Mobile antenna: Difference between revisions
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== Pedestrian Mobile == | == Pedestrian Mobile == | ||
Antennas for handheld transceivers tend to be limited due to space constraints, with vertical antennas of 1/4 wavelength (at VHF) or smaller commonly used. | Antennas for handheld transceivers tend to be limited due to space constraints, with vertical antennas of 1/4 wavelength (at VHF) or smaller commonly used. | ||
Antennas for handheld transceivers typically do not provide a proper ground plane; the unit itself and any attached cables (such as external speaker/microphone or power) serve as a rudimentary ground plane for a vertical antenna. | |||
== Mobile Antenna Design == | == Mobile Antenna Design == | ||
Most antennas in land-mobile operation are verticals, both due to their smaller size (as compared to [[dipole]]s and their derivatives) and their omnidirectional characteristics. As a vertical antenna is effectively one-half of a dipole, it may be as small as one-quarter wavelength but normally must be operated against a ground plane. For antennas mounted on vehicles and small watercraft, the metal body of the vehicle itself is most often connected to the station ground and used as a groundplane. | |||
Where insufficient space exists to accommodate a quarter-wavelength or larger antenna (typically an issue for HF or mediumwave antennas in mobile operation), [[antenna loading]] coils are used to lower the resonant frequency of the antenna. Selection of suitable loading coils for each individual HF band is typically done manually, using either a single variable inductor (as in the [[screwdriver antenna]]), a single inductor with multiple manually-selectable taps to allow part of the coil to be bypassed at higher frequencies, or by using a series of interchangeable elements with different loading coils for each band. | |||
== Capacity Hats == | == Capacity Hats == |
Revision as of 15:00, 5 June 2009
Mobile antennas are designed to be used for operation while in motion. Their uses include pedestrian mobile operation while walking, bicycle-mounted antennas for use while riding, and the most common form, automobile-mounted antennas for use while driving.
Mobile antennas should not be confused with portable antennas, which are designed to be easy to transport and set up, but are not used while in motion.
Automobile Mobile
Mobile antennas for automobiles are usually verticals of limited height. They must allow the vehicle to be driven under an overpass or tree branch without damaging the antenna or vehicle. A common maximum height for this type of antenna is 13 feet 6 inches (410 cm). On VHF and higher frequencies this is not difficult, but HF requires that mobile antennas be loaded.
Pedestrian Mobile
Antennas for handheld transceivers tend to be limited due to space constraints, with vertical antennas of 1/4 wavelength (at VHF) or smaller commonly used.
Antennas for handheld transceivers typically do not provide a proper ground plane; the unit itself and any attached cables (such as external speaker/microphone or power) serve as a rudimentary ground plane for a vertical antenna.
Mobile Antenna Design
Most antennas in land-mobile operation are verticals, both due to their smaller size (as compared to dipoles and their derivatives) and their omnidirectional characteristics. As a vertical antenna is effectively one-half of a dipole, it may be as small as one-quarter wavelength but normally must be operated against a ground plane. For antennas mounted on vehicles and small watercraft, the metal body of the vehicle itself is most often connected to the station ground and used as a groundplane.
Where insufficient space exists to accommodate a quarter-wavelength or larger antenna (typically an issue for HF or mediumwave antennas in mobile operation), antenna loading coils are used to lower the resonant frequency of the antenna. Selection of suitable loading coils for each individual HF band is typically done manually, using either a single variable inductor (as in the screwdriver antenna), a single inductor with multiple manually-selectable taps to allow part of the coil to be bypassed at higher frequencies, or by using a series of interchangeable elements with different loading coils for each band.
Capacity Hats
Refer to KE4UYP's article on Capacity Hats.
Antennas | |
Design | Beam * Dipole * Dish or Parabola * DDRR * Log Periodic (LPDA) * Loop * Mobile and portable * Omnidirectional * Panel * Quad and Quagi * Screwdriver * Small tuned loop * Vertical * Yagi-Uda * Wire and random wire antennas |
Installation | Antenna Tuners * Capacity hats and loading coils * Cavity filters * Coaxial Cable * Feedlines * Rotators * Towers and Masts * VK2ACY - G5RV coupler |
Theory | Front-to-back ratio * Impedance matching * SWR * Tower design * Vertical Antenna efficiency * Wire comparison tables |