EP3082193A1 - Difference phase slider assembly - Google Patents

Abstract

An improved differential phase shifter assembly is characterized, inter alia, by the following features: - There is provided at least one further capacitive coupling device (35) in the region of the central and / or pivot axis (9), and the at least one further coupling device (35; 35a, 35b) a) is arranged next to the second coupling device (24) so that the second coupling device (24) between the first coupling device (21) and the at least one further capacitive coupling device (35) is positioned, and / or b) is arranged adjacent to the first coupling device (21) so that the first coupling device (21) is positioned between the second coupling device (24) and the at least one further capacitive coupling device (35).   

Description

The invention relates to a differential phase shifter assembly according to the preamble of claim 1.

In particular, the mobile radio antennas provided for a base station usually comprise an antenna arrangement with a reflector, in front of which, in the vertical direction offset from one another, a multiplicity of radiator elements are provided and thus form an array. These can radiate and receive, for example, in one or two mutually perpendicular polarizations. The radiator elements can be designed to receive only in a frequency band. However, the antenna arrangement can also be designed as a multi-band antenna, for example for transmitting and receiving two mutually offset frequency bands. Also so-called. Triband antennas are basically known.

As is known, the mobile radio network is designed in the form of a cell, wherein each cell is assigned a corresponding base station with at least one mobile radio antenna for transmission and reception. The antennas are designed so that they usually radiate at a certain angle relative to the horizontal with the main lobe down, whereby a certain cell size is determined. This lowering angle is also known as the downtilt angle.

A generic difference phase shifter assembly is already out of the EP 1 208 614 B1 have become known in which in a single-column antenna array with a plurality of superimposed radiators, the downtilt angle is continuously adjustable differently. According to this prior publication, differential phase shifters are used which, with different settings, cause the propagation time and thus the phase shift at the two outputs of a respective phase shifter to be adjusted in different directions, as a result of which the lowering angle can be set.

The adjustment and adjustment of the phase shift angle can be carried out manually or by means of a remotely controllable retrofit unit, as for example according to the DE 101 04 564 C1 is known.

The generic differential phase shifter assembly includes at least two concentrically arranged stripline sections. At the opposite ends of these stripline sections are joints provided on which to different emitters of an antenna array (in particular a mobile radio antenna) extending connecting lines can be connected.

The phase shifter assembly further comprises a supply and / or Abgriffseinrichung (which is also referred to below as feed and / or Abgriffsarm or - element), which is pivotable about a central and / or Verschwenkachse, wherein the pointer-shaped feed element over the is pivotable across several concentric strip lines.

The pointer-shaped feed and / or tap arm is capacitively coupled to the strip lines, with the interposition of a generally fixed dielectric.

The pointer-shaped feed element is fed capacitively via a central feed line, for which purpose the central feed line (which is connected to an antenna network) has a feed line-side connected first coupling surface in the region of the central or pivot axis. Staggered in the direction of the central or pivot axis is the interposition of a dielectric or insulator belonging to the supply and / or Abgriffsarm or galvanically connected second coupling surface provided.

The entire described functional structure is housed in two half-shell-shaped housing parts, which cause the electrical shielding of the differential phase shifter assembly thus formed.

By means of such a differential phase shifter assembly, the individual phases with respect to the received and / or transmitted signals, for example a mobile radio antenna can be adjusted very efficiently and effectively, whereby, for example, different Absenkwinkel (down-tilt angle) are adjustable, as for example in the EP 1 208 614 B1 is comprehensively described.

An extent far comparable differential phase shifter assembly is also the EP 1 870 959 B1 or even from the WO 2014/141993 A1 known.

Although the generic differential phase shifter assembly has been very well established, it is an object of the present invention to provide an improved differential phase shifter assembly.

A comparable arrangement is also from the JP 2010-135893 A known. Also in this case, a galvanically connected to the feed line first feeder line side coupling device is provided which comprises parallel to the central axis of the central feed line offset dish-shaped coupling device sections. In between lying separated by an insulator, a second tap arm side coupling device is also arranged in disc form, which is connected to the arm or pointer-shaped feed and / or tapping element.

The object is achieved according to the features specified in claim 1. Advantageous embodiments The invention are specified in the subclaims.

The invention provides with surprisingly simple means a further improved differential phase shifter assembly.

