JPH0537255A - Wideband amplifier - Google Patents

Abstract

PURPOSE:To attain efficient amplification by comparing a frequency within a stored frequency range with a frequency of a high frequency signal so as to select an input side matching circuit and an output side matching circuit offering the best adaptability to the frequency and connecting the selected circuits to an amplifier element. CONSTITUTION:The amplifier is provided with a control circuit 9 in which plural input side matching circuits 4 and output side matching circuits 5 store respectively adaptive frequency ranges in advance, a frequency of the frequency range to be stored and a frequency of a high frequency signal are compared, the input side matching circuit 4 and the output side matching circuit 5 offering the best adaptability to the frequency are selected and the selected circuits are connected to an amplifier element 3. That is, the control circuit 9 is operated in a way that the frequency range suitable respectively for the input side matching circuits 4 and the output side matching circuits 5 is stored in advance in a memory (b), a control section 9a at a detector side compares the frequency of the frequency range to be stored with a frequency of a high frequency to select the input side matching circuit 4 and the output side matching circuit 5 offering the best adaptability to the frequency and the selected matching circuits 4,5 and a transistor(TR) 3 are connected by controlling the resistance of a PIN diode 9c.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wide band amplifier for amplifying a high frequency signal.

[0002]

2. Description of the Related Art FIG. 4 is a circuit diagram showing a conventional wide band amplifier, in which 1 is an input terminal for inputting a high frequency signal, 2 is a coupling capacitor, and 3 is a transistor (amplifying element) for amplifying a high frequency signal. 4 is a transistor 3
An input side matching circuit 5 connected to the input side of the transistor 3 and adjusting the input side impedance of the transistor 3 according to the frequency of the high frequency signal is connected to the output side of the transistor 3.
An output side matching circuit that adjusts the output side impedance of the transistor 3 according to the frequency of the high frequency signal, 6 is a high frequency choke coil that blocks a high frequency current of a predetermined frequency or higher, and 7 is a bypass that removes noise components in the high frequency signal. The capacitor 8 is an output terminal for outputting a high frequency signal.

Next, the operation will be described. In order for the high frequency signal input from the input terminal 1 to be amplified by the transistor 3 at the highest efficiency, the input side of the transistor 3 should have the same impedance so that the input side and the output side of the transistor 3 have the same impedance. The matching circuit 4 and the output side matching circuit 5 adjust the impedances on the input side and the output side. Then, the high frequency signal amplified by the transistor 3 is output from the output terminal 8.

[0004]

Since the conventional wide band amplifier is configured as described above, the matching characteristics (applicable frequency range) of the input side matching circuit and the output side matching circuit are as follows.
Since it is uniquely determined by the frequency characteristics of the passive elements such as the coupling capacitor, the bypass capacitor and the high frequency coil, there is a problem that the impedance cannot be adjusted when the frequency of the high frequency signal covers a wide band.

The present invention has been made to solve the above problems, and an object thereof is to obtain a wide band amplifier capable of adjusting impedance even when the frequency of a high frequency signal is in a wide band.

[0006]

According to another aspect of the present invention, there is provided a wide band amplifier in which frequency ranges to which a plurality of input side matching circuits and output side matching circuits are respectively applied are stored in advance, and the stored frequency ranges are stored. And a frequency of a high frequency signal are compared with each other to provide a control circuit that selects the input matching circuit and the output matching circuit having the best adaptability and brings them into a connected state with the amplifying element.

According to the second aspect of the present invention, the input side matching circuit and the output side matching circuit are applied by connecting at least one capacitor to the input side matching circuit and the output side matching circuit. A frequency identification circuit that identifies the frequency range to be provided is provided, and the control circuit selects the capacitors connected to the input side matching circuit and the output side matching circuit according to the frequency of the high-frequency signal and puts them in the connected state. It is something that is done.

According to the third aspect of the present invention, by connecting a varicap to the matching circuit on the input side and the matching circuit on the output side, the wide band amplifier according to the invention has a frequency range applied by the matching circuit on the input side and the matching circuit on the output side. Is provided, and the control circuit controls the capacitor capacitance of the varicap in the frequency specifying circuit in accordance with the frequency of the high frequency signal.

[0009]

A wide band amplifier according to the invention of claim 1 is
By providing the control circuit that selects the most adaptable input side matching circuit and output side matching circuit and connects them to the amplifying element, the impedance is adjusted even over a wide frequency band of the high frequency signal.

