wireless
12-21-2017, 02:01 PM
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Wi-Fi: Communicate using 3D printed mechanisms (http://news.google.com/news/url?sa=t&fd=R&ct2=ca&usg=AFQjCNFIuDSWwyV-oXXJZbJTPIRhbcjmMg&clid=c3a7d30bb8a4878e06b80cf16b898331&ei=3cw7WvCSM926qgKPgrKACg&url=https://www.elektormagazine.com/news/wi-fi-communicate-using-3d-printed-mechanisms)
Elektor (blog)
At 2.4 GHz typical for Wi-Fi and Bluetooth, the wavelength λ = 12.5 cm. There is no need for electronic components such as coils and capacitors to make the antenna more compact. Researchers at the University of Washington have incorporated printed ...
Courtesy of WestNet City Wi-Fi
www.westnet.ca
Wi-Fi: Communicate using 3D printed mechanisms (http://news.google.com/news/url?sa=t&fd=R&ct2=ca&usg=AFQjCNFIuDSWwyV-oXXJZbJTPIRhbcjmMg&clid=c3a7d30bb8a4878e06b80cf16b898331&ei=3cw7WvCSM926qgKPgrKACg&url=https://www.elektormagazine.com/news/wi-fi-communicate-using-3d-printed-mechanisms)
Elektor (blog)
At 2.4 GHz typical for Wi-Fi and Bluetooth, the wavelength λ = 12.5 cm. There is no need for electronic components such as coils and capacitors to make the antenna more compact. Researchers at the University of Washington have incorporated printed ...
Courtesy of WestNet City Wi-Fi
www.westnet.ca