Portable Solar Lighting System Hot Selling SPS_5W

Portable Solar Lighting System Hot Selling SPS_5W System 1

Portable Solar Lighting System Hot Selling SPS_5W System 2

Portable Solar Lighting System Hot Selling SPS_5W

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 3 pc

Supply Capability:: 10000 pc/month

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Main Information

KDF SPS_5W This product is high performance，family used portable solar power system，which can be charged by solar energy on sunny day, and supplies electric power for varies DC electric appliances such as electric fan，lighting lamps, cell charger etc．It is very helpful and useful for home electric supply.

Portable Solar Lighting System Hot Selling SPS_5W

Features:

◆ Low Standby Power Consumption

◆ Solar Feedback Circuit Protection

◆ Output Short-circuit Protection

◆ Small and Portable

◆ Over Charged Protection

◆ Over Discharged Protection

◆ Over Load Protection

◆ Over-Temperature Protection

◆ Easily customized , suitable for Lead Acid Battery or Li Cell

Technical parameters

Specification		Value/Material
Item No. KDF		SPS_5W
Solar	Specification	Poly silicon
Solar	Working Voltage/Power	18V5W
Battery（Inside）	Specification	Lead Acid
Battery（Inside）	Rated Voltage/Capacity	12V4AH
Charging Controller	Operating Voltage	12V
	Input Voltage	17.3V~21.6V
	Input current	5A
	Power Consumption	3mA
	Low Voltage Disconnect(LVD)	10.8V
	Low Voltage Reconnect(LVR)	12.3V
	High Voltage Discharge( HVC)	14.6V
	High Voltage Recharge(HVR)	13.8V
DC Output	DC output & Application	USB 5V1A
DC Output	DC output & Application	DC 12V1A*4

SPK Package

Set size	L118W166H202mm	Carton Size(6 set)	387359240mm
Set N·W	2.9KG	Set N·W	17.4KG
Set N·W	3.8KG	Set N·W	22.8KG

Q:Do solar energy systems work during cloudy days?: Yes, solar energy systems can still work during cloudy days, although their efficiency may be reduced. While direct sunlight is the most effective way to generate electricity from solar panels, they can still produce power even with indirect or diffused sunlight. Cloudy days typically diminish the amount of sunlight reaching the panels, resulting in lower energy production. However, advancements in solar technology, such as the use of more efficient panels and improved light absorption, have made it possible for solar energy systems to generate electricity even in less ideal weather conditions. Additionally, solar systems are designed to capture and store excess energy during sunny periods, which can be utilized during cloudy days or at night.

Q:Can solar energy systems be used in powering research farms or agricultural laboratories?: Certainly, research farms and agricultural laboratories can utilize solar energy systems to power their operations. Solar energy presents a clean and renewable power source that can be harnessed through the installation of solar panels. These panels convert sunlight into electricity, which can then be utilized to operate various equipment and facilities. The electricity needs of research farms and agricultural laboratories are often substantial, encompassing lighting, heating, cooling, and the operation of agricultural machinery. By making use of solar energy systems, these facilities can reduce their dependence on fossil fuels and diminish their carbon footprint. The installation of solar energy systems can occur on building rooftops or open land adjacent to the research farm or laboratory. The amount of solar energy generated is contingent on factors such as facility location, solar panel size, and sunlight exposure. Nonetheless, advancements in solar technology have made it possible for even areas with limited sunlight to benefit from solar energy systems. Apart from their environmental friendliness, solar energy systems can also yield long-term cost savings for research farms and agricultural laboratories. Once installed, solar panels have a lifespan of 25-30 years and require minimal maintenance. This translates to significant reductions in electricity bills, particularly in rural areas where grid connectivity may be unreliable or costly. Moreover, solar energy systems can provide a dependable power source, especially during peak demand periods or power outages. By incorporating battery storage systems, surplus energy generated during the day can be stored and utilized during nighttime or cloudy days, guaranteeing a continuous power supply for research activities. In summary, solar energy systems offer a feasible and sustainable solution for powering research farms and agricultural laboratories. They boast multiple advantages, including decreased environmental impact, long-term cost savings, and a reliable power supply. As the demand for renewable energy continues to surge, the integration of solar energy systems into agricultural facilities can contribute to a greener and more sustainable future.

Q:Can solar panels be installed on different types of roofs?: Yes, solar panels can be installed on different types of roofs, including flat, sloped, metal, shingle, tile, and even slate roofs. The installation process may vary slightly depending on the roof type, but solar panels can generally be adapted to fit and generate renewable energy regardless of the roof material or design.

Q:Can solar energy systems be used for powering RVs or campers?: Yes, solar energy systems can indeed be used for powering RVs or campers. Solar panels can be installed on the roof of an RV or camper to capture sunlight and convert it into electricity. This electricity can then be used to power various appliances and devices inside the vehicle, including lights, fans, refrigerators, and even air conditioners. Additionally, with advancements in energy storage technologies, solar-powered RVs can store excess energy in batteries for use during the night or when sunlight is not available. This allows for a more sustainable and self-sufficient way of powering RVs or campers while reducing reliance on traditional fuel sources.

