you efficient, clean electricity to power your home.
For most southern states and California, a fixed angle would be at the optimal angle for summer. On the other hand, for the northeast and midwestern regions where summer is shorter, the better choice would be the low winter angle.
However, if you do get the opportunity to change their angles throughout the year, you will get maximum output for the whole year. If you are installing a large amount of solar panels, you should invest in a solar tracker, which will eliminate the need to manually adjust tilt angles.
Conclusion on solar panel angling
With rising energy costs and the solar incentives offered by some U.S. states, going solar is a cost-effective decision for the majority of homeowners.
However, by installing solar panels, you are also helping protect the environment. You can make the best of your investment if you know the best angle for your solar panels.
Finding the best solar panel direction by zip code is a simple and effective solution to ensure your solar panel system is working in its most optimal state. You’ll save money and power your home more effectively when you tilt your solar panels the right way.
FAQs
Solar Panel Angle by Zip Code - Green Coast? ›
Positioning your solar panels on a roof facing true south, and at a tilt between 30 and 45 degrees, will yield the best results in terms of energy production and savings.
What is the best solar panel angle at my location? ›Positioning your solar panels on a roof facing true south, and at a tilt between 30 and 45 degrees, will yield the best results in terms of energy production and savings.
What is the best angle for solar panels in California? ›For instance, in the San Francisco Bay Area, the best solar panel tilt angle is between 22-23 degrees. For Los Angeles, a solar panel tilt of 19 degrees works the best. These angles will give you the best overall output over the course of the year if you're going for a fixed installation.
How do you find the tilt angle of a solar panel? ›Solar panel tilt angle is calculated by the latitude value. This angle is multiplied by 0.87 if the latitude value is less than 25. If the latitude value is between 25 and 50, it is multiplied by 0.87 and added 3.1 degrees to the result.
What angle should solar panels be in Florida? ›For maximum year-round production, the optimal angle for solar panels in Florida homes is 28 degrees from the horizontal, facing to the south. Homeowners can, however, adjust their solar panels to optimize power production based on the demand for electricity in their homes.
What is the optimum tilt angle? ›The optimal tilt angle is the angle where the solar radiation will arrive perpendicularly upon the surface. When the angle of incidence of beam radiation on a surface, θ, is smaller, then its cosine will be larger. Maximizing “cosθ” on a surface can maximize the solar radiation received on that surface.
What is the standard solar panel angle? ›The optimum tilt angle is calculated by adding 15 degrees to your latitude during winter, and subtracting 15 degrees from your latitude during summer. For instance, if your latitude is 34°, the optimum tilt angle for your solar panels during winter will be 34 + 15 = 49°.
What is the best angle for solar panels in Southern California? ›The best angle and orientation for roof-mounted solar panels is facing true south with an angle between 30–45 degrees. This positioning offers the best production levels and energy savings.
What direction should solar panels face in Southern California? ›Direction. In the northern hemisphere, the general rule for solar panel placement is, solar panels should face true south (and in the southern, true north).
What is the best angle for solar panels on the Sunshine Coast? ›Ideally, an optimum tilt angle between 10° to 30° is recommended for the solar panel installations, and the orientation should be the north in Australia (in the southern hemisphere). However, even if your roof is not at an ideal angle, you can save your money and leverage the other benefits of solar panels.
What happens when the solar panel is tilted at different angles? ›
Efficiency decreases by 0.54% at indoor and by 0.76% at outdoor when tilt angle is increased from 0o to 15o. Every 5° increase in tilt angle creates a reduction in solar cell temperature by 3.62°C at indoor and 2.70°C at outdoor conditions.
Does the angle of the sun affect solar panels? ›As the sun moves from the east to the west over the course of the day, the angle of solar panels will determine when they collect the most power.
How many peak sun hours do you get per day? ›Depending on your location, you'll see a major difference in the average peak sunlight hours. The United States averages between 3 to 5 peak sun hours in most areas.
Is it better to have solar panels flat or angled? ›Summer: In the summer, the sun will be higher in the sky, so it's ideal for panels to have a low angle at 20°. Winter: During the winter months in the northern hemisphere, the sun is lower in relation to the horizon. So in the winter, solar panels get their best performance at a steeper angle of 60°.
What is the best angle for solar panels on the equator? ›To achieve that goal, most solar panels face the equator (in the US, that means south-facing) and are installed at an angle between 30 to 45 degrees relative to the horizon. For homes in the northern hemisphere, solar panels should face south. For homes in the southern hemisphere, solar panels should face north.
What angle should solar panels be in Arizona? ›Arizona is situated at a latitude of 33.57°. So, if you're mounting your solar panels at a stationary angle, like on your roof, the most efficient tilt angle would range between 28° and 38°.
How do I know which direction my solar panels are best? ›In the northern hemisphere, the general rule for solar panel placement is, solar panels should face true south (and in the southern, true north). Usually this is the best direction because solar panels will receive direct light throughout the day.
What is the best angle for north facing solar panels? ›Placing the panels in the northeast, or north-west direction will increase sun exposure to the panels thereby increasing the solar power system's ability to generate solar power. In Sydney, north-facing panels with a tilt of 30 degrees produce the maximum amount of solar energy throughout the year.
Is East or West better for solar panels? ›Solar panels facing west will generate more energy later in the day, closer to peak use times. Peak production time happens around 4pm, which is about the same time that household usage starts to increase. If your aim is to produce the electricity that you use, then west-facing solar panels can help you meet your goal.