Benefits of a Separated Solar Street Light
A separated solar street light is a complete system with the solar panel, batteries and LED light in separate parts. They are more economical and flexible to meet different project requirements.
It can operate independently of the power grid and provide lighting even when the main electricity supply is down. This makes it a perfect choice for remote and rural areas.
Flexibility
Unlike integrated solar street lights, separated solar power lighting can be expanded to meet different requirements. For example, if you want to increase the battery capacity or wattage, you can do it easily by adding more panels. Moreover, you can change the location of the solar panel module to get maximum sunlight exposure. It also provides better heat dissipation, which is essential to enlarge the lifespan of the battery and LED light source.
In addition, separated solar powered street lights are cost-effective and provide environmental benefits. They generate electricity from renewable solar energy, reducing greenhouse gas emissions and dependence on non-renewable energy sources. Additionally, they require less maintenance than traditional grid-powered lights.
Unlike integrated solar street lights, separated solar lighting has a more modular design, making it easier to install and maintain. Moreover, it can be used in areas with limited technical expertise. Additionally, it can operate independently from the main power grid and is a perfect solution for remote areas. Many of these lights can even detect motion and adjust the brightness accordingly, improving energy efficiency and reducing operating costs. Some also come with a built-in charge controller to regulate the charging and discharging of the battery.
Convenience
Traditional solar street lights have a separate solar panel fixed towards the top of the pole and solar battery hung at the bottom of the pole or buried underground. The cables used to connect these two are often long and may separated solar street light be easily damaged or stolen. Moreover, their installation process is time consuming and expensive.
Integrated solar street lights have solar panels, controller and LED lamp integrated into one unit. This allows them to be more flexible in terms of configuration, enabling them to adapt to lighting needs. They also require less maintenance and have a lower initial investment than traditional grid-connected light sources.
The power generated by the solar cell is stored in the battery and used for lighting at night. The capacity of the battery determines how many days the lights can stay on without charging. A good charge controller is also essential as it decides when to switch Solar Controller on / off charging and lighting. Some modern solar LED lights are equipped with a smart charge controller that can be controlled via mobile APP.
Separated solar street lights have better heat dissipation as the panel is placed separately from the LED lamp. This reduces the chance of overheating and extends its lifespan. Moreover, the separate design of solar panels can be adjusted for better sunlight absorption and the ability to generate more power. This makes separated solar street lights a better choice for urban projects that need high-quality illumination, as well as remote and off-grid locations where the grid is difficult or impractical to connect to.
Durability
All-in-one solar street lights integrate all components of a solar lighting system, including storage batteries, solar panels, LED lighting modules, and MPPT solar charge controllers, into a single unit. This allows for a much simpler installation process and saves on construction costs.
They offer a range of benefits, such as grid independence and a quick return on investment. They are also environmentally friendly, generating electricity from renewable solar energy rather than traditional fossil fuels. This reduces greenhouse gas emissions and dependence on non-renewable resources.
A good solar power street light has enough autonomy, or backup days, to provide continuous lighting for a period of time during nightfall and cloudy weather. The battery capacity is the main factor in determining this, and the controller plays a key role. It decides when to switch on / off charging and lighting, and some advanced models are programmable.
It is important to consider the quality of the components and the design of your solar powered street lamp when purchasing one for your project. Poor quality solar cells, poles, and other equipment can lead to a shorter lifespan for your solar lighting system. It is a wise idea to test every part for faulty parts before installing them. For example, testing the battery is important, because a defective one can be a safety hazard and may not have sufficient capacity to sustain your lighting system.
Energy Efficiency
The separation of solar street lights allows for more flexibility in the installation process, as the direction of the panel can be adjusted to capture sunlight. This can be a vital aspect for locations with variable sunlight conditions or shaded areas. The separate design also makes maintenance and repair easier. Compared to integrated solar street lights, which require removal of the entire fixture for inspection and maintenance, separated models can be disassembled into individual components, making them more accessible for repairs or upgrades.
Energy efficiency is another important consideration for solar street light projects. Lighting systems that use LED fixtures will have much lower energy consumption compared to traditional HPS fixture counterparts. They will typically consume at least 50% less electricity, reducing operational costs and boosting environmental benefits. Additionally, LED fixtures do not need to warm up, resulting in a quicker start time and further energy savings.
Other factors that influence energy efficiency include the type and capacity of batteries used in the system, as well as the size of the solar panels. The battery will store the energy generated by the solar panel during the day and power the LED lamp during nighttime operation. Some modern designs utilize wireless technology control for battery management, increasing energy efficiency by allowing for remote monitoring and evaluation of the system.