The ON Semiconductor NB7L14MNG is a state-of-the-art differential 1:4 Clock/Data fanout buffer designed to meet the demanding needs of high-speed data communication systems. This robust component delivers exceptional performance by distributing a single differential input to four differential outputs with ultra-low skew and minimal jitter.

Key Features

• High-Speed Operation: The NB7L14MNG operates at a maximum frequency of 7 GHz or 10 Gb/s, making it ideal for high-speed signal processing applications.
• Low Skew: With an incredibly low typical output-to-output skew of 15 ps, this device ensures precise timing alignment between signals, a critical factor in high-speed communication and processing tasks.
• Differential CML Outputs: The device features Current Mode Logic (CML) differential outputs, providing improved signal integrity and noise immunity.
• Wide Range of Supply Voltages: It supports a broad range of supply voltages from 2.375 V to 3.465 V, offering versatility for different system requirements.
• Power Efficiency: The NB7L14MNG is designed for low power consumption, with a typical supply current of only 50 mA, contributing to overall power efficiency in system design.

Applications

The versatility and high performance of the NB7L14MNG make it suitable for a variety of applications, including:

• Gigabit Ethernet and Fiber Channel systems
• Backplane and cable data transmission
• High-speed data acquisition and generation
• Clock distribution networks
• Test and measurement equipment

Quality and Reliability

ON Semiconductor is renowned for its commitment to quality and reliability, and the NB7L14MNG is no exception. Manufactured with precision and rigorously tested, this product is designed to meet the highest standards of performance and durability, ensuring long-term reliability in critical applications.

Product Packaging

The NB7L14MNG is offered in a compact QFN-16 package, providing a space-saving solution without compromising on functionality. Its surface-mount design allows for efficient assembly and integration into a wide range of electronic systems.