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3Set the ATI HDTV Component Video Adapter DIP switches.

Configure the DIP switches to set the appropriate display mode and aspect ratio. This sets the modes which appear when you select Show all Modes in the ATI Control Panel.

a)Set the display mode

Note: DIP switch 3 is always off (540p is not supported).

Note: Set all DIP switches on that correspond to the modes the component input device supports; for further details, consult the manual for the component video input device.

The six DIP switches on the ATI HDTV Component Video Adapter enable four, standard HDTV video modes: 480i, 480p, 720p,and 1080i. The default setting is 480i or 480p, depending upon the component input device. In the following example, 480i, 480p, and 1080i are supported.

Use a small, flat-head screwdriver to set the switches. The up position is on and the down position if off. Set the switches on for all modes that the HDTV or component input device supports.

Display Mode Switch Settings

b) Set the Aspect Ratio.

If the display supports 16:9 aspect ratio, set DIP switch 6 (16:9) on. This switch toggles between 4:3 and 16:9. Off is 4:3.

Aspect Ratio Switch Settings

In the previous examples, the component input display supports 480i, 480p, 1080i, and 16:9.

4Attach the ATI DVI-to-HDTV component video adapter to the DVI connection on the graphics card.

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AMD HD 2400 manual Display Mode Switch Settings

HD 2400 specifications

The AMD HD 2400 is a graphics card that was part of the Radeon HD 2000 series, introduced by Advanced Micro Devices in mid-2007. Targeting budget-conscious consumers, the HD 2400 offered a blend of performance and affordability, making it suitable for casual gaming, multimedia playback, and everyday computing tasks.

One of the standout features of the HD 2400 series is its compliance with DirectX 10, which was a significant leap from its predecessor, allowing developers to create more complex graphics with advanced visual effects. The HD 2400 utilized the 65nm manufacturing process, which helped improve power efficiency and reduced heat output. This was particularly beneficial for entry-level systems, where low power consumption is crucial.

The HD 2400 came in various configurations, with both the standard and Pro models. The standard version sported 64 stream processors and offered a clock speed of around 525 MHz, while the Pro version could reach higher speeds and offered more robust performance. The card also featured up to 512 MB of GDDR2 or GDDR3 memory, allowing for decent performance in less demanding gaming scenarios and everyday applications.

Another notable technology feature associated with the AMD HD 2400 is Avivo, which improved video playback quality. Avivo enhanced the processing of both standard and high-definition video, providing smoother playback and supporting various formats. This made the HD 2400 an appealing option for users looking to enjoy multimedia content without investing in high-end graphics solutions.

AMD also introduced the CrossFire technology with the HD 2400, enabling users to pair multiple graphics cards for improved performance. Although aimed at affordable setups, this feature allowed users to scale up their system’s graphics capabilities as needed.

Overall, the AMD HD 2400 served as a gateway for many users into the realm of DirectX 10 gaming and high-definition multimedia experiences. Its combination of features, including solid performance for everyday tasks, power efficiency, and advanced video playback technologies, made it a compelling choice for budget-conscious consumers during its era. While the HD 2400 may seem outdated by today’s standards, it played an essential role in the evolution of budget graphics solutions, laying the groundwork for future advancements in graphics technology.