ON Semiconductor MC10LVEP11DG: A High-Performance Clock Buffer

The MC10LVEP11DG is a 2.5 V / 3.3 V ECL Differential Fanout Buffer designed by ON Semiconductor to meet the demanding needs of high-speed digital systems. This precision device is a key component for applications requiring the distribution of a high-speed clock signal with minimal skew and signal degradation.

Key Features

• High-Speed Performance: With a maximum frequency of 3 GHz, the MC10LVEP11DG is capable of handling high-speed clock signals, making it suitable for telecommunications, data communications, and high-speed computing applications.
• Differential ECL Inputs/Outputs: The device features fully differential ECL inputs and outputs, ensuring excellent signal integrity and noise immunity, which is critical for maintaining the integrity of high-speed signals.
• Low Skew: It offers an incredibly low output-to-output skew, which is crucial for maintaining the timing accuracy of distributed clock signals in synchronous systems.
• Power Supply Flexibility: The MC10LVEP11DG operates from a 2.5 V or 3.3 V power supply, providing versatility in a variety of system voltages and ensuring compatibility with a wide range of digital logic levels.
• Temperature Range: This device is designed to perform reliably over an industrial temperature range, making it suitable for deployment in environments with challenging thermal conditions.

Applications

Ideal for a multitude of applications, the MC10LVEP11DG is commonly used in systems that require precise timing and synchronization, such as:

• High-speed telecommunications equipment
• Data communication infrastructure
• Networking switches and routers
• Server and computing clusters
• Test and measurement equipment

Package and Quality

The MC10LVEP11DG comes in a compact 8-lead SOIC package, optimizing board space without compromising performance. ON Semiconductor is known for its commitment to quality, and this product is no exception. It is manufactured to the highest standards, ensuring reliability and performance consistency across various applications.