In particular, when the phase shifter assembly comprises an increasingly larger number of concentrically arranged strip lines, the remaining space in the region of the central and / or pivot axis for the pointer-shaped feed element is comparatively small. In this small remaining space, the explained capacitive feed, that is, the capacitive coupling between the first feed line side coupling surface and the pointer element side second coupling surface must be accommodated.

With such capacitive coupling devices for feeding or decoupling a signal, a leading wave always also has a reflecting wave which leads to a certain standing wave ratio, which is also referred to briefly as VSWR (standing wave ratio).

There are already a variety of attempts have been made to contribute to a certain improvement here.

In order to achieve a small Stehwellenverhältnis and thus improve the feed, is now proposed in the invention, in the region of the central and / or pivot axis of the feed and / or Abgriffarms or -elementes (which is sometimes referred to as a pointer-shaped feed and / or Abgriffseinrichtung) provide an additional capacitive coupled coupling device.

In a particularly preferred embodiment, a spaced apart and galvanically separate additional coupling device or disk is positioned above the actual pointer head of the pointer-shaped feed element, which is penetrated by the central or pivot axis. This is preferably separated from the electrically conductive pointer head by means of a disc-shaped interposed insulator. For this purpose, the application of a plastic film on at least one or on both surfaces facing each other of the pointer head or the adjacent surface of the coupling disc may be sufficient.

Figur 1:

eine schematische Draufsicht einer erfindungsgemäßen Differenz-Phasenschieberbaugruppe bei abgenommenem Gehäusedeckel bzw. abgenommener Gehäusehälfte;

Figur 2:

eine ausschnittsweise vergrößerte Detaildarstellung des in Figur 1 bereits gezeigten Speise- und/oder Abgriffselementes oder -Armes und ein zugehöriger Ausschnitt der zugehörigen Streifenleitungen;

Figur 3:

eine Querschnittsdarstellung in Längsrichtung des Speise- und/oder Abgriffelementes längs der Linie III-III in Figur 2;

Figur 4:

eine vergrößerte Detaildarstellung der mit netzwerkseitigen Leitungen verbundenen Koppeleinrichtung;

Figur 5:

eine zu Figur 3 abweichende Querschnittsdarstellung in Längsrichtung der Speise- und/oder Abgriffseinrichtung, die in diesem Ausführungsbeispiel abweichend zu Figur 3 zwei Speiseund/oder Abgriffselemente umfasst;

Figur 6:

eine weitere Abwandlung gegenüber dem Ausführungsbeispiel nach Figur 5, bei welchem die beiden vorgesehen Speise- und/oder Abgriffselemente im Gegensatz zu der Variante gemäß Figur 5 im Bereich der Zentral- und Verschwenkachse abweichend angeordnet sind;

Figur 7:

eine weitere auszugsweise Querschnittsdarstellung ähnlich dem Ausführungsbeispiel nach Figur 5, wobei in Abweichung zu dem Ausführungsbeispiel gemäß Figur 5 eine zweite weitere Koppeleinrichtung vorgesehen ist; und

Figur 8:

ein nochmals gezeigtes abweichendes Ausführungsbeispiel ähnlich zu dem an Hand von Figur 3 gezeigten Ausführungsbeispiel, wobei die speiseleitungsseitige Koppeleinrichtung nunmehr zwischen dem Koppelabschnitt der Speiseund/oder Abgriffseinrichtung und der zusätzlich vorgesehenen Koppeleinrichtung angeordnet ist.

The invention will be explained in more detail with reference to drawings. In detail:

FIG. 1:

a schematic plan view of a differential phase shifter assembly according to the invention with removed housing cover or removed housing half;

FIG. 2:

a detail enlarged detail of the in FIG. 1 already shown feeding and / or Abgriffselementes or -Armes and an associated section of the associated strip lines;

FIG. 3:

a cross-sectional view in the longitudinal direction of the feed and / or Abgriffelementes along the line III-III in FIG. 2 ;

FIG. 4:

an enlarged detail of the connected network side lines coupling device;

FIG. 5:

one too FIG. 3 deviating cross-sectional representation in the longitudinal direction of the feed and / or tapping device, which deviates from in this embodiment FIG. 3 comprises two feeding and / or tapping elements;

FIG. 6:

a further modification from the embodiment according to FIG. 5 in which the two provided feed and / or tapping elements in contrast to the variant according to FIG. 5 are arranged differently in the region of the central and pivot axis;

FIG. 7:

a further extracts cross-sectional view similar to the embodiment according to FIG. 5 , wherein in deviation from the embodiment according to FIG. 5 a second further coupling device is provided; and

FIG. 8:

a again shown different embodiment similar to that with reference to FIG. 3 shown embodiment, wherein the feed line side coupling device now between the coupling portion of the Speiseund / or Tapping device and the additionally provided coupling device is arranged.

