DE1541667B2 - STRIP LINE - Google Patents

Description

35

The invention is based on a stripline, preferably for microwaves, with at least two Conductors in which the inner conductor is galvanically separated and the separation point for the one to be transmitted High frequency bridged by a capacitance, the conductive layers of which run parallel to the stripline is.

In FIG. 1 is a known strip line of this Art shown. The strip conductor 1 here has an interrupted inner conductor that passes through a capacitive tubular capacitor 2 attached outside of the stripline shielded at both ends is bridged.

Another known embodiment is shown in FIG. 2 shown. The one that is also shielded on both sides Stripline with the two outer conductors 3 and 4 and the inner conductor 5 has a solid dielectric 6 or 7, for mutual fixing of the conductor tracks. In the strip line shown, the inner conductor 5 is also interrupted and by means of a Capacity 8 bridged for the high frequency. For this purpose, the dielectric 6, as well as the dielectric 7 provided with a recess 9 for inserting the capacitance 8, which is transverse to the line of the Stripline is arranged. The recess 9 is selected to be so large that the conductive surfaces 11 and 12 of the capacitance 8 are connected in a suitable manner to the inner conductor 5 of the stripline can.

French patent 66 221 (addendum to 1 072 220) already describes it as a stripline arrangement became known, in which the inner conductor is interrupted and replaced by a just executed Capacitive bridged for the high frequency. This arrangement is only for the purpose to generate a certain filter behavior for the unshielded stripline used.

These known arrangements have large stray fields that extend into the outside space and therefore require additional shielding. In addition, the capacitor causes on his Place in the course of the stripline a high reflection factor, the size of which is often impossible makes the following component to the characteristic impedance of the over a wide frequency range Adapt connecting line.

The object of the present invention is therefore to provide an arrangement in which the above the disadvantages described can be avoided.

On the basis of the strip line described at the outset, it is proposed according to the invention that that for the most reflection-free formation of the line over a wide frequency band by suitable Choice of the distance of the outer conductor or conductors from the inner conductor in the area of the separation point depending on of the existing dielectric, the characteristic impedance of the stripline is kept constant will.

On the basis of one in FIG. This will be explained in more detail in the exemplary embodiment shown in FIG.

The strip line in FIG. The embodiment shown in FIG. 3 is a line shielded on both sides with the outer conductors 3 and 4 and the associated inner conductor 5, which is held by a suitable solid dielectric 6 and 7, respectively. The inner conductor 5 of the stripline is interrupted. In the dielectric 6 present between the inner conductor and the one outer conductor 3, a recess 9 is made, which preferably has a circular cross-section. This recess extends to the inner conductor 5 and has a larger diameter than the distance between the two ends 16 and 17 of the interrupted inner conductor 5. A capacitance 14 is used for capacitive bridging of the mentioned interruption point of the inner conductor, which is disk-shaped in the illustrated embodiment and was divided by the separate, conductive pads 16 and 17 in connection with the pad 18 into two partial capacities. The surfaces mentioned run parallel to the stripline. In the area of the separation point, the distance between the inner conductor and the outer conductor is increased. With a suitable choice of this enlarged distance, denoted by α , depending on the dielectric present, the joint, formed by the interruption of the inner conductor and the outer conductor in connection with the attached capacitance, is compensated over a broadband basis. The practical implementation of the mentioned increase in the distance between the inner conductor and the outer conductor in the area of the separation point is achieved by bridging the recess in the outer conductor, which, like the other conductors, consists of a thin metal foil in a manner known per se, is bridged by a plate-shaped part 15. Corresponding to the recess 9, the part 15 will also have a circular cross-section, the edges of the part 15 making the necessary contact with the outer conductor 3 by soldering or screwing.

It goes without saying that, deviating from the illustrated embodiment, instead of the subdivided Capacity 14, a single capacity can be used in the same way.

Furthermore, it is possible to provide both outer conductors 3 and 4 and the interposed dielectric parts 6 and 7 with a suitable recess for attaching the transmission capacitance, so that the transmission capacitance 14 can be arranged symmetrically in the stripline. This embodiment naturally results in other distances α for compensation, with a plate-shaped part being attached to both sides of the stripline at the same time, so that the wave resistance of the stripline is kept constant.

In an implemented embodiment of the invention according to FIG. 3 was made with a disc-shaped Capacitor with a capacitance of 1000 pF in the frequency range between 100 and 2000 MHz Reflection factor measured that was less than 2%.

1 sheet of drawings

Claims (4)

Patent claims: 1. Strip line, preferably for microwaves, with at least two conductors, in which the inner conductor galvanically separated and the separation point for the high frequency to be transmitted by a capacitance, whose conductive coatings parallel run to the stripline, is bridged, characterized in that to possible reflection-free formation of the line over a wide frequency band by means of suitable Selection of the distance (α) of the outer conductor (s) from the inner conductor in the area of the separation point in Depending on the existing dielectric, the characteristic impedance of the stripline is kept constant will. 2. Stripline according to claim 1, characterized in that a solid dielectric is used to hold the cable runs. 3. stripline according to claim 2 with three conductors made of thin metal foils, characterized in that that the dielectric has a recess for applying the capacitance to the inner conductor and that the distance of the or the The outer conductor is enlarged to the inner conductor by the separation point. 4. stripline according to claim 3, characterized in that the recess in the fixed Dielectric (6) is made only between the inner conductor (5) and an outer conductor (3).