DE1766762B1 - Directional coupler - Google Patents

Description

The invention is based on a directional coupler in the form of a loop coupler, whose coupling loop is short compared to the wavelength and which is designed so that the inductive coupling component by rotating the loop with respect to the axis of the coaxial line can be adjusted, the coupling attenuation being changeable is executed.

Such a directional coupler is in German patent specification 954 167 described.

The invention is based on the object of such a directional coupler a good fine-tuning of both the inductive and capacitive components to reach.

In the case of a directional coupler, this task becomes the one mentioned at the beginning Design achieved according to the invention in that a diaphragm between the loop and the To be coupled line is attached that a metal pin through a hole in the coupling loop protrudes without contact and that the depth of immersion of the pen can be changed.

Here, the adjustment of the diaphragm causes the expedient is designed as a pot with a transverse slot (so only the inductive lines of force can pass through), a change in the coupling attenuation by inductive means, while the capacitive variation is accomplished by moving the pen.

The capacitive coupling pin, which is conveniently short opposite of the wavelength is, can through the aperture in the field space of the subsequent Coaxial conductor are twisted. It is conveniently made of an insulating rod. worn, which is adjustable via a threaded spindle.

Below is an embodiment of the invention with reference to the Drawing described.

The only figure in the drawing shows a partially sectioned one View of a directional coupler designed according to the invention.

In the directional coupler shown in the drawing, the coupling attenuation can be set, for example, in a range between 40 and 100 db. The directional coupler is inserted by means of a circular plate 10 in a line housing of the coupler provided with a corresponding opening, and the inductive coupling component can be adjusted by rotating this circular plate 10, which serves as the carrier of the entire coupling branch. The coupling branch is equipped with one of the two ends of the coupling loop 25 connected terminals 11 and 12, one of which is used to connect a terminating resistor that prevents the return of the wave, while the other terminal is used to decouple the reflected wave. The connections 11 and 12 have a uniform thread onto which a wide variety of plug connections can be screwed.

A spindle housing 13 is carried by the plate 10 and has two coaxial, individually adjustable spindles 14 and 16 with adjusting wheel 15 and 17, respectively. The spindle 14 carries a ceramic pin 26, at the lower end of which a coupling pin 27 made of metal is attached, which protrudes through a hole 28 'of the coupling loop 25 without making contact. Between the coupling loop 25 and the line to be coupled there is a diaphragm in the form of a pot 28 which has a diaphragm slot 29 'which is perpendicular to the loop 25 and whose width is so dimensioned that the desired coupling attenuation range can be set. The spindle 16 concentrically surrounding the spindle 114 carries a sleeve 29 surrounding the ceramic pin 26, which is used to set the exact wave resistance of the loop. This arrangement enables the coupling capacitance to be changed by means of the pin 27, which can be rotated through the diaphragm slot 29 'into the field space of the subsequent coaxial conductor, thus picking up the field lines there and coupling them capacitively to the loop. After a fixed pre-setting has been established by the position of the slit diaphragm 29 '(distance from the loop 25) and the slit width, the inductive component is changed by rotating the entire head 10 of the high-frequency line. Inductive and capacitive components can thus be adjusted continuously and independently of one another, and the coupling attenuation can thus be varied at a given frequency.

Claims (10)

Claims: 1. Directional coupler in the form of a loop coupler, whose coupling loop is short compared to the wavelength and which is designed so that the inductive coupling component by rotating the loop with respect to the axis the coaxial line can be adjusted, the coupling attenuation being changeable is executed, d a -characterized in that a diaphragm (28) between loop (25) and the line to be coupled is attached that a metal pin (27) through. a hole (28 ') of the coupling loop (25) protrudes without contact and that the immersion depth of the pin (27) can be changed. 2. Directional coupler according to claim 1, characterized in that that the diaphragm (28) is cup-shaped and the pin through a diaphragm slot (29 ') can be rotated into the field space of the subsequent coaxial conductor. 3. Directional coupler according to claims 1 and 2, characterized in that the capacitive coupling pin (27) is short compared to the wavelength. 4. Directional coupler according to the claims 1 to 3, characterized in that the pin (27) is supported by an insulating rod (26) is carried, which is adjustable via a threaded spindle. 5. Directional coupler according to one of claims 1 to 4, characterized in that the coupling loop (25) is firmly connected to the connections (11, 12) . 6. Directional coupler according to one of claims 1 to 5, characterized in that the diaphragm slot (29 ') runs perpendicular to the direction of the loop (25) and so in its width is dimensioned so that the desired coupling attenuation range is adjustable. 7. Directional coupler according to claims 1 to 6, characterized in that the spindle arrangement (16, 17 ) carries a sleeve (29) which is used to set the exact wave resistance of the loop foot and loop end. B. Directional coupler according to claim 7, characterized in that the sleeve (29) is axially displaced and rotated can run independently of one another, with the oval design of the outer contour the sleeve (29) in the area of this loop beginning and loop end an enlargement or reducing the distance from this sleeve and changing the immersion depth is made possible. 9. Directional coupler according to one of claims 1 to 8, characterized in that that a scale the rotation corresponding to the loop position relative to the Axis of the line. 10. Directional coupler according to one of claims 1 to 9, characterized in that the coupling part of the directional coupler both on coaxial lines and can be placed on waveguides, the dimensioning of the adjustment lengths being dependent is made by the wavelength.