en.Wedoany.com Reported - Woer Material stated on its investor interaction platform on April 28 that the company's single-channel 224G high-speed communication cable has achieved mass production, with the high-speed communication cable business achieving strong growth in the first quarter of 2026. This product directly meets the internal interconnection demands of AI servers and 1.6T optical modules. On the same day, the Political Bureau of the CPC Central Committee held a meeting, explicitly proposing to strengthen the planning and construction of new types of infrastructure, such as next-generation communication networks (6G).

Woer Material's single-channel 224G high-speed communication cable utilizes silver-plated conductors and physical foaming insulation technology, featuring low standing wave ratio and stable delay skew, with outstanding anti-electromagnetic interference capabilities, suitable for short-distance communication scenarios such as high-speed backplane interconnections inside AI server racks. This product is formed by stranding and knitting eight pairs of single-channel 224G high-speed wires into a cable, capable of forming multi-channel 1.6T high-speed communication cables, having already passed important customer verifications and received orders. Subsidiary Le Tong Zhilian has deep leverage in the wire and cable industry for decades, with some products having reached internationally advanced levels, and the company maintains long-term, stable cooperative relationships with leading industry clients.

Woer Material is continuously iterating in the high-speed copper connectivity field, having formed a product portfolio covering the entire series of 1.6T, 800G, and 224G high-speed copper cables, while advancing pre-research solutions for next-generation 448G high-speed copper cables. The company possesses a slot advantage with over 20 imported physical foaming core wire extrusion lines and other core equipment, and is actively promoting its production expansion projects at the Huizhou Shuikou Industrial Park, the Malaysian project, the Vietnam manufacturing base expansion project, and related equipment put into operation, reserving capacity for expanding delivery capabilities. The advancement of these projects is directly driven by the evolution of AI super-node server architecture, where short-distance copper connectivity solutions complement optical modules in terms of low power consumption and low cost.

The Political Bureau meeting proposed to "strengthen the planning and construction of water networks, new power grids, computing power networks, next-generation communication networks, urban underground pipe networks, and logistics networks." The core construction content of the "next-generation communication network" points toward three major directions: 6G technology research, development, and implementation; integrated satellite internet covering space, atmosphere, land, and sea; and large-scale deployment of 10-gigabit optical networks. The "15th Five-Year Plan" Outline also specifies targets for promoting the deployment of 50G PON ports and 5G-A base stations at scale, as well as 6G technology application verification, providing clear guidance for the communication equipment manufacturing industry.

The internal interconnection demands of AI servers and the 6G infrastructure planning originate at the physical layer from the common pursuit of high bandwidth and low latency technologies. Woer Material's mass production of the 224G high-speed communication cable, on the one hand, satisfies the urgent demand for high-speed copper connections in current AI computing clusters. On the other, it reserves physical-layer core capabilities for high-frequency, high-speed interconnections within base stations and data centers in the 6G era. Communication equipment manufacturing companies are gaining dual certainty in product iteration and market expansion from the policy dividends of the "15th Five-Year" new infrastructure plan.

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