Diodes Incorporated PI3EQX8984ZLEX Product Overview

The PI3EQX8984ZLEX from Diodes Incorporated is a high-performance, PCIe 3.0 packet switch designed to meet the needs of the latest computing and communication platforms. This product is engineered to provide an efficient and reliable solution for expanding PCIe connections, making it an ideal choice for a wide range of applications in the enterprise, storage, and server markets.

Key Features and Benefits

• PCIe 3.0 Compliance: The PI3EQX8984ZLEX is fully compliant with the PCI Express Base Specification Revision 3.0, which ensures compatibility with the latest generation of PCIe devices and offers a maximum data transfer rate of 8 GT/s per lane.
• High Port Density: This packet switch comes with an integrated 8-lane, 4-port switch, which provides a high level of port density and the flexibility to configure port bifurcation as needed for specific applications.
• Low Power Consumption: Designed with power efficiency in mind, the PI3EQX8984ZLEX features low power consumption, making it suitable for energy-sensitive applications and contributing to overall system power savings.
• Advanced Signal Integrity: The product includes advanced signal integrity features such as equalization, clock data recovery, and redriver capabilities, which ensure reliable data transmission even over longer PCB traces or cables.
• Hot-Plug Support: With support for hot-plug operations, this switch allows for the addition or removal of devices without needing to power down the system, providing greater flexibility and minimizing downtime.

Applications

The PI3EQX8984ZLEX is suitable for a variety of high-performance applications, including:

• Data Center and Cloud Computing
• Enterprise Storage Systems
• Server and Workstation Motherboards
• Networking Equipment
• Embedded Systems

With its robust feature set and compliance with the PCIe 3.0 specification, the PI3EQX8984ZLEX from Diodes Incorporated is a versatile and powerful solution for expanding PCIe capabilities in demanding computing environments.