Product Overview: Texas Instruments CDCL1810RGZR

The Texas Instruments CDCL1810RGZR is a high-performance clock buffer and distributor that provides an ideal solution for applications requiring low-jitter and high-frequency clock distribution. This device is part of the CDCL1810 family and is housed in a compact 48-VQFN (RGZ) package, making it suitable for space-constrained applications.

Designed to support clock distribution for a wide range of applications, the CDCL1810RGZR can distribute one of two selectable input clocks to ten outputs with minimal skew and jitter. The device supports a wide frequency range, making it versatile for various system requirements. It is particularly well-suited for use in telecommunications, computing, and networking equipment, where precise clock distribution is critical to system performance.

Key Features:

• Low Jitter Performance: The CDCL1810RGZR is engineered to deliver low additive phase jitter, typically less than 0.5 ps (rms), which is crucial for high-speed communication systems and data converters.
• Multiple Outputs: With ten low-skew, low-jitter outputs, the device ensures synchronized clock distribution to multiple components within a system.
• Selectable Inputs: It offers two selectable differential clock inputs, providing flexibility in system design and redundancy.
• Wide Frequency Range: The device supports an extensive frequency range, accommodating various clocking requirements from 10 MHz to 800 MHz.
• Programmable: The output frequency and other parameters can be programmed via an I2C interface, allowing for easy integration and customization to specific application needs.
• Supply Voltage: The CDCL1810RGZR operates with a 3.3 V supply voltage, aligning with common system power rails.

Applications:

• Data Communication Equipment
• Telecommunication Infrastructure
• Networking Hardware
• High-Performance Computing Systems
• Industrial and Medical Equipment

Overall, the CDCL1810RGZR from Texas Instruments represents a robust and reliable solution for clock distribution challenges. Its performance characteristics and programmability make it an excellent choice for designers looking to optimize their systems for speed and precision.