In FIG. 1 is a schematic plan view of a representation of the phase shifter assembly according to the invention reproduced with removed housing cover or removed housing half.

It can be seen that according to this embodiment, the differential phase shifter assembly comprises three part-circular strip lines 5, which are arranged concentrically to a center 7. The strip lines 5 are usually arranged in a common plane E. The strip lines need not necessarily be semi-circular but may also have a pitch of more than 180 °. In general, the strip lines 5 have a length with which they enclose only a partial angle of less than 180 °.

Perpendicular to the plane E and thus perpendicular to the plane E, in which the strip lines are 5, runs a central or pivot axis 9, to which a lever, finger, arm and / or pointer-shaped feed and / or tap means 13 accordingly the double arrow view 11 is pivotable.

The aforementioned feeding and / or tapping device 13 comprises in the illustrated embodiment, a pointer or arm-shaped feed or tapping element 13a, which is also referred to below as a feed and / or Abgriffsarm 13a. This feed and / or tapping element 13a is of the internal Central and / or pivot axis 9 arranged over the strip lines 5 away extending to the outermost strip line and covers each with a coupling section 15 an underlying strip line coupling section 5 '( FIG. 3 ) of the respective strip line 5, wherein the coupling portion 15 of the pointer or Abgriffsarms 13 is arranged rotatable at a distance above the respective strip line 5 of time. In this way, a capacitive coupling is effected between the corresponding coupling portion 15 of the pointer or Abgriffsarmes 13a and the staggered and by the feed and / or Abgriffsarm 13a position-dependent covered portions 5 'of the associated stripline 5.

By corresponding pivoting of the pointer-shaped feed and / or Abgriffsarmes 13a, the respective path length between a stripline coupling section 5 'of a stripline 5 and the respective remaining stripline end 17 is increased and reduced in relation to the opposite stripline section, whereby in opposite directions the duration of the signals is changed in a known manner. As a result, for example, a down-tilt angle of connected radiators can be set differently. For this purpose, only indicated and leading to the individual radiators 1a to 1f connecting lines 2 are connected to the stripline ends 17 at 19 formed there connection points in the drawings.

Based on FIG. 2 an enlarged detail of the feeding and / or tapping device is shown, with the aforementioned feed and / or Abgriffsarm, which can be adjusted to a central axis 7 on the strip lines 5 away, usually to the stripline end 17. In this case, four concentric strip lines 5 are provided in the embodiments explained below, in accordance with the plan view FIG. 2 are shown only in part, with reference to FIG. 3 a cross-sectional view along the line III-III in FIG. 2 is reproduced. It is in FIG. 3 in section, the housing 18 with the two housing halves 18a and 18b visible.

The feeding of the feed and / or Abgriffsarmes 13a takes place in the region of the central and pivot axis. 9

This is - as in particular from the cross-sectional view according to FIG. 3 is to be seen - in the region of the central and pivot axis 9, a central feed 20 with a first coupling device or coupling surface 21 is provided, which is connected via a coupling connection 22 with a central feed line 23 ( FIG. 3 ).

To this first coupling surface 21 (hereinafter also referred to as the feed line side coupling surface or coupling device 21) is offset in the direction of the central or pivot axis 9 lying a pointer head 25 of the feed and / or Abgriffsarmes 13, usually with the interposition of a dielectric or Isolator 27.

The feed line-side coupling surface 21 is preferably designed as a coupling ring 21 '( FIG. 4 ). Also, the pointer or Abgriffsarm-side second coupling device or coupling surface 24 forming the pointer head 25 generally has a central recess 29, through which a pivot axis forming and the pointer or Abgriffsarm 13 supporting axle 31 is provided, which is formed while avoiding a galvanic connection of an isolator effect generating plastic ,

The entire assembly is also usually held by a base forming insulator 33 on the inside of the housing 1 ', that is, the at least one housing half 1 mechanically and anchored. In the exemplary embodiment shown here, the axle body 31 passes through the entire feed device 20, including a bore 22c in the lower part of the housing 18, that is to say the lower housing half or shell 18b in the exemplary embodiment shown, the axle body 31 being provided with an axle body head 31a has a larger outer diameter and rests on the outside of said housing half 18b in the final assembled state, in this case so also the mentioned insulator 33 in a correspondingly formed therein bore 22a including a corresponding bore 21a in the coupling surface 21 (and the others explained below here located parts) interspersed. But the solution can also be reversed, such that the axle body has a larger outer diameter than the Achskörperkopf, which can be inserted with its smaller diameter in a corresponding bore 22c in the associated housing half, until the axle body with a larger diameter at its corresponding step approach, for example on the inside of the associated housing shell rests.

