CDCE813QPWRQ1 is a product that belongs to the category of integrated circuits (ICs). It is commonly used in electronic devices for clock generation and synchronization purposes. This IC offers various characteristics such as high precision, low jitter, and flexible configuration options. It comes in a small package with a specific pin configuration and is available in different packaging quantities.
Integrated Circuits (ICs)
CDCE813QPWRQ1 is primarily used for clock generation and synchronization in electronic devices.
CDCE813QPWRQ1 is packaged in a compact form factor, allowing for easy integration into electronic devices.
The essence of CDCE813QPWRQ1 lies in its ability to provide accurate clock signals for various applications.
CDCE813QPWRQ1 is available in different packaging options, including tape and reel. The quantity per package may vary depending on the supplier.
CDCE813QPWRQ1 features a specific pin configuration that enables proper connectivity and functionality. The detailed pin configuration is as follows:
CDCE813QPWRQ1 offers the following functional features:
Advantages: - High precision clock generation - Low jitter for accurate synchronization - Flexible configuration options
Disadvantages: - Limited output frequency range - Requires external crystal oscillator or clock input
CDCE813QPWRQ1 operates by taking an input clock signal and generating multiple output clocks with programmable frequencies. It utilizes internal PLL (Phase-Locked Loop) circuits to achieve precise clock multiplication and division. The IC can be configured using the I2C interface, allowing for customization of output frequencies and other parameters.
CDCE813QPWRQ1 finds applications in various electronic devices that require accurate clock signals. Some detailed application field plans include:
These alternative models offer similar functionality to CDCE813QPWRQ1 but may have different specifications and capabilities.
In conclusion, CDCE813QPWRQ1 is a versatile integrated circuit used for clock generation and synchronization in various electronic devices. Its high precision, low jitter, and flexible configuration options make it suitable for a wide range of applications.
Question: What is CDCE813QPWRQ1?
Answer: CDCE813QPWRQ1 is a clock generator and jitter cleaner integrated circuit (IC) commonly used in technical solutions.
Question: What is the purpose of CDCE813QPWRQ1?
Answer: The purpose of CDCE813QPWRQ1 is to generate precise clock signals and remove jitter in various electronic systems.
Question: What are the key features of CDCE813QPWRQ1?
Answer: CDCE813QPWRQ1 offers programmable frequency synthesis, low jitter performance, multiple outputs, and flexible input options.
Question: How does CDCE813QPWRQ1 generate clock signals?
Answer: CDCE813QPWRQ1 uses an internal phase-locked loop (PLL) to generate clock signals based on a reference input.
Question: Can CDCE813QPWRQ1 support multiple clock frequencies simultaneously?
Answer: Yes, CDCE813QPWRQ1 can generate multiple clock frequencies simultaneously through its programmable dividers and output channels.
Question: What is the typical operating voltage range for CDCE813QPWRQ1?
Answer: CDCE813QPWRQ1 operates within a voltage range of 1.8V to 3.3V.
Question: Is CDCE813QPWRQ1 compatible with different communication protocols?
Answer: Yes, CDCE813QPWRQ1 is designed to be compatible with various communication protocols such as Ethernet, USB, SATA, and PCIe.
Question: Can CDCE813QPWRQ1 compensate for clock jitter?
Answer: Yes, CDCE813QPWRQ1 includes built-in jitter cleaning capabilities to reduce clock jitter and improve signal integrity.
Question: Are there any evaluation boards or development kits available for CDCE813QPWRQ1?
Answer: Yes, Texas Instruments provides evaluation boards and development kits for CDCE813QPWRQ1 to facilitate design and testing.
Question: What are some common applications of CDCE813QPWRQ1?
Answer: CDCE813QPWRQ1 is commonly used in networking equipment, data centers, telecommunications systems, industrial automation, and high-speed digital designs where precise clock synchronization is required.