• Wind Solar Hybrid Street Light Controller System 1
  • Wind Solar Hybrid Street Light Controller System 2
  • Wind Solar Hybrid Street Light Controller System 3
  • Wind Solar Hybrid Street Light Controller System 4
Wind Solar Hybrid Street Light Controller

Wind Solar Hybrid Street Light Controller

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Loading Port:
Shanghai
Payment Terms:
TT or LC
Min Order Qty:
1 unit
Supply Capability:
10000 unit/month

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I. PRODUCT INTRODUCTION

The wind/solar hybrid controller is specially designed for high-end small-scale wind/solar hybrid system and especially suitable for wind/solar hybrid street light system and wind/solar hybrid monitoring system.The controller can control wind turbine and solar panel at the same time and transform the wind and solar energy into electricity for DC load use, with excess energy stored into batteries. Varieties of appearance and function design, which is flexible to meet the requirements of different customers.

 

II. PERFORMANCE FEATURES

Superior military-grade components to ensure the product stability.

Superior military-grade components to ensure the product stability.

Check and set all operation parameters as requirement from LCD display.

Voltage limiting and current limiting charge mode ensures battery in the best charging status. 

Two DC Load output, light control, time control, constant output, and multiple output control mode selections.

PWM stepless dumpload mode, which release the excess power into dump load, making the battery charging in best status.

Design of high quality aluminum alloy appearance, with small size and good cooling effect.

 

III.APPLICATION AREAS

Stand alone wind/solar hybrid power station.

Stand alone domestic household wind/solar hybrid power system.

Mobile Communication base stations, expressway and other non-residential regions.

Coastal islands, remote mountainous, border posts for regions shortage of or without electricity.

Government demonstration projects, landscape lighting project, street light project etc.

 

IV.24V TECHNICAL PARAMETERS

Product Model

WWS03-24-N00D

WWS04-24-N00D

WWS06-24-N00D

Rated battery voltage

24V

24V

24V

Rated wind turbine input power

300W

400W

600W

Maximum wind turbine input power 

450W

600W

900W

Rated solar input power

300W

300W

300W

Dumpload Start Voltage

27V

27V

27V

Charge Shutoff Voltage

29V

29V

29V

Wind Turbine Brake Current

15A

20A

30A

Battery Under Voltage Shutoff

21.6V

Battery Under Voltage Recovery

24V

Input Over Voltage Shutoff

32V

Light Control On Voltage

2V

Light Control Off Voltage

3V

Rated Output Current of Load 1 and Load 2

10A

Load 1 Output Control Mode

Light Control On and Light Control Off

Load 2 Output Control Mode

Light Control On and Time Control 5 Hours Off

Dumpload Control Mode

PWM 

Display Mode

LCD 

Protection Level

IP53(Indoor)

Quiescent Current

≤20mA

Display Content

Battery Voltage, Wind Turbine Voltage, PV Voltage, Wind Turbine Current, PV Current, Wind Turbine Power, PV Power, Over Voltage, Under Voltage, Over Load, Short Circuit, Night etc status

Protection Functions

Solar reverse charge protection , Solar reverse connection protection, 

Battery over charge protection, Battery over discharge protection, 

Battery reverse connection protection, Over load protection, Short circuit protection, Lightning protection

Wind turbine current limiting, Wind turbine automatic brake and manual brake.

Ambient Temperature  

-20~+55℃

Ambient Humidity  

0~93%, without condensing

Working Altitude

≤4000m

Dimension (L x W x H)

144×152×82mm

Net Weight

1.9kg

 

V.APPENDIX

Optional Function

Ø RS232 communication function

Ø RS485 communication function

Ø Bluetooth function

Ø Temperature compensation function

Ø By-pass function

Ø SD card function

Ø GPRS communication function

Ø Wind speed detection function

Ø Wind turbine rotate speed detection function

Ø Wind turbine low voltage charge function

Ø Wind turbine MPPT charging function

Ø Wind turbine low voltage charge function

Optional Accessories

Ø Ethernet Module

Ø GPRS

Ø SD card storage module

Ø RS485-USB Converter

Ø RS485-RS232 Converter

Ø RS232-USB Converter

Friendly reminder: Customers, who will order the wind/solar hybrid street light controller, need to provide the following information

Ø Rated battery voltage

Ø Rated wind turbine power and rated solar power

Ø The wind turbine is three phase or single phase

Qualifications

Ø Utility model patent of anti-strong-wind, stepless unload wind power controller

Ø Utility model patent of wind power boost charge circuit. 

Ø Utility model patent of SD card document storage

Ø Utility model patent for integration of rectification and unload in wind power main circuit board. 

Ø Test Report of the ministry of information industry of posts and telecommunications industrial products quality supervision and inspection center

Ø European CE certification.

