ON Semiconductor NB6L72MNR2G - High-Performance Clock/Data Buffer

The ON Semiconductor NB6L72MNR2G is a precision, high-speed clock/data buffer designed to support the rigorous demands of high-speed data systems. This device is part of ON Semiconductor's portfolio of high-performance integrated circuits that are engineered to deliver exceptional signal integrity and timing precision.

Featuring a differential Host Clock Signal Level (HCSL) output, the NB6L72MNR2G is capable of operating at frequencies up to 3.2 GHz, making it an ideal choice for applications that require high-frequency data transmission and low skew. Its differential inputs can accept LVPECL, CML, or LVDS signal levels, providing designers with flexibility in interfacing with different logic families.

The NB6L72MNR2G is equipped with an internal voltage regulator that allows it to operate over a wide range of supply voltages, from 2.375V to 3.465V. This feature ensures stable performance across various power conditions. Additionally, the device boasts a typical additive phase jitter of less than 0.2 ps (rms), which is critical for maintaining signal integrity in high-speed communication systems.

This clock/data buffer also includes a 2:1 multiplexer that allows users to select between two input signals, providing additional flexibility in signal routing and redundancy in system design. With its low propagation delay and minimal skew, the NB6L72MNR2G ensures synchronous signal distribution, which is essential for maintaining the timing accuracy in complex digital systems such as servers, routers, and data centers.

The NB6L72MNR2G is offered in a compact 3x3 mm 16-pin QFN package, which is suitable for space-constrained applications. Its small form factor, coupled with the Pb-free and RoHS-compliant design, makes it an environmentally friendly choice that meets current industry standards for lead-free components.

In summary, the ON Semiconductor NB6L72MNR2G is a versatile, high-performance clock/data buffer that offers low jitter, high-frequency operation, and a flexible input interface. Its robust design and advanced features make it an excellent choice for designers looking to optimize the performance and reliability of their high-speed data systems.