A signal raidates from an aerial in a certain pattern. Different aerials radiate signals in different patterns. For instance, a single standard vertical aerial will send out signals 360 degrees all around but not really up or down. A signal will hit the Atmoshpere from the radiation angle, which is simply the angle at which the waves are travelling. From the top tip and bottom tip of an aerial is the least signal coming out, like the light from a flourescent bulb. When this same aerial is sitting horizontally, all though the pattern doesn't change that much the waves are now up and down, instead of all around. The tips of this aerial will again transmit the least.
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The diagram on the left represents an aerial standing vertically emitting radio waves. The diagram on the right represents an aerial sitting horizontally emitting radio waves. These radio waves don't just go out sideways, they go out of the aerial all around. Picture a donut, that is how radio waves come out of an aerial, in the shape of a donut (Depending on the aerial of course!). |
Cable is your radio's lifeline through which the RF flows.
The signal from a CB transmitter goes through coaxial cable to an aerial. Maybe not just one aerial, perhaps 2 or 3 aerials. Not all at once of course, one aerial at a time. Perhaps aerials with different polarisations, radiation patterns (both explained above), and gain. At UHF the higher gain causes a flatter radiation angle resulting in more ground-plane aspect for your signal. This longer direct travel is achieved over flat terrain, and the range can be quite stunning in the country, however, a mobile in hilly areas would find themselves at a distinct disadvantage with a high-gain whip, especially where repeater access is needed.
There are 4 common cable specifications, each of 50ohm impediance (the resistance of the cable formed by some factors.), and their loss figures are rated on a 30m run.
The thinnest cable, and the one most suitable for mobile installations, is RG-58U or the superior RG-58C/U. RG-58 has a loss of 13.5dB over 30 metres at UHF CB frequencies, so even a 15m run there's a fair bit of loss. RG-213 is the most commonly used for base stations and represents an improvement of massive proportions over the RG-58 family. It has a loss factor of only 5dB over 30m, although after adding a few in-line connectors and other things, the figure will come to a good 6dB.
All of these cables are used in domestic/commercial environments. Radio stations however, that transmit kilowatts of power use co-axial cable that can be around 10cm thick.
Aerials have different names, such as Yagi-uda Beam or just "Yagi" or "Beam", Dipole, longwire, Helical Whip or just Whip and some others.
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A multiple array of beams, including one that's even cross-polarized |
The centre frequency at 27MHz is 11.11m long, dipoles are generally of quarter wavelength pieces, so the wavelength is 2.78m long and so each piece is 2.78m long. The wavelength of a frequency is calculated by an equation which is 300/frequency. So 300/27=11.11
The live part transmits the + (positive) part of the signal and the
earth, the - (negative) part of the signal. Like a wired circuit they meet
up in the air and create a closed circuit. Wavelengths explained in detail, later on.
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The Stationmaster is made up of Aluminium making up the half wave of
the CB band. It has a coil at the bottom that mainly transmits the signal.
The Itron however, has a sealed base containing an automatic antenna tuner.
The coil will weather. This type of aerial stands vertically, being about
5.5 meters long or about 18ft (A half wave) They transmit signals in vertical
polarization, 360 degrees. An Itron is pictured here. The black loop at the bottom is the co-axial cable wound up. This prevents water that may get into the co-axial line from travelling down the cable and all through out it. It can be expensive to replace co-axial cable runs, especially with RG-213 co-ax costing $3/m. |
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Here, the choice is much simpler. Almost all 477MHz base antennae other than directional beams or "Yagi" arrays are of "co-linear" design. These vertical omni-directional antennae are usually manufactured from fibreglass and aluminium, and the main variant outside the construction and materials used is their gain figure. The most common figures are 6dB, 9dB and 12dB. Which one is right for you? It depends almost entirely on the surrounding terrain. The general rule is that the flatter the land around your station, the less the gain required. The gain figure alters the angle of radiation, this basically being whether your signal rises upwards or remains relatively flat. |
The longwire is very similar to the Dipole in appearance bit is different
electrically. A longwire is connected at one end, usually only the + is
connected and the - runs straight to the ground in this case. The - can
also be connected to a water downpipe or metal stake in the ground. Longwires
are used for receivers, and are commonly used in the HF part of the spectrum. (HF = High frequency, 3 - 30MHz)
Helical Whips pictured
The Helical Whip is a name for an aerial for C.B, but also for Amateur and commercial two-way radio set-ups in cars. A Helical Whip is usually made up on a fibre glass rod, a wire is slowly wound up along the fibre glass rod. Near the top it winds into a coil and then smooths out into an ordinary turn like before the coil. The coil part radiates the bulk of the signal. Due to wavelengths, the aerial might have to be tuned, and that is given the term "swer'ing" The "Swer" of an Aerial means, Standing Wave Ratio. S.W.R is its real name. It is the ratio of standing or reflected waves to roughly how many are getting out. It really measures the ratio of reflected waves, the less reflection the better, more reflection means trouble. If there is a ratio greater than 2:1, then components in the radio called `finals' can overheat and burnout. The finals are safety & power controllers so no part of the radio is damaged, the finals can be cheaply replaced (depending on make and brand). Some information courtesy of (Ken Bowman N9MVF). How to tune an aerial.
The length of the antenna for 477MHz CB is extremely critical, the wavelength of 477MHz is around 62cm. For this reason many 477MHz "whips" come out of the factory pre-tuned. Quarter wave ground planes are the most basic whips. They are constructed of stainless steel or wire, for more flexibility. At 15cm length they are relativley small. Quarter-wave antennae have a naturally high angle of radiation (explained at top) and are best used in hilly country and with repeaters, as they are ideal for carrying the mobile signal from a low point such as your vehicle up to a repeater on the top of a mountain or city building.
The best mount position for a quarter wave is in the middle of any groundplane surface that can offer at least the radius of the whip and is unobstructed, such as the middle of the car's metal roof.
Centre-loaded helical whips are the next step up, with gain figures varying from 3dB to 4.5dB. This will give you a relatively good "flat" signal component for direct car-to-car or simplex range, as wall as a good angle for accessing repeaters.
Dipoles are the next step up, from a fairly middle-of-the-road 3dB to centre-loaded whips with a high gain figure of some 6dB.
You can also get mobile CB aerials for 27MHz up to a quarter wave length being 2.78m. This is not always practical to have on a car (the aerial can become damaged easily and can damage other objects as well), but produces the best signal radiation. They cost around $100.