DE1266372B - Counterweight arrangement for a shortwave antenna system of the logarithmic-periodic type - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN WWW PATENT OFFICE

EDITORIAL

Int. CL:

Number:
File number:
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HOIq

German class: 21 a4 - 65

G37417IXd / 21a4
April 1, 1963
April 18, 1968

The invention relates to a counterweight arrangement for a shortwave antenna system of the logarithmic-periodic type in which vertical radiators are connected to a feed line extending in the longitudinal direction are connected, their radiator length and their mutual distance from the end of the Decrease the feed line in the direction of its beginning, so that the vertical radiator with advancing Phase relationship are excited. Such an unbalanced antenna arrangement requires a Counterweight.

Counterweights generally consist of ladders buried in the ground near the surface of the earth will.

In the case of vertical antennas, use is made, for example, of the base point of the antenna radiator Counterweight ladder (French patent 532431).

In the case of an antenna arrangement consisting of two vertical antennas, counterweight conductors are used, which roughly follow the current paths in a completely conductive ground for the antenna arrangement would arise.

For an antenna system by means of elongated horizontal ones extending in the direction of radiation Antenna wires are formed, it is known «5 a fan-shaped counterweight system to use that from a point below the feed point of the antenna radiator goes out (Swiss patent specification 101910).

A counterweight arrangement according to the invention for a shortwave antenna system of the logarithmic periodic Type also uses counterbalance conductors, which essentially follow the current paths, which would result in a completely conductive ground for the antenna system in the ground. A counterweight according to the invention works with high efficiency over a wide frequency band and requires little material to manufacture the counterweight. The counterweight works with good Efficiency essentially independent of the selected operating frequency and the nature of the soil and only low electrical losses.

A counterbalance arrangement for a shortwave antenna system of the log-periodic type, in the case of the vertical radiator to a feed line extending in the longitudinal direction with from the end of the Feed line of decreasing radiator length and mutual distance are connected and with progressing Phase relationship are excited, characterized according to the invention in that of a counterweight arrangement for a parallel under the radiator base points

Shortwave antenna system

of the log-periodic type

Applicant:

Granger Associates, Palo Alto, Calif. (V. St. A.)

Representative:

Dr. phil. G. B. Hagen, patent attorney,

8000 Munich-Solln, Franz-Hals-Str. 21

Named as inventor:
John Van Nuys Granger,
Atherton, Calif. (V. St. A.)

Claimed priority:

V. St. v. America April 2, 1962 (184 461)

to the feeder of the antenna extending parallel conductors radiate out counterweight conductors and that from a merging point of the outer ends of two each radial-shaped Counterweight ladders extend parallel to the parallel ladder counterweight ladder extensions.

The counterweight arrangement is expediently chosen such that the counterweight ladder a radial counterweight ladder group have the same length and the ladder lengths of the radial Also decrease counterweight ladder groups according to their decreasing mutual distance from one another.

The length of the ladder of the radial counterbalance ladder groups is approximately equal to the length of the associated antenna radiator, and the length of the longitudinal axis of the antenna system is parallel Extending extensions of the radial counterweight ladder expediently extends to beyond the base of the shortest antenna radiator.

Further expediencies and features of the invention emerge from the following description in connection with the figures. It shows

Fig. 1 is a schematic partial representation of a previously customary counterweight for one of only one Radiator existing vertical antenna,

809 539/132

3 4. "

FIG. 2 is a perspective illustration of a current image that corresponds approximately to the result logarithmic-periodic antenna arrangement, be F i g. 3.;

standing from vertical radiators, with a logarithmic-periodic antenna

Fig. 3 is a schematic representation of the arrangement fall on the radially directed earth currents an antenna arrangement according to FIG. 2 resulting in 5 a negligibly small value in the case of an earth leakage current, stood a quarter of a wavelength from the longitudinal

Fi g. 4 is a plan view of an axle according to the invention. The intensity of the parallel to the longitudinal axis & counterweight. Directed earth currents is over several wavelengths

In Fig. 1 is a counterweight 2 for a vertical in FIG. 3 constant. Antenna radiator 1 should be shown for each operating frequency. The counterweight, a logarithmic-periodic antenna arrangement 2, consists of a plurality of radiating counterweight wires with current paths which extend from a point below the antenna radiator 1 in FIG. 3 are shown. It should be the opposite of the wires that are buried near the surface of the earth weight wires in each direction up to a point below the antenna 1. The extent at which the intensity of the currents is low excitation takes place at the terminals 3, and the one supply i ₅ is compared to the intensity at the connection line is with the antenna radiator 1 and the point of the counterweight wires. This distance other connected to the counterweight 2. Ver is of the order of a quarter wavelength search have shown that in the shortwave band the radially extending wires in the lateral directions and in the backward direction should be several directions of the antenna and of the order of magnitude of the operating frequency and the 20 rerer Do not misalign the wavelengths in the forward direction of the wires by more than 10 to 30 ° from one another. The distance between the heads of the opposites should be. Although such an arrangement should be small in weight compared to the shaft forming a high efficiency counterweight, length,
but a lot of conductor material is required. A ladder arrangement for a counterweight,

