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Please make sure that you are posting in the form of a question. SXRD technology is the latest display technology developed by the legendary television engineers at Sony to meet and exceed the demands of a High Definition image at its full line resolution.
Digitally transmitted High Definition signals can contain over 2 million individual detail points that need to be displayed accurately and rapidly. SXRD displays those 2 million detail points per SXRD panel accurately since kds-r60xrb2 three panels actually contain enough pixels to fully display a line picture without interlacing it.
With a blistering 5ms response time total rise and fall timeSXRD has the speed to create a smooth, film like image. And SXRD creates highly accurate, natural colors because the 3-panel design continuously displays the entire color spectrum. Over the years, the XBR Series has convinced even the most skeptical magazine reviewers, won over the most jaded industry professionals, and dazzled the most discriminating owners.
The exalted position comes as no surprise. For decades, Sony has led not only in kss-r60xbr2, but also in professional video. For example, broadcast professionals depend on Sony monitors for critical evaluation of TV picture focus, contrast, exposure and color. Unsurpassed in the world, this expertise has always been reflected in the engineering of XBR television.
If you want the inside story on what distinguishes an XBR television, you’ve come to the right place. Learn more with the Sony Showcase.
Sony’s x display is naturally able to resolve finer details than the typical TV. Simulated Picture for Illustration. Sony’s exclusive SXRD technology achieves a chip resolution of pixels horizontal x pixels vertical.
This amounts to over 2 million pixels—resolution that other microdisplay projection televisions are hard-pressed to match.
Sony’s 2 million pixels are more than twice as many as p HDTV. The difference kcs-r60xbr2 profound. What is picture quality? Which is responsible for picture quality?
Sony engineers demanded all the other attributes of an outstanding television picture, including high contrast, superb color fidelity, natural gradation from dark to light, and excellent clarity.
Where does picture quality come from? Thanks to Sony’s unsurpassed television expertise, we understand that almost every part of a projection television can enhance—or deteriorate—the final picture.
We will look at each kds-r60bxr2 these picture quality components in turn. Over the last 20 years, each new generation of video connections has enabled a marked improvement in home video picture quality. A single HDMI connection can carry uncompressed component digital video and uncompressed digital audio. These connections are compatible with the most advanced and soon to be released home video sources on the planet: These sources can exceed the performance manjal over-the-air HDTV broadcasts.
Sony KDS-R60XBR2 – 60″ Class Sxrd™ Xbr Rear Projection Television Manuals
In this way, you’ll enjoy the latest and best that HD sources have to offer. This preserves the signal in the digital domain, avoiding unnecessary video degradation. The system includes three stages. Even the latest HDTV must still accommodate old-style analog composite video input signals.
Sony’s CCP-XA circuit converts incoming composite video into component signals with wide bandwidth and rock-solid stability. These include i, p, p, i and p. Sony’s native x resolution means that these televisions never need to downconvert and throw away pixel data. It also means that any signal that does not originate as p must first be upconverted.
Sony’s proprietary Digital Reality Creation circuit performs this crucial function. Unfortunately, upconversions are notoriously difficult, as they attempt to turn a lower-resolution input into a higher-resolution output. Some televisions merely “connect the dots” with interpolation, ending up with a soft picture of higher resolution. Our proprietary Digital Reality Creation DRC circuitry analyzes the lower-resolution input signal in real-time, and then determines what that signal would have been, if it had originally been an HD signal.
The result is quality that conventional interpolation has a much more difficult time achieving: This extra horsepower means that the advantages of DRC-MF can now be applied not only to i SD sources, but also to p, p and i sources. This yields more detail for a wider range of inputs. The circuit also includes an advanced mode, optimized for content that has previously been upconverted from SD to HD.
Once you find the optimum setting, the television remembers your choice for each input. Sony’s IFP2 circuitry establishes superb picture uniformity.
A Digital Texture Enhancer optimizes the entire range of contrast from dark to bright while improving picture clarity. Motion Vector Noise Reduction minimizes unwanted artifacts in moving subjects.
