The SN65LVPE502BRGER is a high-performance, dual-channel PCIe redriver from the renowned electronics manufacturer Texas Instruments. This advanced component is designed specifically to enhance signal integrity by re-driving signals through long and lossy traces on printed circuit boards (PCBs). It is an essential solution for systems that require extended reach and robustness in signal transmission, particularly in the realm of high-speed data communication.

Key Features

• PCI Express Support: The SN65LVPE502BRGER is compliant with PCI Express (PCIe) 1.1, 2.0, and 3.0 standards, making it versatile for use in a wide range of applications that utilize PCIe interfaces.
• Dual Channels: With two independent redriver channels, this device can simultaneously manage two lanes of PCIe signals, doubling the efficiency of signal conditioning.
• Adjustable Equalization: It features programmable equalization levels, allowing for optimization of performance based on the characteristics of the PCB trace or cable.
• Low Power Consumption: The low-power architecture of the SN65LVPE502BRGER ensures minimal impact on system power budgets, which is critical for energy-sensitive designs.
• Small Form Factor: Encased in a compact 20-pin QFN package, it is ideal for space-constrained applications without sacrificing performance.

Applications

The SN65LVPE502BRGER is suitable for a variety of applications that demand high-speed data transfer and signal integrity. It is commonly used in:

• Desktop and Laptop PCs
• Server Systems
• Networking Equipment
• Storage Systems
• Data Center Infrastructure

Technical Specifications

• Package: 20-pin QFN
• Operating Temperature Range: -40°C to 85°C
• Supply Voltage: 3.3V ±0.3V

In conclusion, the SN65LVPE502BRGER by Texas Instruments is a robust and reliable solution for enhancing PCIe signal integrity in various high-speed data communication systems. Its dual-channel operation, adjustable equalization, and low-power consumption make it an excellent choice for designers looking to improve system performance and reliability.