DE1936543A1 - Arrangement for changing the wave resistance of a Maeanderleitung - Google Patents

Description

Arrangement for changing the wave resistance of a meander line The present invention is concerned with an arrangement for changing the characteristic impedance in a meander line consisting of line elements and at least one base plate for runtime equalization in communication systems.

The structure of filters or networks can be used in microwave technology no longer carry out with concentrated components. In the circuit with lines Simple solutions with excellent properties are available here and are also economical to carry out, but especially because coupled lines represent very simple structures.

For the frequency range of the microwaves can be in this way create cheap components, especially with the technology of printed circuits such Components are becoming mass-produced items.

When it comes to the transmission of multichannel and television tapes, things have changed proved to be absolutely necessary, those occurring in lines and resonant circuits Time-of-flight distortions with special networks, so-called time-of-flight equalization elements, to equalize again. A line that behaved like this was particularly favorable a meander is built, the basic dimensioning of the rod lengths of this Formation correspond to a # 4 wavelength of the operating frequency of the equalization network got to.

In order to be effective at all, such networks must be opposite Runtime behavior, like the network to be equalized, because the runtime equalization is a pure compensation process. So you have to work with such an equalization network be able to achieve exactly the opposite of this in terms of its runtime behavior To give runtime character. If this does not succeed, either the delay time distortions in the transmission system be larger than before or the network is ineffective.

Meander lines are now structures that are very simple in terms of their structure appear, but in reality the most meticulous accuracy in their measurement require. Come in addition finally that the runtime distortions a given transmission system are by no means identical to a second of the same kind, but the deviations and differences between two systems are so considerable that you need meander lines for equalization, which are very important from each other must differ in order to compensate for the distortions of both systems. This is it is necessary to change the runtime behavior of the equalization networks do it continuously. The term must therefore be in its size and thus be variable in their range. This is achieved by using the wave resistance of the equalization network, i.e. here the meander line, designed to be variable.

The invention has therefore set itself the task of realizing this, what happens according to the invention that between at least two line elements the meander line at least one continuously variable in its position and arranged as a dielectric slide and / or the electrically effective Distance between the meander line and at least one base plate can be varied. The idea of the invention can be realized by the fact that the slide is the in Line elements arranged in a plane alternating in pairs from above and below enveloped variably in the longitudinal direction of the line elements.

An expedient embodiment is that the Line elements are alternately offset in height in pairs and the flat slide between the line element pairs is variable in the longitudinal direction of the line elements. This embodiment gives the possibility of changing the shape of the slide to be designed so that when the slide is immersed between the line elements a different wave resistance along the meander line results. Another one Embodiment of the inventive concept is that between the meander line and at least one base plate at least one in its immersion depth in the longitudinal or transverse direction variable slide is arranged. In a simple mechanical way a change in the wave resistance can be achieved by increasing the distance is variable between the meander line and at least one base plate.

The idea of the invention is intended below on the basis of exemplary embodiments are described in more detail. In the drawing, FIG. 1 shows a meander line shown arranged in an open housing, in which the slide in a Line elements arranged on the plane are alternately wrapped in pairs, in Fig. 2 shows a meander line, the line elements of which are in pairs in the 3 shows a meander line arranged in a housing partly in section in a side view, with a slide between the line elements and a slider arranged between pipe elements and base plates and FIG. 4 shows a perspective and partially sectioned illustration Meander line that is manufactured using printed circuit technology.

In Fig. 1, a meander line 1 is in an open housing 2 arranged, the cover of which was removed to expose the meander line. the Meander line 1 has an input 3 and an output 4 for the high-frequency signal voltage, the characteristic impedances of the input 3 and the output 4 by means of adapters 5 can be adapted to the wave resistance of the meander line itself. This embodiment has 14 rods 6, the length of which is # / 4 of the operating wavelength of the meander line and which are alternately wrapped in pairs in the longitudinal direction by a slide 7 in a variable manner are. This slide 7 is continuously displaceable in the direction of the arrow. By the dielectric property determines its c the value of the capacity document between the individual line elements and thus its own wave resistance.

