Technical analysis of improving the luminous efficiency of led display

First, transparent substrate technology

The InGaAlP LED is usually prepared by epitaxially growing a GaP window region of an InGaAlP light-emitting region on a GaAs substrate. Compared with InGaAlP, GaAs materials have much smaller band gaps. Therefore, when short-wavelength light is incident on the GaAs substrate from the light-emitting region and the window surface, it will be absorbed in full, which is the main reason for the low light-emitting efficiency of the device. . A Bragg reflection region is grown between the substrate and the confinement layer, and the light that is directed perpendicularly to the substrate can be reflected back to the illuminating region or window, partially improving the light-emitting characteristics of the device. A more efficient method is to first remove the GaAs substrate and replace it with a fully transparent GaP crystal. The quantum efficiency is increased from 4% to 25-30% due to the removal of the substrate absorption region within the chip. In order to further reduce the absorption of the electrode region, the transparent substrate type InGaAlP device is formed into a truncated inverted cone shape, which further improves the quantum efficiency.

Second, metal film reflection technology

The transparent substrate process first originated from companies such as HP and Lumileds in the United States. The metal film reflection method mainly has a lot of research and development by Japanese and Taiwanese manufacturers. This process not only avoids the transparent substrate patent, but also is more conducive to mass production. The effect can be said to be similar to the transparent substrate method. This process is usually referred to as the MB process. First, the GaAs substrate is removed, and then an Al metal film is vapor-deposited on the surface thereof simultaneously with the surface of the Si substrate, and then welded together under a certain temperature and pressure. Thus, the light irradiated from the light-emitting layer to the substrate is reflected by the Al-metal film layer to the surface of the chip, thereby improving the luminous efficiency of the device by 2.5 times or more.

Third, surface microstructure technology

Surface microstructure process is another effective technology to improve the light extraction efficiency of the device. The basic point of this technology is to etch a large number of small structures on the surface of the chip with the size of light wavelength. Each structure has a truncated tetrahedron shape, which not only expands. The light-emitting area is changed, and the direction of refraction of light at the surface of the chip is changed, so that the light-transmitting efficiency is remarkably improved. Measurements indicate that for devices with a window layer thickness of 20 μm, the light extraction efficiency can be increased by 30%. When the window layer thickness is reduced to 10 μm, the light extraction efficiency will be improved by 60%. For the 585-625nm wavelength LED device, after the texture structure is fabricated, the luminous efficiency can reach 30lm/w, and the value is close to the level of the transparent substrate device.

High Voltage Epoxy Resin Insulator

Insulators can be divided into low-voltage insulators and high-voltage insulators according to different voltage levels. High voltage insulator refers to the insulator used for high voltage and ultra-high voltage overhead transmission lines and substations. In order to meet the needs of different voltage levels, different numbers of single (piece) insulators of the same type are usually used to form insulator strings or multiple insulation poles.

Epoxy resin material has a series of outstanding advantages in organic insulation materials, such as high cohesion, strong adhesion, good flexibility, excellent heat curing performance and stable chemical corrosion resistance. It can be made into various solid materials by vacuum casting through epoxy resin casting system, such as automatic epoxy pressure gel manufacturing process (APG process). The epoxy resin insulation parts made of the epoxy resin have high mechanical strength, strong arc resistance, high compactness, smooth surface, good cold resistance, good heat resistance, good electrical insulation and other advantages, and are widely used in the power industry, mainly playing a supporting and insulating role.


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