Q:How does a solar panel generate electricity?: A solar panel generates electricity through the photovoltaic effect. When sunlight hits the solar panel, it excites the electrons in the semiconductor material, creating a flow of electrons. This flow of electrons is then captured and converted into usable electricity by the solar panel.

Q:Can a solar energy system be installed on a data center or tech facility?: Certainly! Solar energy systems can be easily installed on data centers or tech facilities. In fact, a growing number of these facilities are now adopting renewable energy sources, such as solar power, to decrease their carbon footprint and reduce energy expenses. The installation of solar panels on the facility's roof or surrounding areas effectively utilizes the available space to generate clean and sustainable electricity. This not only enhances the facility's eco-friendliness but also ensures a dependable and independent power supply. Moreover, with the continuous advancements in solar technology, it is now feasible to design and implement solar systems that can cater to the high energy requirements of data centers and tech facilities. By harnessing the sun's power, these facilities can operate in a more sustainable manner and actively contribute to a greener future.

Q:Can solar energy systems be used for powering off-grid refugee camps?: Yes, solar energy systems can be used to power off-grid refugee camps. Solar panels can generate electricity by harnessing the sun's energy, making them a reliable and sustainable power source for remote locations. Solar energy systems can provide electricity for lighting, charging devices, refrigeration, and other essential needs in refugee camps, reducing their dependence on traditional fossil fuel-based generators and improving the living conditions of refugees.

Q:Can solar energy systems be installed on ground-mounted structures?: Yes, solar energy systems can be installed on ground-mounted structures. Ground-mounted solar installations are a popular option for residential, commercial, and utility-scale projects. They offer flexibility in terms of orientation and tilt angles, making them suitable for various locations. Ground-mounted systems also allow for easier maintenance and can maximize the solar energy production by optimizing the positioning of the panels.

Q:How does the location of a solar energy system affect its performance?: The performance of a solar energy system is significantly influenced by its location, with various factors playing a pivotal role in determining its efficiency and effectiveness. To begin with, the latitude of the location directly affects the amount of solar radiation received. Areas closer to the equator enjoy a greater amount of direct sunlight throughout the year, resulting in higher solar energy production. Conversely, regions situated farther away from the equator receive less direct sunlight, leading to potentially lower solar energy generation. Moreover, the climate of a location also impacts the performance of a solar energy system. Regions characterized by clear skies and abundant sunshine tend to possess a higher solar energy potential compared to areas that experience frequent cloud cover or a greater number of rainy days. Additionally, extreme temperatures can affect the efficiency of solar panels, as excessive heat can diminish their output efficiency. The presence of shading is another critical factor to consider when installing a solar energy system. Shadows cast by nearby buildings, trees, or other obstructions can significantly reduce the amount of sunlight reaching the solar panels. Even partial shading on a small portion of the panels can disproportionately impact the overall performance of the system, resulting in reduced energy production. Furthermore, the orientation of the solar panels is also a crucial consideration. Ideally, solar panels should face south in the Northern Hemisphere and north in the Southern Hemisphere to receive the maximum amount of sunlight throughout the day. However, even deviations from this optimal orientation can still yield efficient results, albeit with slightly reduced performance. In conclusion, the performance of a solar energy system is directly influenced by its location. Latitude, climate, shading, and orientation all play vital roles in determining the efficiency and effectiveness of solar energy production. It is imperative to take these factors into account during the planning and installation process to maximize the potential of solar energy systems.

Q:Can a solar energy system be used to power agricultural operations?: Yes, a solar energy system can be used to power agricultural operations. Solar energy systems, such as solar panels, can generate electricity by converting sunlight into usable energy. This electricity can be utilized to power various agricultural operations, such as irrigation systems, water pumps, machinery, and lighting. Solar-powered irrigation systems are particularly beneficial for agricultural operations as they can provide a reliable and sustainable source of energy for watering crops. These systems can be designed to automatically turn on and off based on sunlight availability, ensuring that crops receive the necessary amount of water. Solar-powered water pumps can also be used to extract water from wells or other water sources, reducing the reliance on fossil fuels and minimizing operational costs. Additionally, solar energy can be used to power machinery and equipment used in agricultural operations. This includes tractors, harvesters, and other farm equipment, reducing the dependency on fossil fuels and lowering carbon emissions. Solar-powered lighting can also be installed in agricultural facilities, such as barns or storage areas, providing illumination without the need for grid electricity. In regions with abundant sunlight, solar energy systems can be a cost-effective and sustainable solution for powering agricultural operations. They offer numerous benefits, including reduced operational costs, decreased carbon footprint, and increased energy independence.

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