DE1294497B - Logarithmic periodic dipole antenna - Google Patents

Description

1 2

The invention relates to logarithmic perio-dimensions suitable. Because of the tension of the dische dipole antennas whose elongated half-dipoles are half-dipoles in several planes damage in each case alternately on one of the two conductors one of the arrangement largely unbalanced by wind load Feed line are connected, switched. The arrangement can easily be transdie from the feed point of the antenna diagonally upwards 5 and can be set up in a short time, runs. The dipole antenna is expediently designed

It is already such a logarithmically periodic leads that the two conductors of the supply line dipole antenna are known, which are used in particular for high frequency communication systems in a vertical plane, one above the other. With such a dipole antenna, the between the known arrangement, all half-dipoles are perpendicular and the vertical plane through the angle formed by the two conductors of the supply line attached to the vertical plane and thus run parallel to the ground. The Θ _η greater than 90 °, for example 90 ° + δ. The arrangement is constructed in such a way that two steel masts, embodiments of the invention are rearranged, between the tips of which the longest standing is described with reference to the drawings. The dipole is stretched. The feed line is shown from FIG

Center of the longest dipole obliquely to the earth F i g. 1 is a schematic view of a known one

tense. The vertex of the arrangement is on the flat logarithmically periodic dipole antenna with Anchored to the ground. From the top of each mast crossed ladders of the supply line, Tension wires run to the vertex, which for this purpose F i g. 2 is a view of an also known one

serve to hold the outer end of the half-dipoles. 20 structurally large antenna of the in F i g. 1 shown The half-dipoles are attached so that they are parallel to the species that is built on the ground in the Run to the ground. This arrangement is because of the supporting masts used and those at high both Masts as well as the necessary tension wires frequency communication systems are used, relatively complex and consequently also costly. 3 is a perspective view of one on top of the

playful. 35 large dipole antenna attached to the ground according to

Since in this arrangement the individual half-dipoles invention,

are spanned in a plane, the arrangement Fig. 3a is a side view of the dipole antenna according to

also sensitive to wind, and it can therefore be used from a F i g. 3,

certain size only with special detail. Fig. 3b is an enlarged view of part of the

wall must be carried out safely. 30 in FIG. 3 dipole antenna shown,

On the other hand, it is a logarithmically periodic FIG. 3c, a section through the dipole antenna according to FIG

Dipole antenna is known in which the half-dipoles are shown in Fig. 3 along the section line 3c-3c in Fig. 3b, also all perpendicular to a vertical plane through F i g. 4 shows a plan view of an exemplary embodiment

the feed line, but in the case of an antenna arrangement made up of several individual dipoles Half-dipoles still to the feed line 35 according to the invention and are inclined (Electronic Industries, November F i g. 4 a a side view of part of the antenna

1962, p. 230). This arrangement has only a very small internal arrangement according to FIG. 4th

Dimensions, and it is represented by a simple In Fig. 1 contains a known plane logarithmic

Rod, which in the center of gravity of the arrangement mixed periodic dipole antenna two conductors 11 and 12, is consolidated, held. Because of this construction, this 40 is the one at the feed end with a connection 13 for Arrangement, even with their small dimensions, the energy supply are connected. Each of the conductors 11 very sensitive to wind. It is also only suitable for and 12 has several half-dipoles 14 and 15, respectively a low frequency range. lie plane-parallel to each other, which are

The invention is based on the object of increasing the length of one end of the antenna and the logarithmically periodic dipole antenna, 45 alternating in opposite directions which protrude at least the same broadband and other their associated conductor. The semi-electric Has properties like the well-known dipoles 14 and 15, the same distances from the antenna, in which, however, the antenna gain per leading end of the antenna have such. B. 14 ' Unit weight is increased and which are easier to set up and 15 ', have the same lengths and protrude into opposite builds and can be transported better. 50 put directions out.

