Home / Product / Solar Wall Light / Integrated Solar Wall Lamp

OEM/ODM LED Integrated Solar Wall Lamp Company

About
Conbo Electronics Co., Ltd.

Established in 2009, Conbo Electronics Co., Ltd. is a company dedicated to the manufacturing of lighting fixtures. With nearly 15 years of industry experience, we have achieved outstanding success in the field of illumination. The company primarily focuses on the design, production, and sale of lighting products such as solar wall lights, motion sensor lights, flashlights, and outdoor floodlights.

As a China OEM LED Integrated Solar Wall Lamp Manufacturer and ODM LED Integrated Solar Wall Light Company , Conbo Electronics adheres to a philosophy of continuous pursuit of excellence. We utilize advanced technologies and prioritize both the aesthetic design and functionality of our products. Our solar wall lights harness cutting-edge solar technology to provide customers with efficient and environmentally friendly outdoor lighting solutions. Motion sensor lights employ intelligent sensing technology, ensuring automatic and energy-efficient lighting experiences.

Moreover, Conbo Electronics' flashlights are characterized by high brightness, energy efficiency, and durability, making them suitable for outdoor adventures and camping activities. Outdoor floodlights possess features such as high luminosity, waterproofing, and dust resistance, offering robust lighting support for outdoor spaces.

Quality is our cornerstone, and we uphold strict quality control standards to ensure that each product meets international quality benchmarks. Conbo Electronics not only focuses on the performance and durability of our products but also places significant emphasis on providing high-quality after-sales service.

We appreciate your choice of Conbo Electronics and remain committed to delivering high-quality, innovatively designed lighting products. Together, let's create a bright and promising future. We look forward to collaborating with you and achieving mutual success!

Certificate Of Honor
  • Lawn lamp - appearance design Patent Certificate
  • Simulation monitoring solar induction lamp (split type)
  • Human body induction solar lamp
  • Lawn lamp
  • Multi functional telescopic flashlight
  • Silicone tapping night light (tiger)
  • Silicone tapping night light (Little White Rabbit)
  • Human body induction solar light
  • Solar charging folding square lamp
  • Charging human body induction night light (JLP2185)
  • Charging human body induction night light (JLP2186)
  • Charging human body induction night light (JLP2188)
Latest Updates Provide you with the latest enterprise and industry news
Message Feedback
Integrated Solar Wall Lamp Industry knowledge

Will the charging efficiency of Integrated Solar Wall Lamp be affected by different seasons and geographical locations?
The charging efficiency of Integrated Solar Wall Lamp is indeed affected by different seasons and geographical locations, mainly because the acquisition and utilization of solar energy are directly affected by climatic conditions, light intensity, and geographical location.
Duration of light exposure: The charging efficiency of solar wall lights is first affected by the duration of light exposure. The duration of light exposure directly determines the time that the solar panel can absorb solar energy. In summer, due to the longer daytime, solar wall lights can get longer charging time, thereby storing more electricity for nighttime use. On the contrary, in winter, the daytime is shortened, and the charging time of solar wall lights is also reduced accordingly, which may result in insufficient stored electricity to meet the lighting needs throughout the night.
Light intensity: In addition to the duration of light exposure, light intensity is also a key factor affecting the charging efficiency of solar wall lights. In summer, the sunlight is strong, and the solar panel can absorb more light energy, thereby filling the battery faster. In winter, due to the weak sunlight, the solar panel absorbs less light energy, and the charging efficiency will also be reduced accordingly. Therefore, even if the daytime hours are the same, the difference in light intensity will lead to different charging efficiencies of solar wall lights.
Latitude: The closer to the Earth's polar regions, the lower the sun's angle of exposure and the shorter the exposure time. This means that the charging efficiency of solar wall lights in these areas is low because the solar panels can receive less solar radiation. On the contrary, in the equatorial region, the sun's angle of exposure is higher and the exposure time is longer, and the charging efficiency of solar wall lights is higher.
Altitude: Altitude also has a certain effect on the charging efficiency of solar wall lights. As the altitude increases, the atmosphere becomes thinner and the intensity of solar radiation also weakens. This is because the gases and particles in the atmosphere absorb and scatter part of the solar radiation. Therefore, at higher altitudes, although the sun's exposure time may be longer, the charging efficiency of solar wall lights may be affected to a certain extent due to the weakening of the intensity of solar radiation.
Topography: Different topography will cause the scattering and blocking of sunlight, thereby affecting the charging efficiency of solar wall lights. In mountainous terrain, the presence of mountains will block the direct exposure of sunlight, making it impossible for solar wall lights in some areas to fully receive solar radiation. This may lead to low charging efficiency of solar wall lights in these areas. In plain areas, due to the absence of natural obstacles such as mountains, open fields can better receive solar energy, thereby improving the charging efficiency of solar wall lights.
The charging efficiency of Integrated Solar Wall Lamp is significantly affected by season and geographical location. When designing and using solar wall lights, you need to fully consider these factors and take corresponding measures to optimize the collection and utilization efficiency of solar energy. For example, in winter or in areas with insufficient sunlight, the charging efficiency can be improved by increasing the area of ​​solar panels, optimizing the angle and direction of solar panels, etc. At the same time, when designing and planning solar energy systems, it is also necessary to consider the differences in topography to choose a suitable installation location.