Texas Instruments CDCLVC1104EVM

The CDCLVC1104EVM is an evaluation module designed to demonstrate the electrical performance of the CDCLVC1104, a high-performance, low-additive phase noise LVCMOS clock buffer produced by Texas Instruments. This module is particularly useful for evaluating the CDCLVC1104, as well as the CDCLVC1102 and CDCLVC1103 clock buffers. The CDCLVC1104 itself features one LVCMOS input and four LVCMOS outputs, making it ideal for applications requiring precise clock signal distribution with minimal jitter and phase noise.

• Easy-to-use evaluation board for fanning out low-phase noise LVCMOS clock signals.
• Simple device setup with configurable enable pin through jumper and SMA connectors.
• Board powered at either 2.5 V or 3.3 V.
• Equipped with 50-ohm SMA connectors and well-controlled 50-ohm impedance microstrip transmission lines for optimum performance.

The CDCLVC1104EVM is designed for evaluating and demonstrating the performance of the CDCLVC1104 clock buffer in various applications, including:

• High-speed data transmission systems where low jitter and phase noise are critical.
• Telecommunication systems requiring precise clock signal distribution.
• Industrial and automotive systems that demand reliable and low-noise clock signals.
• Any application requiring fan-out of low-phase noise LVCMOS clock signals.

1. What is the primary function of the CDCLVC1104EVM?

   The CDCLVC1104EVM is an evaluation module designed to demonstrate the electrical performance of the CDCLVC1104 high-performance, low-additive phase noise LVCMOS clock buffer.

2. How many inputs and outputs does the CDCLVC1104 have?

   The CDCLVC1104 has one LVCMOS input and four LVCMOS outputs.

3. What are the supported supply voltages for the CDCLVC1104EVM?

   The board can be powered at either 2.5 V or 3.3 V.

4. What is the significance of the 50-ohm SMA connectors on the CDCLVC1104EVM?

   The 50-ohm SMA connectors and well-controlled 50-ohm impedance microstrip transmission lines ensure optimum performance by minimizing signal degradation.

5. Can the enable pin of the CDCLVC1104 be configured?
6. What types of applications benefit from using the CDCLVC1104?
7. Is the CDCLVC1104EVM limited to evaluating only the CDCLVC1104?
8. What simulation tools are available for designing with the CDCLVC1104?
9. Where can I find detailed specifications for the CDCLVC1104?
10. What is the purpose of the low-additive phase noise feature in the CDCLVC1104?