DE1903869C3 - Electromagnetic wave converter - Google Patents

Description

The invention is based on a transducer for electromagnetic labor with a conductive limited Rectangular waveguide and a parallel conductor transmission line, which is used as a ribbon line with a ribbon center conductor is formed in a parallel arrangement to at least one conductive ground plane and from which one with one of the two broad side walls of the waveguide conductively connected conductor into the waveguide extends, wherein the transducer comprises a stripline section, a transmission section and a waveguide section having in the order given, the broad side walls of the waveguide parallel zii a conductive ground plane and the transition section on a broad side through one of the Waveguide section from extended waveguide broadsider wall is limited.

Such transducers have become acute because of mixed microwave circuits, some in the form of Rectangular waveguides and partially in the form of such ribbon lines are available, with the development of more integrated Microwave circuit methods have become increasingly popular. With such circuits it is generally necessary to use the energy one or more times between the waveguides of these different types transferred to. The technology of printed circuits and thin-film circuits makes it possible integrated microwave circuits that combine many microwave functions in a single package are integrated in which ribbon lines are used as the only transmission medium through the whole package will. However, some circuit components are not useful for direct ribbon connection and must therefore be connected to waveguides. A system containing such components must include connection points between ribbon cables and waveguides, i.e. converters of the ones described in the introduction Kind.

In many cases it is convenient to connect the waveguide and tape lounging end-to-end, especially when the system has components that are suitable for such an end-to-end connection. In these Situations, this connection is also a mechanical aid to the constructional difficulties of a Avoid angled connection.

The constructive-mechanical connection is relatively easy to achieve, but the electrical one Coupling causes difficulties; because there must be an adapted transition between the main ribbon line waveform TEM and the dominant form of vibration Tliio can be created in the rectangular waveguide. So have ribbon cables and rectangular waveguides structural similarities, but are physically different and therefore have different Wave resistance. Means are therefore required of a good impedance match between them to get both toilet ladder forms.

A converter of the type described above is known from US Pat. No. 2,979,676. The transition section facing the extended waveguide wide sidewall a metallic transition piece. that is in the form of an elongated waveguide broadside wall has open waveguide piece, which extends from the width of the waveguide to the width of the strip conductor tapered and connected with the broad end to the waveguide and the narrow end to the Tape conductor is put on. A rib is required in the tapered transition piece to accommodate the Restrict microwave energy to the strip conductor width. This well-known converter doesn't have just one relatively complicated structure and comparatively long overall length, but it also has the disadvantage that Microwave energy from the opening between the radiates downwardly open transition piece and the extended hollow waveguide broadside wall. On the long sides the extended waveguide broad side wall facing upwards and becoming higher towards the waveguide Screen walls can reduce this radiation, but cannot switch it off. Since the transition part of the known converter is partially like an open.

emitting line behaves, are not just impedance mismatches and associated harmful reflections, but also radiation losses that make themselves noticeable on the one hand as undesired energy losses, on the other hand as Störsirahlungsqueilen can

From DE-PS 10 75 690 are waveform converters for coupling waveguides with asymmetrical Known ribbon cables in which the line conductor of the ribbon cables with a stepped ribbon conductor inside of the waveguide is conductively connected and the dielectric layer of the ribbon lines inside the The cross section of the waveguide is also stepped in alignment with the steps of the ridge guide. These Solution is a modification of the arrangement known from US-PS 29 79 676. The problem Feeding microwave energy from a stripline into a rectangle, with reflections in the process and losses as well as an impedance mismatch like that Keeping it as low as possible is, however, only unsatisfactory with this known arrangement Dimensions solved. The steps of the ladder in the known arrangement have a distance that one Corresponds to quarter wavelength. The longer and the more gradual the transition, the less they are occurring reflections. For a gradual transition, this means: The greater the number of Steps, the greater the transmitted bandwidth and the better the impedance matching. Do you want So get a good impedance matching in the known arrangement, so must a very large number of slightly stepped transitions exist, so that the overall length of the arrangement is unreasonably large will.

The object of the invention is therefore to provide a converter of the type described in the introduction, with which in a simple and direct way a smooth transition from a ribbon cable to a rectangular waveguide, or vice versa, can be achieved with good mutual impedance matching.

This object is achieved according to the invention by means of a converter of the design specified in the introduction solved in that in a ribbon cable with two conductive ground planes the broad side walls of the Waveguide offset at least against one of the conductive ground planes of the ribbon line section run, the transition section on the broad side, that of the extended waveguide broad side wall Opposite formed broadside, by this from the ribbon line section from extended conductive oath plane is limited and the strip center conductor extends from the strip line section in the exercise section extends and there conductive with the waveguide broad wall delimiting the transition section connected is.

