Veeco introduces TurboDisc® K465iTM, a gallium nitride (GaN) metal organic chemical vapor deposition (MOCVD) device for the production of high-brightness LEDs (HB LEDs), which was quickly tested by Veeco users in the LED industry. With the approval of mass production, the company has received orders from multiple LED users in the Asia Pacific region.
Veeco pointed out that this new product TurboDisc K465i is based on Veeco's proven K-family platform, combined with the industry's highest production efficiency, within the 5nm bin error range, the best LED yield of the same level is close to 90%, greatly improved Bin rate. The TurboDisc K465i is fully automated and can continue to produce motion in a short period of time after routine maintenance, increasing production efficiency. In the competition of similar products, not only the highest production efficiency, but also a lot of cost savings.
TurboDisc K465i Design: Uniformity and Repeatability
At the heart of the TurboDiscK465i GaN MOCVD system, Veeco's patent-pending Uniform FlowFlange technology. It is designed to produce a uniform gas flow pattern of alkyl and hydride gases that flow evenly through the LED wafer. The device's LED dies provide excellent uniformity and repeatability, and the K465 i also Veeco's state-of-the-art reactor technology is used. FlowFlange's simplified design provides easy process optimization for fast process optimization for wafer sizes up to 8 inches, while the device's fast re-production capability after maintenance ensures the highest productivity in the LED industry.
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High resolution
In order to realize a large-area high-resolution Liquid Crystal Display, it is usually necessary to use low-impedance metal materials, high-performance switching elements, and high-precision processing techniques. Aluminum is the most researched and used material for making TFT buses with low-impedance metals. By solving the problems of easy formation of hillocks, chemical corrosion and oxidation of aluminum, alloy methods (such as Al-Cu, Al-Si, Al-Nd and Al-Ti, etc.) and interlayer methods (such as Mo/Al/Mo) have been reported successively. , Cr/Al/Cr and Ti/Al/Ti, etc.), the alloy method is relatively simple in process, but the material has a higher resistivity. In May 1998, IBM developed a 16.3-inch ultra-high resolution (200ppi) a-Si TFT Display using Al-Nd alloy as the gate electrode, and mass production has been achieved. In April 1999, Toshiba introduced the 20.8-inch 16-SVGA (3, 200 × 2, 400) a-Si TFT-LCD, which can be said to represent the highest level of a-Si TFT-LCD in terms of high resolution and high capacity. .
According to Display Search in the third quarter of 2011, the global flat panel display research report "QuarterlyWorldw ide Flat Pane l Dis play Fore cas t Re port" pointed out that the average pixels per inch (ppi) in large-size LCD panels (>9.1 inches) ) Will grow from 88ppi in 2010 to 98ppi in 2015. The ppi of small and medium-sized LCD panels (<9.0 inches) will grow from 180ppi to 300ppi in the same period. With the rise of smart phones, mobile phones will be the most obvious application product for ppi's growth.
Another important way to realize high-resolution liquid crystal display is to develop LT p-Si TFT technology. The resolution of published p-SiTFT-LCD products is generally around 200ppi. Compared with a-Si TFT-LCD, LT p-Si TFT-LCD has a smaller volume of thin film transistors and storage capacitors. Therefore, it has a larger penetration area per inch, resulting in a brighter display. , And save more power. When the market demands higher ppi, low-temperature polysilicon (LTPS) technology becomes the best choice for manufacturing high-resolution thin-film transistor liquid crystal displays.
Contrast
The control ICs, filters and oriented films used in LCD manufacturing are related to the contrast of the panel. For general users, a contrast ratio of 350:1 is sufficient, but such contrast in the professional field does not satisfy users. Demand. Compared with CRT monitors easily reaching 500:1 or even higher contrast, only high-end LCD monitors can achieve this level. The first-tier LCD monitors on the market, such as Samsung, Asus, LG, etc., can reach a contrast ratio of 1000:1. However, because the contrast is difficult to accurately measure with instruments, you have to go and see it yourself when you pick it.
Tip: Contrast is very important. It can be said that the selection of LCD is a more important indicator than bright spots. When you understand that your customers buy LCDs for entertainment and watching DVDs, you can emphasize that contrast is more important than no dead pixels. We When watching streaming media, the brightness of the source is generally not large, but to see the contrast of light and dark in the scene of the character, the texture change from gray to black hair must be shown by the level of contrast. The 256-level grayscale in the test software In the test, more small gray grids can be seen clearly when looking up, which means that the contrast is better!a
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