DVDO Progressive Scan Display Interface user manual How it Works, Background

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Silicon Image, Inc.

iScan Pro User Manual

How it Works

Background

On a normal television, the video image is made by sweeping an electron beam across the face of the set where it excites phosphors causing them to glow. While repeated scanning across the tube, the television changes the intensity of the beam to vary the brightness of the image. If you look closely at the picture on a television set, you will see the horizontal scan lines that make up the image.

The standard video signal in North America (officially referred to as the NTSC standard) consists of approximately 240 visible horizontal scan lines per video field, with fields occurring 60 times per second. When this standard was originally conceived, the average television was relatively small so a typical viewer would not be able to pick out the individual scan lines but would instead see what appears to be a smooth picture. As televisions have grown larger however, these lines have become more noticeable and with large televisions and projectors, they have become an annoying element of the image. Video Line Doublers were originally conceived to try to address this issue by increasing the number of lines scanned across the face of the display.

It is not simply a matter of drawing more lines. To understand how a modern line doubler works, it is necessary to understand the difference between interlace and progressive scanning.

Interlace scanning is used in today’s standard analog televisions. An interlaced TV “paints” the lines of a frame in two separate passes. Half of the lines are drawn in the first pass (the even lines), and the other half (the odd lines) are drawn in the second pass. First devised so that early TVs could have decent resolution with the limited transmission technologies available at the time, interlaced scanning has several unfortunate side effects that are discussed below.

The first major problem with interlaced scanning is that the image may visibly flicker if the screen is large enough that it represents a significant portion of the viewing angle. Even with small screens, sharp edges on objects may flicker. This effect is due to the fact that only every other line is drawn on each pass causing hard edges to appear to move up and down on each field.

In addition, more problems are caused by the fact that horizontal lines that are one above the other are from two different fields, that is, they were not captured by the video camera at the same time and they are not drawn on the screen at the same time. If motion occurs during the time between these two fields, the edge of the moving object will appear to be very jagged. This jagged edge is usually not noticeable to most television viewers because as the new field is being drawn, the “older” field is fading in intensity. However, on high-resolution displays or on devices such as Liquid Crystal Displays (LCD’s) or plasma panels that do not fade, an interlaced image will contain noticeable motion artifacts.

These types of effects are the reason that a line doubler can’t simply repeat each of the incoming lines and expect the output image to be acceptable. Instead a doubler will first have to fully “deinterlace” the image, removing the motion artifacts described above while still retaining as much detail as possible.

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Contents Progressive Scan Display Interface Technology Page Table of Contents Safety Information Safeguards Precautions Silicon Image, Inc Introduction Installation and Setup Typical ConfigurationSystem Requirements ConnectionsSilicon Image, Inc Synchronization Signals Color Space SelectionWire Color Cross-Reference Operation Aspect Ratio Control / Squeeze ModeInput Selection Film Mode Indicator Picture ControlsTroubleshooting What do I do if no LEDs light when I plug the power supply?Silicon Image, Inc How it Works BackgroundDeinterlacing System Block Diagram Video ProcessingTechnical Specifications Video InputsOperating Temperature Warranty Information Limited WarrantySafeguards Safety InformationPrecautions Appendix a Internal Jumper Settings Removing the iScan Pro motherboardModifying Sync-on-Green Jumper Setting Modifying Composite Sync Jumper SettingReassembling the iScan Pro Silicon Image, Inc SiI-PB-008

Progressive Scan Display Interface specifications

DVDO Progressive Scan Display Interface (PDI) is an advanced technology designed to enhance video quality and user experience in display systems. It serves as a bridge between source devices, like DVD players or gaming consoles, and output displays such as televisions and projectors. The main purpose of the PDI is to provide a better visual experience by minimizing motion artifacts, enhancing color accuracy, and improving overall image clarity.

One of the key features of DVDO PDI technology is its progressive scan capability. Unlike traditional interlaced scanning methods where alternate lines of an image are displayed in each frame, progressive scanning delivers the entire image at once. This results in smoother motion and sharper images, especially beneficial for fast-paced content like sports or action movies.

Another important characteristic of DVDO PDI is its upscaling ability. The interface can take lower resolution video sources and convert them into higher quality outputs, ensuring that older video content can still look impressive on today’s high-definition displays. This upscaling feature is critical for users who still want to enjoy classic films or legacy video games without compromising on picture quality.

The technology also incorporates sophisticated deinterlacing algorithms that intelligently analyze video signals. These algorithms help in reducing visual artifacts such as combing and blurring, commonly found in interlaced video formats. This enhancement is particularly useful for mixed video sources, allowing seamless switching between different content types without noticeable degradation in quality.

DVDO PDI is also designed with various connectivity options to ensure compatibility with a wide range of devices. High-definition multimedia interface (HDMI) compatibility allows for easy integration with modern displays, while additional outputs can cater to older systems, making it a versatile choice for multimedia setups.

Moreover, the user-friendly features of DVDO PDI include adjustable settings for color calibration, contrast enhancement, and image scaling, allowing users to customize their viewing experience. This adaptability makes it suitable for both home theater enthusiasts and casual viewers alike.

In conclusion, the DVDO Progressive Scan Display Interface stands out with its combination of progressive scanning, upscaling, intelligent deinterlacing, and extensive connectivity options. These characteristics work together to deliver an enhanced viewing experience, ensuring that users enjoy superior video quality regardless of the source material. As technology continues to evolve, DVDO remains at the forefront of display innovations, offering solutions that cater to the diverse needs of consumers.