In order to improve the standing wave ratio (VSWR) in the context of the invention despite a small amount of available installation space without large additional technical measures, it is now provided according to the invention that an additional coupling device 35 is provided parallel to the pointer head 25, preferably in the form of a coupling disk 35 '. This is along the central and / or pivot axis 9 offset lying to the adjacent surface of the pointer head 25 is provided to effect an additional capacitive coupling between the pointer head 25 and the coupling device 35.

As an insulator between the uppermost further coupling device 35, preferably in the form of the coupling disk 35 'and the pointer head 25 offset therefrom, at least one insulation 39 is provided, e.g. in the form of an insulator film 39 'or in the form of an insulator film 39' is provided. This separating film effecting a galvanic separation can also be produced, for example, by a glued-on plastic film or by an applied plastic paint.

The aforementioned insulation 39 and the coupling device 35 have in the illustrated embodiment, a recess or bore 39a and 35a, which is penetrated by the axle 31 (which incidentally also by a corresponding bore 22a in the illustrated embodiment, the second housing half or shell 18a permeated and held against it against axial tilting and secured).

The aforementioned coupling device 35 can be realized, for example, in the form of the aforementioned coupling disk 35 ', which can have different sizes, for example different sizes also to the pointer head 25 located underneath. In other words, the coupling device 35 can be in the longitudinal and / or transverse direction, however also have in terms of the resulting in plan view Außenkontor different sizes and shapes. In addition, the preferably disk-shaped coupling device 35 can also be implemented with different material thicknesses (i.e., with different thicknesses and heights) as required and required. Finally, it should also be mentioned that the coupling device 35 may be realized, for example, from a plurality of letters, which are arranged one above the other or which consist of different disc parts in the circumferential direction or are composed. There are no restrictions in this regard.

By this simple measure, a clear improvement of the standing wave ratio has now been realized.

In this case, the invention also makes it possible that with comparatively small available central space in the region of the central and pivot axis, that is in the region between the central and pivot axis 9 and the closest and thus immediately adjacent innermost strip line 5, the dimensions of Pointer head 25 can be reduced even in the radial direction to the pivot axis 9, whereby the pivoting range to the left and right can even be increased. Despite reduced area of the Pointer head 25 (in plan view as shown in FIG FIG. 2 ), a deterioration in the standing wave ratio caused thereby can not only be compensated, but can even be changed to an improvement in that the mentioned additional further coupling device 35 is preferably arranged correspondingly in the form of the mentioned coupling disc 35 '.

The additional metal-made (ie generally electrically conductive) or at least provided with a metallic outer layer coupling device 35 preferably in the form of the coupling disc 35 'so the standing wave ratio (VSWR) of the entire phase shifter is affected. This not only results in an overall improvement of the standing wave ratio but also opens up the possibility that an optimization and / or adjustment possibility exists with regard to the standing wave ratio (VSWR).

By the present invention, even in the realization of a pointer head 25 with a maximum outer contour, in the phase shifter axis, the pointer or Abgriffsarmes and the innermost lying and thus the smallest stripline arc by the invention explained a further improvement of the standing wave ratio (VSWR) to to realize 20% (and sometimes even more).

Notwithstanding the embodiment, as shown in particular in the cross-sectional view according to FIG. 3 results, the mentioned and explained feed and / or Abgriffsarm 13 also formed differently be, with the benefits of the invention using the additionally provided third coupling device 35 are always feasible.

In the variant according to FIG. 5 which deviates from a cross-sectional view FIG. 3 reproduces, is now the feeding and / or tapping device 13 as a feed and / or Abgriffsarm pair 13 'is formed. The design of the feed and / or tapping device 13 is such that the pointer-shaped feed or tapping device 13 is quasi fork-shaped, starting from the central or pivot axis 9, so that a first feed and / or tap arm 13a on one side extends over all strip lines 5 away to its radially outer end and a second feed and / or Abgriffsarm 13 b is guided on the opposite side over all strip lines 5 away to an outer end. As a result, all the strip lines 5 are quasi in a fork-shaped or pocket-shaped receptacle 41 between the two mutually parallel feed and / or Abgriffelemente 13a and 13b of which the strip lines 5 are galvanically isolated, optionally with the interposition of solid insulating layers (dielectrics).

