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PowerFit-Blade
● Adaptable to high-slope terrain projects (CPP wind tunnel tested)
● Compatible with all mainstream PV module sizes (CPP wind tunnel tested)
● High energy yield with 3D backtracking algorithm and diffuse reflection optimization for cloudy days
● Fast installation with rivets and spherical bearing brackets
PowerSmart One Tracker SCADA
By leveraging intelligent algorithms and monitoring systems, we optimize racking layout and control strategies to reduce module usage and installation complexity while improving system availability. This results in lower BOS costs, reduced O&M efforts, and higher energy yield.
Parameter
PowerFit-Blade
Capacity
66.3-70.8 KW/Tracker
Area
0.8-1.7 ha/MW(8-16m Pitch)
Drive System
Distributed-drived Design, Slew Drive
Strings on Tracker
4 strings (182mm 545-635Wp)& 3 string (210mm 600-700+Wp)
Slope
N-S≤15% (Customizable), E-W ≤ 15%
Module Type
Available for all the types of module on the market
Configuration
2P
Protection Wind Speed
18m/s (3s gust, MRl=50) or 12m/s (EN 10min)
Survival Wind Speed
45m/s (3s gust, MRl=50) or 31.5m/s (EN 10min), higher wind load available
Power Supply
L+N 90~260V AC (Wide Voltage Input), 37V DC (Self-powered Module with Battery)
Adaptive Slope
Adaptive Slope
N-S: 15%(8.3°)Max
E-W: 15%(8.3°)Max
Intelligent Algorithms
Smart Tracking Algorithm
Under cloudy and variable weather conditions, the system dynamically optimizes the ideal tracking angle in real time based on meteorological and operational data, maximizing energy yield during high-diffuse radiation periods.
Smart Backtracking Algorithm
By analyzing system data and using sensing technologies to detect shading and build 3D terrain models, the algorithm applies machine learning to iteratively determine optimal backtracking angle groups. This enhances energy generation during the backtracking phase and reduces losses caused by shading on complex terrain.