Another shape of the meander line 1 is shown in FIG. Here, the line elements 6 are alternately offset in height in pairs, so-that a flat slide.

7 'can dip between the pairs of line elements and on the Way the capacity document or the wave resistance the meander line 1 determined. In this embodiment of the slide 7 'it is easily possible this to give a different shape in the immersion zone, which is suitable for the wave resistance to be designed differently within the meander line l in the direction of flight. Thought is in the form of a wedge shown in dashed lines 8. Other shapes are also possible here, such as the shape of a Parabola, elliptical curve shapes or curve shapes with a turning point.

A further exemplary embodiment is shown in FIG. 3. The possibility of two slide arrangements is shown here. It's a meander line 1 in a housing 2 similar to FIG. 1, but in view: arranged from the side. The slide 7 corresponds to the slide 7 of the embodiment in FIG. 1. The electrical effective distance between the meander line 1 and the base plates 2 'and 2' ' designed to be variable by a second slide 9 'and 9' '. This slide According to its material, 9 'and 9' 'can be made of a dielectric material or made of metal, depending on the respective structural requirements Can be selected accordingly When using metal, however, would have to be. special Make sure that contact is made with the base plate. Even with the one between the meander line 1 and base plate 2 'or 2' 'arranged slide 9' and 9 '' can be a special Shaping be possible, along the meander line 1 a different one Causes wave resistance, as it is in the shape of the slide 8 of FIG the case is.

A completely different embodiment of a meander line is shown in FIG. 4 pictured. This is a printed or integrated design Technology. The meander line 1 is applied like a coil to an insulating body 10, where the width of the insulator 10 is the # / 4 wavelength of the operating wavelength must correspond. The insulating body 10 is with the applied meander line 1 embedded in insulating material 11, the base plates 2 'and 2' 'are here through embedded conductor foils 12 'and 12'> shown. To change the wave resistance a slide 13 is provided which can be pushed continuously into the insulating body 10 is. The material to be used is a dielectric material with a dielectric constant from that of the insulating body 10 should be different in order to produce an effect. To change the electrically effective distance between the meander line 1 and the A second slide 14 is provided for conductor foils 12 'or 12' '. This slide 14 can be attached in the manner shown in FIG. 4, another slide 14 '(not shown) can in the same way between the meander line 1 and the conductor foil 12 'can be arranged. The embodiment is also conceivable in such a way that the or the slide 14 resp.

14 'in the longitudinal direction to the meander line like the slide 13 movable are arranged. There are also special shapes according to the slide 8 in 2 possible.

Claims (6)

Patent claims: Arrangement for changing the wave resistance in one of line elements and at least one base plate existing meander line for delay equalization in communication systems, characterized in that between at least two line elements (6) of the meander line (1) at least one in its position continuously variable slide acting as a dielectric (7, 8, 13) arranged and / or the electrically effective distance between the meander line (1) and at least one base plate (2, 12) is variable 2) Meander line according to claim 1, characterized in that the slide (7) is arranged in one plane Line elements (6) alternating in pairs from above and below in the longitudinal direction the line elements (6) wrapped variably. 3) meander line according to claim 1, characterized in that the Line elements (6) are alternately offset in height and level in pairs Slide (7 ', 8) between the pairs of line elements in the longitudinal direction of the line elements (6) is variable. 4) meander line according to claim 1, d a d u r c h g e k e n n z e i c h n e t, that the shape of the slide (8) meets the required wave resistance along the meander line (1). 5) meander line according to claim 1, characterized in that between Meander line (1) and at least one base plate (2, 12) at least one in its Immersion depth in the longitudinal or transverse direction of variable slide (9, 14) arranged is. 6) meander line according to claim 1, characterized in that the The distance between the meander line (1) and at least one base plate (2, 12) is variable is. L e r s e i t e