DE1077276B - Line system for the transmission of high-frequency electromagnetic waves - Google Patents

Description

GERMAN

The invention relates to a line system for the transmission of high-frequency electromagnetic Waves with at least one joint in the cable run, which are caused by the succession of sections caused by different line types.

When transmitting high-frequency electromagnetic waves over lines, it often arises that it is not possible to get by with a single line type, but different ones one after the other Line types must be used. For such transmissions that are for relatively long distances come into consideration, finds the surface waveguide because of its low attenuation and its low cost and increasing use. Surface wave conduction is used because of the Properties also preferred over the hollow pipeline, although these are again in comparison has favorable properties similar to the coaxial line.

If transmission lines of the types mentioned - z. B. between a transmitter and the antenna system - provided, both the transmitter output and the antenna input often turn out to be Line type of the coaxial design. Different at the connection points between the lines Types then inevitably come about, the reflections on the Line systems cause propagating electromagnetic waves. Through them the goodness becomes the Transmission impaired.

In order to be able to feed two or more antennas from a transmitter, its output is known mostly connected with a coaxial line branch, which is then dealt with in the initially discussed Cases connect surface wave or waveguide, each of which to its own antenna leads. Here, too, joints are formed, on the one hand at the transitions between the coaxial line branching at the transmitter and the Surface wave or waveguides and, on the other hand, between one of the cable types mentioned last and the inputs on the antenna, which are again implemented as coaxial lines. These joints cause also reflections with the adverse effect already mentioned.

The invention has set itself the task of using the principle of phase compensation, which is known per se for joints occurring within a cable run, cancellation of the reflected ones To convey wave components so that they can no longer get back to the transmitter. The solution the task set is in accordance with the invention in a line system of the type described above his training as a line branching with min line system

for high-frequency transmission
electromagnetic waves

Applicant:

Rohde & Schwarz,

Munich 9, Tassiloplatz 7

Dipl.-Ing. Franz Reinhold Huber, Munich-Pasing,
has been named as the inventor

brought about at least one joint in each branch, at which an at least approximately equal partial Reflection of the electromagnetic waves propagating over the branch takes place and where the joints to the branch point are arranged at such intervals that there is a phase opposition in this of the reflected wave components takes place. The well-known, A distinction can be made between antenna systems operated with phase feed, in which the supply line 2.u several power lines are provided for an antenna because of their mismatch. It is at These known arrangements namely only about the use of phase compensation for elimination of reflections caused by the end links of a cable run. A match the subject matter of the invention only exists to the extent that the same physical effect is used will, d. H. the phase compensation to avoid reflections. This in no way suggested the subject of the invention. Because the known arrangement is not for a line system Initially of a single-stranded nature, one for the transmission of high-frequency electromagnetic Waves actually superfluous bifurcation and an artificial one in the parallel strand Joint created so that the desired compensation using the compensating physical Effect can occur. Furthermore, joints remain in the known arrangement, which are located in the Along the line, always uncondensed. The problem underlying the invention could only be solved because the reflection is not caused by consumers, but by joints in the cable run caused. Because the nature of a transmission line goes beyond these junction points, while this is not the case with reflective consumers because they are always provided at the end of the line are.

909 759/298

Claims (4)

The known bridge arrangements, the purpose of which is to achieve the separation of frequency mixtures with the aid of devices that have a pronounced resonance behavior, also contain a problem that deviates from the subject matter of the invention. A part of the frequency mix continues to flow unhindered, while the rest is either converted into heat or fed to further bridge circuits. The devices with a pronounced resonance behavior for the frequency ranges to be separated also represent interference points with total reflection. These known bridge arrangements differ from the subject matter of the invention in that no line branches are used, but physically completely different working bridge circuits and joints with total reflection. The invention is explained by way of example in the following description with reference to the drawing. Three exemplary embodiments are given therein. Thus, FIG. 1 shows a perspective view of a line branching, which is initially designed as a coaxial line and continues as a waveguide; In Fig. 2 a branch is shown in the scheme, which is designed as a coaxial line on the transmitter side and continues in the individual strands as a surface wave line; 3 shows a branch of the type shown in FIG. 2 at the beginning and end of one and the same line system designed as a surface wave line. According to FIG. 1, the coaxial feed line 1 coming from a transmitter (not shown) for high-frequency electromagnetic waves branches off into the two branch lines 2 and 3, which are also designed as coaxial lines. The line branch 2 has a difference in length of 2/4 compared to the line branch 3 (2 = operating wavelength). The waveguides 4 and 5, which are excited at their ends, extend transversely to the vertically extending line parts of the branch lines 2 and 3 and 7 reflected waves of equal amplitude and running back into the branch lines 2 and 3 at branch point 8. You can therefore not affect the transmitter located at the beginning of the coaxial line. As already mentioned, FIG. 2 is based on the principle of feeding two antennas from one and the same transmitter. This transmitter is again to be thought of as being housed at the beginning of the coaxial line 9 and is not illustrated in the line. The line 9 forks from the branch point 10 into the branch lines 11 and 12, which are also designed as coaxial lines. Their free ends carry the funnels 13 and 14, via which the electromagnetic energy is transformed to the surface wave lines 15 and 16. At the connection points 17 and 18 between the coaxial lines 11 and 12 or the surface acoustic wave lines 15 and 16, butt joints are formed through which the electromagnetic waves are reflected into the coaxial branch lines 11 and 12. Because of the difference in length of 2/4, which is due to the distances between the joints (17, 18) and the branching point 10, these reflected waves are canceled out at the receiving point. They cannot therefore affect the transmitter. Waves that are reflected at the joints 19 and 20, at which the surface wave lines 15 and 16 are connected to the coaxial feed lines 21 and 22 belonging to various antennas (not shown), experience the same extinction in the branch point 10, as the joints 19 and 20, respectively also have a path difference of 2/4 towards the branch point 10. The same applies to the arrangement of the line supports 23 and 24 with regard to their distance from the branch point 10. The support 23 of the line 15 is namely by the amount of 2/4 further away than the support 24 of the line 16. About the cross member 25 are the Supports 23 and 24 held by a common carrier, not shown in the drawing. The arrangement according to FIG. 3 represents a modification of the system according to FIG. 32 and 33 existing branches are provided. At the branch point 34, the waves reflected by the joints 35 and 36 as well as 37 and 38 with their path differences of 2/4 cancel each other out. The branches formed from the line components 28, 30 and 31 or 29, 32 and 33 are grounded by the short-circuited line circuits 39 and 40 with regard to their inner conductors. P Λ T E N T A M S P R (I C H E: 1. Line system for the transmission of high frequency electromagnetic waves with at least a joint in the cable run, which is caused by the succession of sections of different Line types is caused, characterized by its training as a line branch with at least one joint in each branch, at which one at least approximately the same partial Reflection of the electromagnetic waves propagating over the branch takes place and wherein the joints to the branch point are arranged at such intervals that in this a phase opposition of the reflected wave components takes place. 2. Line system according to claim 1, characterized by components forming joints, such as B. supports, bends, distributors, in the branch lines in the course of their extension. 3. Line system according to claim 1 or 2, characterized by its grounding by means of a itself short-circuited line circuit extending from the branch point. 4. Line system according to one of claims 1 to 3, characterized by its use on Beginning and end of one and the same, e.g. B. formed as a surface wave line line system. Considered publications:
German Patent No. 916 894;
British Patent No. 723 151;
U.S. Patent No. 2,531,419. 1 sheet of drawings , © 909 759/298 3.60