A new wireless transceiver invented by electrical engineers at the University of California, Irvine boosts radio frequencies into 100-gigahertz territory, quadruple the speed of the upcoming 5G, or fifth-generation, wireless communications standard.
Labeled an “end-to-end transmitter-receiver”, the 4.4-millimeter-square silicon chip is capable of processing digital signals significantly faster and more energy-efficiently because of its unique digital-analog architecture.
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Academic researchers and communications circuit engineers have long wanted to know if wireless systems are capable of the high performance and speeds of fiber-optic networks.
The Federal Communications Commission recently opened up new frequency bands above 100 gigahertz.
This new transceiver is the first to provide end-to-end capabilities in this part of the spectrum.
Having transmitters and receivers that can handle such high-frequency data communications is going to be vital in ushering in a new wireless era dominated by the “internet of things,” autonomous vehicles, and vastly expanded broadband for streaming of high-definition video content and more.
This innovation eliminates the need for miles of fiber-optic cables in data centers, so data farm operators can do
News Source: UCI