en.Wedoany.com Reported - From June 24 to 26, 2026, Geo-Chip Technology showcased three major product lines and multiple industry solutions at Mobile World Congress (MWC Shanghai), with a strategic focus on the low-altitude economy and commercial aerospace sectors.

Under the theme "The IQ Era," the conference highlighted key frontiers such as intelligent infrastructure, mobile AI, and connected intelligence. As a national-level "Little Giant" enterprise specializing in new and advanced technologies, Geo-Chip Technology demonstrated its fully self-developed RF technology at booth N2.C80, aiming to provide a chip foundation for "space-air-ground integrated" communications.

RF transceiver chips are key components of wireless communication systems. The "GC080X" series RF transceiver chips exhibited by Geo-Chip Technology support an ultra-wide frequency range from 30MHz to 7.125GHz, covering most communication bands from shortwave to Sub-7GHz. These chips support 400MHz dual-channel configurable bandwidth and adopt a multi-channel reconfigurable design, making them adaptable to different frequency bands and communication protocols. They are suitable for applications such as satellite internet (L-C band), low-altitude economy, industrial IoT, base station dense networking, and satellite-terrestrial integrated communications. In the low-altitude economy sector, the chips provide stable RF link support for high-definition drone video transmission, thanks to their ultra-wide frequency coverage and high linearity.

The "GC080X" series chips achieve end-to-end domestic production from chip design, manufacturing, to packaging and testing, ensuring the security and stability of the supply chain for the low-altitude economy industry.

Geo-Chip Technology stated that it plans to continuously iterate its products and collaborate with industry chain partners to drive the evolution of low-altitude communication technology standards, injecting momentum into satellite internet, the low-altitude economy, and next-generation communication networks.