DE2932388C2 - Terminating impedance for HF lines - Google Patents

Description

The invention relates to a terminating impedance for RF lines.

In high-frequency technology there is a need for such a variable error standard that has a defined reflection factor over a broader frequency band. In principle, this can be achieved by terminating a line with a real resistor, the resistance value of which is Zy. is not equal to the wave resistance Zi. of the line. The reflection factor is then calculated as follows:

ι .ι _ Zi. ~ Z »

However, if the mismatch is to be continuously variable, considerable difficulties arise. If you only design the terminating resistor to be changeable, you also have to do this Blind components that have to be compensated when a certain band width is reached target. However, compensation cannot be achieved for wide frequency bands, so that the known adjustable terminating resistors could only be produced in a narrow band. Become even worse the conditions when the fault standard is also supposed to absorb power. With increasing power consumption, the resistance element becomes larger and thus also the reactive component. It is known that a compensation becomes the narrower the bandwidth

greater the amount of this compensation must be made.

The invention has for its object to provide a terminating impedance for RF lines, their Impedance value for setting any defined and desired mismatch in a wide range Frequency range is continuously changeable.

The problem posed is achieved by what is specified in the characterizing part of claim 1 Characteristics.

The invention is therefore based on the knowledge that the real input resistance of a line broadband is changed when the capacitance per unit length of this lossy line is changed. That This means that the input resistance of the line is equal to the characteristic impedance of this lossy line.

This can be achieved either by changing the width of the conductor or the distance of the conductor from the Return conductor, i.e. in closed systems from the outer conductor of the system, is varied.

Further expedient refinements of the invention emerge from the subclaims.

Exemplary embodiments of the invention are described below with reference to the drawing. In the Drawing shows

F i g. 1 shows a sectional view of a terminating impedance with ground plates which can be adjusted parallel to the conductor;

Fig. 2 is a schematic view of a terminating impedance with pivoting arrangement of the outer circuit boards.

A circular insulating plate 1, for example made of glass or ceramic material, carries a strip-shaped conductor 2, which is applied as a layer of uniform thickness in a spiral or meandering shape on the insulating plate in order to accommodate a sufficiently long line length in the smallest possible area. The insulating material plate 1 is rigidly supported by the two rotationally symmetrical outer conductor housing parts 8, 9 and runs in a plane perpendicular to the axis of symmetry. The insulating plate 1 can be glued to the housing parts or carried by a clamping device. A shaft 10, the axis of which coincides with the axis of symmetry of the housing parts 8, 9, extends through bores in the housing parts and carries inside the housing non-rotatably but axially displaceable, on both sides of the insulating material plate 1, two carrier disks 6 and 7, which are attached to the insulating material plate 1 side facing metallic plate 3 or 4 wear. The carrier disks 6 vi and 7 are screwed with an external thread into an internal thread of the housing parts 8 and 9, and the threads 12 and i2A of the carrier disks 6 and 7 run in opposite directions, so that by turning the shaft 10 the mutual spacing of the plates 3, 4 or their distance from the strip-shaped conductor 2 is changed. A coaxial connection 11 is used as the connection, the outer conductor of which is connected to the housing parts 8 or 9, while the inner conductor is connected to the strip-shaped conductor 2.

By rotating the shaft 10, the wave resistance of the lossy line and so that their input resistance can be changed.

Fig.2 shows a schematic representation of a Terminating impedance with pivotally mounted plates 3 ', 4', which go around a through the apex Axis 13 can be pivoted in the direction of the arrows. The connection is again made via a coaxial connection 11, the inner conductor of which is connected to the strip-shaped conductor 2, which is supported by a sheet of insulating material 1 is worn. The edges sent to the pivot axis 13 slide over sliding contacts 14 and 14Λ on the in this area circular cylindrical r:; t of the axis 13 formed outer conductor housing. Plates 3 'and 4' can be adjusted in opposite directions individually or together. The meandering conductor is expedient produced with a ladder width decreasing according to the pivot axis 13. The contacting on the pivot axis 13 is carried out by fastening the movable outer circuit boards 3 ', 4' by means of a elastic band.

The insulating material plate 1 can have a fixed one on the side opposite the strip-shaped conductor 2 Have Masrebelag, and the movable plates can be thin-walled to a low induction To get lead.

