Lightweight Wind-Solar Hybrid Power Supply System

The lightweight wind-solar hybrid system is specifically designed for small power scenarios such as network security monitoring, street lighting, small base stations, and small pumping stations. With "lightweight body + pure sine wave stable power supply" as its core, it also takes into account the advantages of easy installation and small footprint, providing stable 220VAC power for scenarios without a power grid or with limited space, and is suitable for the long-term operation of various small-power devices.

Core Advantages: Addressing the Pain Points of Small-Scale Power Supply Scenarios

Extreme Lightweight: Easy to operate by one person, no deployment burden

The core components of the system (wind power generation unit, photovoltaic module) adopt a lightweight structure design, with small volume and light weight. No heavy lifting tools are required, and a single person can complete the transportation and initial installation of the components. It is suitable for narrow spaces such as surveillance poles, street lamp bases, and corners of base stations, eliminating the troubles of traditional power generation equipment being "heavy, large, and difficult to move". Even in remote areas, it can be easily delivered.

1. Zero Installation Threshold: Modular, no debugging required, fast installation within half an hour

• Pre-matched modules: The wind power generation unit, photovoltaic module, wind-solar hybrid controller, and inverter have all been pre-calibrated in parameters, ready for installation upon opening the box, without the need for complex on-site debugging;

• No foundation design: The wind unit base is equipped with simple fastening parts, and the photovoltaic module is paired with a snap-on small bracket. Only a simple installation base needs to be poured, and it can be fixed by relying on existing accessories (such as photovoltaic panel installation brackets, guy wires), with the fastest assembly time for a single system being half an hour;

• Clear wiring instructions: The controller and inverter are clearly marked with "wind power input, photovoltaic input, load output, DC input, AC output" interfaces, and come with illustrated instructions, allowing non-professionals to accurately connect the wires and saving the cost of a construction team.

2. Pure Sine Wave Power Supply: Stable and reliable, extending equipment lifespan

• Pure sine wave output: The inverter uses pure sine wave technology, providing a stable single-phase 220VAC voltage and 50/60Hz standard frequency, with a smooth waveform free of noise. It is suitable for precision instruments such as surveillance cameras and base station signal equipment, avoiding equipment overheating, malfunctions, or shortened lifespan caused by non-sine waves;

• High efficiency and low consumption: The overall system efficiency is ≥82%, with low power conversion loss. The wind-solar hybrid controller intelligently allocates wind and solar energy, with photovoltaic power generation during the day and wind power supplementation at night or during windy periods, avoiding single energy supply interruption;

• Wide load compatibility: The rated load covers 300W-600W, with a maximum load of 320W-650W, capable of meeting the needs of conventional equipment such as street lamps and water pumps, as well as supporting the basic operation of small base stations, without worrying about "insufficient power".

3. Ultra-Compact Design: Compact structure, 1㎡ is sufficient

The system adopts a "component proximity combination" compact structure. The wind power generation unit can be fixed on the top of the pole, and the photovoltaic module can be attached to the pole or beside the base. The single system occupies less than 1㎡ of space, without occupying additional land. Whether it is the spacing of street lamps in the suburbs, monitoring points in mountainous areas, or corners of pumping stations in the fields, it can be installed "wherever there is a gap", solving the problem of "insufficient space for equipment installation" in small-scale scenarios.

4. Dual-source complementarity and backup: The system can be optionally equipped with 1-2 lead-acid batteries, effectively avoiding the problem of no power generation in general situations and providing uninterrupted power for the equipment.

Precise Application Scenarios: Covering Four Core Demands for Small Power

1. Power Supply for Network Security Monitoring

   For monitoring points in mountainous areas, suburbs, and forest areas without access to the power grid, the system does not need to be connected to the municipal power grid. It provides 24-hour power supply for surveillance cameras, with pure sine wave output ensuring clear camera images and stable video recording. This solves the problem of "power failure in monitoring", leaving no blind spots in security.

2. Power Supply for Street Lights

   Suitable for street light scenarios in suburban areas, rural roads, and scenic area paths, the system is integrated with street lights for installation. It uses wind and solar energy to store electricity during the day and automatically supplies power to street lights at night. This eliminates the need for municipal wiring and, with pure sine wave output, extends the lifespan of street lights, making it energy-efficient and worry-free.

3. Power Supply for Small Base Stations

   It provides power support for small communication base stations in remote mountainous and pastoral areas. Stable output meets the needs of signal transmission and equipment operation of base stations, avoiding base station outages due to lack of power grid coverage and ensuring smooth communication in remote areas.

4. Power Generation for Small Pumping Stations

   Suitable for irrigation by farmers and water pumping in small reservoirs, it provides continuous power for 300W-600W small power pumps without relying on the power grid. This solves the problem of "lack of electricity for water pumping in the fields", facilitating efficient agricultural production, especially suitable for use in remote farmlands.

System configuration