JP2000349514A - Matching circuit for transistor and high frequency power amplifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a matching circuit for a transistor(TR) that adjusts an object frequency among frequencies of a broad band by using the same board without changing the configuration of strip lines of a printed circuit board. SOLUTION: The matching circuit consists of a plurality of split strip lines S2-S5 that are connected to an input side or an output side of a high frequency TR formed on printed circuit board PB and provide an inductive component and of connection members R1-R7 that interconnect a plurality of the strip lines to obtain the length of the strip lines providing an object frequency.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transistor matching circuit composed of strip lines formed on a printed circuit board and a high-frequency power amplifier using the transistor matching circuit.

[0002]

2. Description of the Related Art Conventionally, in a matching circuit of a high-frequency transistor, an inductance component is constituted by a strip line on a printed circuit board, and matching is performed by changing a constant or a mounting position of a matching capacitor beside the strip line of the inductance component. The frequency characteristics of the circuit were adjusted.

[0003]

In the prior art described above, since the inductance component is constituted by a strip line, the inductance component is fixed, and when adjusting the frequency characteristic, only the constant of the capacitor and the mounting position thereof are used. This was an adjustment, and the frequency adjustment range was limited.

For this reason, if the apparatus selects the target frequency from a wide band, a new printed circuit board must be redesigned for each operating frequency, and a printed circuit board is required for each operating frequency. And costs were increasing.

In addition, in order to correct a gain error due to a difference in a production lot of a transistor, separately from a matching circuit,
Space had to be provided on the printed circuit board for the attenuator circuit.

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and it is possible to adjust a target frequency from a wide band using the same substrate without changing the configuration of a strip line on a printed circuit board. It is an object of the present invention to provide a matching circuit of a transistor and a high-frequency power amplifier using the matching circuit of the transistor, which can correct a gain error due to a manufacturing lot of the transistor.

[0007]

According to the present invention, there is provided a matching circuit for a transistor, comprising: a strip line of an inductance component which is connected to an input side or an output side of a high-frequency transistor formed on a printed circuit board and divided into a plurality of parts; And a connecting member for connecting a plurality of strip lines to obtain a strip line length of a target frequency.

According to the present invention, it is possible to obtain a transistor matching circuit that can be adjusted from a wide band to a target frequency using the same substrate without changing the configuration of a strip line on a printed circuit board.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A transistor matching circuit according to a first aspect of the present invention includes an inductance component that is connected to an input side or an output side of a high-frequency transistor formed on a printed circuit board and divided into a plurality of parts. It consists of a strip line and a connecting member for connecting a plurality of strip lines to obtain a strip line length of a target frequency, and connecting between strip lines to be connected to obtain a strip line length of a target frequency. By connecting the members, the strip line length of the inductance component can be configured to a desired length.

A transistor matching circuit according to a second aspect of the present invention is characterized in that, in the first aspect of the invention, the connecting member comprises a resistor, and the gain of the high-frequency transistor is adjusted by selecting a constant of the resistor. For example, when an error occurs in a gain depending on a manufacturing lot, the gain is adjusted by a constant of a resistor connected between strip lines of an inductance component.

According to a third aspect of the present invention, there is provided a high frequency power amplifier including the transistor matching circuit according to the first or second aspect, wherein the strip line length of the inductance component is reduced by connecting the strip lines with a connecting member. It has the function of adjusting the impedance by configuring it to have a desired length.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) FIG. 1 is a pattern diagram of a printed circuit board showing an embodiment of a transistor matching circuit and a high-frequency power amplifier according to the present invention, in which a matching circuit is provided on the input side of a high-frequency transistor. Is shown.

In FIG. 1, on a printed circuit board PB,
The high frequency transistor TR of the field effect type is formed as a high frequency power amplifier, the drain terminal of which is connected to the strip line S1, the source terminal is grounded, and the gate terminal is connected to the strip line S2.

The upper portion of the strip line S2 in the longitudinal direction (vertical direction in the figure) is formed by bending a hook to the right and the lower portion is formed by bending a hook to the left. The upper part of the strip line S2 is connected to the gate terminal of the high-frequency transistor TR.

Below the strip line S2, a strip line S3 and a strip line S4 are formed in that order so as to extend in the longitudinal direction thereof. Each of the strip lines S3 and S4 has a lower portion in the longitudinal direction bent leftward in a hook shape.

