Under the trend of energy transformation and photovoltaic grid parity, improving power generation efficiency and controlling the cost of electricity per kilowatt hour have become the core demands of photovoltaic power plants. The photovoltaic tracking bracket, with its dynamic light tracking advantage, has become a standard configuration for large-scale ground photovoltaic power stations by selecting components from power stations, and is a key equipment for efficient operation of photovoltaic power stations.
For a long time, fixed brackets have dominated the photovoltaic bracket market due to their simple structure and low initial investment. But with the large-scale and efficient development of photovoltaic power plants, their shortcomings of not being able to dynamically adapt to the angle of sunlight are becoming increasingly apparent. The core value of photovoltaic tracking brackets lies in their mechanical structure and intelligent control system, which can adjust the angle of photovoltaic modules in real time according to the trajectory of the sun, maximizing the efficiency of module reception of solar radiation. This is also the fundamental reason why they are gradually recognized by the market
From the perspective of practical industry applications, the efficiency improvement effect of tracking brackets has clear scene differences. In the scenario of large ground power stations with low to medium latitudes and flat terrain, flat single axis tracking brackets are the mainstream choice in the market. Compared with traditional fixed brackets, the increase in power generation is generally in the range of 10% -20%; The inclined single axis tracking bracket is more suitable for high latitude regions, which can further optimize the light receiving angle and improve efficiency compared to the flat single axis bracket; The dual axis tracking bracket has more prominent efficiency space, but its price is relatively higher compared to the previously mentioned products. This scenario based differentiated adaptation also makes the application of tracking brackets more practical.
In recent years, with the continuous growth of the global photovoltaic tracking bracket market, Sunchaser’s technology has been continuously upgraded towards intelligence, high reliability, and full scene adaptation. The product not only has the ability to accurately track light, but also has stable performance such as wind resistance, weather resistance, and corrosion resistance. It can adapt to the 25 years full life cycle operation of power stations, and is equipped with intelligent operation and maintenance functions to help power stations achieve efficiency and cost reduction, and long-term stable operation.
In the future, the solar tracking system industry has enormous potential for development. SunChaser will continue to deepen its technology and refine its products, empowering the high-quality development of the photovoltaic industry with high-quality chasing solutions and helping to achieve its dual carbon goals.
Post time: May-08-2026