Wave transmission lines and networks – Plural channel systems – Having branched circuits
Reexamination Certificate
1999-06-25
2002-04-09
Lee, Benny (Department: 2817)
Wave transmission lines and networks
Plural channel systems
Having branched circuits
C333S206000, C333S222000
Reexamination Certificate
active
06369668
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a duplexer and a communication apparatus for use in a microwave band, for example, a mobile phone or the like.
2. Description of the Related Art
A known duplexer comprising dielectric coaxial resonators has a structure shown in FIG.
5
.
This duplexer includes a transmitting-side which comprises a band-elimination filter having four &lgr;/4-type dielectric coaxial resonators R
1
through R
4
and a receiving-side which comprises a band-pass filter having four &lgr;/4-type dielectric coaxial resonators R
5
through R
8
.
Here, “a &lgr;/4-type dielectric coaxial resonator” means a dielectric coaxial resonator adapted to resonate at a frequency and having a length which is a quarter wavelength at that frequency. To obtain such dielectric coaxial resonator, one end surface of the dielectric coaxial resonator is made electrically open-circuited (i.e., the open end surface), and the other end surface of the dielectric coaxial resonator is made electrically short-circuited (i.e., the short end surface).
The open end surfaces of the dielectric coaxial resonators R
1
through R
4
constituting the transmitting-side filter are arranged side by side substantially on the left-half side of a base substrate
2
and the open end surfaces of the dielectric coaxial resonators R
5
through R
8
constituting the receiving-side filter are arranged side by side substantially on the right-half of the same in such a manner that the open end surfaces of both sides are disposed in the same direction and their axes are in parallel to each other. Capacitors C, air-core coils L, and the coupling substrate
3
are disposed on the side of the open end surfaces of the resonators R
1
through R
8
provided on the base substrate
2
; and the resonators R
1
through R
8
are coupled by the coupling elements such as the capacitors C, the air-core coils L, and capacitors provided on the base substrate
2
and the coupling substrate
3
, through a connection terminal
4
connected to an inner conductor of each resonator. The resonators R
1
, R
4
, R
5
, and R
8
, which are input-output units, are connected to a transmission terminal
6
, which is an input-output terminal on the transmitting side formed on the base substrate
2
, a reception terminal
7
, which is an input-output terminal on the receiving side, and an antenna terminal
8
sharing the input-output terminals of the transmitting side and the receiving side, directly or through a coupling element.
Recently, small, lightweight, and thin types of radio communication apparatus such as mobile phones have been rapidly spreading. With this trend, a duplexer which is used in this type of radio communication apparatus, is required to be small, lightweight, and thin, so that the size of a dielectric coaxial resonator used in a duplexer, recently 4 mm square or 3 mm square, is becoming smaller year by year, to as small as 2 mm square.
However, in the above described duplexer, the open end surfaces of all the dielectric coaxial resonators are on the same side. When a smaller dielectric coaxial resonator is used to achieve miniaturization of a duplexer, since the smaller the size of the dielectric coaxial resonator, the smaller the area on which coupling elements can be mounted for coupling the resonators, it is impossible to dispose a coupling element having a specified configuration or a specified value.
Specifically, when the size of the dielectric coaxial resonator is modified from 3 mm square to 2 mm square, the dimension of the available area for arranging the dielectric coaxial resonators side by side is reduced by a third, and the distance between the resonators is reduced by a third, so that it is impossible to use an air-core coil, a coupling substrate and the like, which are used in a 3 mm-square resonator, in a duplexer formed of 2 mm-square resonators. In contrast, when the air-core coil, the coupling substrate, and the like, are made smaller corresponding to the distance between the resonators, it is impossible to obtain inductance and capacitance of a desired value or desired characteristics. Worse, variations in the characteristics increase. In addition, in the above conventional duplexer, the reception terminal, the transmission terminal, and the antenna terminal are formed close to one side of the base substrate, so that when it is miniaturized, the distances between the terminals are shorter; thereby, signal leakage, due, for example to capacitive coupling between terminals or an actual arc caused by dielectric breakdown between terminals, may occur between the transmission terminal and the antenna terminal or between the reception terminal and the antenna terminal, so that sufficient isolation cannot be obtained.
In other words, in the structure of the above described duplexer, when smaller dielectric coaxial resonators are used to achieve miniaturization of the duplexer, the characteristics can greatly deteriorate and the characteristic variations can increase.
SUMMARY OF THE INVENTION
To overcome the above described problems, preferred embodiments of the present invention provide a duplexer and a communication apparatus, which are small, low-cost, and have satisfactory characteristics.
One preferred embodiment of the present invention provides a duplexer comprising: &lgr;/4-type dielectric coaxial resonators constituting a transmitting-side filter; &lgr;/4-type dielectric coaxial resonators constituting a receiving-side filter; and coupling elements for coupling said resonators; wherein the dielectric coaxial resonators constituting the transmitting-side filter and the dielectric coaxial resonators constituting the receiving-side filter are placed in parallel; and the open end surfaces of the dielectric coaxial resonators constituting the transmitting-side filter and the open end surfaces of the dielectric coaxial resonators constituting the receiving-side filter are disposed in opposite directions.
Another preferred embodiment of the present invention provides a duplexer comprising: &lgr;/4-type dielectric coaxial resonators constituting a transmitting-side filter; &lgr;/4-type dielectric coaxial resonators constituting a receiving-side filter; and coupling elements for coupling said resonators; wherein the respective dielectric coaxial resonators are placed side by side in such a manner that at least one of the dielectric coaxial resonators constituting either one of filters is disposed between the dielectric coaxial resonators constituting the other of the filters; and the open end surfaces of the dielectric coaxial resonators constituting the transmitting-side filter and the open end surfaces of the dielectric coaxial resonators constituting the receiving-side filter are disposed in opposite directions.
Still another preferred embodiment of the present invention provides a duplexer comprising: &lgr;/4-type dielectric coaxial resonators constituting a transmitting-side filter; &lgr;/4-type dielectric coaxial resonators constituting a receiving-side filter; and coupling elements for coupling said resonators; wherein the respective ones of the dielectric coaxial resonators constituting the transmitting-side filter and the respective ones of the dielectric coaxial resonators constituting the receiving-side filter are alternately disposed side by side; and the open end surfaces of the dielectric coaxial resonators constituting the transmitting-side filter and the open end surfaces of the dielectric coaxial resonators constituting the receiving-side filter are disposed in opposite directions.
Yet another preferred embodiment of the present invention provides a communication apparatus comprising the above described duplexer.
In the duplexer having the above-described structure, the respective dielectric coaxial resonators are disposed in parallel in such a manner that the open end surfaces of the dielectric coaxial resonators forming the transmitting-side filter and the open end surfaces of the dielectric coaxial resonators forming the receiving-side filter
Atokawa Masayuki
Honda Nobuyoshi
Glenn Kimberly
Lee Benny
Murata Manufacturing Co. Ltd.
Ostrolenk Faber Gerb & Soffen, LLP
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