Wave transmission lines and networks – Plural channel systems – Having branched circuits
Reexamination Certificate
2003-05-15
2004-10-12
Tokar, Michael (Department: 2819)
Wave transmission lines and networks
Plural channel systems
Having branched circuits
C333S136000, C330S295000
Reexamination Certificate
active
06803837
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a high power amplifier mainly used at a cellular phone base station, and a balun circuit for the high power amplifier.
2. Related art of the Invention
A high power amplifier capable of propagating several tens of watts to several hundreds of watts has recently been used at a digital mobile communication base station. This kind of high power amplifier comprises a plurality of push-pull amplifiers combined in parallel to obtain high power, wherein each push-pull amplifier comprises two same transistors connected in parallel and supplied with signals 180 degrees out of phase with each other. The explanation of the push-pull amplifier has been given on pages 113 to 116 of “Radio Frequency Transistors” written by Norm Dye and Helge Granberg, published by Butterworth/Heinemann. Therefore, no detailed explanation is given here. This power amplifier circuit requires a power splitter/combiner circuit and baluns at each of the input and output of the circuit.
A conventional high power amplifier will be described below referring to FIG.
11
. In
FIG. 11
, the numeral
501
designates a n-way power splitter, the numeral
502
designates a n-way power combiner, and the numerals
503
,
504
designate n baluns, and the numeral
505
designates n pairs of push-pull amplifiers. A power splitter/combiner circuit used in this configuration will be described below referring to
FIGS. 12A
,
12
B and
13
.
FIGS. 12A
,
12
B and
13
show the configurations of Wilkinson power splitter circuits.
FIG. 12A
shows a general Wilkinson power splitter circuit. The numeral
601
designates an input terminal, the numeral
602
designates n quarter-wavelength lines, the numeral
603
designates n isolation resisitors, and the numeral
604
designates n output terminals.
FIG. 12B
shows a tree configuration of two-way-splitters capable of being configured as a plane circuit. The numeral
605
designates an input terminal, the numeral
606
designates two quarter-wavelength lines, the numeral
607
designates an isolation resisitor, the numeral
608
designates four quarter-wavelength lines, the numeral
609
designates two isolation resisitors, and the numeral
610
designates four output terminals. In addition,
FIG. 13
shows an asymmetric power splitter type. The numeral
611
designates an input terminal, the numerals
612
,
613
,
616
and
617
designate quarter-wavelength lines having characteristic impedances different from one another, the numerals
614
and
618
designate isolation resisitors, and the numeral
615
,
619
and
620
designate impedance transformer circuits. The explanation of Wilkinson power combiner circuit has been given on pages 205 to 210 of “Foundations of Microwave Circuits and Applications thereof” written by Yashihiro Konishi, published by Sogo Denshi. Therefore, no detailed explanation is given here. different from one another, the numerals
614
and
618
designate isolation resisitors, and the numeral
615
,
619
and
620
designate impedance transformer circuits. The explanation of Wilkinson power combiner circuit has been given on pages 205 to 210 of “Foundations of Microwave Circuits and Applications thereof” written by Yoshihiro Konishi, published by Sogo Denshi. Therefore, no detailed explanation is given here.
FIG. 14
shows the configuration of a conventional balun. The numeral
701
designates an unbalanced terminal, the numeral
702
designates a quarter-wavelength coaxial line having a characteristic impedance of 50 &OHgr;, the numeral
703
designates an in-phase output terminal, and the numeral
704
designates an opposite-phase output terminal. The explanation of the balun has been given on pages 179 to 181 of “Radio Frequency Transistors” written by Norm Dye and Helge Granberg, published by Butterworth/Heinemann. Therefore, no detailed explanation is given here.
On the basis of the above-mentioned configurations, the conventional high power amplifier has obtained high power for transmission at a base station by combining a plurality of output powers of push-pull amplifiers.
Although the Wilkinson power splitter circuit shown in
FIG. 12A
can evenly split power into n-way port at one time, the circuit cannot be attained as a plane circuit. For this reason, the configurations shown in
FIGS. 12B and 13
are used generally. The configuration shown in
FIG. 12B
, however, loads to large loss in splitter/combiner due to a long transmission path. In addition, the configuration also has a problem of low versatility, because power can be split and propagated only to 2
n
paths. Furthermore, the configuration shown in
FIG. 13
has a problem of unbalanced power splitting, because transmission paths length are different one output to another. Moreover, the balun shown in
FIG. 14
is large in circuit size because of the use of the coaxial line, thereby having a problem of difficulty in miniaturization.
SUMMARY OF THE INVENTION
In order to solve these problems encountered in the conventional high power amplifier circuit, an object of the present invention is to provide a high power amplifier circuit having a drastically reduced circuit size due to use of decreased number of components.
For example, a high power amplifier circuit in accordance with the present invention comprises Wilkinson n-splitter
-combiner circuits, and baluns, each having an input, an in-phase output and two opposite-phase outputs, on a single multilayer board formed of a plurality of stacked dielectric plates.
In the high power amplifier in accordance with the present invention, a Wilkinson power splitter for four or more splits, having been difficult to be attained as a plane circuit, is attained by using a multilayer board and by connecting isolation resisitors to a common terminal via a through hole. In addition, a balun, having been configured by using a coaxial line, is configured by using a multilayer board and by providing coupling line on the layers above and below a strip line, thereby to obtain two opposite-phase outputs. With this configuration, power splitter/combiner circuits and baluns can be formed on a single multilayer board, whereby the high power amplifier circuit can be miniaturized drastically. In addition, since the balun can propagate two opposite-Phase outputs, the number of splits can be reduced, whereby the circuit size of the splitter can be made smaller. In addition, since n-splitting
-combining functions can be carried out at one time, loss can be reduced, whereby the efficiency of the power amplifier can be improved.
Furthermore, another object of the present invention is to make the circuit further smaller.
In order to attain the objects, the present invention offers such a high power amplifier having:
a first balun propagating a half of an input signal to an in-phase output terminal, and also propagating a fourth of the input signal to first and second opposite-phase output terminals, the signal propagated to the first and second opposite-phase output terminals lagging 180 degrees behind the signal propagated to the in-phase output terminal;
first and second power amplifier circuits connected to the first and second opposite-phase output terminals of the first balun and having identical characteristics;
a third power amplifier circuit connected to the in-phase output terminal of the first balun and having output power substantially twice as much as the output power of the first or second power amplifier circuit; and
a second balun having first and second opposite-phase input terminals for receiving the outputs of the first and second power amplifier circuits, having an in-phase input terminal for receiving the output of said third power amplifier circuit, combining the outputs of the first, second and third power amplifier circuits, and propagating combined output.
REFERENCES:
patent: 4647868 (1987-03-01), Mueller
patent: 4739289 (1988-04-01), Cripps
patent: 4755775 (1988-07-01), Marczewski et al.
patent: 4916410 (1990-04-01), Littlefield
patent: 5017886 (1991-05-01),
Ishida Kaoru
Kosugi Hiroaki
Kugou Shin'ichi
Miyaji Masayuki
Nguyen Linh V
Smith , Gambrell & Russell, LLP
Tokar Michael
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