Basic Specifications
Working Temp.
-30°C to 65°C
System Type
PV System Tracking Structure
Service Life
25 Years Service Life
Material
Anodized Aluminum
Tracking Range
X-Axis ±120°, Y-Axis 0-60°
Drive System
Slewing Drive
Foundation Type
Concrete Foundation
Capacity
3,000,000 sets per month
Product Overview
Dual Single Axis Tracker
This advanced solar tracking system optimizes the tracking algorithm of each row in response to site features and changing weather conditions. It significantly boosts solar power system production compared to fixed-tilt structures.
Key Features
- Structural Innovation: Weight-lifting structure with 5 supporting points and a shaped table design combined with a four-linkage structure.
- Wind Resistance: Eliminates the water wave effect to prevent wind impact, ensuring stability and consistent power output efficiency.
- Cost Efficiency: Features a reasonable stable distribution which lowers steel structure costs and prevents structural deformation.
- Versatile Adaptability: Suitable for various landforms including solar agriculture and fishery projects with zero land leveling costs.
Technical Specifications
| Tracking Structure Details |
Control & Performance |
| Tracking Technology |
Dual Single Axis Tracker |
System Voltage |
1000V/1500V |
| Tracking Range |
X-Axis ±120°, Y-Axis 0-60° |
Working Wind Speed |
18m/s (Customizable) |
| Max Wind Speed |
35m/s (Stow Position) |
Modules per Tracker |
≤40 In Portrait |
| Principal Materials |
HDG Q235B/ Q355B/ ZAM |
Tracking Mode |
Closed Loop Time Control + GPS |
| Tracking Accuracy |
<1° |
Communication |
Wire/Zigbee (Modbus RTU) |
| Protection Degree |
IP65 |
Daily Consumption |
0.3KW/H per day |
Components & Engineering
Photovoltaic Bearing
Auxiliary Tube System
Project Case & Delivery
Quality Assurance
Frequently Asked Questions
What is the accuracy of the solar tracking system?
The system utilizes MCU control with a closed-loop time control and GPS mode, achieving a tracking accuracy of less than 1 degree.
How does the tracker perform in high wind conditions?
The tracker features an automatic stow function. During high winds, it responds within 10 seconds to move to a safe stow position, withstanding speeds up to 35m/s.
What materials are used for the main structure?
The principal materials include HDG Q235B, Q355B, and ZAM (Zinc-Aluminum-Magnesium), with a mean coating thickness of ≥65 um for superior corrosion resistance.
Can the system be customized for specific project sites?
Yes, the system is highly customizable. Parameters such as working wind speed and the number of modules per tracker can be adjusted based on detailed drawings and site requirements.
What is the power consumption for the tracking operation?
The system is designed for high efficiency with very low power consumption, requiring only approximately 0.3KW/H per day.
What is the typical lead time for an order?
The delivery time depends on the specific order quantity, but standard orders typically take about 10 working days for production.
Stuart Solar
