DE7412071U - BROADBAND ANTENNA - Google Patents

Description

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Dr Mc " ^-1 ·" ■ ','! - ■ Γ:; τ

Munich, January 29, 1976 Fi 5104

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tennenl-ioiabination auc an io.jaribhr.isch periodic antenna U-.d a. ¹ , second;:, of which vei'oChiedenen j.nteni entyp, the r.ii j cor ^ oertracuri_Glcitu: r; dor logarithmically peculiar antenna cn its _.nd: üit d ^ n him. cro: i is connected to Ji'oolsii.

Lino A.ntenne this.-Vrt wui \ -e oereits in the j'unksciiaii 193V, lieit 2, oeite ^; ' Γ described. This is a hOwbinationsante. '. Ne made up of two different logarithmically periodic antennas and oi.io.i.-folded dipole attached to a ^ c: jeinsame: i antenna mast oefecti ί: and nv. £ ui j different transmitters in the The respective frequency boxes of the L, individual antennas are aligned, - »ic -type lines of the J in be antenna η are connected in series without the use of crossovers. Uin.3 antenna of this kind is vcrr.eV;.; Lich for the ümpfanc von _ ° ernseh- und .Lundfunksendun ^ On, ^ oei-j '/ iet _t can however as

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Ger.dantenne because of the different :! Radiation properties of the antenna types are not used.

The prior art is called a high frequency transmitting antenna often a so-called fan antenna is used, which consists of a reflective screen and is arranged at a suitable distance in front of it There are dipoles or slots in metal surfaces that act as dipoles. An antenna of this type is shown in Figure 1 of the drawings shown; it also consists of a sheet metal 10 acting as a reflector and two solid corrugated dipoles 12 and 14, of which Öeder consists of two triangular metal sheets 15 and 16. The sheet metal ^ can optionally also be designed like a skeleton i.e. they can be replaced by a wire mesh with similar dimensions. An antenna of this type has, given Dimensions, generally a higher antenna gain than other antenna forms, it also has the significant disadvantage that its frequency range is generally is limited to a frequency ratio of 2: 1. Now, in many application cases, the high-frequency signal transmission is on a reflection from the ionosphere, and since the frequency range reflected by the ionosphere varies during the course of the day changes, the possibility must be given to change the gene frequency in a ratio of around 4: 1 if there is a 24-hour operation is necessary. According to the prior art, this was achieved by using several fan antennas at the same time were used, each with a different frequency range strokes. The frequency currently used corresponding antenna was then selected via a salaries. This procedure has proven to be extremely cumbersome in practice, since the antenna selection is constantly monitored necessary and a switch must be made several times during the daily routine.

A form of antenna known from the prior art, which is shown in

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is able to cover the required range of trees, is the logarithmic periodic dipole antenna, which is shown schematically in Fig. 2 of the drawing. One logarithmic periodic antenna consists of a nor transmission line 20, which, connected in series, feeds a number of dipoles 22, the length of which extends along the transmission line changes; i.e. that the lengths of neighboring dipoles are in a given ratio to each other. As is indicated in FIG. 2, the feeding of two adjacent dipoles takes place in the opposite sense; it becomes thereby a favorable radiation property of the antenna arrangement guaranteed.

When operating a logarithmically periodic antenna v / change the radio frequency signals along transmission line 20 of FIG high frequency end with the shorter dipoles until they soften a resonating dipole. This- in response The dipole located preferably emits the gender energy. It however, in practice, a cable of high frequency energy is emitted from one or both of the neighboring dipoles, so that normally the total emitted gender energy starts from three Ilalbv / ellendipoles. The emissions of this three dipoles amplify each other in the correct pairs and the antenna generates a broad beam pointing in the direction of the showing the high frequency end of the antenna.

So when using a logarithmically periodic Antenna radiation pattern does not change with frequency, is the longitudinal axis of the antenna, nithin the transmission line inclined to the horizontal by a certain V / inc el, as is indicated in FIG. The longitudinal axis of the antenna is therefore oriented towards the ground. In general, care is taken that the "reflected from the ground." Rays 30 and the rays emitted directly by the antenna

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Errindu'.i ^ 'G ^ joniL'.cG' .. 'ird .liooc.'. '. 11'"Oc fr // 'irc ^% solved that"".ir.A \ .e— Gtons an Antcr .ner '. ^ on'iinr.ti. cr. vor-jcco-ion ict that the antennae: oni "binc.tion α-ic a lo'jnrithnisch poriodisclien antenna and egg Vüchercntonre hoctoh!;,' innc d? ο 'Ji; rr. ^v -liv / -rsele ~ ente her 7acherantenne so "it dor ^ bertrar: ur. ^ 3lcit ·;:. ^ the lor; arit :: nisch periodic proportions connected cin-eordr.ot are that the two types of antenna have the same iVostra ^ lur. ^ SRIC-itun ;; _t have that the two antenna Typer. go dirnencioniort cind, Cr-.sz before. them überdeckton rroqaensbereiche vornchioden are each ind overlap, and that the emissions rjleiclier frequency from the two types of antennas amplify each other .

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antenna from a group of dipoles oaer slots in a conductive surface, which are arranged at a corresponding distance in front of a reflective screen. 2s it is known that a sheet metal mic a slot has the same radiation characteristics

j, like the one cut out to form the slot in question Piece of metal. It turns out differently only the polarization of the emitted '.' ellen. Optionally can with a fan antenna both the reflective screen

ι as well as the radiation elements from Metc.llblech or from one

- Wire grids are made that have similar radiation properties as

j comprises a metal sheet.

