DE1042048B - Arrangement for changing the electrical length of a line section of a microwave ribbon line - Google Patents

Description

The invention relates to an arrangement for changing the electrical length of a line section a microwave ribbon line.

It is known that the electrical length of waveguides can be changed by changing the mechanical length To influence the length of the conductor. It is also known that the electrical length of waveguides is circular or to change elliptical cross-section by keeping its cross-section within the electricity limit is deformed. This measure only allows a variation within a relative one small area, as otherwise permanent changes in the waveguide would occur and one There would be no reproducibility of the set values.

It is also known to make Lecher lines tunable by the between the between the two conductors is more or less with a body made of high-quality dielectric and thus the capacity per unit length of the line in a certain section can change constantly.

In contrast, the invention creates an arrangement that is specifically designed for microwave ribbon lines a preferably continuous change in the electrical length of a line section enables.

As is well known, ribbon cables consist in their simplest form of conductors that are practically parallel opposite sides of a thin strip or layer of dielectric material in one Spaced only a small fraction of a quarter wavelength, so that the advantages of printed circuits known from high-frequency technology also for these microwave transmission lines can be used, since the lines mentioned can preferably be printed on in the manner of printed circuits. The two conductors can be the same width or one can be made wider than the other. The dielectric between the two conductors can be practically the same width as the narrowest of the conductors both ladder or wider, depending on the proportions required.

The arrangement according to the invention for changing the electrical length of a line section of a Microwave ribbon cable is characterized in that one conductor of the ribbon cable has two conductor extensions is provided, with the help of which the width of this conductor can be changed continuously or in steps, and that these extensions are shaped so that the arrangement is free of joints at any set width Forms transitions with the subsequent line of fixed dimensions.

Arrangement for changing the electrical length of a line section

a microwave ribbon cable

Applicant:

International Standard Electric
Corporation, New York, NY (V. St. A.)

Representative: Dipl.-Ing. H. Ciaessen, patent attorney,
Stuttgart-Zuffenhausen, Hellmuth-Hirth-Str. 42

Claimed priority:
V. St. v. America May 8, 1952

Maurice Arditi, Clifton, N.J.,

and Jack Elefant, Brooklyn, N.Y. (V. St. A.),

have been named as inventors

The invention is explained in more detail with reference to the drawings.

Fig. 1 shows a section of a microwave ribbon line with a device for changing their electrical length according to an embodiment of the invention. The section of the Line is shown in its position for narrowest width adjustment of the ladder extensions.

Fig. 2 is a view of the left side of the line of FIG. 1 at the greatest distance between the ladder attachment pieces from each other.

FIG. 3 shows a cross section along the line 3-3 of FIG. 2.

Fig. 4 is a graph showing the change in wavelength as a function of the various Widths of ladder shows.

Fig. 5 shows a further embodiment of the invention.

FIG. 6 is a view in longitudinal section taken along line 8-8 of FIG. 5.

Figures 1, 2 and 3 of the drawings show a printed circuit type microwave transmission line with a first or “line” conductor 1 and a second or “earth” conductor 2 with a layer 3 in between

S09 660/196

dielectric material. The conductive material can be applied to a sheet of dielectric material, such as e.g. B. on Polystyrene, polythylene, polytetra-fluoro-ethylene, known under the name »Teflon«, fiberglass or other suitable material of high dielectric quality, applied and / or shaped or etched in the form of conductive paint or ink, or the conductive Material can be applied chemically, sprayed on through a nozzle or onto a prepared surface of the Dielectric can be sprayed or applied in another way of printed circuit technology. The distance between the two conductors is preferably a certain small fraction of the order of magnitude from about one tenth to one fifth of a quarter wavelength of the transmitted microwave.

The conductor 1 is, preferably on a section of, for. B. one wavelength or two wavelengths, gradually tapers as shown at 4. A pair of ladder extensions in the form of conductive strips 5 and 6 are arranged with respect to the conductor 1 overlapping each other. The sum of the widths of the two strips 5 and 6 is preferably equal to the smallest width of the line conductor 1. Central with respect to the line conductor 1 and at a distance from one another are two pins 7, preferably made of dielectric material and 8 arranged. The dielectric material can be the same as the dielectric 3. The pins 7 and 8 can also consist of conductive material. They are each at one end of the ladder attachment pieces arranged and do not touch the conductor 1 and the ladder extension pieces 5 and 6. This can be done in the In such a way that the pins are passed through openings 9 (FIG. 3) in the conductor 1. the Conductor pieces 5 and 6 can be provided with cutouts 10 and 11 (Fig. 2) to contact with the Avoid pen if it is made of conductive material. The presence of such a pen in the line has been found to have little effect on the line compared to the to match the conductor sections 5 and 6 carried out change of the line width.

