What is the future development of LED lighting?19-11-2020
The latest research shows that with the continuous grow […]
The latest research shows that with the continuous growth of unit shipments, the high-brightness light-emitting diode (HB LED) market has exploded. LED is creating a niche market for traditional semiconductor processing tool suppliers. The market for HB LED, backlight LED and OLED is expected.
Solid-state lighting (SSL), especially SSL based on light-emitting diodes (LED), is gradually becoming the dominant technology in all lighting applications. The luminous efficiency of SSL has surpassed the previous lighting technology, and there is still a lot of room for improvement, and the price has dropped to a point that no longer becomes an obstacle to consumer adoption. The LED technology platform also provides opportunities to transcend traditional form factors, which reflect the limitations of previous lighting technologies; transcend the traditional functions of providing basic lighting; and achieve energy saving on the basis of improved energy efficiency to cover at the right time More accurate delivery of more suitable light Led High Bay Light.
The explosive growth of applications is mainly driven by two directions: high-efficiency, large-area production of ultra-small GaN LEDs (micro-LED and nano-LED), and the possibility of merging photovoltaic-grade GaN micro-LEDs with silicon microelectronics. method. GaN LED technology has even spread to the field of display technology, which has been occupied by organic LEDs and liquid crystal displays for decades. In this review, the technological transition from lighting to GaN micro- and nano-devices is discussed, including a recent overview of existing. technologies.
Organic Light Emitting Diodes (OLEDs) represent a field of SSL technology that can create diffuse light sources with thin and flexible direct emitters. This technology can produce new dimensions and has lighting design flexibility that today's LED or traditional lighting technology cannot provide.