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Anern, with 16 years of experience in the energy industry, from solar systems to solar accessories, from indoor LED lighting to outdoor solar lighting, we are one of the sources to meet your diverse needs.
Anern has 16 years of experience in solar lighting and solar product manufacturing. Anern is headquartered in Guangzhou. With a production base of 7,000 square meters, our company has an R&D team of more than 100 people.
In the pursuit of a green and environmentally friendly lifestyle, remote control solar garden lights have become the ideal choice for modern outdoor lighting. However, proper use and maintenance are crucial for maintaining their good performance. This article will provide you with detailed instructions on how to scientifically and reasonably use this intelligent lighting equipment from three aspects: charging precautions, working condition monitoring, and brightness improvement.
When purchasing new remote control solar garden lights, do not rush to turn them on or use them, especially if they are not fully charged. Typically, solar lights require approximately 8 to 10 hours of charging time to ensure that the battery is fully charged. After being fully charged, these lights will provide considerable use time. This step not only helps to ensure sufficient lighting time but also helps to extend the battery's lifespan.
At the same time, avoid using a charger to charge the solar battery. Modern solar lights usually have built-in rechargeable batteries, so they only need to be placed in a sunny place. If you want to charge them faster, consider purchasing a larger solar panel instead of using an external charger.
During the use of remote control solar garden lights, monitor their working status at any time. Discover and solve problems in a timely manner to avoid any adverse effects on nighttime lighting. This includes ensuring that the remote control function is functioning properly, the light brightness is suitable, and the battery is in good charging condition. If the solar lights malfunction, repair or replace the components in a timely manner to ensure their stable and reliable operation.
Installation location
Choosing a suitable installation location directly affects the brightness of remote control solar garden lights. It is best to install them in a place without other light sources to maximize their brightness. If there are other similar lighting devices nearby, the light from remote control solar garden lights may not be as visible. Therefore, when choosing an installation location, try to avoid the influence of other light sources.
Terrain
The height of the terrain directly affects the illuminance level of remote control solar garden lights. To ensure a higher brightness of solar lights, consider the limitations of the terrain during installation. Choosing relatively high or flat locations helps the lamps better deliver their lighting effects.
Solar panel angle and orientation
The brightness of remote control solar garden lights is affected by the orientation and angle of the solar panels. When installing, the orientation and angle of the solar panels must be considered to efficiently capture sunlight. Adjust the orientation and angle of the solar panel to ensure that it can fully receive solar energy during the day, thereby improving the brightness of nighttime illumination.
By using remote control solar garden lights scientifically and reasonably, not only can their environmental, economic, and convenient features be fully utilized, but they can also bring a warmer and brighter night to outdoor spaces.
First of all, the sun is a renewable energy source and is free to use.
Second, the maintenance cost of solar components is low enough.
Generally 3-10 years warranty , vary from different items.
At present we only do factory direct sales, welcome all customers to order directly from us.
Anern produces several types of solar inverters across multiple product series for different applications:
Off-Grid Solar Inverters: Designed for areas without grid access or unstable power sources, supporting remote power access 12. For example:
AN-SCI-PRO Series (2000/3200W models)
AN-PVI Series (6000/10000W)
Hybrid Solar Inverters
IP65-rated Hybrid Inverters: Durable, all-weather inverters for grid-tie/backup systems. Includes AN-SCI-EVO series (e.g., AN-SCI-EVO10200, EVO4200/6200)
UPS Hybrid Inverters: Models like the 2000-12000W solar inverter with UPS functionality for uninterrupted power supply
Low Frequency Solar Inverters: Heavy-load industrial inverters for high-power applications. Features include driving pumps, air conditioners, and refrigerators
Specific product highlights:
AN-FGI-DU4200 Series: Hybrid PV inverters for residential/commercial use
AN-SCI02-PA Series: Off-grid parallel inverters (e.g., AN-SCI02-PA6200)
Anern produces the following inverter power ratings and types:
Power Ratings:
1kW Inverters
1.5kW Inverters
2kW Inverters
3kW Inverters
4kW Inverters
4.2kW Inverters
5kW Inverters
6kW Inverters
6.2kW Inverters
6.5kW Inverters
7.2kW Inverters
10kW Inverters
10.2kW Inverters
12kW Inverters
Inverter Types:
Single Phase Solar Inverter
MPPT Solar Inverter - Integrated in controllers
Off Grid Inverter
Hybrid Solar Inverter
High Power Inverters (commercial, up to 100KW)
Commercial Solar Inverter
UPS Solar Inverter
Pure Sine Wave Inverter - Fundamental to all models
Solar Power Inverter for Home - All residential models
Note: Dual-output and on-grid capabilities are implied through hybrid and UPS systems.
Anern's energy storage systems are used in the following solar applications:
Residential Backup Power:
For home use during power outages, providing up to 6 hours of continuous power for average household consumption. These systems reduce grid reliance and electricity bills while storing excess solar energy.
Commercial and Industrial Energy Management:
Installed in factories and businesses to store excess solar energy, reduce peak-hour grid consumption, and lower electricity costs. Systems are deployed in secure, ventilated locations for stability.
Off-Grid Infrastructure:
Supports meteorological/hydrological observation equipment and other critical infrastructure in remote areas without grid coverage. Battery banks store solar energy converted via inverters for reliable operation.
Agricultural Operations:
Powers farms by converting stored solar energy into AC electricity, maintaining agricultural activities during outages or grid instability.
Large-Scale Solar Projects:
Used in independent photovoltaic power stations ranging from 10KW to 50MW capacity, enabled by parallel-connected hybrid inverters for solar energy conversion and storage.
