EP0008707A2 - Directional coupler - Google Patents

Abstract

The invention also relates to a directional coupler which can be used for housing installation and which is embodied in stripline technology and consists of two interconnected transmission lines, one of which is designed as a microstrip line, which is mounted on opposite surfaces of a dielectric carrier plate (1). A directional coupler is to be created which has high directional sharpness with high coupling attenuation, high dielectric strength and insensitivity of these properties from the housing installation. For this purpose, the invention provides an embodiment of the second transmission line as a coplanar line, which has a strip conductor (5) which is inserted on the ground side of the microstrip line in an area (4) free from the ground conductor surface (3) and is essentially parallel and approximately opposite to the strip line (2) of the microstrip line. A directional coupler according to the invention can always be used when there is a need for a directional coupler with higher coupling attenuation, e.g. for VSWR monitoring in secondary radar devices.

Description

The invention relates to a directional coupler which can be used for housing installation and is constructed using stripline technology, consisting of two transmission lines, the ends of which are connected to one another and which are attached to opposite surfaces of a dielectric carrier plate. Form coupling points and of which the carrier plate is formed as a microstrip line having a Stripes enleiter ^f on the one surface of the dielectric support plate and a ground conductor pad on the opposite surface.

Directional couplers designed in stripline technology are known which consist of two strip conductors which are mounted on a surface of a dielectric carrier and run parallel to one another over a certain distance and which, together with the ground back of the dielectric carrier plate, result in two microstrip lines. Between these two Microstrip lines are electrically and magnetically coupled. Such a directional coupler arrangement using microstrip technology, as is known, for example, from the article by Bryant, Weiß in IEEE Trans MTT-16, pp. 1021-1027 (Dec. 1968), shows poor directional sharpness, in particular in the case of high coupling attenuations.

To improve the directional sharpness, i.e. Several solutions are known for a better matching of the speed of the harmonic and counter wave. According to the essay by H.J. Duke in Electron. Letters vol.14.S50, No. 3, Feb. 2nd, 1978 all four coupling points of the microstrip directional coupler are loaded by parallel capacities. In a variant of a microstrip directional coupler shown in the article by G. Schaller in the AEÜ (26) E. 11, 1972, pp.508-509, there is a capacitive coupling between the two coupled lines at their sources. The formation of the coupling route as a staggering of directional couplers with different coupling attenuations and of different lengths is known from the article by S. Rehnmark, IEEE Trans MTT-25, p. 1116-1121 (Dec. 1977). A sawtooth-shaped arrangement of the coupling link is from the contribution by A. Podell, 1970 G-MTT, Int. Microwave Symposium Digest known. In the article by B. Sheleg, B.E. Spielman in IEEE Trans MTT-22, pp. 1216-1220 (Dec. 1974) describes the application of overlays to the coupling link. The use of special anisotropic substrate material is known from the article by N.G. Alexopoulos, C.M. Krowne in IEEE Trans MTT-26, pp. 387-393 (June 1978). The arrangement of a slot on the ground side of two coupled microstrip lines is from the article by M. Aikawa in Trans. Of the IECE of Japan, Vol. E 60, No. 4, pp. 206-207 (Apr. 1977).

In all of these known directional coupler arrangements in microstrip technology, the demands for a high dielectric strength, a high coupling attenuation and, at the same time, for independence of the directional sharpness from different housing dimensions are not met satisfactorily.

DE-AS 21 02 554 discloses a directional coupler designed in stripline technology, one transmission line of which is designed as a microstrip line and the other of which is a slot line. This slot line is formed by a narrow gap which separates the ground conductor surface of the microstrip line and is arranged opposite the strip line of the microstrip line in such a way that the longitudinal radii of the strip line and the gap enclose a small crossing angle which differs from zero. In this embodiment, however, there are difficulties in the series connection of components and in the transition to a microstrip line. In addition, with such a slot line design of a directional coupler, a considerable stray field is created. A transmission down to frequency zero is not possible.

The object of the invention is to provide a directional coupler arrangement in planar technology which has a high directional sharpness with a high coupling loss, a high dielectric strength and more. a largely insensitivity of these properties from the housing installation, whereby the additional disadvantages of the directional coupler arrangement known from German specification 21 02 554 are avoided.

This object is according to the invention, which is based on a directional coupler of the type mentioned pulls achieved in that the transmission line other than coplanar line is constructed which has a strip conductor inserted on the ground side of the microstrip line in a free from the ground conductor surface area and substantially parallel and approximately opposite ^f for Stripes enleiter the microstrip line is led.

The arrangement according to the invention results in a very low dependence of the directional sharpness on the housing at high coupling attenuations. It is easily reproducible. In contrast to the slotted line according to DE-AS 21 02 554, the coplanar line allows easy series connection of components and a better transition to a microstrip line. The coplanar line also has a smaller stray field than the slot line and, in contrast to this, enables transmission down to zero frequency.

