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DBpedia 2014

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Superheterodyne_receiver abstract "In electronics, a superheterodyne receiver (often shortened to superhet), uses frequency mixing to convert a received signal to a fixed intermediate frequency (IF), which can be more conveniently processed than the original radio carrier frequency. It was invented by US engineer Edwin Armstrong in 1918 during World War I. Virtually all modern radio receivers use the superheterodyne principle. At the cost of an extra frequency converter stage, the superheterodyne receiver provides superior selectivity and sensitivity compared with simpler designs.".
Superheterodyne_receiver thumbnail Toshiba_Vacuum_tube_Radio_.jpg?width=300.
Superheterodyne_receiver wikiPageExternalLink superhet.
Superheterodyne_receiver wikiPageExternalLink 7227912.html.
Superheterodyne_receiver wikiPageExternalLink receivers_superhet.cfm.
Superheterodyne_receiver wikiPageExternalLink receiver.htm.
Superheterodyne_receiver wikiPageID "29341".
Superheterodyne_receiver wikiPageRevisionID "605950313".
Superheterodyne_receiver align "right".
Superheterodyne_receiver direction "horizontal".
Superheterodyne_receiver footer "1940.0".
Superheterodyne_receiver hasPhotoCollection Superheterodyne_receiver.
Superheterodyne_receiver image "Philco radio model PT44 chassis back.jpg".
Superheterodyne_receiver image "Philco radio model PT44 front.jpg".
Superheterodyne_receiver width "150".
Superheterodyne_receiver subject Category:Communication_circuits.
Superheterodyne_receiver subject Category:Electronic_design.
Superheterodyne_receiver subject Category:History_of_radio.
Superheterodyne_receiver subject Category:Radio_electronics.
Superheterodyne_receiver subject Category:Receiver_(radio).
Superheterodyne_receiver comment "In electronics, a superheterodyne receiver (often shortened to superhet), uses frequency mixing to convert a received signal to a fixed intermediate frequency (IF), which can be more conveniently processed than the original radio carrier frequency. It was invented by US engineer Edwin Armstrong in 1918 during World War I. Virtually all modern radio receivers use the superheterodyne principle.".
Superheterodyne_receiver label "Receptor superheterodino".
Superheterodyne_receiver label "Récepteur superhétérodyne".
Superheterodyne_receiver label "Super-heteródino".
Superheterodyne_receiver label "Supereterodina".
Superheterodyne_receiver label "Superheterodyna".
Superheterodyne_receiver label "Superheterodyne receiver".
Superheterodyne_receiver label "Superheterodyne".
Superheterodyne_receiver label "Überlagerungsempfänger".
Superheterodyne_receiver label "Супергетеродинный радиоприёмник".
Superheterodyne_receiver label "スーパーヘテロダイン受信機".
Superheterodyne_receiver label "超外差收音机".
Superheterodyne_receiver sameAs Superheterodyn.
Superheterodyne_receiver sameAs Überlagerungsempfänger.
Superheterodyne_receiver sameAs Receptor_superheterodino.
Superheterodyne_receiver sameAs Récepteur_superhétérodyne.
Superheterodyne_receiver sameAs Supereterodina.
Superheterodyne_receiver sameAs スーパーヘテロダイン受信機.
Superheterodyne_receiver sameAs Superheterodyne.
Superheterodyne_receiver sameAs Superheterodyna.
Superheterodyne_receiver sameAs Super-heteródino.
Superheterodyne_receiver sameAs m.0787y.
Superheterodyne_receiver sameAs Q332683.
Superheterodyne_receiver sameAs Q332683.
Superheterodyne_receiver wasDerivedFrom Superheterodyne_receiver?oldid=605950313.
Superheterodyne_receiver depiction Toshiba_Vacuum_tube_Radio_.jpg.
Superheterodyne_receiver isPrimaryTopicOf Superheterodyne_receiver.