This object is achieved in that the upper This plane dipole antenna has the construction

End of the feed line on a single mast parameters cc, τ, X _n and L _n , which is fixed by the frequency and that the half-dipoles are determined by their connection bandwidth and the desired antenna gain place on one of the two conductors inclined downwards. Where the arrangement is one and is defined at its lower end by insulating 55 closing angles, X _n is the distance that clamping devices are connected to the ground measured along the central axis of the antenna from. the projecting or true vertex of the

The dipole antenna according to the invention can be built into an antenna to a dipole n, L _n is the length of the semi-simple way in that first a dipole n, .Sf _{n + 1} is the distance from the true apex of the mast and that the feed 60 point to a dipole directly in front of n, L _n +! is the length of the line from the top of the mast at an angle to the ground of the half-dipole directly in front of n, and the ground is stretched to a feed point. At-

then the two conductors are connected to _{τ =} " ⁺¹ _ ^{w + 1} _m

guide line with the aid of insulating tensioning devices X _n L _n

directions the individual half-dipoles obliquely to 65

stretched down to earth. The length of the longest half-dipole is a quarter

In this way, a simple and very much the wavelength of the corresponding lowest solider results Structure that is particularly suitable for high drive frequencies and the length of the shortest half

3 4

dipole is one eighth of the wavelength of the corresponding longer, and / _{2 is} the frequency at which the shortest highest operating frequency. Half dipole is slightly shorter than half a wavelength.

In Fig. 2 is a known practical embodiment. The power consumption is essentially only through Example of the dipole antenna according to FIG. 1 shows the structure of the supply line with the two that limits 5 conductors in high-frequency communication systems.

is turned. The antenna has large dimensions. The antenna according to FIG. 3 was dimensioned so

and is attached to the surface of the ground. In that it works in a frequency band from 4 to 30 MHz of this embodiment of the known plane dipole. A single transportable 21 m antenna, two masts 16, 17 are required between high masts. The angle Θ _{η of} the two longest half-dipoles extended and the special antenna was 90 ° + 35 °.
are attached to them, the two conductors 11, 12. The vertical radiation pattern is indicated by the

from a point between the peaks of the two heights of the frequency-dependent phase center over masts to the ground and determined by one of the ground. At the lowest frequency, tension wire should be held in a chain line shape. the result was a radiation angle of 60 °, at 15-30 MHz, a radiation angle of 30 ° must also be obtained from the tips of the two masts.
two chain-line tension wires to the ground The ripple factor was over most of the

run that serve the outer ends of the frequency band 2: 1 or lower, although he Half-dipoles 14, 15, which are parallel to the ground - under certain conditions at the lowest freezing point are to hold. sequence 3: 1 reached, which necessarily results,

In the following are several embodiments ao if you want to maintain the height of the mast,
of the new dipole antenna and its typical applications Two different types of masts can be used,

application areas described. one collapsible and one foldable,

In the case of the new dipole antenna, one or one will be turned. The collapsible mast is required two additional variable parameters. easy to move, space-saving and easy to assemble; One of these variables is the angle Φ «35 it consists of a base part, a collapsible one between the longitudinal axis of the supply line and the baren supply line and collapsible one of the longitudinal axis of the half-dipole . The other variable part and can be built in 30 minutes, borrowed is the angle Θ _η , through the plane in which a collapsible 21 m high mast requires the half-dipole η and the ladder to lie, and through the five sets of guy ropes, a 15 m high vertical plane that runs through the longitudinal axis of the conductor 30 collapsible mast only three. Both designs goes through, is formed. are usually lifted with a hand winch