The inventive combination of a fan antenna with a logarithmically periodic antenna allows the advantages connect the antenna types to each other. The limited bandwidth of the fan antenna is caused by the coupled logarithmic periodic antenna expanded and at the same time the undesirably long lower frequency dipoles of logarith = mixed periodic antenna replaced by the much smaller components of the fan antenna. In addition, the overall length of the logarithmic Periodic antenna shortened by replacing the low-frequency part of this antenna type with a fan antenna so that the entire antenna arrangement is arranged at a substantially flatter angle in relation to the horizontal can be. As a result, the gain in Antons is significantly increased at higher frequencies, because now the effective, im Operation effective radiation direction closer to the antenna axis is moved, in which the main beam direction of the logarithmically periodic antenna, which is responsible for the heueren frequencies is, lies.

In order to further improve the antennae, preferably two or more jintenncnlcombinations according to the invention

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laterally side by side in such, .b was arranged that their emissions are in phase, and that the logarithmic periodic antennas are aligned so that the connecting lines of each on the same sides of the transmission line lying dipole ends at a point meet.

2 for an antenna arrangement with more than one logarichnisch periodic antenna, with regard to the advantageous bandwidth of the logarithmically periodic antenna, it is advantageous to to arrange the individual antennas so that the connecting lines dfer dipole ends meet at one point. So that Parallel wave fronts emitted by the individual antennas run, this inventive arrangement is preferably this practically makes it possible for the individual dipoles to be different logarithmically periodic antennas are tilted against the associated transmission line, so that the angles between the 'transmission line and the dipoles of 90 slightly deviate «There is no need to fear that this slight tilt will affect the performance of the antenna worth impaired.

The invention is illustrated below using an exemplary embodiment, referring to the J'ig. 4 · closer to the drawing explained.

The in the I ¹¹ Xg. The antenna arrangement according to the invention shown in FIG. 4 has a cloth antenna 50 and a logarithmically periodic antenna 2 , which are arranged in the rear. The avenging antcrnc is generally fair. Ί built up and consists of a reflective Jchirni 5 ^Ü > in front of which two Vcllwellendipoles 5 ^ and 56 are arranged. The logarithmically periodic antenna consists of a central transmission line 5 '"'» whose end GO the otraialunrjsolciaente of the fan

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antenna 50 Gpcist. The opposite linden 62 is with the Feed line cum transmitter connected. "; aer to the transmission line 5'2 a plurality of half-wave dipoles 64 are arranged, their dimensions progressing from the end G2 of the transmission line increase towards the end of GO. Two neighboring dipoles of the logarithmic periodic antenna are each in opposite directions fed from the transmission line.

The fan antenna shown in the drawing is only available with equipped with two Yollwelleendipoles, but it is optional possible to provide a large number of corresponding dipoles, in particular, if desired, the radiation characteristic to be trained as a very narrow club. In addition, a large number of logarithmically periodic Antennas may be provided. Danit the advantageous large bandwidth However, if these logarithmically periodic antennas are obtained, it is essential that these antennas are so aligned be, ciass the connecting lines of the jev / eils on Dipole ends lying on the same sides of the transmission line meet at one point. It does not matter whether the logarithmically periodic antennas in a vertical plane or side by side. In the latter ! ■ 'all should have the dipoles of each individual antenna in relation to their transmission line be tilted.

- Objections -

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Claims (2)

-e- 1. Antennenancrdnung with an Antennenkcribination from a logarithmically periodic antenna and a second, different.-Uitenntyp, which is connected to the transmission line of the logarithmically periodic antenna at its Jinde with the longer dipoles, characterized in that at least one Antennenkon.bination is provided that the iOitennenkoiubination consists of a logarithmically periodic antenna (b ^) and a -üchei'paitenne (b ^ O, that the Jtrahlun ;; sele; riente (34,%) the x -'aerant, nne (5 ^) so connected to the transmission line (! • · '-) of the logarithmically periodic antenna (5 ·· -) are arranged so that the two antenna types (50, ^l ) 2) have the same main beam direction; have that the two <uitenntypen (^ c, [-. ·.?) so diTiensioniort .τ ⁵ .nd that each of them ü: jerdec!: th .'requenr.area :: e different είπα and overlap , and. , dasκ the; bsti \ -i: ilunren of the same frequency from the two antennas (;; X ··, 52) sicli ^ o; ":; possibly strengthen on the side. 2. / intermenanordnunr; no.ch; \ r.Spruch Ί, ^{characterized::;} e Y. e η; i: ■ ^ i η ο t, ä.'fcs kv: ei or .TioVirere / Place'.ikor.binationen laterally '.' ·. '. benexTjn'lor in r-oils! '. en spacing _-: - are arranged that their radiation- ^ r. ρ ^: ip.ücn ^ easily and that the lopjarit ^u : nisch period-i ^ chen. ^ ntenrion (^ 2) are so aligned that the connecting lines of the, jev.'eils - \ n £ same, sides of the L ^ ertr · ". ^[ '."n''3I"L': ■.: ■■ (f /) lic ';:;p.don:,' ipolenden each other in einsn l'unl'.t treiien. 7412071 05/20/76 Antenna only /; after Ai.r.pruch, characterized ζ c:.?. c rr - characterized in that the connection lines dor Tendon of the dipoles (64 *) dor lo ^ arithrnicch periodisch.on characterized antennas to a Funl: t from (i 2?) cc r Richt et are that the one of its dipoles (64) cec'G ^ - üe ^ u ^ ehöri ^ e transmission line (5 ") are tilted so that the '..' angle zv / ischen v'.er (5?) ^^ - d the dipoles (G-T) from 90 soft 7412071 05/20/76