Further, in the wideband amplifier according to the present invention, the frequency specifying circuit controls the capacitors connected to the input side matching circuit and the output side matching circuit according to the frequency of the high frequency signal to bring them into the connected state. By providing the circuit, the impedance is adjusted even when the frequency of the high frequency signal is in a wide band.

According to the third aspect of the present invention, in the wide band amplifier, the control circuit for controlling the capacitor capacity of the varicap in the frequency specifying circuit is provided according to the frequency of the high frequency signal. The impedance is controlled over the range.

[0012]

EXAMPLES Example 1. An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a circuit diagram showing a wideband amplifier according to an embodiment of the present invention.
Since the same reference numerals as those of the conventional one indicate the same or corresponding portions, the description thereof will be omitted.

A memory 9 stores in advance a frequency range to which a plurality of input side matching circuits 4 and output side matching circuits 5 are applied.
In the detection control section 9a, the input matching circuit 4 and the output matching circuit 5 having the best adaptability are selected by comparing the stored frequency range with the frequency of the high frequency signal. It is a control circuit that connects the selected input side matching circuit 4 and output side matching circuit 5 to the transistor 3 by controlling the resistance value of the pin diode 9c.

Next, the operation will be described. The high frequency signal input from the input terminal 1 is distributed and input to the detection control unit 9a. The detection control unit 9a compares the frequency range of each matching circuit stored in the memory 9b with the frequency of the high-frequency signal, and finds the most adaptable matching circuit 4 on the input side.
And the output side matching circuit 5 are selected. For example, when the frequency of the high frequency signal is 100 MHz, the frequency range to which one input side matching circuit 4 is applied is 70 MHz to 90 MHz.
Then, one matching circuit 4 on the input side is from 90MHz to 110M
If it is Hz, the input side matching circuit 4 adapted to 90 MHz to 110 MHz is selected. The same applies to the output side matching circuit 5. Then, the detection control unit 9a applies a voltage H (High) or L (Low) to each pin diode 9c in order to connect the selected input-side matching circuit 4 and output-side matching circuit 5 to the transistor 3. The resistance value of each pin diode 9c is controlled.

As a result, the input-side matching circuit 4 and the output-side matching circuit 5 that are suitable for the frequency of the input high-frequency signal are selected, so that the input-side and output-side of the transistor 3 are selected even when the frequency of the high-frequency signal is wide. The impedance can be adjusted, and efficient amplification is possible.

Example 2. Although the control circuit 9 is provided with the pin diode 9c in the first embodiment, the control circuit 9 may be provided with a changeover switch.

Embodiment 3. FIG. 2 is a circuit diagram showing a wide band amplifier according to an embodiment of the present invention.
In the figure, reference numeral 10 designates a frequency specifying a range to which the input side matching circuit 4 and the output side matching circuit 5 are applied by connecting at least one capacitor 10a to the input side matching circuit 4 and the output side matching circuit 5. Circuit, 10b is a pin diode, 11 is a frequency according to a high frequency signal,
The frequency specifying circuit 10 is a control circuit for selecting and connecting the capacitors 10a connected to the input side matching circuit 4 and the output side matching circuit 5, 11a is a detection control unit, and 11b is a memory.

Next, the operation will be described. In the present invention, by connecting at least one capacitor 10a to the input side matching circuit 4 and the output side matching circuit 5,
The frequency range applied by each matching circuit is specified. That is, when only one capacitor 10a is connected to the input side matching circuit 4, for example, the frequency range is 10
Capacitor 1 when 0MHz to 120MHz
By connecting two 0a, the frequency range is 150 ~
It is set to 180 MHz.

Next, the control method will be described. First, considering a combination in which at least one capacitor 10a is connected to each matching circuit, the frequency range to which each matching circuit in each scene is applied is stored in the memory 11b in advance.
Then, the detection controller 11a compares each frequency range stored in the memory 11b with the frequency of the high frequency signal, selects the capacitor 10a having the best adaptability, and controls each pin diode 10b.

Example 4. FIG. 3 is a circuit diagram showing a wide band amplifier according to an embodiment of the present invention.
In the figure, reference numeral 12 is a frequency specifying circuit for specifying a frequency range to which the input matching circuit 4 and the output matching circuit 5 are applied by connecting a varicap 12a to the input matching circuit 4 and the output matching circuit 5. Reference numeral 13 is a control circuit for controlling the capacitor capacity of the varicap 12a in the frequency specifying circuit 12 according to the frequency of the high frequency signal.