So it form components of both the ribbon line and the waveguide the transition section in the manner indicated above; and within this transition section the field patterns become both the TEM stripline threshold j -. 'ngsforni as well as the TEio waveguide vibration waves run side by side.

In the transition section, where the field patterns of both transmission media exist side by side, a smooth coupling can take place; and the central conductor is conductively connected to the associated waveguide broadside wall, for example with the aid of a tuning screw mechanism mi ¹ , so that impedance matching is possible in the simplest possible way.

Compared to the above-described known transducers, as they are in US-PS 29 79 676 and DE-PS 10 75 690 are described, the converter according to the invention has the advantage that a good impedance matching takes place and that the converter is nevertheless characterized by a compact and simple structure, which well suited for mass production.

Further developments of the invention are characterized in the subclaims and with reference to the drawing an embodiment of the invention is described; it shows

1 shows a partially cut-open oblique view of an end-coupling-waveguide-band line converter designed according to the invention,

V i g. FIG. 2 is a top plan view, partially cut away, of the transducer of FIG. 1 and

F i g. 3 is a sectional view taken along line 3-3 in FIG. 2.

In the drawing is an embodiment of an end coupling transition between a rectangular waveguide and a parallel conductor ribbon line. The transition / wiping of the TEM waveform in the ribbon line 11 and the TEm-Schwiii transmission shape in the waveguide 10 occurs in the transition area.

The channel of the waveguide 10 is defined by an upper wall 19 and a lower wall 20 parallel thereto. further defined by parallel narrow side walls 35 and 36 and by an end wall 21 which is in a body 15 are incised. The waveguide 10 is for connection to further waveguide sections (not shown) intended. In the embodiment shown, an additional piece of waveguide can be attached to the Waveguide 10 are fastened with the help of bolts through holes 32 in the flange 31 and through corresponding holes in a corresponding flange of the hollow space to be connected be pushed through. The ribbon line 11 is shown cut along the lines 14 and 14 ' and has a thin ribbon center conductor 12 lying between a pair of ground planes 16 and 17. The Bandleiie-12 has a fixed distance a from the Ground plane 16 and a fixed distance ώνοη the Ground level! 7. The ribbon conductor 12 is typically supported by being on a Support / pad 18 made of highly dielectric material, plated or printed conductive material is formed. The invention can also be used in connection with ribbon cables that are self-supporting Possess center conductors, or in connection with lines, in which the ground planes are in the familiar Sandwich construction connected to each other or with clad surfaces.

According to the invention, the structural members of both the ribbon line 11 and the waveguide 10 are coextensive with one another within a transition region. Part of the tape 11 is inserted into the waveguide 10 through an opening in the end wall 21. The ribbon center conductor 12 and its support base 18 extend into the waveguide 10 by the distance d beyond the end wall 21. The conductive ground plane 17, which in the embodiment shown has a width ν significantly smaller than the width g of the waveguide 10, extends into the waveguide 10 to a distance e beyond the end wall 21. The ground plane 16 ends at the end wall 21.

In the transition area, the strip conductor 12 is by means of a short-circuit connection to the upper wall 19 of the Waveguide 10 mil with the help of a conductive contact pin 22 connected in a cylindrical bore of a screw 23 under the pressure of a spring 24 led isl. The pressure exerted by the pin 22 on the strip conductor 12 can be adjusted by corresponding rotation the screw 23 can be adjusted for this purpose in a threaded hole penetrating the wall 19 is performed in the body 15. The spring constant of the spring 24 and the setting of the screw 23 are like that chosen that electrical contact between the waveguide wall and the conductor 12 is maintained is without the strip conductor 12 or the Stülzunlerlage 18 break.

The short circuit formed in this way by the pin 22 couples the TEM vibrational form currents in a magnetic field that surrounds the short-circuit mechanism and in the plane of the magnetic field of the TEni waveform of the waveguide 10 is. To the Field pattern of the TEm and TEM waveforms in a transition area coextensive with one another to make and to get a smooth transition of the energy between these modes, must the waveguide channel extend through the entire transition area to the TEm waveform lead, and the ground plane 17 and the strip conductor 12 must be arranged so that they TEM propagation deliver through the whole area. The level 17 and the conductor 12 must be over the short-circuit parts extend to avoid undesirable effects on the TEM oscillation formula in the area of the short circuit to avoid. The ground plane 16 is terminated at the end wall 21 to prevent a short circuit between the conductor 12 and the plane 16, which would affect the TEM waveform field would. The wall 19 extends over the short-circuit screw also to undesired effects the part of the waveform field in the area of the short circuit to avoid.

