Where is the LED chip manufacturer?
Where is the LED chip manufacturer?

Although there are many LED chip manufacturers in North America, Europe, and Asia, most LED package manufacturers are located in Asia. The largest LED package manufacturing is done in China, Japan, and South Korea.

The use of LED Grow Lights in horticulture is known as horticultural LED. Optimized results mean faster growth, higher yields, and better quality. This is the future direction for agricultural planting.

Ledestar is dedicated to the development of LED devices and their application. It seeks to use spectroscopy technology in the plant industry to provide a favorable growth environment for crops.

Ledestar's years of research and exploration have led to a comprehensive range of lighting solutions. These include vegetables, fruits, seedlings, plants factories, and more. Ledestar products are reliable and long-lasting. They also have high thermal management, high efficiency, and are waterproof.

Because of their low energy consumption, high light efficiency, and long service lives, LED horticultural lighting has become a popular industry. Many foreign and domestic companies have also used plant lighting fields. This has made the LED industry a hot market. It is now possible to use them in new applications, including as plant supplement lights, full replacement lights, or for plant factories. Ledestar Optoelectronics adheres to the principle of leading technology and is committed to developing new technologies, hot spots, and new products. Current market needs can be met by the latest research and development in LED plant lighting products. A variety of LED packaging products for plants have been introduced recently, including 3030 and 3535. These products cover the main wavelengths of plant lighting, such as 450nm to 660nm to 730nm. Full Spectrum LED series or customized products are also available.

The primary ingredients for plant growth are light energy, carbon dioxide, and water. To synthesize organic matter like chlorophyll, the light form (spectral characteristics and intensity), is used. It is used to control the growth of stems, flower formation, seed germination, and other aspects.

The plant photosynthesis spectrum shows that the photosynthetic pigments of plants (chlorophyll A, chlorophyll B, carotene, etc.) are visible. Strong photosynthesis occurs at 440-470nm, 620-660nm sunlight waves, and 460-660nm dark wavelengths. There are also photosynthetic absorption peak areas near 450nm and 666nm. Studies have shown that 730nm can increase the length of plant stems and increase leaf width. It also controls the entire process of plants, from germination to vegetative growth to flowering. The current main wavelength bands for LED Grow Light are WLP450nm and 660nm. These should cover the entire plant growth cycle, including PAR 365-780nm. They also include supplementary bands products like 365nm. The spectrum of single-color light products is limited and cannot meet the needs of plants. It must be matched with specific wavelengths according to the characteristics and growth cycles of different types of plants and have a specified intensity of radiation distribution. It is often called "light food" to promote plant growth.

Products for LED horticultural lighting packaging devices can be divided into PAR 365-780nm monochromatic lights, chip and phosphor light or full-spectrum light devices, RGB, RGBWW, and other dimming combinations devices.

Artificial intelligence control, light ratio research, and light source device design are all part of the horticultural LED lighting industry. Ledestar which has a proven track record in LED packaging, is constantly developing LED plant lighting packaging and module fields. They can also provide customized lighting solutions to meet customer needs.


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