The PI6C2510-133ELEX is a high-performance, low-skew, low-jitter clock buffer from Diodes Incorporated, designed to distribute high-speed signals in PC, workstation, datacom, telecom, and other high-performance applications. This precision clock driver is engineered to address the demanding needs of synchronous signal processing while maintaining signal integrity across multiple outputs.
Key Features
- Operating Voltage: The device operates at a 3.3V ±0.3V power supply, which is standard for many logic and memory circuits, ensuring compatibility with a wide range of components.
- Frequency Range: With a frequency range of up to 133MHz, the PI6C2510-133ELEX is suitable for high-frequency clock distribution in modern digital systems.
- Low Skew: The device boasts an extremely low output-to-output skew of 250ps (max), which helps to maintain the timing integrity of the system clock signal across all buffer outputs.
- Multiple Outputs: It features 1:10 clock distribution, providing ten identical outputs from a single input, which simplifies design and reduces component count in complex systems.
- Output Enable (OE) Function: The OE pin allows the user to enable or disable the output, providing additional flexibility and power-saving options for system designers.
- Industrial Temperature Range: The device is rated for an industrial temperature range of -40°C to +85°C, ensuring reliable operation in harsh environments.
- Packaging: Available in a 16-pin TSSOP package, the PI6C2510-133ELEX is compact and suitable for space-constrained applications.
Applications
The PI6C2510-133ELEX is ideal for a variety of applications where precise clock distribution is critical. These include:
- High-speed computer systems
- Networking equipment such as switches and routers
- Telecommunications infrastructure
- Data storage systems
- Test and measurement equipment
With its robust feature set and Diodes Incorporated's commitment to quality, the PI6C2510-133ELEX is a reliable choice for ensuring that your systems maintain precise timing and synchronization.