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By harnessing the power of the sun during the day, these lights eliminate the need for conventional electricity consumption, resulting in significant cost savings on your energy bills. Once installed, they operate autonomously, using renewable solar energy to power their efficient LED fixtures.
LED solar lights do not produce any greenhouse gases or pollutants that harm the environment or contribute to climate change. LED solar lights also reduce your dependence on fossil fuels and help conserve natural resources.
Unlike traditional lighting systems that require extensive wiring and professional assistance, solar lights can be easily installed by anyone, anywhere. With no need for complicated electrical connections, you can position these lights anywhere you need them.
Solar LED street lights serve as pioneers in remote cabins and infrastructure-lacking construction sites, providing people with a sense of security and warm illumination. They not only accelerate urban development but also address the lighting needs in areas where government electricity grids cannot reach.
There are several regions around the world that have abundant solar resources and have a significant presence in the global solar market. Here are some of the key regions: Southwest United States, Middle East and North Africa, Australia, China, Northern and Western regions of India, Europe, and Sub-Saharan Africa.
Overcast or cloudy weather decreases sunlight intensity, slowing charging speed of solar-powered LED street lights. Charging is typically faster on sunny days. Clouds significantly reduce output power of solar panels - power drops 50% to 100% depending on cloud density.
Daylight duration and light intensity vary by season. In winter, shorter days mean less energy stored. In higher latitudes, snow, frost or dirt accumulation can impact light absorption. Regular cleaning of solar panels ensures optimal charging efficiency.
Solar PV modules, batteries, sensors, and LEDs are integrated into a fixture.
Our all-in-one solar lights come with an optional feature: the adjustable angle module. The module enables the adjustment of the illumination area, which corresponds to the indirect adjustment of the tilt angle at the rear of the integrated solar lights. By doing so, you can optimize the solar harvesting efficiency.
Separate light head direct light exactly where it is needed, while the panel still faces the sun.
To optimize the solar radiation received by the solar panel throughout the year, we need to adjust its tilt angle according to the sun’s position. Our all-in-two solar lights have a 360° rotatable spigot and a ±40° tiltable bracket that allow the solar panel to align with the sun’s direction and maximize the energy storage. This makes our solar lights suitable for various locations and areas.
Higher efficiency: Achieve brighter illumination with lower power consumption, optimizing solar energy utilization and minimizing energy waste.
Cost reduction: Lower wattage requirements reduce the specifications and capacity needed for solar panels and batteries, leading to cost savings in procurement and installation.
Our solar lights feature robust, high-efficiency Monocrystalline silicon solar panels. The photoelectric conversion efficiency of monocrystalline silicon solar panels is 21%, which is 30% higher compared to traditional solar panel lights. This exceptional energy capture enables uninterrupted lighting even on cloudy days. With durable construction resistant to weathering and corrosion, our solar panels stand around 20 years.
Our solar lights are equipped with high-capacity, durable batteries to provide bright and uninterrupted illumination. We prioritize using only reliable, high-quality batteries that meet international safety and performance standards. This ensures unmatched performance and durability.
We understand that every customer has unique requirements and priorities. That's why we provide the options for LiFePO4 and Ternary Lithium batteries for our integrated LED solar lights. Whether you prioritize safety, long cycle life, or maximum energy density, we have the solution that fits your needs.
AGC does not just make LED lights that happen to be powered by the sun. Our integrated sensors and controllers allow our solar lights to optimize lighting output while conserving energy for nights, inclement weather or periods of low sunlight. Lights can be dimmed, timed, or activated by motion as needed with programmable settings.
The built-in PIR and microwave sensors automatically regulates light output from full bright to dim mode to increase battery autonomy, and therefore, to extend operating time.
The advanced MPPT solar controller maximizes energy harvesting from PV panels. It automatically adjusts voltage and current for optimal power output, increasing solar system efficiency. Additionally, the intelligent controller allows programming on/off times and light modes to dim or brighten lights as needed, reducing unnecessary power usage.
When it comes to sunlight, not all locations are created equal. At AGC Lighting, we understand the varying conditions and challenges faced by areas with limited sunshine. Our advanced hybrid solar lighting solution is designed to areas with low-light conditions.
Ensures stable, uninterrupted lighting at all times by avoiding power outages
Balances utilization of solar and grid electricity to reduce energy consumption and operating costs.
Automatically switches to grid power when sunlight is insufficient, guaranteeing continual illumination.
Real-time energy monitoring optimizes usage and enables rapid response to changing demands.
It is recommended to charge the lights before shipping. If the inventory is stored in a warehouse, it is generally advised to charge them once every three months or expose them to sunlight for a few hours.
Avoid installing them near buildings or under trees as shadows can obstruct the solar panels and affect their charging capabilities.
The time required to fully charge the battery depends on the intensity of sunlight and the power of the solar panels. Under sufficient sunlight conditions, it typically takes 6-9 hours. However, in cloudy or rainy weather, it may take longer to fully charge.
A fully charged solar street light can operate at full power for approximately 8 hours. In intelligent mode, it can work for 3-4 days.
When the battery is fully charged, the default intelligent mode allows the solar streetlight to operate continuously for 3-4 days during overcast and rainy weather conditions.