Next, the operation will be described. Example 1 above
3 to 3, the frequency range to which the input side matching circuit 4 and the output side matching circuit 5 are applied is changed stepwise, but in this example,
In the detection control unit 13a, the frequency of the high frequency signal and the memory 1
Data of each matching circuit stored in 3b (capacitor capacity of the varicap 12a corresponding to the frequency of the high frequency signal)
And the capacitor capacity of the varicap 12a is controlled according to the comparison result. As a result, the frequency range to which each matching circuit adapts continuously changes according to the frequency of the high frequency signal.

[0022]

As described above, according to the first aspect of the invention, the frequency ranges to which the plurality of input side matching circuits and the output side matching circuits are respectively applied are stored in advance, and the stored frequency ranges are stored. Since the control circuit that selects the most adaptable input side matching circuit and output side matching circuit by comparing with the frequency of the high frequency signal and connects it to the amplifier element is provided, even if the frequency of the high frequency signal is wide band. The impedances on the input side and the output side of the amplification element can be adjusted, and efficient amplification can be achieved.

According to the second aspect of the present invention, by connecting at least one capacitor to the input side matching circuit and the output side matching circuit, the frequency applied by the input side matching circuit and the output side matching circuit. Provide a frequency identification circuit that identifies the range, and in the control circuit, according to the frequency of the high frequency signal, the frequency identification circuit selects the capacitors connected to the input side matching circuit and the output side matching circuit and puts them in the connected state. Therefore, the same effect as described above can be obtained.

According to the third aspect of the invention, by connecting a varicap to the input side matching circuit and the output side matching circuit, the frequency range applied by the input side matching circuit and the output side matching circuit is specified. In addition to the above effects, the control circuit controls the capacitance of the varicap capacitor in the frequency specifying circuit according to the frequency of the high frequency signal. The frequency range to which the matching circuit applies can be continuously changed, and further effective amplification can be achieved.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a wideband amplifier according to an embodiment of the present invention.

FIG. 2 is a circuit diagram showing a wideband amplifier according to an embodiment of the present invention.

FIG. 3 is a circuit diagram showing a wideband amplifier according to an embodiment of the present invention.

FIG. 4 is a circuit diagram showing a conventional wide band amplifier.

[Explanation of symbols]

3 transistors (amplification element) 4 Input side matching circuit 5 Output side matching circuit 9 Control circuit 10 Frequency identification circuit 10a capacitor 11 Control circuit 12 Frequency identification circuit 12a Varicap 13 Control circuit

Claims (3)

[Claims] 1. An amplification element for amplifying a high frequency signal, and a plurality of input side matching circuits connected to the input side of the amplification element and adjusting the input side impedance of the amplification element according to the frequency of the high frequency signal, A plurality of output side matching circuits connected to the output side of the amplification element and adjusting the output side impedance of the amplification element according to the frequency of the high frequency signal, and the plurality of input side matching circuits and output side matching circuits, respectively. An adaptive frequency range is stored in advance, and by comparing the stored frequency range with the frequency of the high-frequency signal, the most adaptable input side matching circuit and output side matching circuit are selected, and A wideband amplifier having a control circuit for setting a connection state. 2. An amplifying element for amplifying a high frequency signal, an input side matching circuit connected to an input side of the amplifying element and adjusting an input side impedance of the amplifying element according to a frequency of the high frequency signal, and the amplifying device. Connected to the output side of the element,
The output side matching circuit for adjusting the output side impedance of the amplification element according to the frequency of the high frequency signal, and the input side matching circuit by connecting at least one capacitor to the input side matching circuit and the output side matching circuit. A frequency specifying circuit for specifying a frequency range applied by the circuit and the output side matching circuit, and a capacitor connected to the input side matching circuit and the output side matching circuit by the frequency specifying circuit according to the frequency of the high frequency signal. Broadband amplifier having a control circuit for setting a connection state by a switch. 3. An amplifier element for amplifying a high frequency signal, and a plurality of input side matching circuits connected to the input side of the amplifier element and adjusting the input side impedance of the amplifier element according to the frequency of the high frequency signal. An output side matching circuit, which is connected to the output side of the amplification element and adjusts the output side impedance of the amplification element according to the frequency of the high frequency signal, and a varicap is connected to the input side matching circuit and the output side matching circuit. As a result, a frequency specifying circuit for specifying the frequency range applied to the input side matching circuit and the output side matching circuit, and a control circuit for controlling the capacitor capacity of the varicap in the frequency specifying circuit according to the frequency of the high frequency signal. And a wideband amplifier having.