In Fig. 3 is an embodiment of the loga cranks, with which one can wind up a 90 kg antenna as well as a rithmically periodic dipole antenna according to the figure, the mast components,
finding with the parameters Θ _η = 90 ° + δ, Φ _η = 90 ° The foldable mast is shown easily assembled from. Essentially, the 35 baren, resistant aluminum parts shown here consist of a further development of the dipole antenna according to FIG. 1 builds that weigh less than 3.75 kg per meter. An and 2 in that all half-dipoles 14 and 15 are rotated around the appropriate points of the mast beforehand to the same angle δ , that the half-dipoles are attached to wrapped guy ropes,
on opposite sides of the conductors in ent- The feed line and the half-dipoles can

opposite directions around the longitudinal axis of the 40 as a whole are previously mounted and rotated to form a feed line and that the rotation bundles are rolled up. The feed line in the plane of the half-dipole and perpendicular to it contains a calibrated spring-loaded device with a feed axis. The half-dipoles are on which the load-bearing element can be quickly and easily tensioned on the opposite sides of the feed line. The ends of the half-dipoles rotated from opposite directions. The dielectric cables held with O _n (R) 45 can refer to the right-hand snap hooks and parts with which the length and side and the angle marked O _n (L) can be quickly adjusted to , provided left side when looking from the vertex along the be. The anchoring points of the half-dipoles can see feed line. easily fixed with a calibrated tape.

The real meaning of this antenna recognizes 50. The parameters cn and τ can only be compared to the known ones when one looks at their arrangement with the antenna logarithmically periodic dipole antennas as shown in FIG. 2 compares. The antenna according to FIG. Assume 3 values.

to 3c is easily supported by a single mast 18, In F i g. 4 shows an antenna arrangement,

the two conductors 11, 12 running between the tip, which is made for a 360 ° radiation diagram, of the mast 18 and the ground and there 55 where the two parameters Φ _η and O _n are anchored to other values. It's just a single chainline exhibit. This antenna arrangement requires a tension wire 19 required to suspend the feed line single, centrally located support tower 22, which is. The half-dipoles 14, 15 run obliquely upper ends of the four sets of conductors 11, 12 holds, inclined towards the ground, and the outer ends whereby the opposite ends of the two-wire of the half-dipoles are e.g. B. are anchored via tension wires 21 on the 60 supply lines in the ground. Attached to the ground. In this antenna, the half-dipoles are as in FIG. 3 Arrangement of the complicated and expensive two - all turned down to the ground, with mast attachment, which for an antenna structure according to O _n (R) and O _n (L) = π / 2 + δ and at the same time each F i g. 2 is necessary. Half-dipole to the apex of the arrangement

The antenna works as follows: It rotates 65 so that the angle O _n (R) and Φ _η (Ώ) - π / 2 + δ ' horizontal polarization, and the bandwidth is sufficient. In Fig. 3 is the angle _Φ η equal to π / 2 or 90 °, from Z ₁ to / _2, where J ₁ is the frequency at which the rotating When δ the half dipoles by Φ "= π / 2 + ', longest half dipole an half wavelength or something then overlap the half-dipoles that the mast 22

are closest in the various arrangements, not with the half-dipoles of the neighboring dipole antennas, thereby eliminating interference.

Claims (4)

Patent claims: 1. Logarithmic periodic dipole antenna, the stretched half-dipoles of which alternate are connected to one of the two conductors of a symmetrical feed line, which from The feed point of the antenna runs obliquely upwards, characterized in that the upper end of the feed line (11, 12) is attached to a single mast (18) and that the half-dipoles (14, 15) from their connection point on one of the two conductors (11, 12) downwards are inclined and at their lower end by insulating jigs (21) to the ground are connected. 2. Logarithmic periodic dipole antenna according to claim 1, characterized in that the two conductors (11, 12) of the supply line are arranged one above the other in a vertical plane. 3. Logarithmic periodic dipole antenna according to claim 1 or 2, characterized in that the half-dipoles (14, 15) additionally against the supply line (11, 12) to the feed point of the Are inclined towards the antenna. An antenna arrangement comprising a plurality of logarithmically periodic dipole antennas according to claim 3, characterized in that the antennas are arranged radially around a single mast (22) and that their feed lines (11, 12) are held by the one mast (22). 1 sheet of drawings