LED displays with a transparent effect are commonly referred to as LED transparent screens or LED glass screens. These products were developed through technical advancements in 2016 and 2017, and their applications have gradually matured over time. The product itself and its application solutions have become more stable and reliable. 2018 marked a year of rapid growth for this innovative display technology. Today, I’ll give you a brief introduction to this product and share some insights into the front-end manufacturing processes along the way. These techniques help achieve better visual effects and enhanced stability, making it easier for users to purchase and use these products in the future. There are also different levels of quality available in the market. The LED transparent screen is similar to the LED glass screen. As the name suggests, it’s designed to improve transparency by modifying materials or reducing opacity. Most of these screens are installed in locations where glass is used, which is why they’re often called transparent screens. This type of screen retains the advantages of traditional LED displays, such as easy control, low-voltage DC power supply, rich color performance, and long lifespan. Due to its unique benefits in glass curtain wall applications, it has found widespread use in urban lighting projects and large-screen display systems. Additionally, it can serve as an indoor display curtain wall, and is widely used in places like large squares, stage sets, bars, high-end dance halls, landmark buildings, municipal structures, airports, car dealerships, hotels, banks, and chain stores. The glass display not only serves a practical purpose but also adds aesthetic value and a sense of concealment. There are two main manufacturing methods for transparent screens. One is surface-side illumination, which is relatively simple in process but limited in viewing angle due to the position of the LED beads. This can affect the overall image quality. The other is side-mounted positive illumination, which requires more precise placement and is less common among manufacturers. The image below shows a side-lit version. Although more challenging, the final result is significantly better than the former method. I’m promoting this here. The image above shows the latest side-lighting patch process. When you get the chance to touch the product, you’ll notice how difficult it is to remove the LED beads. This makes the product much more stable. How is this achieved? I won’t go into detail here. This is the previous generation, using a side-lighting process. If the LED beads are strong enough, they can still be removed, so there's still a gap in stability compared to the latest patch technology. Of course, the difference lies mainly in stability, while the display effect remains the same. 2.1 Rgb Speakers,2.1 Speaker With 7 Led,2.1 Color Multimedia Speaker,2.1 Speaker With Bluetooth Comcn Electronics Limited , https://www.comencnspeaker.com