On the left side of the strip lines S2 to S4,
Strip lines S5 to S7 are formed in parallel.
That is, the strip line S5 is formed in parallel with the strip line S2, the strip line S6 is formed in parallel with the strip line S3, and the strip line S4
And a strip line S7 is formed in parallel.

The strip line S5 has its upper portion in the longitudinal direction bent leftward in a hook shape and its lower portion bent rightward in a hook shape. Strip line S6
S7 is formed by bending the lower part in the longitudinal direction to the right like a hook. As described above, the strip lines S2 to S4 and the strip lines S5 to S7 are formed linearly.

A matching capacitor C1 is connected between the upper part of the strip line S2 and the ground, and a connecting resistor R1 is connected between the lower parts of the strip line S2 and the strip line S5.
A matching capacitor C2 is connected between the upper part and the ground, and a strip line S8 is connected to an upper part of the strip line S5 via a DC blocking capacitor C3.

A connection resistor R2 is connected between a lower portion of the strip line S2 and an upper portion of the strip line S3, and a connection resistor R3 is connected between a lower portion of the strip line S5 and an upper portion of the strip line S6. ing.

Further, a connection resistor R4 is connected between the lower portions of the strip lines S3 and S6, and a connection resistor R5 is connected between a lower portion of the strip line S3 and an upper portion of the strip line S4. ,
Lower part of strip line S6 and strip line S
7, a connection resistor R6 is connected between the upper portions, and a connection resistor R7 is connected between the lower portions of the strip lines S4 and S7.

The connection resistors R1 to R7 are used for adjusting the length of the strip line of the inductance component, and not all of them are mounted in combination so as to have a desired strip line length.

For example, in FIG. 1, when the strip line length of the shortest inductance component is configured, a connection resistor R1 is attached, and the other connection resistors R2 to R
7 is not attached. As a result, on the input side of the transistor TR, a strip line length matching circuit including the strip line S2 and the strip line S5 is formed.

Conversely, when the strip line length of the longest inductance component is formed, the connection resistors R2 and R
Attach 3, R5, R6, R7, and other connecting resistors R
1, R4 is not attached. As a result, the transistor TR
On the input side, a strip line length matching circuit composed of strip lines S2 to S4 and strip lines S5 to S7 is configured.

The transistor TR depends on the production lot.
When an error occurs in the gain of the connection resistors R1 to R7
Adjust the gain by choosing a constant of Note that the connection ends configured to attach the connection resistors R1 to R7 on the strip lines S2 to S7 of the inductance component are connected to the strip lines S2 to S7 when the connection resistors R1 to R7 are not attached. In other words, it is configured to be small so that it does not affect the appearance as a stub.

In the above description, the resistors R1 to R1 are used for adjusting the strip line length of the inductance component.
Although 7 is used as the connection member, a conductor plate may be used. Further, the example in which the matching circuit is formed on the input side of the transistor TR has been described, but the matching circuit can be similarly formed on the output side of the transistor TR.

[0027]

According to the present invention, by forming a plurality of strip lines on a printed circuit board and connecting them appropriately using a connecting member such as a connecting resistor or a conductive plate, the strip line length of the inductance component can be reduced. It can be configured to have a desired length, it is easy to adjust from a wide band to a target frequency using the same printed circuit board, and the advantageous effect of improving design efficiency and productivity can be achieved. Is obtained.

[Brief description of the drawings]

FIG. 1 is a printed circuit board pattern diagram showing an embodiment of a transistor matching circuit and a high-frequency power amplifier according to the present invention.

[Explanation of symbols]

 PB Printed circuit board TR High-frequency transistor C1 Matching capacitor C2 Matching capacitor C3 DC blocking capacitor R1 to R7 Connecting resistor S1 to S8 Strip line

Claims (3)

[Claims] A strip line of an inductance component connected to an input side or an output side of a high-frequency transistor formed on a printed circuit board and divided into a plurality of parts; And a connection member for obtaining a strip line length. 2. The transistor matching circuit according to claim 1, wherein the connection member comprises a resistor, and a gain of the high-frequency transistor is adjusted by selecting a constant of the resistor. 3. A high-frequency power amplifier comprising the transistor matching circuit according to claim 1.