It is in the illustrated embodiment according to FIG. 5 provided that, for example, each of the two supply or Abgriffsarme 13a, 13b, which form the supply or Abgriffsarm pair 13 ', with a common or galvanically isolated second coupling means 24a, 24b are provided, wherein the one coupling means 24a with the first feed - And / or Abgriffsarm 13 a and the further coupling device 24 b (which also to the second Coupling heard) is electrically connected to the other supply and / or Abgriffsarm 13b. The aforementioned two second coupling devices 24a, 24b thus each represent a pointer head 25a, 25b for the two feed and / or tapping elements 13a, 13b.

In this case, the two feed and / or tap arm-side coupling devices 24a, 24b forming a pair can be in galvanic contact with each other or capacitively coupled to one another, with the interposition of an insulator 45 or a thin insulator layer 45, film layer 45etc. The basic structure does not change to the previous embodiments.

Based on FIG. 6 is different from FIG. 5 only shown that the two feeding and / or Abgriffsarm-side coupling means 24a, 24b may be arranged on the two opposite sides of the first or feed line side coupling device 21. Die Kopeckung bzw. In other words, then one of the two supply and / or Abgriffsarme 13a with its associated coupling device 24b between the first feiseineitungsseitigen coupling device 21 and a fixed housing usually provided and a galvanic isolation to the housing 18, 18b causing insulating base (insulator 33) arranged.

Also in this case, an insulator or an insulating layer 27a etc. is provided between the second coupling device 24a, for example in the form of the pointer head 25a and the adjacent and parallel thereto extending first or feed line side coupling device 21, to allow the capacitive coupling while avoiding a galvanic contact. Likewise, an insulation layer or an insulator, for example, in the form of a film 27b, etc., between the mentioned first or feed line side coupling device 21 and the outer second coupling device 24b, for example in the form of the pointer head 25b, which is usually part of the second feed, is also provided - And / or tap element 13b.

In this variant too, the advantages according to the invention can be achieved by the realization of the mentioned third coupling device 35, 35 '.

Based on FIG. 7 is in addition to the embodiment according to FIG. 6 shown that in this case also as a further or third coupling means 35 not only described on the basis of the previous embodiments and in FIG. 7 Also provided with the reference numeral 35a coupling device 35, for example in the form of the coupling disc 35 'but the second additional coupling device 35b is provided.

Also in this variant, the structure is such that on both sides adjacent to the first or supply line side coupling device 21 each have a second or dining and / or Abgriffsarm-side coupling device 24a or 24b is arranged, in addition to the lying further out following each one according to the invention provided coupling device 35a and 35b is positioned.

Alternating to the variant according to FIG. 7 would also be possible that, for example, only in FIG. 7 below provided according to the invention provided coupling device 35, for example in the form of the coupling disc 35b, so that inversely to the in FIG. 7 shown overhead further coupling device 35, for example in the form of the local coupling disk 35a can be dispensed with. It is then an embodiment more or less identical to that after FIG. 3 , only in 180 ° twisted orientation. Functionally, this results in no difference.

Finally, a variant according to FIG. 8 will also be discussed, which differs from the exemplary embodiment according to FIG FIG. 3 differs in that the inventively provided third or further coupling device 35 is not adjacent to the second coupling device 24a of a feed and / or Abgiffseinrichtung 13 but on the opposite side of the first or feeder line side coupling device 21 of the first or feed side coupling device 21 is arranged. Thus, therefore, the first or feed line-side coupling device 21 between the corresponding coupling device of the feed and / or tap means 13 and inventively provided preferably in the form of a coupling disc 35 'formed coupling device 35. Also, the advantages of the invention can be realized.

