DE891999C - Bandstop for centimeter waves - Google Patents

Description

Bandstop for centimeter waves In the technique of the centimeter waves the use of bandstop filters is known, i. n. of bodies that are part of a Transmission line, especially in a waveguide, are switched on and have the ability to pass a wave that is in @this waveguide propagates according to a precisely defined species and belongs to a certain frequency band, to prevent or allow, - the actuation of the switch in easier Way is done with the help of a mechanical system.

The previously known devices of this type often have the Deficiency that they require the use of complicated mechanical systems. In addition, the production of these systems is delicate because they are in the open Position inside the waveguide must not form any obstacles that are undesirable Can cause reflections, which is often difficult with centimeter waves Problem is.

The invention relates to a device of this type, which has a particularly simple mechanical actuation system. In addition, in the open position the obstacle which it forms in the waveguide, one negligible reflection coefficient.

If in a rectangular waveguide in which there is a wave of the transverse-electric type Hol, two conductive rods attached of which one is on one narrow wall and the other on the other narrow wall on the same alignment perpendicular to these walls and in the same way Distance from the two wide walls is arranged, so owns as is well known the obstacle thus formed for wave propagation becomes a negligible one Reflection coefficient. If, on the other hand, a local Disturbance of the electric field generated so that its component in the direction of the Bars is no longer zero, the system behaves like a bandstop filter, as is well known.

According to the invention has a waveguide with a rectangular Cross-section of two conductive rods, which are opposite one another on each one narrow Wall of the waveguide perpendicular to the wall and equidistant from. the two wide walls are attached. The first rod has one attached to its end conductive arm,, velcher plays the role of perturbation arrangement, being mechanical means are provided, on the one hand, this arm by rotating this first rod around align itself and on the other hand the second rod in the waveguide more or let it enter less deeply.

Further details and advantages of the invention emerge from the following description of exemplary embodiments with reference to the drawing. In the drawing Figures i and 2 show a simplified scheme of the invention, Figures 3 and d. a perspective View of an embodiment of the invention in the open or closed Position, Figure 5 shows the scheme of a switching system with two branches, which the invention Facility used.

FIGS. I and 2 show in perspective a rectangular wave waveguide in which a Hol wave of the transversal electrical type propagates. The bandstop filter consists of two metal rods a and b with a negligible diameter. The two bars are each attached in a narrow wall perpendicular to the wall on the same alignment line and at the same distance from the two wide walls. A device of this type, if it is provided on its own, behaves like an obstacle with a negligible reflection coefficient. If, on the other hand, a deformation of the electric field generated by the wave is caused in its vicinity, through which it receives a local component in the common direction of the two rods, the device always behaves like an obstacle with a negligible reflection coefficient, except for Hoi waves; whose frequency is close to a preferred frequency. This preferred frequency depends on the dimensions of the waveguide and the lengths of the rods a and b , and at it the reflection coefficient assumes a finite value which is the higher and the closer to the unit, the greater the coupling of the system is the guided wave.

In the arrangement according to the invention, the local deformation of the electric field through a straight metal arm soldered to the end of the rod a c, with this arm forming an angle of 90 ° with this rod. Of the Rod ca with arm c can be rotated freely around the rod. The coupling can then from the value zero (if the arm c according to FIG. i parallel to the axis of the waveguide G lies) to be brought to a predetermined value, which is the length of the arm depends when the arm c is perpendicular to this axis (Fig. 2) and the largest possible local deformation 'causes. The rod b can according to the invention in the waveguide enter more or less deeply, thus enabling the blocking frequency to be set with the length of the rod remaining constant a.

Fig. 3 and, q. show: an example of a mechanical embodiment of the invention, the same reference numerals being used as in FIGS.

The rod a is fastened with the help of a flat disk d, which is inserted in the hollow conductor is arranged and rests against the wall of the waveguide so that they have a negligible reflection coefficient and good contact having with the waveguide. The rod is threaded so that it fits with Using a knurled washer M inserted more or less deep into the waveguide and so the cut-off frequency of the filter can be adjusted. The arrow E represents represents the direction of the electric field.

Fig. 3 and q. show the facility in the open or closed Position.

The lengths of the rods a and c are determined by experiment so that the maximum attenuation is achieved at the desired blocking frequency. The procedure is as follows: At the entrance of the waveguide, a transmitter is placed which is coupled to a probe, and this is attached in such a way that the waveguide is excited according to the Hoi oscillation type, whereby the transmitter is regulated to the desired frequency. A crystal probe is placed at the exit, which feeds one milliampeter. The lengths of the rods a and c are then changed while the length of b remains the same, so that the maximum attenuation is obtained and the arrangement is closed at the desired frequency and a fixed length of the arm c.

As an application example, FIG. 5 schematically shows a Y-branch of rectangular waveguides with three branches (i, 2, 3; which are shown schematically by two parallel lines are indicated. With the help of the arrangement according to the invention can on a wave radiator R, which is fed through branch 3, one or the other of the two transmitters E1 and E2, which are connected to branches i and 2, respectively and tuned to the same frequency. These two transmitters are installed in such a way that that they excite the branches i and 2 according to the mode of oscillation Hol, and one of the both transmitters should be used if the other fails. The branches i and 2 are provided with the inventive devices Dl and Dz, which on idie Frequency F are matched. These two devices are attached so that the a facility Dl constantly in the open position is when the other D2 is in the closed position and vice versa. For example Assume that Dl is in the open position and therefore enables the connection between the transmitter Ei and the radiator R; D2 is in the closed position and behaves almost like a short circuit towards E2. When the arrangement is so formed was that Dl and D2 in their closed position in the entrance of the branch 3 introduce an infinite parallel impedance, the entire energy of Ei pass from branch i to branch 3 without noticeable reflection. One can easily provide a single control device which allows Dl to close and at the same time to open D2 and so disconnect one of the two transmitters, while the other is in operation.

The practical importance of the invention arises from its simplicity the means used to carry out these measures and, furthermore, from them, that it is easy to ensure the good contacts that are indispensable in every organ which have moving parts in a high frequency field.

Claims (1)

PATENT CLAIMS: i. Band stop for centimeter waves that propagate in a rectangular waveguide according to the transverse electrical wave type Hol, characterized in that two thin metal rods are attached in the same alignment to a narrow wall of the waveguide and perpendicular to this wall, one of which is fixed Assumes position and the other carries at its end a conductive arm extending at right angles and is arranged freely rotatable about itself so that the device acts as a band stop when this arm is perpendicular to the axis of the waveguide, and that they are for the same Wave has a negligible reflection coefficient when the arm 'is parallel to the waveguide axis. z. Band stop filter according to Claim i, characterized in that the rod, which is in a fixed position, is provided with means for regulating its penetration depth into the waveguide and thus the blocking frequency of the filter. 3. Device according to claim 2, characterized in that the freely rotatable rod is held with the help of a Seheibe which is arranged inside the waveguide and rests against the wall so that it has a negligible reflection coefficient for the shaft and good contact with the waveguide. q .. Arrangement according to claim 2, characterized in that the rod occupying a fixed position is provided with a thread and z. B. can be screwed more or less deep into the waveguide by means of a knurled washer. Arrangement for switching two wave generators with the same ultra-high frequency to a load, in which a Y-branch of rectangular waveguides is connected with a branch to the load and with one branch each to the wave generator, which the branch concerned with a. Excite transverse-electric Hol-wave, characterized in that a band-stop filter according to claim i is arranged in each of the branches connected to the wave generators, and means are provided to simultaneously put one of these locks into operation and the other out of operation.