Are you looking to maximize the energy output of your solar panels? One of the most efficient ways to do so is by using a dual axis solar tracker. In this article, we will discuss the benefits of using a dual axis solar tracker and how you can easily build one yourself.

What is a Dual Axis Solar Tracker?

A solar tracker is a device that automatically moves solar panels to follow the sun's path throughout the day. This allows the panels to receive maximum sunlight exposure, resulting in increased energy output. A dual axis solar tracker, unlike a single axis tracker, can move both horizontally and vertically. This means that it can accurately track the sun's position both throughout the day and throughout the year, leading to even greater energy production.

Benefits of Using a Dual Axis Solar Tracker

1. Increased Energy Output: By continuously adjusting the position of your solar panels to face the sun, a dual axis solar tracker can increase energy output by up to 40% compared to fixed panels.
2. Optimal Efficiency: Dual axis solar trackers can capture more sunlight throughout the day, ensuring that your panels are operating at peak efficiency.
3. Versatility: Dual axis solar trackers are ideal for locations with variable sun angles or for installations where space is limited.
4. Cost Savings: While dual axis solar trackers may require a slightly higher initial investment, the increase in energy output can result in significant cost savings over time.

How to Build a DIY Dual Axis Solar Tracker

Building a DIY dual axis solar tracker is easier than you might think. With the right materials and a bit of know-how, you can create a solar tracker that will help you maximize the energy output of your solar panels. Here's a simple step-by-step guide to get you started:

1. Gather Your Materials: You will need a small solar panel, a dual axis solar tracker kit, a microcontroller, and some basic tools for assembly.
2. Assemble the Solar Tracker: Follow the instructions provided in the dual axis solar tracker kit to assemble the tracker mechanism. This will involve connecting the microcontroller to the solar panel and setting up the tracking system.
3. Calibrate the Tracker: Once assembled, you will need to calibrate the solar tracker to ensure that it is accurately following the sun's path. This may require some trial and error, but the end result will be worth it.
4. Test Your Solar Tracker: Finally, test your dual axis solar tracker to make sure that it is functioning correctly. Monitor the energy output of your solar panels to see the difference that the tracker makes.

Conclusion

In conclusion, utilizing a dual axis solar tracker is a great way to maximize the energy output of your solar panels. By automatically adjusting the position of the panels to follow the sun's path, you can significantly increase energy production and efficiency. Building a DIY dual axis solar tracker is a fun and rewarding project that can help you save money on your energy bills while reducing your carbon footprint. So why wait? Start building your own dual axis solar tracker today and reap the benefits of renewable energy.