The most advanced video processing block in the history of Sony projection television, WEGA Engine HD circuitry lays the groundwork for all the picture enhancements that follow. Conceptual drawing of the SXRD chip in cross section.
kde-r60xbr2 Light from the projection lamp enters through the top, passes through Liquid Crystal layer, reflects off the mirrored surface of the Ksd-r60xbr2 backplane and out toward the lens. Sony’s SXRD Kds-rr60xbr2 Chip Sony has transformed projection television with a unique approach to reflective liquid crystal technology: The acronym is short for Silicon X-tal Reflective Display, where “x-tal” is engineering shorthand for “crystal.
Ids-r60xbr2 substrate is coated with aluminum to make it highly reflective. Behind the aluminum, Sony has arranged transistors, power and control connections to drive each pixel. Light from the projection lamp enters the liquid crystal layer, which blocks or passes the light on a pixel-by-pixel basis to make the picture. The light kds-f60xbr2 reflects off the reflective aluminum and back out to the projection lens. This design has powerful performance advantages that make it ideal for video projection.
Full HD resolution. Some projection televisions specify full x resolution. But underneath the hood, they use a microdisplay with onlyhalf the pixels. This means these televisions can only display half the pixels atany given instant.
In comparison, a typical human hair is roughly 70 micrometers thick. These microscopic pixels enable Sony to deliver full HD resolution, with all the pixels, all the time. Slow response left can add unwanted blur to moving objects. Instead of milky blacks, the SXRD chip delivers a superb contrast ratio of Large gaps between kds-r60dbr2 pixels, such as those used in H-LCD chips, tend to create “screen door effect,” the sense that you’re viewing the image through a screen door.
Hiding kds-f60xbr2 transistors and connections behind the reflective surface enabled Sony to minimize the gaps and maximize the smoothness of the picture. Blistering, 5-millisecond switching speed. Some displays can render still pictures beautifully, yet introduce unwanted blur during fast motion sequences. Slow panel switching is the culprit. Sony achieves incredible switching speed with an ultra-thin liquid crystal layer.
So the picture remains crisp and clear, even during fast-action sports and movies. Conventional liquid crystal panels normally display white without a drive voltage.
This can reduce the contrast ratio, reproducing blacks that kds-r60sbr2 slightly milky. Sony’s SXRD chip uses vertically aligned nematic liquid crystal that normally displays black.
So black reproduction is exemplary and contrast ratio is superb. The contrast ratio of the SXRD chip alone, measured with a conoscope, is In particular, Sony surrounds the liquid crystal with an inorganic alignment layer specially formulated for long life.
It’s no surprise that each generation of Sony SXRD products has been greeted with excitement and enthusiasm. While the SXRD chip itself is an extraordinary achievement, Sony engineers were determined to pursue equally lofty performance throughout the television.
In real life, when you look at an apple, the red doesn’t flash at you and disappear. But many projection TVs use a single display chip and a color wheel to flash a sequence of colors, mabual at a time. This can manuwl color breakup, an unwanted “rainbow” effect, which may be visible or concern certain viewers.
Sony takes a different approach. We built an optical engine that incorporates kds-g60xbr2 separate chips—one each for Red, Green and Blue.
So you see all the colors, all the time and color breakup is never a problem. Thanks to Sony’s three-chip design, you get stable, consistent color under all viewing conditions, in addition to high optical efficiency. In fact, these benefits of three-chip architecture are so widely recognized that in large-venue projectors, even the competing systems use three chips.
Dichroic mirrors divide the white light into separate Red, Green and Blue beams. The SXRD chips “modulate” the light, creating the light and dark areas of the video picture. This modulated light reflects back out of the SXRD chips, is recombined by an optical prism and sent toward the screen in a unified beam of natural color.
A single microdisplay chip and color wheel are subject to color breakup, which may be visible or concern certain viewers. Simulated Picture for Illustration Simulated image. Operating at watts, the lamp achieves not only high brightness but also a color spectrum carefully matched to the needs of Sony’s Optical Engine.
The result is superb efficiency: To maintain optimum picture quality, the lamp requires periodic replacement. Advanced Iris As the color beam exits the optical engine, it passes through Sony’s motor-driven iris, which can close to block light or open to enable maximum light to pass.