Claims (16)

Differential phase shifter assembly having the following features: - With a plurality of concentrically arranged strip lines (5), at the opposite strip line ends (17) connecting points (19) for radiators (1a-1f) leading connecting lines (2) are provided, - With a arm or pointer-shaped feed and / or tap means (13) which is pivotable about a central and / or pivot axis (9) and thereby over the plurality of strip lines (5) is adjustable away, - With a central supply (20) having a with a central feed line (23) connectable first or feed side coupling device (21) and a galvanically isolated and offset in the direction of the central or pivot axis (9) lying second or dining and / / or tapping arm-side coupling device (24) which is electrically connected to the feed and / or tapping device (13) or is part of the feed and / or tapping device (13), characterized by the following further features: - There is provided at least one further capacitive coupling device (35) in the region of the central and / or pivot axis (9), and the at least one further coupling device (35; 35a, 35b) a) is arranged next to the second coupling device (24) so that the second coupling device (24) between the first coupling device (21) and the at least one further capacitive coupling device (35) is positioned, and / or b) is arranged adjacent to the first coupling device (21) so that the first coupling device (21) is positioned between the second coupling device (24) and the at least one further capacitive coupling device (35). Differential phase shifter assembly according to claim 1, characterized in that the feeding and / or tapping device (13) in the region of the central and / or pivot axis (9) has a plate-shaped pointer head (25) which forms the second coupling device (24) or Part of the second coupling device (24). Difference phase shifter assembly according to claim 1 or 2, characterized in that the further coupling device (35; 35a, 35b) consists of or comprises a coupling disc (35 '). Differential phase shifter assembly according to one of claims 1 to 3, characterized in that between the second and the further coupling means (24, 35) an insulator (39) is provided, which is preferably designed by disc, film or foil. Difference phase shifter assembly according to one of claims 1 to 4, characterized in that the further or third coupling device (35) relative to the feed and / or tap means (13) arranged non-rotatably or non-rotatably and with the feed and / or tap means (13) is pivotable together. Difference phase shifter assembly according to one of claims 1 to 5, characterized in that the first coupling device (21) consists of a coupling ring (21 ') or comprises a coupling ring (21'). Differential phase shifter assembly according to one of claims 1 to 6, characterized in that the second coupling device (24) preferably in the form of a plate-shaped or disk-shaped pointer head (25) comprises a central recess (29). Differential phase shifter assembly according to one of claims 1 to 7, characterized in that the further coupling device (35) preferably in the form of a coupling disc (35 ') comprises a central recess (35a). Difference phase shifter assembly according to one of claims 1 to 8, characterized in that an existing of an insulating material or coated with an insulating layer axle body (31) in the region of the central and / or pivot axis (9) is provided, which is the central recess (29) in the pointer head (25) of the feed and / or tapping device (13) and the central recess (35a) in the further coupling device (35; 35a, 35b), preferably in the form of the coupling disc (35 '). Differential phase shifter assembly according to one of claims 1 to 9, characterized in that in plan view parallel to the central and / or pivot axis (9) the second and the further coupling device (24, 35) at least 50%, in particular at least 60% , 70%, 80% and at least 90% or completely overlap or overlap. Difference phase shifter assembly according to one of claims 1 to 10, characterized in that the feeding and / or tapping means (13) consists of a feed and / or tapping element (13a, 13b) or comprises, which on one side of the strip lines ( 5) runs. Difference phase shifter assembly according to one of claims 1 to 10, characterized in that the feeding and / or tapping means (13) consists of two feed and / or Abgriffselementen (13a, 13b) comprises or which, in the direction of the central and / or pivot axis (7, 9) are arranged offset, so that the feed lines (5) between the two spaced feed and / or Abgriffselementen (13a, 13b) extend through and are capacitively coupled to the feed lines (5). Differential phase shifter assembly according to claim 11 or 12, characterized in that each of the two feed and / or Abgriffselemente or arms (13a, 13b) with its own pointer head (25a, 25b) in the region of Central and / or pivot axis (9) is provided, which are galvanically connected or capacitively coupled. Differential phase shifter assembly according to claim 13, characterized in that the two pointer heads (25a, 25b) between the first and the further coupling means (21, 35) are arranged. Difference phase shifter assembly according to claim 13, characterized in that the one pointer head (25a) which is connected to one of the two feed and / or tapping elements (13a, 13b), between the first and the further coupling device (21; 35a, 35b) and the other pointer head (25b) which is connected to the further feed and / or Abgriffsarm (13b) is arranged on the first pointer head (25a) opposite side of the first or feed line side coupling means (21). Differential phase shifter assembly according to claim 15, characterized in that at the two respective sides of the two feed and / or Abgriffselemente (13a, 13b) each have a further coupling device (35; 35a, 35b) preferably each in the form of a coupling disc (35 ') is provided.

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