Feedlines: Difference between revisions
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Three types of feed lines are used by amateurs : Coaxial cable, Open Wire and Waveguides. Links to pages describing these feedlines can be found below. | Three types of feed lines are used by amateurs : Coaxial cable, Open Wire and Waveguides. Links to pages describing these feedlines can be found below. | ||
'''Coaxial Cable''' is made of a central conductor | '''[[Coaxial Cable]]''' is made of a central conductor surrounded by a layer of insulating material with a second layer of conducting material over that and insulation on the outside. The inner conductor is either solid copper or stranded copper wire, while the outer conductor is either braided wire or a copper sheath. A protective coating covers the conductors. '''Hardline''' is coaxial cable in which the outer conductor is solid copper. Most coaxial cables used in amateur installations have impedance of either 50 ohms of 75 ohms. The outer conductor of coaxial cable serves to confine electromagnetic energy within the cable. Common grades of coax include [[RG-174]], [[RG-58]], RG-59, [[RG-8]], [[RG-213]], and [[9913]]. | ||
''' | '''[[Balanced Line]]''' feedlines are composed of two conductors arranged side by side (parallel. Flat TV twinlead is an example of open wire cable, and has an impedance of either 300 ohms. Amateurs more commonly use ladder line, which has rectangular sections removed from the center insulator at regular intervals; ladder line typically has an impedance of 450 ohms. Both of these types of line are very sensitive to moisture (rain will change the impedance) and can interact with nearby objects (unlike coax, they should not be coiled or allowed to lie directly on the ground). | ||
'''Waveguides ''' are used in microwave | '''[[Waveguide|Waveguides]]''' are used in microwave stations. A waveguide is a hollow tube made of conducting material, typically copper, through which electromagnetic energy is transmitted. The tube serves the same purpose as the outer conductor of coaxial cable, confining electromagnetic energy and directing it along the length of the waveguide. Waveguides are not practical below microwave frequencies. | ||
Revision as of 18:19, 8 March 2008
Feedlines - What are they?
Otherwise known as transmission lines, feed lines are used to transfer RF energy between a transceiver and the antenna.
Three types of feed lines are used by amateurs : Coaxial cable, Open Wire and Waveguides. Links to pages describing these feedlines can be found below.
Coaxial Cable is made of a central conductor surrounded by a layer of insulating material with a second layer of conducting material over that and insulation on the outside. The inner conductor is either solid copper or stranded copper wire, while the outer conductor is either braided wire or a copper sheath. A protective coating covers the conductors. Hardline is coaxial cable in which the outer conductor is solid copper. Most coaxial cables used in amateur installations have impedance of either 50 ohms of 75 ohms. The outer conductor of coaxial cable serves to confine electromagnetic energy within the cable. Common grades of coax include RG-174, RG-58, RG-59, RG-8, RG-213, and 9913.
Balanced Line feedlines are composed of two conductors arranged side by side (parallel. Flat TV twinlead is an example of open wire cable, and has an impedance of either 300 ohms. Amateurs more commonly use ladder line, which has rectangular sections removed from the center insulator at regular intervals; ladder line typically has an impedance of 450 ohms. Both of these types of line are very sensitive to moisture (rain will change the impedance) and can interact with nearby objects (unlike coax, they should not be coiled or allowed to lie directly on the ground).
Waveguides are used in microwave stations. A waveguide is a hollow tube made of conducting material, typically copper, through which electromagnetic energy is transmitted. The tube serves the same purpose as the outer conductor of coaxial cable, confining electromagnetic energy and directing it along the length of the waveguide. Waveguides are not practical below microwave frequencies.