It is believed that the best impedance match will be obtained when the ribbon conductor 12 is in the plane of the lower wall 20, but good operation will also be obtained when the distance between the plane of the conductor 12 and the plane of the wall 20 is small is compared to the height h of the waveguide 10. A small distance also simplifies the mechanical support of the conductor 12 in the transition area. The support pad 18 rests on the wall 20 within the transition area and through channels 37 and 38 which are machined to align with the surface 20 on the tape side of the transition area, as it is recommended that the conductor 12 be as tight as possible lies at the plane of the wall 20, a change in the distance f between the ground planes 16 and 17 of the ribbon line 11 will automatically change the offset amount c , un d a change in the height h of the waveguide 10 is compensated for in the offset step k. Therefore, for ribbon lines and waveguides of any size, the center lines of the ribbon line and the waveguide, the

ίο in the level between the ground levels of the Ribbon line or lie in the middle between the wide rope walls of the waveguide, are maintained. Even if the height / i and the distance / "are the same there will still be a transfer.

It has been found that a fine adjustment of the impedance match can be obtained by placing a ¹ -lump reactance, e.g. 41, on the ribbon conductor at a certain distance from the transition area. The use of such concentrated reactances is well known. An additional setting up possibility can be obtained by capacitive coupling of the conductor 12 to the extended ground plane 17 within the transition area. One of the numerous possibilities for this is shown in the drawing. A screw 42 is inserted in a corresponding threaded hole in the body 15 coaxially with the screw 23. The screw 42 penetrates the ground plane 17 and effectively lifts part of the ground plane 17

ju to or lower it. the coupling between the Ground plane 17 and the central conductor 12 to change.

As a special example, an end coupling junction with good impedance matching has been built for coupling a waveguide 10 to a ribbon line 11, the ribbon line 11 having an infinitesimally thick ribbon center conductor 12 of width w = 2.89 mm, which is placed on a base 18 with a thickness of 0.609 mm was plated. as well as ground planes 16 and 17 with widths of ν = 15.25 mm, which hold the distances a = 1.27 mm and b = 1,904 mm from the strip conductor 12, respectively. The height h between the broad side walls 19 and 20 of the waveguide 10 was Z54 mm, and the width of the broad side walls 19 and 20 was ^ r = 40.3 mm. The ground plane 17 extended into the waveguide 10 by the distance c = 11.8 mm, with an offset c = 1.27 mm in relation to the alignment with the wall 20. The base 18 and the strip conductor 12 extended into the Transition area and the distance d = 7.62 mm, where the strip conductor 12 was short-circuited with the wall 19 with the aid of a screw, the axis of which was 4.74 mm from the end wall 21. The resulting offset of the center lines was s = 0.964 mm.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Converter for electromagnetic waves with a conductive limited rectangular waveguide and a parallel conductor transmission line, which is called a ribbon line is formed with a ribbon center conductor in a parallel arrangement to at least one conductive ground plane and one of which extends with a of the two broad side walls of the waveguide of conductors connected conductively extends into the waveguide, wherein the transducer has a ribbon section, a transition section and a waveguide section having in the order given, the broad side walls of the waveguide parallel to one conductive ground plane and the transition section on one broad side through a hollow broad side wall extending from the Kohlleiter section is limited, gekennzeichne !, that in a ribbon line with two conductive ground planes (16, 17) the broad side walls (19, 20) of the waveguide at least against the one (17) of the conductive ground planes of the stripline section run offset, the transition section on the broad side, which is through the extended waveguide broadside wall (19) formed opposite broadside, through this from Ribbon line section (11) from extended conductive ground plane (17) is limited and the ribbon conductor (12) emerges from the ribbon line section into the Transition section extends and there with the waveguide brciiseitenwand delimiting the transition section (19) is conductively connected. 2 transducer according to claim 1, characterized in that the plane of the strip center conductor (12) is offset from the plane of the other (20) of the waveguide broad side walls by an amount which is small compared to the distance between the two waveguide broad side walls (19, 20). 3. Converter according to claim 1 or 2, characterized in that the tape center conductor (12) on one side of a .Sstützunterlage (18) is attached, which in turn is arranged so that its other, Side running parallel to the first side in the plane of the other waveguide wall (20) lies. 4. Converter according to one of claims 1 to 3, characterized in that the conductive ground plane (17) is much narrower than the waveguide broad side wall and is in the transition section than the bottom surface of a recess provided in the other waveguide broad side wall (20) extends into it.