Wave transmission lines and networks – Coupling networks – Electromechanical filter
Reexamination Certificate
2000-11-29
2003-05-06
Summons, Barbara (Department: 2817)
Wave transmission lines and networks
Coupling networks
Electromechanical filter
C333S196000, C310S31300R
Reexamination Certificate
active
06559738
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a single phase unidirectional transducer and a SAW (surface acoustic wave) filter comprising such a transducer.
DESCRIPTION OF THE RELATED ART
A single phase unidirectional transducer and surface acoustic filter comprising such transducer are disclosed in JP-B-62-31860 and U.S. Pat. No. 5,703,427, for example.
According to the above-mentioned SAW filter comprising a single phase unidirectional transducer, it is possible to improve the insertion loss substantially by remarkably increasing the unidirectional property based on an asymmetric electrode structure and by properly utilizing an excitation effect and reflection effect of electrode fingers on the electrode structure.
However, due to the increased unidirectional property, the SAW filter comprising such single phase unidirectional transducer gives rise to a tendency to degrade the attenuation property of the filter and increase the ripple of the filter. In order to overcome the degradation of the attenuation property and the increase of the ripple, the single phase unidirectional transducer as shown in
FIG. 1
is disclosed in 1994 URTRASONIC SYMPOSIUM-1, “A New Concept in SPUDT Design: the RSPUDT (Resonant SPUDT)*” by P. Venturea, M. Solal, P. Dufilié**, J. M. Hodé and F. Roux.”
The unidirectional transducer disclosed by Ventura et al. includes a rectangular quartz substrate
1
as a piezoelectric substrate, a positive electrode
2
formed on the quartz substrate
1
and a negative electrode
3
formed on the quartz substrate
1
. The positive electrode
2
comprises a plurality of electrode fingers
4
,
5
each having a width &lgr;/8 as measured in the propagation direction of the fundamental surface acoustic wave; wherein &lgr; represents a propagation wavelength of the fundamental surface acoustic wave. The negative electrode
3
comprises a plurality of electrode fingers
6
,
7
,
8
each having a width &lgr;/8 as measured in the propagation direction of the surface acoustic wave and a plurality of electrode fingers
9
,
10
each having a width 3&lgr;/8 as measured in the propagation direction of the surface acoustic wave.
The electrode fingers of the positive electrode
2
and the negative electrode
3
constitute a first group A generating a combined wave of an excited wave and a reflected wave with the propagation direction toward the right side in
FIG. 1
, a second group B generating a combined wave of an excited wave and a reflected wave with the propagation direction toward the left side in
FIG. 1
, and a third group C serving to match the phase of the combined wave generated in the first group A and the phase of the combined wave generated in the second group B. The first group A is constituted by electrode fingers
9
,
4
and
6
, the second group B is constituted by electrode fingers
8
,
5
and
10
, and the third group C is constituted by electrode finger
7
.
If such a unidirectional transducer is used as an input transducer, for example, in the SAW filter, the number of the first groups A is equal to or larger than that of the second groups B. As the surface acoustic wave generated in the first groups A is combined with the surface acoustic wave generated in the second groups B and these surface acoustic waves influence one another, a weighting of the reflection and the excitation of the surface acoustic wave is performed. It is thus possible to improve the attenuation property and reduce the ripple by adjusting the surface acoustic wave generated in the first group A.
However, in the case of the unidirectional transducer with an electrode structure as shown in
FIG. 1
, the unidirectional property is so remarkable that only a rough adjustment of the surface acoustic wave can be performed. This makes it difficult to control the surface acoustic wave and achieve a substantial reduction of the ripple of the SAW filter.
DISCLOSURE OF THE INVENTION
It is an object of the present invention to provide single phase unidirectional transducer and a SAW filter comprising such transducer which is effective in achieving the substantial reduction of the ripple.
According to the present invention, there is provided a unidirectional transducer for a SAW filter comprising: a piezoelectric substrate and a first electrode formed on the substrate. The first electrode comprises a plurality of electrode fingers, the electrode fingers each having a width about &lgr;/8 in a propagation direction of a fundamental surface acoustic wave with a propagation wavelength &lgr;.
A second electrode is formed on the substrate so as to be substantially parallel to the first electrode, and comprises a plurality of first and second electrode fingers, the first electrode fingers each having a width about &lgr;/8 in the propagation direction of the fundamental surface acoustic wave, and the second electrode fingers each having a width about 3&lgr;/8 in the propagation direction of the fundamental surface acoustic wave.
A first group comprises one second electrode finger, one electrode finger arranged at a center distance 3&lgr;/8 in a direction opposite to the propagation direction from the one second electrode finger, and one first electrode finger arranged at a center distance 5&lgr;/8 in a direction opposite to the propagation direction from the one second electrode finger.
A second group comprises another second electrode finger arranged at center distance 10&lgr;/8 in the propagation direction from the one second electrode finger in the first group, another electrode finger arranged at a center distance 13&lgr;/8 in the propagation direction from the one second electrode finger in the first group, and another first electrode finger arranged at a center distance 15&lgr;/8 in the propagation direction from the one second electrode finger in the first group.
A third group comprises three first electrode fingers arranged at center distances of 3&lgr;/8, 5&lgr;/8 and 7&lgr;/8, respectively, in the propagation direction from the one second electrode finger in the first group.
Traditionally, it was thought that a weighting of the reflection and the excitation of the surface acoustic wave is not performed if the transducer with an electrode structure constituted by the first, the second and the third groups is used in the SAW filter because the surface acoustic wave generated in the first group propagates at the direction opposite to the direction toward the second group, on one hand, and the surface acoustic wave generated in the second group propagates at the direction opposite to the direction toward the first direction, on the other hand, so that these surface acoustic waves do not influence to one another.
However, in fact, the major part of the surface acoustic wave generated in the first group propagates at the direction opposite to the direction toward the second group and the minor part of the surface acoustic wave generated in the first group propagates toward the second group. Similarly, the major part of the surface acoustic wave generated in the second group propagates at the direction opposite to the direction toward the first group and the minor part of the surface acoustic wave generated in the second group propagates toward the first group. As a result, the surface acoustic wave generated in the first group and propagating at the direction opposite to the direction toward the second group is influenced by the surface acoustic wave propagating toward the first group, and the surface acoustic wave generated in the second group and propagating at the direction opposite to the direction toward the first group is influenced by the surface acoustic wave propagating toward the second group.
Therefore, it is possible to adjust the surface acoustic wave finely, control the surface acoustic wave easily and achieve substantial reduction of the ripple easily. In this case, three electrode fingers in the third group interposed between the first group and the second group serve to match the phase of the surface acoustic wave generated in the first group to the phase of the surface
Horio Yasufumi
Suzuki Kenji
Tsuruoka Tatsuya
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