The strip-shaped conductor can be firmly arranged with air as a dielectric to the ground pole, while on the opposite side of the insulating plate, the distance to the outer conductor can be changed is.

The actuator of the plates 3, 4 can be coupled to a display device, the display scale in units of the reflection factor or the standing wave ratio is calibrated.

The terminating impedance can also be used as a variable attenuator, the 'coaxial connection is connected to the main or secondary line of a directional coupler.

Furthermore, the terminating impedance in one of a bridge circuit or a directional coupler can be used Circuit arrangement of a reflection meter can be used.

1 sheet of drawings

Claims (17)

Patent claims: 1. Connection impedance for HF lines whose Impedance value for setting any defined and desired mismatch in one wide frequency range is continuously variable, characterized in that within a metallic outer conductor housing (8, 9) an insulating plate (1) is fixedly arranged, which a lossy strip-shaped one connected to the inner conductor of a coaxial connection Conductor (2) carries, and that within the housing at least one with the housing in contact standing metallic plate (3, 4) is provided, which forms a counter electrode and in its Distance from the strip-shaped conductor (2) for the purpose of setting different wave resistance values the lossy HF line and thus the contact resistance of the terminating impedance is disposable. 2. terminating impedance according to claim 1, characterized in that the strip-shaped conductor (2) Is arranged in a spiral on a circular insulating plate (1). 3. terminating impedance according to claim 1, characterized in that the strip-shaped conductor (2) Meander on the insulating plate (1) is arranged. 4. terminating impedance according to one of claims 1 to 3, characterized in that the insulating plate (1) Made of glass or ceramic material. 5. AbscWußimpedai: z nact claim 1, characterized characterized in that the insulating plate (1) on one side is the strip-shaped ?. Head (2) and on the opposite side has a solid ground covering. 6. terminating impedance according to one of claims 1 to 5, characterized in that within one with the coaxial connection (II) provided outer conductor housing on both sides of the insulating plate (1) two metallic plates (3, 4) adjustable in opposite directions and parallel to this insulating plate (1) are. 7. terminating impedance according to claim 6, characterized in that the plates (3, 4) are connected to carrier disks (6,7) which are screwed into the housing (8 or 9) via opposing threads (12 or \ 2A) , and that these carrier disks (6, 7) are placed on a shaft (10) penetrating the housing in a rotationally fixed but axially displaceable manner. 8. terminating impedance according to claims 6 and 7, characterized in that the housing and the parts enclosed by it are designed to be rotationally symmetrical with respect to the axis of rotation of the shaft (10) are. 9. terminating impedance according to claim 1, characterized in that the counter electrodes forming plates (3 ', 4') are pivotable about an axis (13) up to which the insulating plate (1) is performed (Fig. 2). 10. terminating resistor according to claim 9, characterized characterized in that the strip-shaped conductor (2) after the pivot axis (13) with decreasing Width is formed. 11. terminating impedance according to claims 9 and 10, characterized in that the plates (3 ', 4 ') are contacted on the pivot axis (13) with an elastic conductor strip. 12. terminating impedance according to claims 9 and 10, characterized in that the contact the movable plates (3 ', 4') with the coaxial connection (11) via sliding contacts (14 or 14AJ on a circular cylindrical surface of the Housing takes place. 13. Terminating impedance according to one of the claims 1 to 12, characterized in that the strip-shaped Conductor with air as a dielectric to the ground pole is fixed, while on the opposite side of the insulating plate, the distance to the housing can be changed. 14. terminating impedance according to claim 5, characterized in that the ground covering of the insulating plate is connected to the outer conductor by a sliding contact 15. Terminating impedance according to one of the claims 1 to 14, characterized in that the actuator of the plates (3, 4) with a display device is coupled, the display scale in units of the reflection factor or the standing wave ratio is calibrated. 16. terminating impedance according to one of claims I to 15, characterized by its use as variable attenuator, the coaxial connection (11) with the main or secondary line of a Directional coupler is connected. 17. Terminating impedance according to one of the claims 1 to 16. characterized by their use as a circuit element in a bridge circuit or a directional coupler existing circuit arrangement of a reflection measuring device.