Mixer which assures satisfactory performance even at low...

Details Mixer which assures satisfactory performance even at low... Mixer which assures satisfactory performance even at low...

2003-07-28

2004-12-07

Nuton, My-Trang (Department: 2816)

Miscellaneous active electrical nonlinear devices, circuits, and

Specific input to output function

Combining of plural signals

C455S326000

Reexamination Certificate

active

06828844

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a mixer which is used in a frequency converter, a modulator or the like.
2. Description of the Related Art
The conventional mixer as shown in
FIG. 3
is called the Gilbert mixer and widely used in frequency converters and the like. As illustrated in
FIG. 3
, a first differential amplifier circuit
21
and a second differential amplifier circuit
22
are connected in a balanced way by a third differential amplifier circuit
23
. Specifically, the emitters of a pair of transistors
21
a
and
21
b
which constitute the first differential amplifier circuit
21
are connected with each other and also connected with the collector of one transistor
23
a
in a pair of transistors which constitute the third differential amplifier circuit
23
; and the emitters of a pair of transistors
22
a
and
22
b
which constitute the second differential amplifier circuit
22
are connected with each other and also connected with the collector of the other transistor
23
b
in the pair of transistors which constitute the third differential amplifier circuit
23
. The emitters of the transistors
23
a
and
23
b
in the third differential amplifier circuit
23
are connected with each other and also connected with a constant current source
24
.
The collector of the one transistor
21
a
in the first differential amplifier circuit
21
and the collector of the one transistor
22
a
in the second differential amplifier circuit
22
are connected with one balanced output terminal
25
and supply voltage B is fed to them through a common load resistor
26
. Also, the collector of the other transistor
21
b
in the first differential amplifier circuit
21
and the collector of the other transistor
22
b
in the second differential amplifier circuit
22
are connected with the other balanced output terminal
28
and supply voltage B is fed to them through a common load resistor
29
.
The base of the one transistor
21
a
in the first differential amplifier circuit
21
and the base of the other transistor
22
b
in the second differential amplifier circuit
22
are connected with each other and also with one balanced input terminal
30
. The base of the other transistor
21
b
in the first differential amplifier circuit
21
and the base of the one transistor
22
a
in the second differential amplifier circuit
22
are connected with each other and also with the other balanced input terminal
31
.
Also, the bases of the transistors
23
a
and
23
b
in the third differential amplifier circuit
23
are respectively connected with the first balanced input terminals
32
and
33
.
In the above configuration, a first signal, for example a high frequency signal, is inputted between the first balanced input terminals
32
and
33
in a balanced way; and a second signal, for example a local oscillation signal, is inputted between the second balanced input terminals
30
and
31
. Consequently, an intermediate frequency signal as a result of frequency conversion is outputted between the balanced output terminals
25
and
28
. A tuning circuit (not shown) is connected between the balanced output terminals
25
and
28
.
The local oscillation signal as the first signal is supplied, for example, from a balanced type oscillation circuit as illustrated in FIG.
4
. In this circuit, a pair of oscillation transistors
41
and
42
share one resonant circuit
43
which is connected between their respective collectors and bases, and a local oscillation signal is outputted between the collectors in a balanced way.
In the above conventional mixer, supply voltage is serially fed to the first and second differential amplifier circuits
21
and
22
and the third differential amplifier circuit
23
and therefore the voltage applied to each differential amplifier circuit is about one half the supply voltage. Accordingly, this voltage drop may cause mixer performance deterioration.
Most mixers use integrated circuits (IC). The latest type integrated circuits are designed to operate at low voltage, so the influence of supply voltage on the mixer performance is considerable.
Furthermore, the conventional mixer requires peripheral circuits such as oscillation circuits and resonant circuits, which makes the overall structure of the mixer complicated.
SUMMARY OF THE INVENTION
The present invention has been made in view of the above circumstances and provides a mixer which assures satisfactory performance even at low supply voltage and has a simple overall structure including peripheral circuits.
In order to solve the above problem, according to one aspect of the present invention, the mixer comprises: first and second transistors which constitute a balanced oscillation circuit with their respective emitters connected with each other; a third transistor whose emitter is connected with the emitter of the first transistor; and a fourth transistor whose emitter is connected with the emitter of the second transistor, wherein a first signal is inputted between a base of the third transistor and a base of the fourth transistor in a balanced way; and the third transistor and the fourth transistor mix an oscillation signal with the first signal and a second signal is outputted from the third transistor and the fourth transistor in a balanced way.
According to another aspect of the invention, the mixer has a first parallel resonant circuit which determines an oscillation frequency and a second parallel resonant circuit which resonates with the second signal; the first parallel resonant circuit is connected between a collector and the base of each of the first and second transistors; and the second parallel resonant circuit is connected between a collector of the third transistor and a collector of the fourth transistor.
According to another aspect of the invention, the first parallel resonant circuit is made up of a first capacitor, and first and second inductors which are serially connected with each other and connected in parallel with the first capacitor; and a point of connection between the first capacitor and the first inductor is connected with the collector of the first transistor; a point of connection between the first capacitor and the second inductor is connected with the collector of the second transistor. Also, the second parallel resonant circuit is made up of a second capacitor, and third and fourth inductors which are serially connected with each other and connected in parallel with the second capacitor; a point of connection between the second capacitor and the third inductor is connected with the collector of the third transistor; a point of connection between the second capacitor and the fourth inductor is connected with the collector of the fourth transistor. Here, supply voltage is fed to a point of connection between the first inductor and the second inductor and a point of connection between the third inductor and the fourth inductor.
According to another aspect of the invention, the mixer includes a composite resonant circuit which has parallel resonance frequencies in the respective vicinities of an oscillation frequency and the second signal, wherein the collector of the first transistor and the collector of the third transistor are connected with each other and the collector of the second transistor and the collector of the fourth transistor are connected with each other. The composite resonant circuit is connected between the collectors of the first and third transistors and the base of the second transistor as well as between the collectors of the second and fourth transistors and the base of the first transistor.
According to another aspect of the invention, the composite resonant circuit includes a first capacitor; a serial circuit which has a second capacitor, and first and second inductors and is connected in parallel with the first capacitor with the second capacitor located between the first and second inductors; and third and fourth inductors which are serially connected with each other and connected in parallel w

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