Dielectric filter device having conductive strip removed for...

Wave transmission lines and networks – Coupling networks – Wave filters including long line elements

Reexamination Certificate

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C333S134000

Reexamination Certificate

active

06677836

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to dielectric filter devices for determining the frequency band pass characteristics to be used in mobile communications devices or the like.
BACKGROUND OF THE INVENTION
It is generally known that monoblock-type dielectric filters are used in mobile communications devices for transmitting and receiving signals, for example, in the frequency band of hundreds of megahertz to several gigahertz, Mobile communications devices, such as portable telephones, in recent years are adapted to serve a multiplicity of functions and made more compact and lightweight, and many monoblock-type dielectric duplexers are singly adapted to process different transmission and receiving frequencies for use in such devices (for example, Japanese Patent No. 3205337).
An example of duplexer which is such a conventional dielectric filter of the monoblock type will be described with reference to
FIG. 9. A
dielectric block
10
, for example, of a ceramic material or the like has hollow bores
40
to
44
,
49
,
50
. Electrically conductive layers are formed on the outer peripheral side surface
20
of the block and the upper surface thereof around the openings of the bores as indicated at
33
to
39
. Further provided on the upper surface are a first electrode
30
, second electrode
31
and third electrode
32
which are separate from these conductive layers.
As shown in
FIG. 9
, the bores
40
,
41
are arranged between the first electrode
30
and the second electrode
31
. The bore
49
is positioned between the second electrode
31
and the peripheral side surface. The bores
42
to
44
are arranged between the first electrode
30
and the third electrode
32
. The bore
50
is positioned between the third electrode
32
and the peripheral side surface
20
. The first electrode
30
is connected to an antenna (not shown), the second electrode
31
to a transmitter, and the third electrode
32
to a receiver.
A band-pass filter for the desired transmission frequency band is provided by suitably adjusting the dimensions and shapes (e.g., the diameter and depth of bores, and distance between conductive layers) of the bores
40
,
41
between the first and second electrodes
30
,
31
, the conductive layers
33
,
34
in the vicinity of openings of these bores, and conductive layers
60
,
62
joined to the outer peripheral side surface
20
. A trap having an attenuation pole at the desired frequency in the vicinity of the above-mentioned transmission frequency band can be provided by suitably adjusting the dimensions and shapes of the bore
49
between the second electrode
31
and the conductive layer on the peripheral side surface
20
, the conductive layer
38
in the vicinity of opening of the bore, and the conductive layer
62
joined to the peripheral side surface
20
.
Similarly, a predetermined band-pass filter for the receiving frequency band is provided by suitably adjusting the dimensions and shapes of the bores
42
to
44
between the first and third electrodes
30
,
32
, the conductive layers
35
to
37
in the vicinity of openings of these bores and the conductive layers
60
,
62
joined to the peripheral side surface
20
. A trap having an attenuation pole in the vicinity of the receiving frequency band can be provided by suitably adjusting the shapes of the bore
50
between the third electrode
32
and the conductive layer on the peripheral side surface, the conductive layer
39
in the vicinity of opening of the bore and the conductive layer
62
joined to the peripheral side surface
20
.
The dielectric duplexer described comprises two dielectric filters having two systems, i.e., transmitting system and receiving system, which use different frequencies. Since the filters are based on the same principles of the band-pass function and the trap function, these functions will be described in respect of the receiving system with reference to the filter characteristics diagrams of FIG.
8
.
FIG. 8
shows the characteristics of the receiving band-pass filter which is capacitance-coupled by the bores provided between the first electrode and the third electrode and the conductive layers in the vicinity of these bores. The shapes of these bores, the conductive layers in the vicinity of the openings thereof and the conductive layer
61
joined to the peripheral side surface
20
are so adjusted as to provide the desired frequency pass band as illustrated. Although the function of trap afforded by the bore between the third electrode
32
and the peripheral conductor is so designed as to attenuate frequencies outside the pass band, it is extremely difficult to attenuate the entire higher frequency band outside the pass band. Thus, it is likely that a resonance mode such as a or b will project in the higher frequency attenuation band outside the pass band. This appears attributable to the presence of the second or third harmonic of the main resonance mode other than the main resonance mode which determines the pass band of the dielectric filter or dielectric duplexer, or to the presence of other resonance mode such as TM mode or TE mode. With communications devices, however, it is required that the attenuation characteristics of a higher band of the dielectric filter be reduced to the greatest possible extent.
In the field of mobile communications devices such as portable telephones, it is required in recent years that the parts be made ever smaller. Since mobile phones need to be highly portable as an important feature of the commercial product and must therefore be smaller in size, it is not desirable to provide improved filter characteristics by adding anew circuit components to the dielectric filter described.
SUMMARY OF THE INVENTION
To overcome the foregoing problems, the present invention provides a dielectric filter device comprising a dielectric block generally in the form of a rectangular parallelepiped and having a plurality of hollow bores formed therein and openings of the bores in an upper surface of the block, electrically conductive layers respectively covering a lower surface opposed to the upper surface, an outer peripheral side surface parallel to axes of the bores, inner peripheral surfaces defining the respective bores and the upper surface around the bore openings, and a plurality of electrodes separate from the conductive layers for connection to external devices, the dielectric filter device being characterized in that the conductive layer is removed in the form of a strip from at least one portion of the peripheral side surface.
In the dielectric filter device, the conductive layer removed portion of the peripheral side surface has one end continuous with the upper surface.
Further in the dielectric filter device, the conductive layer removed portion of the peripheral side surface has one end continuous with the upper surface and the other end continuous with the lower surface.
The dielectric filter can be given improved characteristics by the present invention without providing external parts on the filter.


REFERENCES:
patent: 6154951 (2000-12-01), Ito et al.
patent: 6377132 (2002-04-01), Wakamatsu et al.
patent: 6525625 (2003-02-01), Tsukamoto et al.
patent: 3205337 (2001-06-01), None
patent: WO 93/24968 (1993-12-01), None

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