JVC D-ILA PROJECTORS Pandam Authorised Dealer
PANDAM PROFESSIONAL AUDIO being an authorised dealer now invites you to experience the magic of Award winning JVC D-ILA projectors.
JVC video projectors are used in some of the most demanding applications, from flight simulators to medical imaging to the home theaters of Hollywood directors and devoted enthusiasts. And while there is a JVC projector engineered specifically for each application, they are all based on the same JVC technology – D-ILA.
What is D-ILA?
D-ILA, or Direct-Drive Image Light Amplification, is JVC-developed technology that delivers unmatched performance, with natural color reproduction, an image so smooth that it rivals film, and contrast that does justice to the most demanding program material. Since the first D-ILA projector was launched in 1997, the technology has been employed where nothing but the cleanest, sharpest, most accurate image would suffice. Today, some of the industry’s most sophisticated projectors from the most respected manufacturers use D-ILA technology licensed from JVC.
D-ILA is liquid crystal technology, but it’s very different from the liquid crystal display (LCD) technology found in many products today. D-ILA is what’s called liquid crystal on silicon, or LCOS, but JVC made several improvements to basic LCOS technology to develop D-ILA. At its heart is the D-ILA device, or chip, designed and manufactured by JVC. Every JVC D-ILA projector uses three D-ILA devices, one each for red, green and blue – the three colors that are combined to create the full color palette.
What Makes D-ILA Better Than Other Technologies?
D-ILA offers several advantages over other projection technologies
1) There is very little space between D-ILA pixels, which results in an exceptionally smooth, "film-like" image. Some technologies include moving parts, and space is needed between pixels for these moving parts. Other technologies require that a transistor be mounted on each pixel and wires run between pixels. This, too, forces pixels to be spaced farther apart compared to D-ILA devices. In both of these other cases, the moving parts, transistors and wires limit the total area through which light can pass, which limits brightness. It can also create what’s known as the "screen door effect" – a "shadowing" on the image caused by the spaces between pixels. Look closely, and it’s as if you’re looking at the image through a screen door.
2) Many other projectors use a single imaging chip, while all D-ILA projectors use three D-ILA imaging chips (one each for red, green and blue), to ensure natural, flicker-free color reproduction.
3) The D-ILA device structure helps deliver very high native contrast. This is in part a consequence of the vertical alignment of the liquid crystal layers. Most recently, performance has been further improved by using new technology to make the surface more even, and pixel spacing has been further reduced. The result is unprecedented contrast, delivering deep blacks, bright whites and subtle gradations.
4) D-ILA devices use an inorganic alignment layer, which contributes to the device’s long life. This, along with D-ILA’s outstanding image quality, is what makes it so well-suited for commercial applications, and is a great benefit for home theater enthusiasts as well.