PI6C2408-4WE Clock Buffer from Diodes Incorporated

The PI6C2408-4WE is a high-performance, low-skew, low-jitter clock buffer from Diodes Incorporated, designed to distribute a single clock input to four output clocks with minimal propagation delay and skew. This clock buffer is an ideal solution for clock distribution in high-speed digital systems, ensuring that synchronous signals are accurately timed and maintaining the integrity of the clock signal throughout the system.

Key Features:

• Low Skew: The PI6C2408-4WE boasts an exceptionally low output-to-output skew, which is critical for maintaining the timing alignment of high-speed signals across multiple pathways.
• High-Speed Operation: Capable of supporting clock frequencies up to 200MHz, this device is suitable for high-performance computing, networking, and communications applications.
• Low Jitter: The low jitter characteristic of the PI6C2408-4WE ensures the stability and reliability of clock signals, which is essential for maintaining data integrity in systems where timing is crucial.
• Wide Operating Voltage Range: It operates over a supply voltage range of 2.5V to 5.5V, providing flexibility for use in various system designs.
• Power Down Mode: The device includes a power-down feature that allows the outputs to be placed in a high-impedance state, thereby reducing power consumption when not in use.
• Industrial Temperature Range: The PI6C2408-4WE is designed to operate over an industrial temperature range of -40°C to +85°C, ensuring reliable performance in harsh environments.

Applications:

The versatile PI6C2408-4WE is suitable for a wide range of applications, including but not limited to:

• Server and Workstation Clock Distribution
• Networking Equipment (Routers, Switches, etc.)
• Telecommunications Systems
• Storage Systems
• Embedded Systems
• Consumer Electronics

With its robust feature set and reliable performance, the PI6C2408-4WE from Diodes Incorporated is an excellent choice for designers looking to implement precise clock distribution in their digital systems.