• Fig. 1 eine Querschnittsansicht eines Richtungskopplers nach der Erfindung,
• Fig. 2 eine Dranisicht auf den Richtungskoppler nach Fig. 1,
• Fig. 3 die Draufsicht auf einen Richtungskoppler nach der Erfindung, jedoch mit Mäandrierung der Koppelleitung,
• Fig. 4 die Querschnittsdarstellung eines Richtungskopplers nach der Erfindung in Triplate-Technik,
• Fig. 5 die Querschnittsansicht einer Anordnung mit zwei voneinander unabhängigen Richtungskopplern nach der Erfindung,
• Fig. 6 die Querschnittsansicht einer Anordnung eines Dreifach-Richtungskopplers nach der Erfindung in Triplate-Technik.

The invention is explained in more detail below with reference to exemplary embodiments shown in six figures. Show it:

• 1 is a cross-sectional view of a directional coupler according to the invention,
• 2 shows a view of the directional coupler according to FIG. 1,
• 3 is a top view of a directional coupler according to the invention, but with a meandering of the coupling line,
• 4 shows the cross-sectional representation of a directional coupler according to the invention in triplate technology,
• 5 shows the cross-sectional view of an arrangement with two mutually independent directional couplers according to the invention,
• Fig. 6 shows the cross-sectional view of an arrangement of a Triple directional coupler according to the invention in triplate technology.

1 and 2 show, in a cross-sectional view II in FIG. 2) and in a top view, the design of a simple directional coupler in stripline technology according to the invention. A stripline 2 and 1 is on one surface of a carrier plate 1 made of dielectric material a ground conductor surface 3 is attached to the other surface. The strip conductor 2 and the ground conductor surface 3 together form a microstrip line. Approximately parallel to the strip conductor 2 and approximately opposite this, an area 4 is excluded from the ground conductor surface 3, in which a further strip conductor 5 is guided, which together with the ground conductor surface 3 forms a coplanar line. The free area 4 is bridged at one point by means of a ground bridge 6. A wave that runs along the strip conductor 2 belonging to the microstrip line from one coupling point 7 to the other coupling point 8 couples into the coplanar line with the strip conductor 5, which is inserted into the ground conductor surface 3 of the microstrip line and terminated with a terminating resistor 9 at the coupling point 10 . The outcoupled wave is available at a coupling point 11 of the stripline 5 of the coplanar line.

FIG. 3 shows a variation with a meandering of the coplanar coupling line. Otherwise, the directional coupler arrangement according to FIG. 3 corresponds to that according to FIGS. 1 and 2, so that the reference symbols are adopted. It is equally good to meander the microstrip line, i.e. the stripline 2 possible.

Another embodiment is shown in FIG. 4. A triplate line structure is used as the main line. The coupled coplanar line with its stripline 12 is easily accessible on one of the outer surfaces of the triplate line. The strip conductor 13 of the triplate line is here guided between the two ground conductor surfaces 14 and 15 of the two assembled dielectric carrier plates 16a and 16b. Here too, the coplanar line, like the strip conductor 13 of the triplate line, can be meandered or sawtooth-shaped.

Broadband directional couplers can be formed by coupling couplers according to the above-described embodiments with different coupling attenuations and different coupling lengths in the manner of a cascade connection.

5 shows a cross-sectional view of a directional coupler arrangement, mounted on a dielectric carrier plate 16, for coupling a microstrip line, consisting of a strip conductor 17 and the ground conductor surface 18, to two mutually independent coplanar lines, the strip lines 19 and 20 of which are in two free areas the ground conductor surface 18 are.

The simultaneous coupling of a triplet line, consisting of a strip conductor 21 and the ground conductor surfaces 22 and 23, to three largely independent coplanar lines, the strip conductors 24; 25 and 26 lie in free areas of the ground conductor surfaces 23 and 22, respectively, the directional coupler arrangement according to FIG. 6 with the two joined dielectric carrier plates 26a and 26b enables. There are two on one surface of the triplate arrangement Coplanar lines housed, whereas only a single coplanar line is inserted on the other surface.

Claims (7)

1. For a housing installation usable, implemented in strip line technology directional coupler, consisting of two attached to each other on opposite surfaces of a dielectric carrier plate, coupled transmission lines, the ends of which form the coupling points and one of which is a hicrostrip line with a strip conductor on one surface of the dielectric carrier plate and a ground conductor surface is formed on the opposite surface of this carrier plate, characterized in that the other transmission line is designed as a coplanar line, which has a strip conductor (5) which on the ground side of the microstrip line in an area (3) free from the ground conductor surface (3) 4) is inserted and the microstrip line is guided essentially parallel and approximately opposite to the strip line (2). 2. Directional coupler according to claim 1, characterized in that the area (4) free from the ground conductor surface (3) is bridged electrically by means of a ground bridge (6). 3. Directional coupler according to claim 1 or 2, characterized in that the coplanar line is sawtooth or meandering (Fig. 3). 4. Directional coupler according to one of the preceding claims, characterized in that the strip conductor of the microstrip line is sawtooth or meandering. 5. Directional coupler according to one of the preceding claims, characterized by a version in triplate technology, which with the Coplanar line provided surface forms an outer surface. (Fig. 4) 6. Directional coupler according to one of the preceding claims, characterized in that section couplers with different coupling attenuations and different coupling lengths are put together in a so-called cascade connection. 7. Directional coupler according to one of the preceding claims, characterized in that two or more coplanar lines coupled to a microstrip line or to a triplate line are provided (Fig. 5 and Fig. 6).

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