DE2151478C2 - Directional coupler - Google Patents

Description

The invention relates to a directional coupler consisting of three in a common plane above the coupling length of parallel strip conductors, of which the middle one is the through conductor and represent the two outer coupling conductors.

Directional couplers using stripline technology are known. From the German Offenlegungsschrift 19 64412 a directional coupler is known whose coupling conductor is in one plane with the through conductor and is toothed in a comb-like manner with it. The areas of the The through conductor and the coupling conductor are straight and end seamlessly, with the comb-shaped Areas of the through conductor or the coupling conductor by themselves by additionally attached pieces of wire

iü are interconnected. This well-known directional coupler has the disadvantage that the transmission ratio of the wave resistance of through conductor and coupling conductor is difficult to determine. The additional pieces of wire to be soldered on cause on the one hand, additional costs and, on the other hand, entail disruptive joints.

Another directional coupler using stripline technology is known from DE-PS 10 02 828. With this one Directional couplers, the strip lines are designed as asymmetrical ribbon lines, in which the Strip conductors are separated from a ground plane by a plate of dielectric material.

From DE-PS 10 05 146 it is known, the phase dimension of the coupling conductor of a directional coupler

2 ^r i compared to the phase dimension of its through conductor by making the coupling conductor meander or zigzag.

A directional coupler of the type explained in more detail at the beginning is known from DE-OS 20 47 001. To the

jo halving the length of this directional coupler is half of which is arranged on both sides of the through conductor. The two coupling ladder halves are connected in series by a wire bridge so that the decoupled signals are

J5 run through both halves of the coupling ladder.

The power that can be dissipated from the coupling conductor depends not least on the distance between the coupling conductor and the Exit ladder. The output that is coupled out becomes greater the smaller the distance. on the other hand However, when the distance is reduced, it becomes more and more difficult to find predetermined tolerance values Wave resistances of the coupling conductor and the through-conductor as well as the transmission ratio of these Observe wave resistances.

The object of the invention is to show a way, as in the case of a directional coupler, that which can be coupled out Power can be increased without reducing the distance of the coupling conductor from the through conductor to values must be, which in terms of the wave resistance of the coupling conductor and the through conductor as well as the transmission ratio of these wave resistances can only be controlled with difficulty.

This object is achieved according to the invention in that the two coupling conductors form one of the through conductors all-round enclosing uniform stripline loop are combined, the two Connection points of the coupling conductor formed in this way near the through-connected equilateral ends of the outer stripline. The two outer coupling conductors are connected in parallel in this way, whereby the extracted signal is increased. The directional coupler is particularly suitable as a directional coupler tap, since the wave resistances of the coupling conductor and the through conductor as well as the The transmission ratio of these wave resistances is accurate despite the fact that the directional coupler is easy to manufacture have it adjusted. In contrast to known, comb-shaped toothed directional couplers, the distance

between the coupling conductor and the through conductor or the width of the coupling conductor in each case for itself Setting the transmission ratio or the wave resistance can be changed. The directional coupler can be manufactured using printed circuit technology, with the addition of additional Small pieces of wire to improve the coupling properties are unnecessary

According to an advantageous embodiment of the invention, the passage ladder and are located the ring-shaped coupling conductor on one side, the ground plane on the other side double laminated circuit board. The carrier material is preferably insulating material, for. B. hard paper, fiberglass epoxy resin, Fluoroplastics and the like are used

According to a further advantageous embodiment of the invention, the through conductor and the ring-shaped coupling conductor completely or partially covered with ferrite pieces.

Ferromagnetic material, e.g. B. ferrite or carbon iron used on which the conductor tracks and the ground plane are applied.

The conductor track width of the coupling conductor should achieve a wave resistance ratio of 1: 1 about half the width of the through conductor. To achieve other wave resistance ratios the width of the conductor path of the coupling conductor has to be reduced or enlarged accordingly.

The directional coupler according to the invention can be used as a directional coupler branch be combined with other components.

