CDCV857BIDGGG4 datasheet by Texas Instruments

CDCV857BIDGGG4 Frequently Asked Questions (FAQs)

• What is the recommended power-up sequence for the CDCV857BIDGGG4?
  The recommended power-up sequence is to apply VCC first, followed by VDD, and then the input clock signal. This ensures proper initialization and prevents potential latch-up conditions.
• How do I handle the output clock signal when the input clock signal is not present?
  When the input clock signal is not present, the output clock signal will be in a high-impedance state. It's recommended to use a pull-down resistor or a clock buffer with a built-in pull-down to ensure a stable output clock signal.
• What is the maximum input clock frequency that the CDCV857BIDGGG4 can handle?
  Although the datasheet specifies a maximum input clock frequency of 100 MHz, some users have reported successful operation up to 150 MHz. However, it's essential to ensure that the device is properly terminated and that the input clock signal meets the specified jitter and amplitude requirements.
• Can I use the CDCV857BIDGGG4 as a clock buffer with a fanout of more than 4?
  While the CDCV857BIDGGG4 is designed as a 4-output clock buffer, it's possible to use it as a clock buffer with a fanout of more than 4 by cascading multiple devices. However, this approach may require additional power supply decoupling and signal integrity analysis to ensure reliable operation.
• How do I determine the optimal value for the output clock signal termination resistor?
  The optimal value for the output clock signal termination resistor depends on the specific application, PCB layout, and signal integrity requirements. A good starting point is to use a 50-ohm resistor, but it may be necessary to adjust the value based on simulation or measurement results to ensure proper signal termination and minimize reflections.