SunTracker

Smart Solar Tracking System

SunTracker is mainly applied to large-scale solar plant with its most affordable, efficient and sustainable solutions. System combining with single row, 1 controller per tracker, multipoint parallel drive with backtracking mode, having strong wind-resistance capability. Comparing to fixed mounting system, SunTracker is first option for LSS, could increase nearly 20% power generation under same conditions.
  • Ground Mounting System

  • Tracking Angle ±45°or ±60°

  • Ground Clearance 500-2000mm

  • Applicable Modules frame or frameless

  • Orientation Portrait or Landscape

  • Warranty

Product Detail

Smart Solar Tracking System

  • Motor

  • Controller

  • Putter

Technical Parameters

Smart Solar Tracking System

Datasheet
  • GPS Module

    Automatically obtain latitude and longitude and precise time Compatible with GPS + Beidou satellite positioning system

  • Installation Capacity

    Maximum 90 solar modules per row

  • Tracking Angle

    ±60°

  • Wind Resistance

    47m/s design standard ASCE7-10, <18m/s (shelter from wind)

  • Tracking Algorithm

    Astronomical Algorithms +Tilt Sensors

  • Drive Device

    Slewing Drive, 24V DC motor

  • Power Supply

    Self-powered/External Connection

  • Communication Method

    LoRa wireless communication or 485 bus (Modbus protocol)

  • Design Support

    Support Wind Protection、Snow Removal Mode、Rain Cleaning Mode、Position Return Mode

  • Drive Method

    Slewing Speed Reducer

  • Structure Material

    Hot-dip Galvanized + POSMAC Steel

  • Control System

    Micro Controller Unit

  • Protection Level

    IP65

  • System Warranty

    10 Years

  • System Daily Power Consumption

    ≤0.1Kwh

  • GPS Module

    Automatically obtain latitude and longitude and precise time Compatible with GPS + Beidou satellite positioning system

  • Installation Capacity

    Maximum 90 solar modules per row

  • Tracking Angle

    ±60°

  • Wind Resistance

    47m/s design standard ASCE7-10, <18m/s (shelter from wind)

  • Tracking Algorithm

    Astronomical Algorithms +Tilt Sensors

  • Drive Device

    Slewing Drive, 24V DC motor

  • Power Supply

    Self-powered/External Connection

  • Communication Method

    LoRa wireless communication or 485 bus (Modbus protocol)

  • Design Support

    Support Wind Protection、Snow Removal Mode、Rain Cleaning Mode、Position Return Mode

  • Drive Method

    Slewing Speed Reducer

  • Structure Material

    Hot-dip Galvanized + POSMAC Steel

  • Control System

    Micro Controller Unit

  • Protection Level

    IP65

  • System Warranty

    10 Years

  • System Daily Power Consumption

    ≤0.1Kwh

Application

Debugging by automatic tracking
Profitability and reliability for different conditions
Easy to install, lower O&M costs
Multipoint parallel drive, strong wind-resistance capability
Strong adaptability of terrain up to 25% N-S slope
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