Wave transmission lines and networks – Plural channel systems – Having branched circuits
Reexamination Certificate
2002-01-14
2004-03-23
Summons, Barbara (Department: 2817)
Wave transmission lines and networks
Plural channel systems
Having branched circuits
C333S193000
Reexamination Certificate
active
06710676
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to surface acoustic wave filter devices used as band pass filters in mobile phones and other electronic apparatuses. More particularly, the present invention relates to surface acoustic wave filter devices having a balanced-unbalanced conversion function and substantially equal input and output impedances.
2. Description of the Related Art
Recently, with the miniaturization and weight reduction of mobile phones, the development of composite components having composite multiple functions has been underway in addition to the reduction of the numbers of included components and the miniaturization thereof. Under such circumstances, more and more research has been conducted to produce a surface acoustic wave filter device having a balance-unbalance conversion function, commonly referred to as a balun function, as a surface acoustic wave filter device used in the RF stage of a mobile phone. Such a surface acoustic wave filter device has been incorporated in a mobile phone for use in the GSM system and other cellular phone systems.
For example, Japanese Unexamined Patent Application Publication No. 9-205342 describes a surface acoustic wave filter device having the balance-unbalance conversion function.
FIG. 18
schematically shows a plan view illustrating the electrode structure of an example of a longitudinally-coupled resonator-type surface acoustic wave filter device having a balance-unbalance conversion function. In a surface acoustic wave filter device
100
, input impedance and output impedance are substantially equal and a balance-unbalance conversion function is provided. On a piezoelectric substrate, three interdigital transducers (IDTs)
102
to
104
are arranged along a surface acoustic wave propagating direction. Outside the area where the IDTs
102
to
104
are arranged, reflectors
101
and
105
are arranged along the surface acoustic wave propagating direction. The IDTs
102
and
104
are commonly connected with each other and are connected to an unbalanced signal terminal
106
. Each edge of the IDT
103
is connected to a first balanced signal terminal
107
and a second balanced signal terminal
108
.
In the filter device having the balance-unbalance conversion function, regarding the in-passband transmission characteristics between the unbalanced signal terminal and the first balanced signal terminal and the in-passband transmission characteristics between the unbalanced signal terminal and the second balanced signal terminal, the amplitude characteristics need to be equal and one of the filters needs to be 180 degrees out-of-phase with respect to the other filter. Additionally, out of the pass band, the amplitude characteristics and the phase characteristics need to be equal.
The amplitude balance and the phase balance are expressed as below, when the filter device having the balance-unbalance conversion function is regarded as a device having three ports, and for example, an unbalanced input terminal is a port
1
and first and second balanced output terminals are a port
2
and a port
3
.
Amplitude balance=|A|. In this case, A=|20logS21|−|20logS31|.
Phase balance=|B−180|. B=|∠S21−∠S31|.
S21 represents a transmission coefficient from the first port to the second port. S31 represents a transmission coefficient from the first port to the third port. The symbol A represents the difference between a decibel value of the S21 and a decibel value of the S31.
Ideally, in the pass band of the filter device, the amplitude balance is 0 dB and the phase balance is 0 degree. Out of the pass band thereof, the amplitude balance is 0 dB and the phase balance is 180 degrees.
However, in the surface acoustic wave filter device
100
shown In
FIG. 18
, the balances are not ideal and insufficient. The reason for this is that since the bridging capacitance between the IDT
103
and the IDTs
102
and
104
at each side is added to the balanced signal terminal
107
and a capacitance is inserted between the balanced signal terminal
108
and a ground potential, the balanced signal terminals
107
and
108
have different parasitic capacitances. Thus, due to the difference between the parasitic capacitances, the balances, particularly, the balances out of the pass band are lost and thereby attenuation out of the pass band decreases.
SUMMARY OF THE INVENTION
In order to overcome the problems described above, preferred embodiments of the present invention provide a surface acoustic wave filter device having a balance-unbalance conversion function that is arranged such that the balances out of the pass band are greatly improved and reduction in attenuation out of a pass band is prevented. Other preferred embodiments of the present invention provide a communication apparatus including such a novel surface acoustic wave filter device.
According to a preferred embodiment of the present invention, a surface acoustic wave filter device has equal input impedance and output impedance and includes an unbalanced signal terminal, first and second balanced signal terminals, 2
n−1
first surface acoustic wave filters connected between the unbalanced signal terminal and the first balanced signal terminal, and 2
n−1
second surface acoustic wave filters connected between the unbalanced signal terminal and the second balance signal terminal, where n is an integer equal to 1 or more. In this filter device, one of the input and output impedances of each of the first and second filters is approximately four times the other impedance and the second surface acoustic wave filters are 180 degrees out-of-phase with respect to the first surface acoustic wave filters.
In addition, each of the first and second surface acoustic wave filters may have one or more interdigital transducers arranged in a direction in which a surface acoustic wave propagates and at least one of the interdigital transducers may be halved in an electrode-finger interdigitating widthwise direction to define first and second IDT sections which are connected in series with each other.
Furthermore, each of the first and second surface acoustic wave filters may have a structure in which a preliminary surface acoustic wave filter having substantially equal input impedance and output impedance is constructed in such a manner that at least one interdigital transducer is halved in an electrode-finger interdigitating widthwise direction to define first and second interdigital transducer sections.
The preliminary surface acoustic wave filter may be a longitudinally-coupled resonator-type surface acoustic wave filter. In addition, the longitudinally-coupled resonator-type surface acoustic wave filter may have three interdigital transducers arranged in a surface acoustic wave propagating direction and a central interdigital transducer or interdigital transducers at both sides may be halved in the electrode-finger interdigitating widthwise direction to define the first and second interdigital transducer sections.
Furthermore, each of the first and second surface acoustic wave filters may have one or more interdigital transducers and at least one interdigital transducer may be halved in a surface acoustic wave propagating direction to define first and second interdigital transducer sections.
In addition, each of the first and second surface acoustic wave filters may have a structure in which a preliminary surface acoustic wave filter having substantially equal input impedance and output impedance is constructed in such a manner that at least one interdigital transducer is halved in a surface acoustic wave propagating direction. Although the preliminary surface acoustic wave filter is not specifically designated, preferably, it is a longitudinally-coupled resonator-type surface acoustic wave filter.
The preliminary longitudinally-coupled resonator-type surface acoustic wave filter may have three interdigital transducers and a centr
Sawada Yoichi
Shimoe Kazunobu
Takamine Yuichi
Watanabe Hiroki
Yata Masaru
Keating & Bennett LLP
Murata Manufacturing Co. Ltd.
Summons Barbara
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