By routing the printed coupling conductor all the way around the pass-through conductor and through Dimensioning the width of the coupling conductor to half the width of the through conductor can be one achieve particularly good coupling. If a transformation of the wave resistance is desired (e.g. 60 to 75 Ohm), the width of the coupling conductor or the through conductor can be changed accordingly will. According to the invention, a plate made of ferrite with conductor tracks can also be used, on which the coupling conductor according to the invention, the through conductor and the ground plate either individually glued on or, for the purpose of greater dimensional accuracy, made of applied copper foils in printed construction getting produced. The coupling can thus be further improved.

The directional coupler according to the invention can be used in many technical devices. He With its small size, it can be used advantageously for the television bands FI to FV and has connection attenuation of less than 8 dB at around 650MHz (quarter wavelength). By using ferrite this connection loss can still be achieved at significantly lower frequencies. Use cases are in particular taps, equalizers, active ones Tap and amplifier output networks.

The invention is explained in more detail below using exemplary embodiments. as Embodiment serves a directional coupler tap.

Fig. 1 shows a known circuit arrangement of a directional coupler tap;

F i g. 2 shows the inventive circuit arrangement of a directional coupler when used as a Branch with the coupling conductor led around the through conductor;

F i g. 3 shows a directional coupler tap made from double-laminated hard paper or ferrite is made;

4 shows a further embodiment from double-laminated material that is covered with ferrite pieces

In Fig. 1 is a known embodiment of a Directional coupler tap shown, as used for example in community antenna systems will. The directional coupler 1 comprises a through conductor 2 led to the connections 4 and 5. The coupling conductor 3 is routed parallel to the through conductor 2 over the length of the directional coupler 1 Here, the conductor widths of the through conductor 2 and the coupling conductor 3, which are at a suitable distance are guided by the ground plate 10, dimensioned approximately the same. The resistor 7 is the terminating resistor of the coupling conductor. The dimensioning of the directional coupler is chosen so that the branch connection 6 Television frequency bands are decoupled. For the decoupling of the radio frequencies it is intended that that this directly from the through conductor 2 via a network 9, which usually consists of a series circuit HF choke 11 and a resistor 12 for decoupling exists, get to connection 8.

The circuit according to the invention is shown in FIG. 2 and avoids those described earlier Disadvantages due to the ring-shaped arrangement of the coupling conductor, through which much more favorable coupling values can be achieved. The directional coupler 1 consists of a through conductor 2 with the connections 4 and 5, that of an annular Coupling conductor 13 is encased in the conductor plane, both conductors being located above a ground plate 10. Of the Resistor 7 is connected to a tap in the immediate vicinity of connection 5 as the termination of coupling conductor 13. The decoupling of the radio frequencies takes place, as is known, directly from the through conductor 2 via the network 9, which is also shown here as a series connection of an HF choke 11 with a resistor 12 is shown. A modified embodiment of this coupling according to the invention is shown in FIG. 2a. However, this decoupling is due to the use of the directional coupler according to the invention as a branch limited for community antenna systems. If you want a load on the television area FI by the Avoid long, medium, short and VHF connection 8, the network is a series connection here HF choke 11, one which is tailored to the area of FI and consists of a coil 14 and a capacitor 15 Parallel resonant circuit and a resistor 12 built.

An embodiment of the directional coupler according to the invention, also a directional coupler tap, is shown in Fig. 3 in plan and section 18. On a carrier material 16, which is made either from Insulating material, such as hard paper or fiberglass material, or a ferromagnetic material, e.g. B. from a Ferrite plate consists of galvanically non-conductive ferrite, the ground plate 10 is provided on one side. on the other side are in the form of an open square, the conductor tracks of the through conductor 2 and the provided in a ring around the same coupling conductor 13 attached.

The width of each individual coupling conductor path surrounding the through conductor 2 is when the transmission ratio of the wave resistance is one, about half as large as the width of the

Through conductor 13. If, on the other hand, the wave impedance is to be reduced or increased, so this can be achieved by increasing or decreasing the width of the coupling conductor if the Width of the through conductor is dimensioned for a certain input-side characteristic impedance.

