EP0693794A1 - Ceramic microwave filter - Google Patents

Abstract

The filter has a defined transmission band and a high attenuation for frequencies outside this band, using at least 2 coaxial resonators (1, 2) for acting as band blocking devices. The coaxial resonators are connected in series and have resonance frequencies outside the defined transmission band, respectively lying above and below the latter. Pref., the filter uses a pair of halfwave resonators each having a metallised bore (3, 4) extending inwards from a respective end face of the resonator ceramic body. <IMAGE>

Description

The present invention relates to a microwave ceramic filter according to the preamble of patent claim 1.

Such microwave ceramic filters are used to select useful frequencies lying in a predetermined pass frequency band, i. H. to pass and block frequencies lying outside this pass frequency band as completely as possible. In principle, such microwave ceramic filters are constructed as follows: through holes are provided at predetermined intervals in a body made of dielectric ceramic material, for example with a cuboid shape. Electrically conductive layers are applied to the inner peripheral surfaces of these through holes, while the ceramic body is metallized on all sides apart from at least one end face on which the through holes emerge on one side. Each region of the ceramic body containing a through hole forms a coaxial resonator. These coaxial resonators are coupled to one another in a suitable manner to complete the filter. This can be done, for example, by providing a coupling hole in the ceramic body between two through holes. Ceramic bodies of this type are known, for example, from US Pat. No. 4,464,640.

The higher the above-mentioned frequency selection is to be, the greater the number of coaxial resonators to be coupled explained above must be. With increasing number of coaxial resonators, however, the insertion loss and thus the dissipative loss loss of the filter increases. In the worst case, this can lead to the loss loss being too great and the remaining throughput after Filtering for subsequent functions, such as radiation or signal processing, is no longer sufficient.

If you are looking for a high selection by increasing the number of resonators to be coupled, the aforementioned problem of excessive insertion loss can only be solved by a complex and therefore expensive amplification of the filtered useful signal.

In a microwave ceramic filter known from DE-OS 42 32 054, the selection has been increased in that at least one coaxial resonator forming a bandstop is connected in series to the filter defining the pass frequency band with a plurality of ceramic resonators coupled to one another. As a result, a damping peak outside the pass frequency band is realized outside the pass frequency band at a specific point at which there is an interference frequency, as a result of which the interference frequency is sufficiently attenuated.

The present invention has for its object to provide a microwave ceramic filter of the type in question with even higher selection and less temperature dependence.

This object is achieved according to the invention in a microwave ceramic filter of the type mentioned at the outset by the features of the characterizing part of patent claim 1.

Developments of the invention are the subject of dependent claims.

Figur 1

eine schematische perspektivische Darstellung eines erfindungsgemäß ausgebildeten Mikrowellen-Keramikfilters;

Figur 2

ein schematisches Schaltbild eines als Bandsperre betriebenen Keramik-Resonator;

Figur 3

eine Charakteristik des als Bandsperre betriebenen Keramik-Resonators nach Figur 2; und

Figur 4

eine Filtercharakteristik des Filters nach Figur 1.

The invention is explained below with reference to an embodiment according to the figures of the drawing. It shows:

Figure 1

is a schematic perspective view of a microwave ceramic filter designed according to the invention;

Figure 2

a schematic diagram of a ceramic resonator operated as a bandstop;

Figure 3

a characteristic of the ceramic resonator operated as a bandstop according to Figure 2; and

Figure 4

a filter characteristic of the filter of Figure 1.

According to FIG. 1, an embodiment of a microwave ceramic filter according to the invention is formed by two coaxial resonators 1 and 2, which have a cuboid shape and each contain a through hole 3 and 4, respectively. Electrically conductive layers are applied to the inner circumferential surfaces of these through holes, while the ceramic body is metallized on all sides apart from at least one end face on which the through hole emerges on one side. These coaxial resonators are coupled to one another in a suitable manner to complete the filter. In the embodiment shown, an insulating insert 5 is provided between the coaxial resonators 1 and 2, which can engage in the through holes 3 and 4, for example, via lugs (not shown). Furthermore, a bracket 6 can be provided for the mechanically stable connection of the coaxial resonators 1 and 2, the z. B. is soldered, so that the additional advantage for the user arises that the filter is present as a one-piece element for assembly.

In a manner known per se, a series connection of a microwave resonator of the type in question forms a bandstop. This case is shown schematically in FIG. 2, in which a microwave resonator 1 lies in series between inputs 10 and 11 and outputs 12 and 13.

The characteristic of such a resonator operated as a bandstopper is shown in FIG. 3, in which an output variable of the microwave resonator operated as a bandstopper, about a signal amplitude A is shown as a function of frequency f. The bandstop can be seen to have a high attenuation peak at the resonance frequency f _r , ie it works in this case as a bandstop.

If, according to the invention, a plurality of such resonators operated as a bandstop filter are connected in series, compared to known filters, for example according to DE-OS 42 32 054, there is an increased additional selection or attenuation in a predetermined frequency range. Such a damping characteristic for an embodiment with two coaxial resonators connected in series is shown in FIG. 4, in which the amplitude A is also plotted against the frequency f.

If coaxial resonators are connected in series as a bandstop filter and have resonance frequencies that deviate from the predetermined frequency at which there is high attenuation outside the pass frequency band, this results in a wider attenuation curve with two bumps typical of the embodiment with two resonators. In the area of application for mobile and cordless telephone systems, which operate in the maximum frequency range from 400 MHz to 2 GHz, the deviation of the resonance frequencies of the coaxial resonators from the frequency in which the attenuation range is to be can be, for example, + - or -5 MHz, whereby of these frequency deviations a deviation range of + 5- and -3MHz or + 3- and -5MHz can be possible.

In addition to the increased additional selection, a temperature drift of the resonance frequency of the individual resonators is additionally reduced or the manufacturing tolerance for setting the resonator frequencies can be reduced.

The invention is not limited to the series connection of two individual resonators according to the embodiment according to FIG. 2. Depending on the application, several individual resonators can also be used.

The individual resonators can in principle be produced with connections in the form of solder lugs or with integrated HF connections, as is described, for example, in DE-OS 42 29 165.

If the coaxial resonators are to be designed as λ / 2 resonators, the ceramic bodies 1 and 2 forming the resonators according to FIG. 1 can be metallized, apart from their end faces at which the through holes 3, 5 emerge.

If the resonators are to be designed as λ / 4 resonators, only one of the end faces is metallized. λ means the wavelength corresponding to the resonance frequencies of the resonators.

Claims (4)

Microwave ceramic filter with a predetermined pass frequency band and with a region of high attenuation around a predetermined frequency outside the pass frequency band using at least two coaxial resonators (1, 2),
characterized,
that the coaxial resonators (1, 2) are connected as a bandstop and in series and have different resonance frequencies from the predetermined frequency. Microwave ceramic filter according to claim 1,
characterized,
that in the case of two coaxial resonators (1, 2) the resonance frequency of one deviates upwards and that of the other downwards from the predetermined frequency. Microwave ceramic filter according to claim 1 and / or 2,
characterized,
that the coaxial resonators (1, 2) are designed as λ / 2 resonators in that the outer surface of a ceramic body forming the resonator is metallized, apart from end faces at which a through hole (3, 4) emerges, where λ is the wavelength means at the filter center frequency. Microwave ceramic filter according to claim 1 and / or 2,
characterized,
that the coaxial resonators (1, 2) are designed as λ / 4 resonators in that the outer surface of a ceramic body forming the resonator is metallized apart from an end face at which a through hole (3, 4) emerges, where λ is the Wavelength at the filter center frequency means.

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