Posts from this author will be added to your daily email digest and your homepage feed. It feels like the rollout of Wi-Fi 7 is barely out of the gate, but TP-Link is already making advancements towards the next generation of connectivity. The company announced on Monday that it has successfully tested an early prototype of Wi-Fi 8 hardware, marking a “critical milestone” in its development. While the test is light on details, TP-Link says it has validated the Wi-Fi 8 (802.11bn) beacon and data transfer capabilities, proving its viability for future consumer products. The prototype hardware was developed through a “joint industry partnership,” according to TP-Link, and the company expects consumer devices to be available ahead of the standard being ratified, which the Institute of Electrical and Electronics Engineers (IEEE) expects to be finalized by 2028. In a July blog post breaking down the new standard, Qualcomm explains that Wi-Fi 8 aims to keep devices online and stable, rather than chasing faster bandwidth speeds. Like its predecessor, Wi-Fi 8 will utilize 2.4 GHz, 5 GHz, and 6 GHz bands with a theoretical maximum channel bandwidth of 320MHz and peak data rate of 23Gbps, but aims to improve real-world performance and connection reliability. This Qualcomm graphic shows the developmental focus behind the last few generations of Wi-Fi standard. Image: Qualcomm The goal is to provide better performance in environments with low signal, or under high network loads, where an increasing number of devices are sharing the same connection. Wi-Fi 8 can theoretically manage more devices at once, and reduce lag when positioned further away from your router or moving around your home. That should provide users with a smoother gaming and streaming experience, and prevent freezes, drops, and “robot voice” from occurring during video calls. “Wi-Fi 8 marks a fundamental pivot — moving beyond peak speeds to prioritize reliable performance in challenging real-world conditions,” Qualcomm said. “It’s designed to bring Wi-Fi closer than ever to the reliability and responsiveness of wired infrastructure.”