The NB6N11SMNG from ON Semiconductor is a highly versatile clock/data fanout buffer designed to distribute high-speed signals with maximum integrity. This device is an ideal solution for applications requiring the distribution of a clock or data signal to multiple destinations while maintaining signal quality and synchronization.

Key Features:

• High-Speed Performance: The NB6N11SMNG is capable of handling clock frequencies up to 6 GHz and data rates up to 6 Gbps, making it suitable for high-performance computing, networking, and telecommunications systems.
• Differential Inputs and Outputs: It features differential LVPECL (Low Voltage Positive Emitter Coupled Logic) inputs and outputs, which provide reduced noise and improved signal integrity over single-ended signal formats.
• Low Additive Phase Jitter: The device boasts an exceptionally low additive phase jitter, typically 45 fs RMS, which is critical for maintaining the quality of high-speed signals.
• Flexible Supply Voltage: The NB6N11SMNG operates over a wide supply voltage range from 2.375V to 3.465V, providing design flexibility for various system voltage levels.
• Power Efficiency: With a typical power supply current of 23 mA, the device is optimized for power-sensitive applications.

Applications:

The NB6N11SMNG is suitable for a broad range of applications, including but not limited to:

• High-speed data communications
• Networking equipment such as routers and switches
• Data center infrastructure
• Signal distribution in test and measurement systems
• High-frequency trading systems

Quality and Reliability:

ON Semiconductor is known for its commitment to quality and reliability, and the NB6N11SMNG is no exception. It is manufactured in a facility that complies with stringent industry standards, ensuring high performance and dependability for critical system applications.

Whether you're designing a high-speed communication system or looking for a reliable signal distribution solution, the NB6N11SMNG offers the performance, flexibility, and quality that engineers have come to expect from ON Semiconductor.