The installation process requires no earth excavation, significantly reducing ground disturbance and preserving site integrity – a critical factor for sensitive ecosystems or restricted sites.

• Superior Terrain Adaptability: Engineered for reliable performance across diverse and challenging landscapes including fish ponds, flat land, mountains, slopes, mud flats, and inter-tidal zones, where conventional foundations may be impractical or costly.

• Engineered Durability: Structural integrity is ensured through the use of Hot-Dip Galvanized Steel or advanced Zn-Al-Mg Alloy Coated Steel (MAC/ZAM), selected based on specific site corrosivity assessments for long-term performance.

• Streamlined & Standardized Installation Process: The video demonstrates a clear, sequential methodology, highlighting the system's efficiency and potential for rapid, repeatable deployment in the field.

Video Highlights: The Installation Sequence
The video meticulously documents the standardized installation procedure:
1. Pile Positioning & Driving: Precise location marking and driving of PHC spun piles to the specified depth.

2. Column Fixation: Securing front and rear columns to the spun piles using robust clamping hoops and bolts.

3. Structural Frame Assembly: Installing the crossarm (connecting columns), followed by the diagonal beams (fixed to columns), and reinforcing with diagonal braces (bolted between columns and beams).

4. Purlin Support & Placement: Attaching purlin brackets to beams, then sequentially installing purlins.

5. Module Mounting: Securing solar panels to the purlins using designated mid and end clamps.

6. Scalable Array Construction: Efficient replication of the support unit structure to complete the solar array.