MAX3892ETH+D - 10.7Gbps, 16-Channel, RocketIO™ Transceiver Signal Conditioner

The MAX3892ETH+D from Maxim Integrated is a high-performance signal conditioner designed to enhance the signal integrity of high-speed serial communication links. This device is specifically engineered for use with Xilinx RocketIO transceivers, providing a robust solution for applications that demand reliable high-speed data transmission.

Key Features

• High Data Rate: Supports data rates up to 10.7Gbps, making it suitable for a wide range of high-speed applications, including backplane and cable interfaces.
• Channel Configuration: Features a 16-channel design that can be used in both multiplexed and non-multiplexed systems, offering flexibility for various design requirements.
• Signal Integrity Enhancement: Provides pre-emphasis and equalization to compensate for losses in PCB traces, connectors, and cables, thereby extending the reach and improving the performance of high-speed signals.
• Low Power Consumption: Optimized for energy efficiency, this device consumes minimal power, which is critical for high-density systems where thermal management is a concern.
• Programmable Settings: Offers programmable settings for pre-emphasis and equalization levels, allowing designers to fine-tune performance for specific channel conditions.

Applications

The MAX3892ETH+D is ideal for a variety of applications that require the transmission of high-speed data with exceptional signal integrity. These include:

• High-speed backplanes
• Data center networking equipment
• Telecommunications infrastructure
• High-performance computing systems
• Storage area networks

Package and Quality

The device is available in a 68-pin TQFN package and is specified over the extended temperature range of -40°C to +85°C. Maxim Integrated ensures high-quality standards, providing reliability and performance for critical communication systems.

With its advanced features and robust design, the MAX3892ETH+D is a compelling choice for system designers looking to maximize the performance and reliability of their high-speed data links.