Horizontal Single-axis Solar Tracking System YP-P series
Horizontal single-axis solar tracking system YP-P series follows the sun's azimuth, boosting energy generation by 10-30% compared fixed-mount systems. YP-P series accommodates 10 to 60 pieces of solar panels per unit, it enables efficient centralized control, making it an ideal choice for large-scale solar power plants.
Price: 0.05 USD/W*
Availability: PreOrder
YP-P Series delivering the optimal balance of increased solar yield and system affordability for large-scale projects
Features
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Smart tracking solution
Tracking bracket, controller, intelligent algorithms, communication protocols, and monitoring platform constitute a comprehensive smart solution for photovoltaic power plants.
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Real-time sensing
Paired with wind speed, irradiance, and rain/snow sensors, the system dynamically responds to real-time weather changes, ensuring optimal performance and safety.
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Intelligent tracking algorithm
Under high scattering radiation conditions, the system uses intelligent algorithms to position the solar panels at an optimal angle to capture more diffuse light.
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Wind-resistant mode
In high-wind conditions, the tracking system automatically returns to a horizontal position to minimize wind resistance and enhance structural stability.
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Self-cleaning mode
In rainy or snowy conditions, the tracking system automatically tilts to an optimal angle, allowing rainwater to wash the solar panels or enabling accumulated snow to slide off.
| System Type | Horizontal Single-axis Tracking |
|---|---|
| Module Mounting Capacity | 10-60 PCS |
| Ctrtrol Mode | Time + GPS |
| Average Tracking Accuracy | 1° |
| Azimuth Angle Tracking Range | ±50°(Customized) |
| Output Torque | 5000 NM |
| Wind Stow Mode | Yes |
| Max.wind Resistance In Operation | 24 M/S |
| Max.wind Resistance In Horizontal | 40 M/S |
| Backtracking Algorithm | Yes |
| Meteorological Station | Yes (Opptional) |
| Tracking Power Consumption | 5kWh/year/set |
| Material | Hot-dipped Galvanized |
| Weight Per Set | 200-400 KG |
| Working Temperature | -40℃- 80℃ |
| System Warranty | 3 years |
Notes:
*
Est. based on standard config,Indicative price (standard config).
The configuration and pricing are subject to project requirements and site-specific conditions.
Key Considerations and Data Requirements for Customized Horizontal Single-Axis Tracker (HSAT) Systems
To ensure that your customized HSAT system achieves optimal performance, long-term operational reliability, and meets structural safety requirements at the project site, we need to perform targeted design and manufacturing based on a range of specific site conditions and performance objectives.
To this end, we kindly request that you prioritize and provide, as comprehensively as possible, detailed information and data pertaining to the following aspects during the preliminary project phase. This information is fundamental for system design, structural calculations, performance simulations, and reliability assurance. We recommend engaging professional third-party institutions (such as geotechnical survey firms, meteorological consultants, engineering design institutes, etc.) to obtain precise data, particularly concerning wind load and geological conditions.
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1.
Geographical Location
The precise geographical coordinates (latitude and longitude) of the project site directly determine the sun's trajectory, forming the core basis for optimizing the tracker's operational strategy (e.g., maximum tracking angle, backtracking algorithm activation conditions). Furthermore, the geographical location is associated with local average solar irradiance resources, ambient temperatures, altitude, etc., all of which influence the system's potential energy yield and component selection (e.g., high-altitude or extreme temperature environments may necessitate specially designed drive and control units).
Precise longitude and latitude of the project site.
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2.
Power Generation Requirements & System Scale
- Planned total installed capacity for the project.
- Specific model, dimensions, weight, and power parameters of the intended PV modules (or provide a list of alternative options).
- Grid interconnection requirements (if applicable): Voltage level, capacity limitations at the point of interconnection, etc.
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3.
Wind Load Conditions
HSAT systems present a significant wind-facing area, especially when tilted. Wind force is one of the most critical external loads affecting the system's structural safety. Accurate structural design and wind resistance calculations, encompassing drive system torque, structural strength, foundation design, etc., must be performed based on the actual wind conditions at the site. This also includes determining necessary safety protection strategies (e.g., the wind speed threshold for automatically stowing the tracker to a safe angle). Inaccurate wind load assessment can lead to structural damage or even system collapse. -
4.
Geographical Environment & Site Conditions
- Corrosive Environment: Sites in coastal areas (salt spray corrosion), industrial zones (acid gas corrosion), or areas with highly corrosive soil require special anti-corrosion treatments for structural components and fasteners (e.g., higher-grade galvanization, specialized coatings).
- Snow Load: In regions with significant snowfall, the maximum snow depth and the resulting load on the structure must be considered, along with whether tracker angle adjustments are needed during snowfall events to reduce accumulation or facilitate snow shedding/melting.
- Sand/Dust/Hail, etc.: Specific weather phenomena may necessitate protective measures for the drive system, control system, and PV module surfaces.
- Geotechnical Investigation Report: Providing detailed soil parameters (bearing capacity, angle of internal friction, cohesion, corrosivity assessment, etc.).
- Site Topographic Map: Showing contour lines, slope gradients, etc.
- Local Basic Seismic Intensity or Design Ground Motion Parameters.
- Site environmental classification (e.g., corrosivity category).
- Historical maximum snow depth / design snow load data.
- Information on other relevant extreme weather conditions (e.g., frequency of sandstorms, history of significant hail events).
Parameters such as pile foundation, power supply method, and the ground clearance of photovoltaic modules must be determined based on on-site conditions. We can provide recommendations, but these cannot replace the on-site design plan or serve as a basis for design, construction, or installation.