Overview of PI6CB33602ZLAIEX-13R

The PI6CB33602ZLAIEX-13R is a high-performance, low-power clock buffer from Diodes Incorporated designed to meet the stringent requirements of modern electronics. This clock buffer is part of Diodes Incorporated's precision integrated circuits, providing reliable and stable clock distribution for a variety of applications including computing, networking, and telecommunications.

Key Features

• Low Skew: The device ensures minimal skew between output clocks, which is critical for maintaining data integrity and synchronization across systems.
• Multiple Outputs: It features multiple outputs, making it suitable for systems that require distribution of a single clock source to several destinations.
• High Frequency: With its ability to support high-frequency operation, the PI6CB33602ZLAIEX-13R is ideal for high-speed digital circuits.
• Low Power Consumption: This clock buffer is designed for energy efficiency, which helps reduce the overall power consumption of the systems it is integrated into.
• Wide Operating Temperature Range: It can operate over a broad temperature range, ensuring performance stability in various environmental conditions.
• Advanced Packaging: The product is available in advanced packaging options that provide robustness and ease of integration into PCB designs.

Applications

The PI6CB33602ZLAIEX-13R is versatile and can be used in multiple applications such as:

• Server and workstation motherboards
• Networking equipment such as routers and switches
• Data storage units
• Telecommunication systems
• High-performance computing platforms

Product Specifications

This clock buffer is engineered to deliver precise timing solutions with the following specifications:

• Supply Voltage: Specified by the series
• Output Type: LVCMOS/LVTTL compatible
• Package: Industry-standard package for seamless integration

With its combination of performance, efficiency, and versatility, the PI6CB33602ZLAIEX-13R from Diodes Incorporated stands out as a superior choice for system designers looking to optimize their clock distribution networks.