The DS21602SN+ from Maxim Integrated is a high-performance, multi-feature network synchronizer designed to meet the stringent requirements of communication infrastructure. This versatile device is engineered to provide synchronized clock management for telecom and networking equipment, ensuring reliable and consistent data transmission.

Key Features

• Dual Redundant Clock Inputs: The DS21602SN+ features two independent clock inputs for redundancy, enhancing system reliability and uptime by allowing seamless switching between clock sources in the event of a failure.
• Flexible Clock Outputs: Multiple configurable clock outputs are available, providing versatility for various applications and allowing integration with a wide range of network equipment.
• Low Jitter Performance: Engineered to maintain signal integrity, the DS21602SN+ offers low jitter performance crucial for high-speed data communications and minimizing signal degradation.
• Integrated PLL Circuitry: The device includes Phase-Locked Loop (PLL) circuitry, enabling it to lock onto an input clock signal and generate a stable, synchronized output.
• Robust Failover Mechanism: The DS21602SN+ incorporates a robust failover mechanism, ensuring continuous operation by automatically switching to a backup clock source if the primary input fails.

Applications

The DS21602SN+ is ideally suited for deployment in a variety of communication systems, including:

• Telecom switching and transmission systems
• Wireless base stations and controllers
• Network routers and switches
• Enterprise networking equipment
• Data center infrastructure

Technical Specifications

The DS21602SN+ is available in a 16-pin SOIC package and operates over a temperature range of -40°C to +85°C. It requires a single 3.3V power supply for operation and is designed to be easily integrated into existing systems with minimal additional components.

For designers and engineers looking for a reliable network synchronization solution, the DS21602SN+ from Maxim Integrated offers an optimal blend of performance, flexibility, and robustness, ensuring the continuous, synchronized operation of critical network infrastructure.