Samsung Electronics Co. Ltd. said it has developed the world's first adaptive array transceiver technology operating in the millimeter-wave Ka bands for cellular communications. The South Korean giant said the new technology forms the core of a 5G mobile communications system and can provide data transmission up to several hundred times faster than 4G networks.
According to Samsung, 5G, which Samsung hopes to have available around 2020, will be capable of providing a ubiquitous Gbps experience to subscribers anywhere and offers data transmission speeds of up to several tens of Gbps per base station.
To date, there has been almost no standardization effort around 5G. In many parts of the world, equipment supporting 4G has not yet been deployed.
According to Samsung, the implementation of a high-speed 5G cellular network requires a broad band of frequencies, much like an increased water flow requires a wider pipe. Tt has been long believed that the millimeter-wave bands had limitations in transmitting data over long distances due to its unfavorable propagation characteristics, Samsung said.
But the new adaptive array transceiver technology transmits data in the millimeter-wave band at a frequency of 28 GHz at a speed of up to 1.056 Gbps to a distance of up to 2 kilometers, Samsung said. The firm maintains that the adaptive array transceiver technology, using 64 antenna elements, can be a viable solution for overcoming the radio propagation loss at millimeter-wave bands, much higher than the conventional frequency bands ranging from several hundred MHz to several GHz.
Samsung said it plans to accelerate the research and development of 5G technologies, including adaptive array transceiver at the millimeter-wave bands, to commercialize those technologies by 2020.
Samsung expects its latest innovation to spur research into 5G across the world, triggering the creation of international alliances and the timely commercialization of related mobile broadband services.
Andrzej11 is right--this is a highly defined lab experiment filtered through the marketing department. With high-gain antenna arrays on towers 2 km apart in the desert and enough transmitting power you could overcome the path loss. But this won't be appearing in cell phones any time soon.
Samsung is showing they have vision and enough confidence to put it out publicly.
The real winners are the cell phone companies. At these speeds, they have far less connect time for the standard e-mail, web pages and little comments like this.
A press release for a technology to be launched in 2020! In the labs atleast 10 other companies must be doing similar things. Samsung is focusing more on marketing and maneuvering the media than its products.
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