Overview of PI3PCIE3242AZLEX from Diodes Incorporated

The PI3PCIE3242AZLEX is a high-performance, PCIe 3.0 packet switch from Diodes Incorporated, designed to meet the needs of modern computing and data communication systems. This advanced switch provides four downstream ports to enable the connection of multiple devices to a single PCIe slot, enhancing system flexibility and maximizing the use of available PCIe resources.

Key Features

• PCIe 3.0 Compliant: The PI3PCIE3242AZLEX complies with the PCI Express Base Specification Revision 3.0, ensuring compatibility with the latest generation of PCIe devices and systems.
• High-Performance Switching: With support for high-speed data transfer rates, this switch is capable of handling large volumes of data efficiently, making it ideal for data-intensive applications.
• Multi-Port Configuration: The inclusion of four downstream ports allows for multiple device connections, providing system designers with the flexibility to expand and customize their systems as needed.
• Low Power Consumption: Designed with power efficiency in mind, the PI3PCIE3242AZLEX minimizes power usage, which is crucial for energy-conscious applications and helps to reduce the overall system thermal footprint.
• Advanced Error Reporting: The device includes sophisticated error detection and reporting mechanisms to ensure reliable data transmission and system stability.

Applications

The PI3PCIE3242AZLEX is suitable for a wide range of applications, including:

• Data centers and servers
• High-performance computing
• Networking equipment
• Storage systems
• Embedded systems
• Consumer electronics

Technical Specifications

Some of the technical specifications of the PI3PCIE3242AZLEX include:

• Package: 19x19mm² 324-ball TFBGA
• Temperature Range: -40°C to 85°C
• Integrated Clock Buffer
• Support for L1 PM Substates with CLKREQ
• Hot-Plug Capable Ports

By integrating the PI3PCIE3242AZLEX into your system, you can expect a seamless expansion of PCIe capabilities, ensuring high-speed connectivity and reliable performance across a variety of applications.