LMK04133SQX/NOPB Clock Jitter Cleaner from Texas Instruments

The LMK04133SQX/NOPB is a highly integrated, low-noise clock jitter cleaner produced by Texas Instruments. Designed to provide superior jitter cleaning and clock distribution, this device is ideal for applications that require high-performance timing solutions, such as data communication, telecommunication, and test equipment.

At the heart of the LMK04133SQX/NOPB lies a Phase-Locked Loop (PLL) with Voltage Controlled Oscillator (VCO), which not only offers low phase noise but also ensures minimal additive jitter. This results in cleaner and more stable clock outputs, which is crucial for sensitive electronics that rely on precise timing signals.

The device features four programmable outputs that can be configured to various output formats, including LVPECL, LVDS, and LVCMOS, providing versatility for different design requirements. Additionally, it supports an input frequency range from 10 MHz to 750 MHz and an output frequency range up to 1.5 GHz, making it suitable for a wide array of applications.

One of the notable features of the LMK04133SQX/NOPB is its programmable input-to-output delay, which allows designers to fine-tune the timing of the clock signals to meet specific system requirements. This, along with the ability to accept two reference clock inputs for failover or redundancy, enhances system reliability and performance.

For ease of integration, the LMK04133SQX/NOPB is offered in a compact 48-pin WQFN package. Its low-power consumption and small footprint make it an excellent choice for space-constrained applications. Furthermore, the device is characterized for operation from -40°C to 85°C, ensuring reliable performance across a broad range of environmental conditions.

The LMK04133SQX/NOPB is part of Texas Instruments' clock generation and distribution product line, which is renowned for its high quality and performance. With the inclusion of this clock jitter cleaner in your design, you can achieve enhanced system stability and accuracy, which are critical in today's high-speed digital environments.