2 shows a logarithmic-periodic antenna arrangement 4 which fills the conditions discussed above, consisting of vertical antennae, specifically within the entire working band, the antenna antennae of the logarithmic-periodic antenna arrangement in a straight direction are arranged and larger in F i g. 4 shown. The radially extending counterparts are spaced apart. The feed weight conductors 10 to 17, which can be carried out by means of a high-frequency line 5, 6, _30, 18 to 25 assigned to the antenna radiators, extend approximately one conductor to the antenna arrangement and a quarter wavelength with respect to the base of the other conductor to the counterweight 7 other antenna radiators in question are closed on the sides. The radiation has a direction that and backwards. In the forward direction from the longer radiating elements 8 to the shorter, however, additional, relatively long conductor extensions 10 'are zeren radiating elements 9, ie a line 35 to 17' is provided which extends parallel to the longitudinal axis, as shown in FIG Arrow shown extend the antenna assembly. The middle one is. In operation, with such an antenna conductor 18 ', only some of the radiator elements in the antenna arrangement extend in the longitudinal axis of the arrangement and, connected to the center, are excited at the operating frequency. of radial conductors 10 to 17. It should be noted that

For a mode of operation with a high degree of efficiency 40, the conductor 10 ′ must be connected to the conductors 10 at the end a good counterweight can be used, and the one which is perpendicular to the longitudinal axis of the request The construction of the counterweight is of the antenna arrangement near that for the lowest It is important to know which current paths and frequency to avoid the antenna radiator 18 provided relative amplitudes the earth currents have, go. The ladder extensions 1Γ are with the outer thus connected the various parts of the counterweight in 45 ends of the ladder 11, which are below right Correspondingly, angles with respect to the longitudinal axis of the antennas can be arranged the most favorable possible counterweight arrangement in the vicinity of the antenna element 19 to build. go out. It should be noted that the ladder extensions

If only a single radiator element 11 'is also connected to the conductors 10, which according to FIG. 1, the earth currents were radially displaced at an angle <x obliquely to the longitudinal axis of the ends, as in FIG. 1 is shown. If you use antenna arrangement run. In the same way, however, a plurality of conductor extensions 12 'to 17' are arranged close to one another and have amplitudes perpendicular to the radiator according to FIG radially extending conductors are traversed, as is the case with a logarithmic 55, which is the case at an angle obliquely with respect to periodic antenna arrangement, so it has shown from experiments on the longitudinal axis of the antenna arrangement that the distribution of the are ordered.

Earth currents is completely different. The ladder extensions 10 'to 18' extend a

Proximity of the foot point of the various emitter distances of several wavelengths in the direction elements are the earth currents essentially radial 60 of the main radiation of the antenna. The angle α directed, with increasing distance from that in Fig. 4, an angle of 45 ° can be. Angle α However, the base of the radiator is the direction of the earth - from 10, 15, 30 or 60 ° no longer flows radially, but parallel to the longitudinal arrangement can also be used. In Fig. 4 is axis of the antenna arrangement of FIG. 2. This in the length of the conductor extensions 10 'to 17' parallel to Currents running in the longitudinal direction are arbitrarily spaced in a longitudinal axis of the antenna arrangement selects some wavelengths from the base of the so that their ends are on a common Antenna arrangement analogous to the waves that lie with a line that is perpendicular to the longitudinal axis of the antikaler Polarization are emitted. That takes place in the soil, which is not, however, absolutely necessary.

is borrowed. For example, the front ends, starting with the ladder extension 1Γ, of Shorter ladder to ladder. It is essential, however, that the guides have a length of several wavelengths at the operating frequency with which the antenna elements in question are preferably operated are, are. It could therefore be the wires, which are provided by the radiator elements intended for shorter waves go out, be correspondingly shorter. The distance between the ladder extensions 10 'to 17' in one direction perpendicular to the longitudinal axis of the antenna arrangement, the closer the conductor to the axis of the antenna arrangement lie to be the shorter. The middle conductor 18 'extends in the longitudinal axis the antenna. All conductors are connected to one another by the conductor 18 'according to FIG. 4, and this Conductor would in turn be connected to one pole of the radio frequency line during the other pole is connected to the antenna elements 18 to 25. Experience has shown that the Elevation angle of the maximum antenna radiation in the radiation diagram is greater, the smaller is the length of the counterweight ladder in front of the antenna. In many applications, the elevation angle should decrease with increasing frequency. this results automatically in an arrangement according to FIG. 4.

Claims (5)

Patent claims: 1. Counterweight arrangement for a shortwave antenna system of the logarithmic-periodic type, in which the vertical radiator is connected to a feed line extending in the longitudinal direction connected with radiator length decreasing from the end of the feed line and mutual distance are and are excited as the phase relationship progresses, characterized in that that from one below the radiator base points parallel to the feeder (4) the antenna extending parallel conductor (6) radially counterweight conductor (10, U to 17, 18) and that from a merging point of the outer ends of two radial Counterweight ladders (10, 11; 11, 12; 13, 14) extending parallel to the parallel ladder (6) Counterweight ladder extensions (10 'to 18') go out. 2. Arrangement according to claim 1, characterized in that the counterweight ladder one Radial counterweight ladder group have the same length. 3. Arrangement according to claim 1 or 2, characterized in that the conductor lengths of the radial counterbalance ladder groups according to their decreasing mutual Decrease the distance from each other. 4. Arrangement according to claim 3, characterized in that the conductor length of the radial Counterweight ladder groups approximately equal to the length of the antenna radiator assigned to the group is. 5. Arrangement according to one of claims 1 to 4, characterized in that the longitudinal axis of the antenna system counterweight ladder extensions extending in parallel to over extend beyond the base of the shortest antenna radiator. Considered publications:
German Patent No. 299 766;
Swiss Patent No. 101910;
French Patent No. 532,431;
U.S. Patent No. 2,473,377. 1 sheet of drawings 809 539/132 4.68 © Bundesdruckerei Berlin