As global climate change intensifies, extreme weather events are becoming increasingly common, posing a serious challenge to infrastructure, especially solar street lights. Against this backdrop, SRESKY has launched the Atlas Max series of solar street lights, designed to cope with extreme weather conditions and ensure that light stays on even in the harshest environments.
Extreme Climate Challenges for Solar Street Lights
Extreme weather, such as high and low temperatures, high winds, and continuous rainy weather, can affect traditional solar street lights to varying degrees. Common failures include shortened battery life, reduced light efficiency, and structural damage.
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Impact of High and Low Temperatures on Solar Street Lights
High temperatures can significantly shorten battery life and may lead to overheating or even the risk of fire. Low temperatures can affect the charging efficiency of the battery, resulting in lamps and lanterns not working properly in cold environments.
- Common Causes of Solar Street Light Failure
Common failures of traditional solar street lights in extreme environments include battery overheating, insufficient lighting, control system failure, and structural damage. These problems not only affect the normal use of streetlights but also increase maintenance costs.
Atlas Max: Solar Street Lights for Extreme Climates
With its unique design and innovative technology, the Atlas Max series of solar street lights is the ideal solution for extreme climate challenges.
- Atlas Max Design Concept
Atlas Max was originally designed to address the durability of solar street lights under high temperatures and severe weather conditions. Through an advanced thermal management system, efficient energy management technology, and robust structural design, Atlas Max can operate stably and ensure long-lasting light under various extreme climatic conditions.
- Key Technological Innovations
Atlas Max utilizes innovative technologies such as X-STORM thermal management technology, ALS2.4 intelligent energy management system, and high-performance LiFePO4 batteries. These technologies enable Atlas Max to provide stable and reliable lighting service even in extreme climates such as high temperatures, strong winds, and continuous rain.
X-STORM Technology: A Solution for High-Temperature Environments
Atlas Max’s X-STORM technology is the core technology for dealing with high-temperature environments. It significantly reduces the operating temperature of the battery and extends its service life through the design of double-layer physical thermal isolation and air infusion.
- Dual-Layer Thermal Isolation and Air Infiltration Design
X-STORM technology effectively reduces the impact of external high temperatures on the battery through a dual-layer thermal isolation structure. The built-in air conduction design accelerates heat dissipation, keeping the battery within a safe temperature range.
- Cooling Fan and Battery Management System
To further improve cooling efficiency, Atlas Max is equipped with a cooling fan rated for up to 70,000 hours. Even if the fan fails, it will not affect the light’s normal operation. Additionally, the built-in Battery Management System (BMS) monitors battery status in real time to prevent overheating, overcharging, and short-circuiting, ensuring the safety and stability of the luminaire.
Efficient Energy Management System: ALS2.4 Technology
The Atlas Max series solar street lights feature an advanced ALS2.4 energy management system that intelligently adjusts brightness according to weather conditions, maximizing battery life.
- Battery Life Optimization and Intelligent Brightness Adjustment
ALS2.4 technology recognizes rainy and cloudy weather, automatically adjusting the luminaire’s brightness to reduce energy consumption and extend battery life. This ensures illumination during continuous rain or shine.
- Rainy Weather Recognition and Response
In rainy weather, the ALS2.4 system automatically reduces brightness based on the current battery level, ensuring prolonged illumination in low daylight conditions. This design significantly reduces weather-related lighting interruptions.
LiFePO4 Battery: The Perfect Combination of High-Temperature Resistance and Long Life
The LiFePO4 battery is a core component of the Atlas Max series, known for its excellent high-temperature resistance and long life.
- Battery Technology and Quadruple Protection Design
Atlas Max uses LiFePO4 batteries with rigorous screening and testing, along with a quadruple-protection design featuring thermal isolation, anti-heat radiation, strong convection air ducts, and an intelligent BMS system. These technologies ensure safe and stable battery operation in high-temperature environments.
- Battery Life and Performance Analysis
Atlas Max’s LiFePO4 battery life reaches up to 2,000 cycles with an annual decay rate of less than 2.4%, surpassing conventional batteries. This ensures long-term stable lighting effects even in extreme high-temperature environments.
Wind and Weather-Resistant Design: Reliability in Severe Weather
Atlas Max excels not only in high temperatures but also in its wind resistance and weatherproof design, ensuring reliability in harsh weather conditions.
- Wind Resistance and Wind Testing
The bracket design of Atlas Max undergoes rigorous wind resistance testing, capable of withstanding impacts up to hurricane levels. The electrophoresis and painting of the 201 stainless steel bracket enhance wind resistance and overall structural stability.
- Material Selection and Weathering Analysis
Materials used in Atlas Max, such as aluminum alloy, tempered glass, and PC plastic, undergo strict salt spray and aging tests, demonstrating extremely high weather resistance. Atlas Max can withstand harsh environments, whether inland or by the sea.
Installation and Maintenance: Combining Simplicity and Efficiency
Atlas Max is designed with user installation and maintenance in mind, featuring a modular design for easy installation and routine maintenance.
- Modular Design and Troubleshooting
The modular design of Atlas Max allows for quick removal and replacement of components like PCBA boxes, enabling maintenance without specialized tools. The fault code display function helps users quickly diagnose and resolve issues, reducing maintenance time and costs.
- Remote Control and Status Display
Atlas Max’s intelligent LED display shows real-time battery level, PIR status, and fault information. Users can remotely operate the luminaire via a remote control to conveniently adjust operating modes and brightness.
Customizable Options and Service Support
The Atlas Max series offers extensive customization options, allowing users to tailor product configurations for optimal results in various scenarios.
Future Development Direction
With growing global demand for renewable energy, Atlas Max will continue to lead in technological innovation within the solar street light industry. SRESKY will further refine product design and enhance energy efficiency to meet broader market needs.
Frequently Asked Questions (FAQ)
Q1: What are the core advantages of Atlas Max?
A1: The core advantages are excellent weather resistance, long-life design, and an efficient energy management system. X-STORM thermal management and the ALS2.4 intelligent system ensure stable operation in extreme climates.
Q2: Can Atlas Max be stabilized in extreme climatic conditions?
A2: Yes, designed for extreme climates, Atlas Max offers superior resistance to temperature, wind, and weathering for continuous, stable illumination.
Q3: How difficult is this product to maintain?
A3: Atlas Max’s modular design simplifies maintenance. Users can easily replace or repair parts, and the display’s fault information aids in quick problem diagnosis.
Q4: What are the installation requirements for Atlas Max?
A4: Atlas Max supports various mounting options for poles of different heights and environments. Ensure sufficient sunlight reception and select appropriate mounting height and spacing based on the product model.