Description
Asus TUF Gaming B650E-Plus WiFi is a motherboard designed specifically for gamers seeking a reliable and high-performance foundation for their gaming system. It belongs to the renowned TUF Gaming lineup, guaranteeing the use of high-quality components and enhanced durability.
Engineered with military-grade components, an upgraded power solution, and a comprehensive cooling system, this motherboard exceeds all expectations, delivering reliable and stable performance for marathon gaming sessions. TUF Gaming motherboards also undergo rigorous durability testing to ensure they can perform in conditions where others might fail. This platform provides the power and connectivity required by cutting-edge AI-powered PC applications.
Stable power delivery is critical for maximizing the performance of AMD processors. The motherboard is designed with high-core-count CPUs in mind. It features a 12 (80A) + 2 (80A) + 1 (80A) power stage configuration, combining high- and low-side MOSFETs with drivers in packages rated for up to 80A each. This setup ensures optimal power delivery, efficiency, stability, and performance for both current and future AMD processors.
PCIe 5.0 offers double the data transfer speed of PCIe 4.0, making it robust enough to handle new, data-intensive workloads. PCIe 5.0 also brings additional benefits such as electrical improvements for enhanced signal integrity, backward-compatible CEM connectors for expansion cards, and backward compatibility with previous PCIe generations.
This motherboard uses an audio codec developed in close collaboration with Realtek—Realtek ALC1220P. It delivers an unprecedented 120 dB signal-to-noise ratio (SNR) for stereo output and 113 dB SNR for line-in, ensuring flawless audio quality. Additionally, an impedance-sensing circuit automatically adjusts gain to provide the optimal volume range for your headphones.
WiFi 6E technology leverages the 6 GHz radio frequency band, delivering ultra-fast wireless networking, increased capacity, and improved performance in dense wireless environments.