The DS90UH947NTRGCTQ1 is a state-of-the-art serializer from Texas Instruments, designed to meet the rigorous demands of automotive and industrial display applications. This advanced component is part of Texas Instruments' FPD-Link III family, offering high-speed digital transmission over a single differential cable. It is specifically engineered to convert parallel RGB and high-definition video data into serialized data streams that can be transmitted over distances up to 15 meters with excellent signal integrity.

Key Features

• High-Speed Data Transfer: Supports up to 1.5 Gbps data rate per lane, suitable for 24-bit color depth at 60Hz frame rates for 1080p resolution.
• Advanced Display Support: Compatible with a wide array of video formats including 24-bit RGB, 18-bit RGB, and YCbCr with 14- to 24-bit color depth.
• Adaptive Equalization: Features adaptive equalization for enhanced signal integrity over long cable lengths, reducing the potential for data loss and image degradation.
• Robust Design: Designed for automotive applications, it meets AEC-Q100 Grade 2 requirements, ensuring reliable performance in extreme conditions.
• EMI Reduction: Incorporates Spread Spectrum Clocking (SSC) and a reduced number of differential signals to minimize electromagnetic interference (EMI).
• Backward Compatibility: Supports a direct interface with FPD-Link II deserializers for seamless integration with existing designs.

Applications

The DS90UH947NTRGCTQ1 is ideal for a variety of applications where high-definition video data needs to be transmitted reliably over long distances. It is particularly well-suited for automotive infotainment and driver assistance systems, such as rear-seat entertainment, navigation displays, and camera-based vision systems. Its robust design also makes it a perfect choice for industrial video applications where durability and performance are critical.

Quality and Reliability

As with all Texas Instruments products, the DS90UH947NTRGCTQ1 is manufactured to the highest quality standards. Its compliance with the AEC-Q100 Grade 2 qualification ensures that it can withstand the harsh environments typical of automotive and industrial settings, providing a reliable solution for system designers seeking long-term performance.