If the circumference of the helix is significantly less than a wavelength and its
pitch (axial distance between successive turns) is significantly less than a quarter wavelength, the antenna is called a
normal-mode helix. The antenna acts similar to a
monopole antenna, with an
omnidirectional radiation pattern, radiating equal power in all directions perpendicular to the antenna's axis. However, because of the inductance added by the helical shape, the antenna acts like an
inductively loaded monopole; at its
resonant frequency it is shorter than a quarter-wavelength long. Therefore, normal-mode helices can be used as
electrically short monopoles, an alternative to center- or base-loaded
whip antennas, in applications where a full sized quarter-wave monopole would be too big. As with other electrically short antennas, the gain, and thus the communication range, of the helix will be less than that of a full sized antenna. Their compact size makes
helicals useful as antennas for mobile and portable
communications equipment on the HF, VHF, and UHF bands. " used in portable radios. A handheld
two-way radio, with the rubber sleeve removed from the antenna. The loading provided by the helix allows the antenna to be physically shorter than its electrical length of a quarter-wavelength. This means that for example a wave antenna at 27 MHz is long and is physically quite unsuitable for mobile applications. The reduced size of a helical provides the same radiation pattern in a much more compact physical size with only a slight reduction in signal performance. An effect of using a helical conductor rather than a straight one is that the matching
impedance is changed from the nominal 50
Ω to between 25 and 35 Ω base impedance. This does not seem to be adverse to operation or matching with a normal 50 Ω
transmission line, provided the connecting feed is the electrical equivalent of a wavelength at the frequency of operation.
Mobile HF helicals Another example of the type as used in mobile communications is
spaced constant turn in which one or more different linear windings are wound on a single former and spaced so as to provide an efficient balance between
capacitance and
inductance for the radiating element at a particular resonant frequency. Many examples of this type have been used extensively for 27 MHz
CB radio with a wide variety of designs originating in the US and Australia in the late 1960s. To date many millions of these ‘helical antennas’ have been mass-produced for mainly mobile vehicle use and reached peak production during the CB Radio boom-times during the 1970s to late 1980s and used worldwide. TV broadcasting antenna, 1954 Multi-frequency versions with manual plug-in taps have become the mainstay for multi-band
single-sideband modulation (SSB) HF communications with frequency coverage over the whole HF spectrum from 1 MHz to 30 MHz with from 2 to 6 dedicated frequency tap points tuned at dedicated and allocated frequencies in the land mobile, marine, and aircraft bands. Recently these antennas have been superseded by electronically tuned antenna matching devices. Most examples were wound with
copper wire using a
fiberglass rod as a former. The usually flexible or ridged radiator is then covered with a PVC or polyolefin
heat-shrink tubing which provides a resilient and rugged
waterproof covering for the finished mobile antenna. The fibreglass rod was then usually glued and/or crimped to a brass fitting and screw mounted onto an insulated base affixed to a vehicle roof, guard or bull-bar mount. This mounting provided a ground plane or reflector (provided by the vehicle) for an effective vertical radiation pattern. These popular designs are still in common use and the
constant turn design originating in Australia have been universally adapted as standard FM receiving antennas for many factory produced motor vehicles as well as the existing basic style of aftermarket HF and VHF mobile helical. Another common use for broadside helixes is in the so-called
rubber ducky antenna found on most portable VHF and UHF radios using a steel or copper conductor as the radiating element and usually terminated to a BNC/TNC style or screw on connector for quick removal.
Helical broadcasting antennas Specialized normal-mode helical antennas
(see photo) are used as transmitting antennas for
television broadcasting stations on the VHF and UHF bands. These consist of a
helical conductor around a tubular steel pole, mounted on standoff insulators. The element consists of two equal length helices, a right-hand and a left-hand, joined at the center. The rod and the surface of the pole under it act as a leaky
transmission line, radiating radio waves perpendicular to the pole. The antenna is fed at the bottom, and unlike other normal-mode helicals functions as a
traveling-wave antenna, with the amplitude of the current decreasing going up the shaft as the energy is radiated. At top the current is down by 40 dB, so there isn't much reflection. To radiate perpendicularly, the length of each turn must be a multiple of the
wavelength, in most antennas 2 wavelengths. The antenna has a
bandwidth of only 6-7%, so to make it adjustable to different frequencies the element is divided into multiple vertical "bays", with a phase-adjustment "collar" between each, to keep the phase constant along the length of the tower. ==Axial-mode helical==