JPH0230886Y2 - - Google Patents

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a duplexer used in an antenna duplexer or the like.

<Prior Art> Conventionally, as this type of duplexer, one used as an antenna duplexer, as shown in FIG. 6, for example, is known. In FIG. 6, this duplexer includes a case 1 consisting of a body 2 and a lid 3. This case 1 has input and output connectors 4 and 5 and a connector 6 for both input and output on the left and right side walls 1a, 1a and the center of the rear wall, respectively, and the input and output sides on the left and right sides of the case 1. Two filter sections 7 and 8 are arranged and housed therein. Each of the input and output side filter sections 7 and 8 has dielectric coaxial resonators 9 ₁ , 9 ₂ , 9 ₃ . . . as a plurality of filter elements, respectively.
The dielectric coaxial resonators 9 ₁ are arranged adjacent to each other in two rows, front and rear. A dielectric substrate 13 common to each dielectric coaxial resonator 9 ₁ is disposed between the open end surfaces of these two rows of dielectric coaxial resonators 9 ₁ . On one side are dielectric coaxial resonators 9 ₁ ... and the three connectors 4, 5, 6 and the terminal 15.
Capacitor electrodes 14 ₀ , 14 ₁ , 14 ₂ . . . connected via electrodes 1 , _{15 2} , 15 ₃ . . _. are individually formed. A relatively large space G is formed between the branching parts of the filter parts 7 and 8 and the input/output connector 6, and this space G includes, for example, the body 2 and the lid 3 of the case 1. There is a part 25 for screwing the
Output connector 6 and central capacitor electrode 14c
A coaxial cable insertion hole 26 is formed to connect the two.

By the way, in the case of a duplexer having such a configuration, for example, if the dielectric coaxial resonator 9 ₁ ... incorporated as a filter element is of 1/4 wavelength type,
There is a point to be considered in terms of performance that the suppression ratio for 3x or 5x spurious is inferior. This point can be solved by interposing a low-pass filter between any of the connectors 4, 5, 6 and the capacitor electrode 14c at the center of the dielectric substrate 13, but in the case of the conventional duplexer described above, There is no suitable space inside the case 1 in which the low-pass filter unit constituting the low-pass filter can be inserted, and if this low-pass filter unit is to be inserted, the dimensions of the case 1 will inevitably be large. Therefore, there is a problem that it is not possible to achieve both performance improvement and compactness in case 1.

<Problems to be solved by the invention> In view of these conventional problems, the present invention aims to solve the above-mentioned problems by making it possible to incorporate a low-pass filter unit without significantly changing the conventional configuration. purpose.

<Means for Solving the Problems> In order to solve the above problems, the present invention includes a conductive case, and in this case, two filter sections each consisting of a plurality of dielectric coaxial resonators, A common coupling board for each dielectric coaxial resonator is housed, and an input/output connector through which signals from both filter sections go in and out is arranged in a part of the case, and this input/output connector and the A duplexer was constructed by incorporating a low-pass filter unit between the branching part of the coupling board and the space between both filter parts.

<Example> Hereinafter, the present invention will be described in detail based on an example shown in the drawings. In this embodiment, a duplexer used as an antenna duplexer will be explained.

FIG. 1 is a perspective view of an antenna duplexer to which the present invention is applied, FIG. 2 is an enlarged plan view of the case with the lid removed, and FIG. 3 is an enlarged longitudinal sectional front view of the main parts. The antenna duplexer A of this embodiment includes a box-shaped case 1 made of a conductive material such as an aluminum alloy. This case 1 consists of a body 2 and a lid 3, with left and right side walls 1a, 1a
Connectors 4 and 5 connected to the input side and output side, respectively, are arranged on the rear wall, and an input/output connector 6 connected to the antenna side is arranged at the center of the rear wall. Input side and output side filter sections 7 and 8 are arranged separately on the left and right sides of the case 1. Each filter section 7, 8 has two rows of dielectric coaxial resonators 9 ₁ , 9 ₂ , 9 ₃ as filter elements, respectively.
...are juxtaposed adjacent to each other. Each of the dielectric coaxial resonators 9 ₁ is provided with an outer conductor 11 and an inner conductor 12 each formed by forming an electrode film of copper or the like on the inner and outer peripheral surfaces of a cylindrical ceramic dielectric 10, for example.
One end of both the inner and outer conductors 11 and 12 are short-circuited to form a short-circuited end, and the other end is of a 1/4 wavelength type as an open end. Between the mutually opposing open ends of each of the two rows of dielectric coaxial resonators 9 ₁ . . ., there is a dielectric substrate 13 that is longitudinally common to each dielectric coaxial resonator 9 ₁ . It is arranged. On this dielectric substrate 13, capacitor electrodes 14 ₀ , 14 ₁ , 14 ₂ , which are patterned to electrostatically couple the dielectric coaxial resonators 9 ₁ to each other with a predetermined coupling capacitance, are formed on the dielectric substrate 13 .
14 ₃ ... are formed respectively. The capacitor electrodes 14 ₀ , 14 ₁ . . . are formed by, for example, applying silver paste by screen printing or the like and then firing it. Then, terminals 15 _{0 , 1 are connected to each of these capacitor electrodes 14 0 ,} 14 ₁ .
One end of each of _the terminals 15 ₁ , . . . is connected to the inner conductor 12 of the corresponding dielectric coaxial resonator _{9 1 .}