Ø Software product register certification

 

In order to serve our customers better. 

Our company can adjust parameters configuration according to customer’s requirement.

Q:How does a solar controller handle battery low voltage disconnect recovery?
A solar controller handles battery low voltage disconnect recovery by monitoring the voltage of the battery connected to the solar system. When the battery voltage drops below a predetermined threshold, typically around 11.5 to 12 volts, the solar controller will disconnect the battery from the load to prevent further discharge. Once the battery is disconnected, the solar controller will continue to monitor the battery voltage. It will wait for the battery voltage to rise above a specific level, known as the recovery voltage, before re-establishing the connection between the battery and the load. During the recovery phase, the solar controller will gradually increase the voltage supplied to the battery to avoid sudden spikes in power. This allows for a controlled and safe reconnection process, preventing any potential damage to the battery or the connected devices due to a sudden surge of power. The solar controller's ability to handle battery low voltage disconnect recovery ensures that the battery is protected from over-discharge, which can lead to irreversible damage and decreased battery performance. By disconnecting and then reconnecting the battery at appropriate voltage levels, the solar controller helps to prolong the life and efficiency of the battery, ensuring optimal performance of the solar system.
Q:Can a solar controller be used with solar-powered indoor food preservation systems?
Yes, a solar controller can be used with solar-powered indoor food preservation systems. A solar controller helps regulate and optimize the charging and discharging of solar batteries. It ensures that the solar panels collect enough energy to power the food preservation system, while also protecting the batteries from overcharging or discharging. Therefore, a solar controller is essential in maintaining the efficiency and reliability of a solar-powered indoor food preservation system.
Q:What is the maximum number of system data logs supported by a solar controller?
The maximum number of system data logs supported by a solar controller depends on the specific model and manufacturer. It can vary significantly, ranging from a few hundred to several thousand logs. It is important to consult the product specifications or contact the manufacturer for accurate information regarding the maximum number of system data logs supported.
Q:How do PWM solar controllers work?
PWM (Pulse Width Modulation) solar controllers regulate the charging of batteries in solar power systems. They work by rapidly switching the solar panel's output on and off, creating a pulsating current that is then smoothed out and regulated to charge the batteries efficiently. This method ensures that the batteries are charged at an optimal rate, preventing overcharging and extending their lifespan.
Q:How does a solar controller handle temperature compensation for the battery?
A solar controller handles temperature compensation for the battery by monitoring the temperature of the battery and adjusting the charging voltage accordingly. As temperature affects the performance and lifespan of the battery, the controller ensures that the charging voltage is optimized based on the battery's temperature. This helps to prevent overcharging in high temperatures and undercharging in low temperatures, ensuring the battery remains in the optimal charging state for efficient and safe operation.
Q:How does a solar controller work?
A solar controller works by regulating the flow of electricity from the solar panels to the batteries. It monitors the battery voltage and ensures that the solar panels are charging the batteries efficiently. It also protects the batteries from overcharging or discharging, extending their lifespan.
Q:Can a solar controller be used in a solar-powered telecommunications system?
Yes, a solar controller can be used in a solar-powered telecommunications system. A solar controller regulates and manages the flow of electricity from the solar panels to the batteries, ensuring the batteries are charged efficiently and preventing overcharging or damage. This is crucial in a solar-powered telecommunications system as it helps maintain a stable power supply and prolongs the lifespan of the batteries, ultimately improving the system's overall performance and reliability.
Q:How do I maintain a solar controller?
To maintain a solar controller, it is important to regularly inspect and clean the solar panels to ensure optimal efficiency. Additionally, check the wiring connections for any loose or damaged parts and tighten or replace them as needed. Keep the controller and its components protected from extreme weather conditions and clean any dust or debris on the controller itself. Regularly monitor the battery voltage and ensure that it is being properly charged by the solar controller.
Q:Can a solar controller be used with a solar-powered beekeeping system?
Yes, a solar controller can be used with a solar-powered beekeeping system. A solar controller is designed to regulate and optimize the charging and discharging of batteries in a solar system. In a solar-powered beekeeping system, the solar controller would ensure that the batteries storing the solar energy are charged efficiently and that the power is distributed appropriately to power the various components of the beekeeping system, such as pumps, heaters, or lights.
Q:Can a solar controller be used with solar panel RV mounts?
Yes, a solar controller can be used with solar panel RV mounts. A solar controller is an essential component in a solar power system as it regulates the charging of the batteries connected to the solar panels. Whether the solar panels are mounted on an RV or any other structure, a solar controller ensures that the batteries are properly charged and protected from overcharging or discharging. Therefore, it is recommended to use a solar controller with solar panel RV mounts to optimize the performance and longevity of the batteries.

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