The CDCLVP2108RGZT is a high-performance, low-skew, 1-to-8 LVPECL Clock Buffer designed by Texas Instruments. This device is ideal for distributing a single clock input to multiple destinations efficiently and with minimal signal degradation. Its advanced design ensures that high-speed digital systems maintain signal integrity and timing precision across various applications, including networking, telecommunications, and high-speed data processing.

Key Features

• Multiple Outputs: Offers eight low-voltage positive emitter-coupled logic (LVPECL) outputs for broad fanout capabilities.
• Low Skew: Provides exceptionally low output-to-output skew, which is crucial for maintaining the synchronization of high-speed signals across multiple pathways.
• High Performance: Engineered to support clock distribution at high frequencies with minimal jitter, ensuring reliable performance in demanding environments.
• Flexible Input: Accepts a wide range of input levels, including LVPECL, LVDS, or CML, providing versatility in interfacing with different signal standards.
• Power Supply: Operates on a 3.3V supply voltage, making it compatible with many existing systems and simplifying power management.
• Thermal Efficiency: Housed in a compact, surface-mount package that enhances thermal performance and saves board space.
• Industrial Temperature Range: Functional across a broad temperature range, ensuring stability and reliability in a variety of operating conditions.

Applications

The CDCLVP2108RGZT is versatile enough to be used in a multitude of applications that require precise clock distribution such as:

• Data Communication
• Telecommunications Infrastructure
• Networking Equipment
• High-speed Computing
• Servers and Storage Systems
• Test and Measurement Equipment

Ordering and Packaging Information

Texas Instruments provides the CDCLVP2108RGZT in a 48-VFQFN exposed pad package, ensuring ease of integration into circuit designs. The device is available for order in various quantities, catering to both small-scale projects and large-volume production needs.