A space G is provided between the input/output connector 6 and the branching portion of the input/output filter sections 7, 8, and a low-pass filter unit 17 is installed in this space G. FIG. 4 is a perspective view of this low-pass filter unit 17, and FIG. 5 is its equivalent circuit diagram. As shown in these figures, this low-pass filter unit 1
7 constitutes electrostatic capacitances Ca and Cb between capacitor electrodes 19a and 19b provided on the upper surface of the dielectric substrate 18 and a ground electrode 20 provided on the lower surface, and also extends between the capacitor electrodes 19a and 19b. Connecting coil members 21a, 21b, 21c,
The above capacitor is installed at each connection point of coils L ₁ , L ₂ , and L _3.
A low-pass filter is constructed by connecting Ca and Cb. This low-pass filter unit 17 is attached to the bottom wall of the body 2 side of the case 1 in the space with the ground electrode 20 grounded, and the coil member 21a at one end is connected to the input/output connector 6, and the other end is connected to the input/output connector 6. The coil member 21c at the end is connected to the capacitor electrode 14c at the center of the dielectric substrate 13.

To explain an example of the operating state using an embodiment of such a configuration, for example, a signal from the input side connector 4 is transmitted to the capacitor electrode 1 of the input side filter section 7.
It is first propagated to the first stage dielectric coaxial resonator 9 ₁ via the capacitance between 4 ₀ and 14 ₁ . and,
The signal is sequentially transmitted to the capacitor electrodes 14 ₁ and 14 ₂ ,
It is propagated to the dielectric coaxial resonators 9 ₂ , 9 ₃ . . . in the next stage through the capacitance between 14 ₂ and 14 ₃ , and is transmitted from the central capacitor electrode 14c via the low-pass filter unit 17. The signal is then transmitted from the input/output connector 6 to an antenna (not shown).
The received signal also passes from the input/output connector 6 to the low-pass filter unit 17, and then is sent to the output filter section 8, where it is processed in the same way as the input filter section 7. The signal is propagated and sent to the output connector 5. When these transmitted and received signals pass through the low-pass filter unit 17, noise components such as harmonics are removed by the low-pass filter.

<Effects of the invention> As described above, according to the invention, a low-pass filter unit is connected inside the case to the input/output connector arranged in a part of the case and the branch part of the coupling board. Since the space formed between the two filter sections is used to incorporate the low-pass filter unit, it has become possible to incorporate the low-pass filter unit without significantly changing the conventional structure of this type of duplexer. Therefore, compared to the conventional duplexer, it is possible to improve the performance while maintaining a compact shape without enlarging the external dimensions.
Further, since the low-pass filter unit is interposed as described above, it is possible to obtain a filter with a large spurious suppression ratio, and it is also possible to suppress spurious in both input and output signals.

[Brief explanation of the drawing]

1 to 5 show embodiments of the present invention,
Fig. 1 is a perspective view of an antenna duplexer to which the present invention is applied, Fig. 2 is an enlarged plan view of the case with the lid removed, Fig. 3 is an enlarged longitudinal sectional front view of the main parts, and Fig. 4 is a low-pass filter. FIG. 5 is a perspective view of the unit, FIG. 5 is an equivalent circuit diagram thereof, and FIG. 6 is a partially cutaway plan view showing a conventional example. 1 is the case, 6 is the input/output connector, 7, 8
17 is a low-pass filter unit, and G is a space portion.

Claims (1)

[Scope of utility model registration request] A conductive case is provided, in which two filter sections each consisting of a plurality of dielectric coaxial resonators and a coupling substrate common to each dielectric coaxial resonator are housed. An input/output connector through which signals from both filter sections go in and out is arranged in the section, and a low-pass filter unit is installed between the input/output connector and the branch section of the coupling board and in the space between both filter sections. A duplexer characterized by incorporating.