PI49FCT3805CQE - Clock Buffer from Diodes Incorporated

The PI49FCT3805CQE 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-speed applications. This device is part of the PI49FCT series, which is known for its reliable performance and versatility in various applications.

Key Features

• Low Skew: Ensures minimal timing difference across outputs, which is crucial for maintaining signal integrity in high-speed digital systems.
• Low Jitter: Reduces data transmission errors and improves system reliability by minimizing phase noise and timing uncertainty.
• High Drive Capability: Capable of driving heavy loads, making it suitable for distributing signals across a system with multiple components.
• Wide Operating Voltage Range: Operates across a broad range of power supply voltages, accommodating various system requirements.
• Advanced CMOS Technology: Utilizes cutting-edge CMOS technology to deliver energy-efficient performance.
• Industrial Temperature Range: Reliable operation is guaranteed across a wide temperature range, making it suitable for industrial applications.

Applications

The PI49FCT3805CQE is ideal for use in systems that require precise timing distribution and can be found in:

• High-speed data communication equipment
• Networking hardware such as routers and switches
• Servers and workstations
• Signal distribution in telecom infrastructure
• Test and measurement systems

Product Specifications

This clock buffer supports multiple outputs and is packaged in a QSOP (Quarter Size Outline Package) that is surface-mountable, providing a compact solution for space-constrained applications. It has the following technical specifications:

• Supply Voltage (V_CC): 5V ±10%
• Operating Temperature Range: -40°C to +85°C
• Package Type: QSOP
• RoHS Compliant: Yes

With its robust design and comprehensive features, the PI49FCT3805CQE is an excellent choice for designers looking to ensure signal integrity and synchronization across multiple components within electronic systems.