DE2006510A1 - Logarithmic periodic shortwave antenna - Google Patents

Description

"Logarithmic-periodic shortwave antenna" addendum to patent. ... ... (Patent application P 19 60 076.1) The invention relates to a vertically polarized, soncepolar trained, lograithmic-periodic shortwave antenna, which is a terrestrial network has as counter weight.

To reduce the height of vertically polarized, logarithmic-periodic Shortwave antennas have already been proposed, these not from dipoles, but To execute consisting of monopolies on this. Way is already a reduction half of the antenna height. In the patent application P 19 60 076.1, whose subject, inter alia. the task is to reduce the overall height, is a special feed-in procedure of Antenna stated, It is the object of the present invention, the already known vertically polarized, monopolar, logarithmic-periodic Eurwave antennas, in particular Those in which the radiator elements are fed in via a coaxial cable, whose outer conductor is connected to the earth network and each of its inner conductors second radiator element directly galvanically and the other radiator elements below Interconnection of a transformer connected to earth by the inner conductor of the cable are connected, the polarity of the transformer coupling in each case 8o is chosen that antiphase of the respective radiator voltage and the respective is present at the connection point of existing cable tension, as in PatentenmelduFg P 19 60 076.1 described to reduce their overall height.

This object is achieved according to the invention in that at least the longest of their radiator elements mechanically shorter than the electrical requirement corresponds, executed and in a manner known per se with the help of electrical components is extended to their electrical target size.

Not only the longest chaser element in his mechanical dimensions are reduced, but also the neighboring smaller elements, if a specified height may not be exceeded.

It has been common in the past to use logarithm isohperiodic to train gurewellenantnen in such a way that one of the radiator elements, which as Wire ropes are formed, aa has suspended a rope insulated, one of which The end was attached to a high mast. This mast had a height that was greater was on as the longest radiator element, due to the curve of the guy rope to which the individual radiators were attached, the radiator elements otherwise became shorter, than required due to the electrical 3rd things. This fact is shown in Fig. 1 shown. In it 1 is the guy mast on which the suspension cable 3 is guyed, on which the radiator elements 12 are in turn attached in an isolated manner. As you can see, it follows the distance between the support cable 3 and the ground 11 of the Seikurve, while for the antenna arrangement other laws apply. This is due to the course of the curve 10, which specifies the target values. It is therefore necessary to use the radiator elements 12 to be attached to the support cable 3 via non-conductive extensions 9. It is also it can be seen that the mast 1 must have a greater height than the antenna electrically has in reality.

This disadvantage is overcome by the invention. To further reduce the overall height is proposed according to a development of the invention, the tide can even be used as the longest spotlight. This can according to a further development of the invention is also extended electrically, preferably by a roof capacity be. The electrical extension of the remaining radiator elements which then becomes necessary is then determined on the one hand from the shortening due to the sag in the rope and on the other hand from the additionally effective mechanical brevity of the electrically extended Mast.

The electrical extension of the mast takes place advantageously in on known way through a roof capacity, which is cheapest by the anyway necessary guy ropes of the mast can be formed.

The rest of the arrangement and design of the individual radiators is advantageous in the known, initially described type in the form of wire ropes, one of which End attached to the feed line and the other end isolated attached to the suspension cable is. The dimensions of the antenna in the horizontal direction can be reduced, if the end of the carrying rope anchored near the ground ru is attached to another mast attached is. Its height is determined by the length of the shorter one Radiator elements.

In Pig. 2 is an advantageous embodiment of the antenna arrangement shown schematically according to the invention. The supporting mast 1, which itself as the longest radiator is effective, is held by the guy ropes 2.

A part of these guy ropes 2 acts as the roof capacity of this radiator and extends its mechanical height h to the electrically effective height H. Am At the top of the mast 1, the support cable 3 is attached, the other end of which is attached to the mast 4 is anchored. The mechanically possible length of the radiator elements 5, 7 and 8 is determined by the cable curve of the suspension cable 3. The dashed line 10 indicates the effective electrical length of the radiator elements. With the aid of According to the present invention, the radiator elements 5 are made up of electrical components 6 brought to the electrically effective length prescribed by the curve profile 10. At point P, which marks the point of intersection of the rope curve and the target curve, is not a change in the mechanical or electrical nature of what is fixed in it Radiator element 7 is necessary. Those arranged between the point P and the mast 4 Radiator elements 8 have a lower overall height than this the Seilktirve is possible. They have to be attached to the rope by insulating extension ropes 9 3 can be attached.

The electrical extension of the radiator elements 5 takes place advantageously through steamed coils. In this way it is possible to see the radiation pattern to influence individually measured attenuation of the extension coils depending on the frequency.

Claims (11)

P a t e n t a n s p r ü c h e Vertically polarized, monopolar, logarithmic-periodic Shortwave antenna, which has an earth network as a counterweight and which in particular the feed of the radiator elements takes place via a xoaxial cable, the outer conductor of which is connected to the earth network and every second radiator element is connected to its inner conductor directly galvanically and the other radiator elements with interconnection connected to a transformer connected to earth by the inner conductor of the cable are, the polarity of the transformer coupling selected in each case is that antiphase of the respective lamp voltage and each at the connection point existing cable tension is present, according to patent. ... ... (patent application P 19 60 076.1), characterized in that at least the longest of its radiator elements mechanically shorter than the electrical requirement, executed and in in a manner known per se with the help of electrical components on their electrical Target size is extended. 2. Shortwave antenna according to claim 1, characterized in that at least one of the radiator elements is not extended electrically. 3. Short wave antenna according to claim 1, characterized in that the mechanical length of the radiator elements by the distance between the pressure curve a rope or the like. Given from a base surface, in particular the ground and that the deviations in the lengths of the radiator elements given by the cable curve of the electrical setpoint values by means of appropriate electrical measures in accordance with Claim 1 are balanced. 4. Shortwave antenna according to claim 1, characterized in that at least the longest spotlight is a self-supporting mast. 5. shortwave antenna according to claim 4, characterized in that the mast is electrically extended by a roof capacity. 6. Shortwave antenna according to claim 5, characterized in that guy ropes can be used as roof capacity. 7. Shortwave antenna according to Claims 3 and 4, in which the longest Radiator element is a self-supporting mast, characterized in that the upper one End of master one is the attachment point for a rope, the other end of which is determined by the horizontal extension of the antenna Distance is anchored on the ground or near the ground and that on this rope the rest Radiator elements are attached isolated. 8. shortwave antenna according to claim 7, characterized in that the radiator elements, with the exception of the longest, are designed as conductive wire ropes are. 9. shortwave antenna according to claim 8, characterized in that the wire-shaped radiator elements are damped by means of inserted into the radiator elements Coils are electrically extended. 10. Shortwave antenna according to claim 7, characterized in that the horizontal extension of the antenna by bracing the end of the near the ground the rotating rope carrying radiators on a mast aif reduced to a minimum is. 11. Short wave antenna according to claims 3 to 10, in which the distance between the rope and the base is greater than the electrically permissible area in a certain area Length of Str.h1.relemente in this area is characterized that the radiator elements in this area have insulating extension ropes, which they extend mechanically, but not electrically, attached to the load-bearing rope are.