The SSTUA32864EC,557 is a high-performance, registered clock driver (RCD) designed and manufactured by NXP Semiconductors. This advanced integrated circuit is engineered to meet the rigorous demands of high-speed data transfer and signal processing in a wide array of electronic systems.

Key Features

• Compatibility: The SSTUA32864EC,557 is designed to be compatible with DDR2 memory modules, providing a seamless interface for memory systems in computing and communication platforms.
• Performance: With its ability to drive clocks with minimal skew, this RCD ensures the timing accuracy required for high-speed memory operations, contributing to the overall system stability and performance.
• Power Efficiency: The device operates with a low voltage supply, reducing power consumption and heat generation, which is crucial for maintaining the reliability of densely packed electronic systems.
• Advanced Packaging: Encased in a TSSOP (Thin Shrink Small Outline Package) with 28 pins, the SSTUA32864EC,557 is optimized for space-saving on PCBs (Printed Circuit Boards), making it an ideal choice for compact devices.
• Industrial Temperature Range: It is designed to function reliably across a wide temperature range, making it suitable for industrial applications that may be exposed to harsh environmental conditions.

Applications

The SSTUA32864EC,557 is a versatile component that can be utilized in various applications, including:

• Servers and Workstations
• Networking Equipment (Routers, Switches, etc.)
• Telecommunications Systems
• High-Performance Computing
• Data Storage Devices

Technical Specifications

Some of the technical specifications for the SSTUA32864EC,557 include:

• Supply Voltage: 1.8V ±0.1V
• Operating Temperature Range: -40°C to +85°C
• Package: 28-TSSOP
• Low Standby Current
• Enhanced Signal Integrity

For designers and engineers looking for a reliable and efficient solution for their DDR2 memory interface requirements, the SSTUA32864EC,557 from NXP Semiconductors offers a compelling blend of performance, power efficiency, and durability.