Wave transmission lines and networks – Coupling networks – Electromechanical filter
Reexamination Certificate
2000-03-28
2002-07-23
Lee, Benny (Department: 2834)
Wave transmission lines and networks
Coupling networks
Electromechanical filter
C333S133000, C310S31300R, C455S083000, C455S334000
Reexamination Certificate
active
06424240
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to surface acoustic wave filter devices comprising a plurality of surface acoustic wave filters formed on a common substrate and to portable telephones comprising the filter device.
BACKGROUND OF THE INVENTION
With reference to
FIG. 5
, digital portable telephones, for example, of the GSM (global system for mobile communication) type comprise a receiving circuit and a transmitting circuit which are connected to an antenna
1
by way of a change-over switch
2
. The receiving circuit comprises a front filter
3
, amplifier
4
, interstage filter
5
, first mixer
6
, rear filter
7
and second mixer
8
which are connected to one another in series, while the transmitting circuit comprises a QPSK modulator
9
, interstage filter
10
, amplifier
11
and rear filter
12
which are connected to one another in series.
The front filter
3
and the interstage filter
5
of the receiving circuit each comprise a surface acoustic wave filter having a center frequency of 947.5 MHz. Used as the front filter
3
is a low-loss filter which is low in insertion loss. The interstage filter
5
is a highly suppressive filter which greatly attenuates the outside of the pass band.
To meet a demand for more compact portable telephones in recent years, the front filter
3
and the interstage filter
5
of the receiving circuit are formed on a common substrate to provide a surface acoustic wave device
14
in the form of a single package.
FIG. 3
shows the construction of this surface acoustic wave device
14
. The front filter
3
and the interstage filter
5
are formed on a common piezoelectric substrate
13
. The front filter
3
is a primary-tertiary longitudinal coupled double mode surface acoustic wave filter comprising three interdigital electrodes
31
,
32
,
33
and grating reflectors
61
,
62
disposed respectively at opposite sides of the electrode arrangement. An input signal is fed to an input terminal (
1
) from the antenna
1
via the change-over switch
2
, while an output terminal (
1
) delivers an output signal to the amplifier
4
.
The receiving-side interstage filter
5
has a two-stage structure, i.e., a first filter stage
51
and a second filter stage
52
. The first filter stage
51
is a primary-tertiary longitudinal coupled double mode surface acoustic wave filter comprising three interdigital electrodes
53
,
54
,
55
and grating reflectors
63
,
64
disposed respectively at opposite sides of the electrode arrangement, and has an input terminal (
2
) for receiving a signal output from the amplifier
4
. The second filter stage
52
is a primary-tertiary longitudinal coupled double mode surface acoustic wave filter comprising three interdigital electrodes
56
,
57
,
58
and grating reflectors
65
,
66
disposed respectively at opposite sides of the electrode arrangement, and has an output terminal (
2
) for feeding a signal output to the mixer
6
.
The piezoelectric substrate
13
provided with the front filter
3
and the interstage filter
5
thereon as stated above is enclosed in, and provided as, a single package. The package is mountable on a circuit board over a smaller area than when the filters are each enclosed in a package, serving to provide a compacted portable telephone.
However, it has been required with ever increasing severity to compact portable telephones. Attempts to provide conventional surface acoustic wave filter devices in more compact packages necessitate a modification such as a reduction in the aperture width of interdigital electrodes or in the number of digits thereof, or provision of the receiving-side interstage filter
5
by a single stage, consequently entailing not only a need for a great alteration in design but also performance problems such as lower characteristics in the pass band and impaired attenuation characteristics outside the pass band.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a surface acoustic wave filter device which can be more compacted than conventionally without resulting in a great design alteration or impaired performance, and a portable telephone having the filter device incorporated therein.
The present invention provides a surface acoustic wave filter device comprising a plurality of surface acoustic wave filters formed on a common substrate, each of the surface acounstic wave filters comprising, as arranged on a surface of a piezoelectric layer formed at a surface layer portion of the substrate, at least one interdigital electrode and a grating reflector disposed at each of opposite sides of the interdigital electrode with respect to the direction of propagation of surface acoustic waves.
At least two of the surface acoustic wave filters of the device which are adjacent to each other share one grating reflector as the grating reflector to be disposed at one of the opposite sides of the interdigital electrode of each of the adjacent filters.
Stated more specifically, each of the surface acoustic wave filters is a primary-tertiary longitudinal coupled double mode surface acoustic wave filter comprising an arrangement of three interdigital electrodes and a grating reflector disposed at each of opposite sides of the electrode arrangement.
With the surface acoustic wave filter device of the invention described, the two adjacent filers share one grating reflector, so that the device can be made more compact than the conventional device wherein two grating reflectors are arranged to provide each filter, by an amount corresponding to a reduction in the total number of grating reflectors.
We have substantiated by experiments that the common use of the grating reflector does not result in lower characteristics in the path band or impaired attenuation characteristics outside the pass band, provided that the grating reflectors originally used individually are identical in aperture width, digit pitch and duty.
The present invention also provides a portable telephone comprising a receiving circuit and a transmitting circuit which are connected to an antenna
1
by way of a change-over switch
2
, the receiving circuit comprising a front filter
3
, an amplifier
4
and an interstage filter
5
which are connected in series with an output terminal of the change-over switch
2
. The front filter
3
and the interstage filter
5
each comprise one or a plurality of surface acoustic wave filters, each of the surface acoustic wave filters comprising, as arranged on a surface of a piezoelectric layer formed at a surface layer portion of a common substrate, at least one interdigital electrode and a grating reflector disposed at each of opposite sides of the interdigital electrode with respect to the direction of propagation of surface acoustic waves. At least two of the surface acoustic wave filters which are adjacent to each other share one grating reflector as the grating reflector to be disposed at one of the opposite sides of the interdigital electrode of each of the adjacent filters.
The portable telephone of the invention includes the construction of surface acoustic wave filter device of the invention for the front filter
3
and the interstage filter
5
of the receiving circuit, whereby the filter device comprising the front filter
3
and the interstage filter
5
can be made compact, consequently making it possible to provide a compacted portable telephone.
The front filter
3
comprises a single stage of surface acoustic wave filter to afford satisfactory low-loss characteristics in the pass band, while the interstage filter
5
is composed of two stages, i.e., a first filter stage
51
and a second filter stage
52
, which are connected in series, and a surface acoustic wave filter which is equivalent to the front filter
3
in characteristics is used for each of the filter stages. This makes it possible to render one grating reflector of the front filter
3
and one grating filter of one stage of the interstage filter
5
identical with each other in aperture width, digit pitch and duty, consequently permitting common use of one
Lee Benny
Rader & Fishman & Grauer, PLLC
Sanyo Electric Co,. Ltd.
Summons Barbara
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