The decoupling conductor 21 is connected to the tap 2Ό of the coupling conductor 13. This tap is located in the vicinity of the connection 5. By the corresponding width of the decoupling conductor 21 can Here, too, a connection that corresponds to the wave resistance can be achieved.

The support points 17 are attached so that the components of the network 9 and the terminating resistor 7 can be attached unsupported in a manner not specified.

In one version of the directional coupler tap, for example, on a double-clad Printed circuit board is made of hard paper, the directional coupler has a quarter wavelength at 650 MHz. The connection attenuation here reaches a minimum of less than 8 dB. For lower frequencies this is Directional coupler shorter than a quarter wavelength. The connection attenuation reached here in band FI approximately 25 dB. If the arrangement is built according to the invention with ferromagnetic substances (e.g. ferrite) as the carrier material 16, one achieves significantly improved connection attenuation, even at frequencies in the FI band.

The selection of the type of ferromagnetic material allows such branches with different To build frequency characteristics so that one is able to use the frequency-dependent cable attenuation in to compensate to a certain extent (equalizer character).

Another modification of the directional coupler according to the invention is only partially with ferromagnetic Material, preferably ferrite, covered (Fig. 4). The conductor tracks of the through and coupling conductors are covered with individual ferrite pieces 19. The fastening can be done by gluing under pressure take place. This variant of the invention is characterized by particularly low manufacturing costs.

Such directional couplers according to FIG. 3 and 4 can be used as passive taps, especially in active branch circuits are built in, in which they are the falling at high frequencies Equalize the frequency response of the individual amplifier. In doing so, you achieve first-class adjustment values the main trunk line routed via the through conductor of the directional coupler. Furthermore is the directional coupler Can be used as an output network for amplifiers, especially if these are connected to a common Busbar work, as there is a very good adaptation, possibly with additional design of the directional coupler can be achieved with wave impedance transformation.

For this purpose 2 sheets of drawings

Claims (9)

Patent claims: 1. Directional coupler, consisting of three parallel in a common plane over the coupling length mutually leading strip conductors, of which the middle one is the through conductor and the two represent outer coupling conductor, characterized in that the two coupling conductors to a uniform stripline loop surrounding the through conductor (2) on all sides are, the two connection points of the coupling conductor (13) formed in this way near the connected equilateral ends of the outer strip conductor lie. 2. Directional coupler according to claim 1, characterized in that the through conductor (2) and the ring-shaped coupling conductor (13) on one side, the ground plane (10) on the other side a double-laminated circuit board. 3. Directional coupler according to claim! or 2, characterized in that the carrier material (16) Insulating material such as hard paper, fiberglass-epoxy resin, fluoroplastics and the like is used. 4. Directional coupler according to one of the preceding claims, characterized in that the Through conductor (2) and the ring-shaped coupling conductor (13) jointly in whole or in part Ferrite pieces (19) are occupied. 5. Directional coupler according to claim 1 or 2, characterized in that the carrier material (16) Ferromagnetic material such as ferrite or carbonyl iron is used on which the conductor tracks (2,13) and the ground plate (10) are applied. 6. Directional coupler according to one of the preceding claims, characterized in that the Conductor track width of the coupling conductor (13) to achieve a wave resistance translation 1: 1 is about half as large as the width of the through conductor (2). 7. Directional coupler according to one of the preceding claims, characterized in that for Achieving other wave resistance ratios of the coupling ladder correspondingly wider or narrower is measured. 8. Directional coupler according to one of the preceding claims, characterized in that the Coupling conductor (13) is connected to a branch connection (6) and a terminating resistor (7) and that a further branch connection (8) via a series connection of a resistor (12), one HF choke (11) and possibly a parallel resonant circuit made up of a coil (14) and a Capacitor (15) is connected to the through conductor (2). 9. Directional coupler according to claim 8, characterized in that additional active elements such as Transistors are provided.