In home networking, the core advantage of Mesh is seamless coverage throughout the house. However, even within the same Mesh network, the actual experience can vary drastically—the key difference lies in the crucial "backhaul" aspect. Backhaul, essentially a "dedicated communication line" between Mesh nodes, is used by the main router and child nodes to transmit data and synchronize commands. Its connection method directly determines the network's speed, stability, and latency, much like the main arteries of a city's traffic system—the lifeline of overall network efficiency.

Wireless backhaul was once the mainstream form of Mesh networking and a popular "entry-level" choice for many users. It requires no additional wiring; the main router and child nodes connect wirelessly via Wi-Fi, and networking is completed with a single click. This is particularly suitable for homes that have already been renovated but lack pre-installed network cabling. However, the shortcomings of wireless backhaul are quite prominent: Dual-band Mesh uses the 2.4GHz or 5GHz band to simultaneously handle both "terminal connection" and "node backhaul" tasks, essentially splitting bandwidth between cars and trucks, resulting in an actual speed that may only be 60% of the nominal value. Even tri-band Mesh, using a dedicated 5GHz band for backhaul, is still affected by walls and wireless interference, leading to large latency fluctuations and potential stuttering in scenarios such as 4K video transmission and cloud gaming. More importantly, the node spacing in wireless backhaul is limited; beyond 10 meters or passing through two or more load-bearing walls, the signal attenuates significantly, greatly reducing the networking effect.

Wired backhaul, on the other hand, is the "full-power mode" of Mesh networking. It connects the main router and child nodes via Ethernet cables (or fiber optic cables), completely eliminating the constraints of wireless interference. From a technical standpoint, wired backhaul essentially creates a "dedicated highway" between nodes. Data transmission doesn't require occupying wireless frequency bands, allowing terminal devices to exclusively utilize the full bandwidth of 2.4GHz and 5GHz, achieving a rate retention rate of over 95% and latency consistently below 3ms. This approach not only supports full-speed gigabit and even 10-gigabit broadband but also easily handles high-bandwidth scenarios such as NAS file sharing and 8K video-on-demand, while significantly increasing the number of devices it can support, adapting to the needs of densely connected smart home devices. More flexibly, wired backhaul also supports hybrid networking—for example, using a wired connection between the living room and study, and a wireless connection between the living room and bedroom. The system automatically identifies and switches the backhaul mode, balancing stability and coverage.

In practical applications, the choice between the two backhaul modes should be tailored to the specific house conditions and usage requirements. For homes that have already been renovated but without pre-installed network cables, tri-band wireless backhaul Mesh is the preferred choice. Try to keep the distance between nodes within 10 meters and avoid obstructions such as metal furniture and load-bearing walls. For newly renovated homes or homes with pre-installed gigabit network cables, wired backhaul is strongly recommended. Install network cable interfaces in each room, connect sub-nodes to the switch in the distribution box via network cables, and then connect to the main router to achieve an optimal "wired backbone + wireless coverage" architecture throughout the house. For users with extremely high requirements for latency and stability, such as esports players and live streamers, wired backhaul is essential—it eliminates random fluctuations in wireless transmission and provides a network experience comparable to a direct wired connection.

Ultimately, wireless backhaul solves the problem of "whether there is coverage," while wired backhaul answers the question of "how good is the coverage?" With the widespread adoption of Wi-Fi 7 technology and the increasing availability of Mesh devices supporting 2.5G and even 10G ports, the advantages of wired backhaul will be further amplified. In the future, a hybrid networking model with "wired backhaul as the main method and wireless backhaul to fill in the gaps" will become the standard for large apartments and high-end families, truly realizing the network ideal of "full speed throughout the house and seamless roaming".