In the world of solar energy, innovation is only as impactful as the results it delivers. That’s why our latest advancement in solar backtracking technology is more than just a software update — it’s a performance breakthrough. Our newly enhanced full backtracking algorithm has been engineered to optimize energy production during critical hours, delivering up to an 8% increase in output when paired with our 1P tracker systems.
This improvement is not theoretical. It’s backed by real-world data and validated by a globally recognized third-party certification body. Throughout the development and testing process, this independent organization worked alongside our engineering team, conducting rigorous on-site measurements and performance analysis. The result? A certified performance gain that solar park operators can trust.
What makes our solar backtracking algorithm a mastermind?
Traditional solar backtracking methods often rely on static assumptions that don’t account for the dynamic nature of terrain, shading, and seasonal solar angles. Our solar backtracking algorithm takes a smarter approach. It continuously adapts to site-specific conditions, using advanced modeling and real-time data to minimize row-to-row shading while maximizing irradiance capture.
This intelligent adjustment is especially critical during early morning and late afternoon hours — the so-called “backtracking windows” — when conventional tracking systems often underperform. By optimizing these periods, our algorithm ensures that your solar installation operates at peak efficiency throughout the day.
Proven results, certified performance
We understand that claims of performance improvement need to be backed by evidence. That’s why we partnered with a third-party certifier to validate our results. The certification process included:
- On-site data collection across multiple locations
- Comparative analysis with previous backtracking models
- Validation of energy gains under real operating conditions
The outcome confirmed what our simulations predicted: up to 8% more energy yield during full backtracking hours, translating into significant gains in annual energy production and return on investment.
A decade of innovation in solar backtracking technologies
This latest upgrade is the result of years of continuous improvement. Since launching our first solar backtracking algorithm, we’ve invested heavily in R&D to refine its accuracy, adaptability, and performance. Each iteration has brought us closer to a solution that not only works in theory but excels in the field.
Now, with this certified version, we’re setting a new standard for solar tracking intelligence — one that empowers solar developers, EPCs, and asset owners to extract more value from every ray of sunlight.
Dowlowad the solar backtracking white paper of Solar Steel
Want to explore the data, methodology, and insights behind this innovation? Download our full white paper to learn how our full solar backtracking algorithm is reshaping the future of solar tracking.