The rotatable cam pieces or cam disks 12 and 12a are arranged around the pins 7 and 8, which have a pair of cam slots or surfaces 13 and 14. Through the slots 13 and 14 protrude from pins 15 and 16 carried through the ladder extensions 5 and 6. The cams 12 and 12a are of an endless belt 17 comprises. If the cam 12 is actuated by turning the button 18, both are Cam rotated by means of the endless belt 17. Rotation of the cams 12 and 12a causes one of the Rotation-dependent movement of the ladder extension pieces 5 and 6 transversely to the axial direction of the conductor 1. In the Fig. 1 shows the cams in one end position in which they the ladder extension pieces 5 and 6 after have drawn inside in relation to the outer edges of the line conductor 1. Fig. 2 shows the ladder extension pieces 5 and 6 in the opposite outer position, i.e. H. when the cams are in the opposite Direction are turned as far as it will go. The pins 15 and 16 are here on the Ends of the cam slots 13 and 14, namely in Fig. 2 at the opposite ends thereof Sdhlitzes as in Fig. 1.

To the ladder extension pieces 5 and 6 in good conductive To maintain contact with the conductor 1, the ends 19 and 20 are passed under the strips 21 and 22. These strips can be designed as a lateral extension of the conductor 1 and at the ends of the ladder attachment pieces 5 and 6 must be bent back and soldered together, as indicated at 23. The Stripes 21, 22 can also be designed in another way and practically represent a plate of conductive material, which is carried by either the conductor 1 or the dielectric 3. The purpose of band 21, 22 is to to press the ends 19 and 20 against the conductor 1 to make a conductive contact and also beyond to ensure sufficient elasticity that allows the pieces 5 and 6 to move laterally.

The edges of the conductor 1 are gradually inward towards the narrowest, for the conductor 1 selected cross-section curved. The end parts of the ladder extension pieces 5 and 6 run in a similar manner Way at 24 and 25 gradually curved to avoid a sudden discontinuity between the edge of the Ladder 1 and the edges of the two pieces 5 and 6 to avoid. This gradual transition is at any width of conductor available.

The diagram of the line wavelength 2, depending on the different line widths of the Fig. 4 applies to two different materials. Curve 26 was printed using a microwave transmission line determines which polystyrene has 3 as dielectric. The curve 27 applies to one Transmission section, the dielectric 3 of which is made of fiberglass. The frequency used was here 4700 MHz. A change in the width of the line conductor 1 from 6 to 3 mm for fiberglass changed the line wavelength from 36.3 to 38.3 mm. Same change in line width with polystyrene as a dielectric, the line wavelength changes from 45 to 48 mm.

5 and 6 show a further embodiment of the invention, in which at the same time the electrical The length of a line section is changed in two ways. You get the one change by means of a conductive screw 37 and the other change by a pair of conductive pieces 38 and 39, which are formed similarly to those shown in FIGS. The screw 37 is with a toothing 40 which is in engagement with racks 41 and 42 and through the pieces 38 or 39 are worn. The screw 37 is screwed into a hole 43 and, when rotated, causes that by the racks 41 and 42 the pieces 38 and 39 are moved sideways, so that a change occurs in the effective width of the line conductor la. The introduction of the screw 37 in the Intermediate space (with the dielectric 3 a) between the conductors 1 α and 2 α already causes itself a small change in the electrical length of the section. For example results in a senior 1.3 mm diameter screw that is practically completely inserted into the space between the conductors is, an increase of about 0.2 mm in conduction wavelength.

The threads of the screw 37 can be cut so that the screw is moved into the conduit when the pieces 38 and 39 are approached, or conversely, the screw can be unscrewed from the conduit when the pieces 38 and 39 are pulled apart. In the first case the two effects are additive and in the second the effect of the screw would be subtractive with respect to the effect of the pieces 38,39. The ribs 34 and 35 on the conductor la serve to guide the pieces 38 and 39.

The exemplary embodiments described are only intended to serve as an explanation, but not as a limitation mean on the cases shown.

Claims (4)

Patent claims: 1. Arrangement for changing the electrical length of a line section of a microwave ribbon line, characterized in that a conductor of the ribbon cable with two conductor extension pieces is provided, with the help of which the width of this conductor can be changed continuously or gradually is, and that these extensions are shaped so that the arrangement at each set width Forms joint-free transitions with the connecting line of fixed dimensions. 2. Arrangement according to claim 1, characterized in that the ladder extension pieces as themselves formed in the direction of the line extending and perpendicular to this movable metal strips are and that a mechanical adjusting device is used, this metal strip in the manner of a to push apart the opening gate lock, so that the effective width of the tape line grows. 3. Arrangement according to claim 2, characterized in that the mechanical adjusting device of two in the middle of the conductor surface rotatably mounted and connected to each other by a band circular disks, each two Have spiral guide slots in which corresponding, attached to the metal strips Slide along the pins so that with one turn of the circular disks, both metal strips can be moved outwards or inwards. 4. Arrangement according to claim 2, characterized in that the mechanical adjusting device consists of a pinion rotatably mounted in the middle of the conductor surface when it rotates the metal strips are moved outwards or inwards by means of two toothed racks. Considered publications: German Patent Nos. 836 057, 866 061; U.S. Patent No. 2,543,425; French Patent No. 964 835; British Patent Nos. 530097, 579 782, 494, 670 405; H. Meinke, »Curves, formulas and data from the Decimeter wave technology «, 1949, Munich, p. DIV / 15. 1 sheet of drawings