JPH0720970Y2 - Attenuator circuit - Google Patents

Description

[Detailed Description of the Invention] (a) Industrial Application Field The present invention relates to an attenuator circuit using a PIN diode.

(B) Conventional Technology Conventionally, as an attenuator circuit using a PIN diode, for example, an attenuator circuit as shown in FIGS. 2 and 3 has been provided.

In Fig. 2, when a predetermined voltage is applied to the control terminal 10, the impedance of the PIN diode 11 decreases and the FET
The high frequency signal amplified by 12 and the tuning circuit 13 is a tuning coil.
Although it is sent to 14 with a small loss, the impedance of the PIN diode 11 rises when a predetermined voltage is not applied to the control terminal 10, so that the gain of this circuit decreases and it becomes an attenuator circuit.

FIG. 3 shows another embodiment.

Also in FIG. 3, when a predetermined voltage is applied to the control terminal 10a, the impedance of the PIN diode 11a decreases, and the high frequency signal amplified by the FET 12a and the tuning circuit 13a is conducted to the FET in the subsequent stage with a small loss. Control terminal 10a
PIN diode 1 when the specified voltage is not applied to
Since the impedance of 1a increases, the gain of this circuit decreases and it becomes an attenuator circuit.

(C) Problems to be solved by the device However, since the two tuning coils 15 and 16 are required in the circuit of FIG. 2 described above, the cost is increased, and the tuning coil 13a is used in the circuit of FIG. However, there was a drawback that it was affected by the choke coils 17 and 18. Further, in both the circuits of FIG. 2 and FIG. 3, PIN diodes 11 and 11a, which are attenuator elements, are serially connected to the signal line, so that isolation is generally required in the pattern of the printed circuit board. The disadvantage of increased cost is also well known.

The present invention has been made in view of the above points, and an object thereof is to provide an attenuator circuit which is inexpensive and whose gain can be controlled by a DC voltage.

(D) Means for Solving the Problem The attenuator circuit of the present invention comprises a high frequency amplifier circuit, a primary coil of a tuning circuit connected to the output of the high frequency amplifier circuit and provided in a non-amplified signal path, A secondary coil coupled to the primary coil by mutual inductance, and an attenuator element having one end connected to the secondary coil.
A PIN diode and a control voltage application circuit that is connected to the other end of the PIN diode and applies a control voltage,
The impedance viewed from the secondary coil side to the primary coil side is smaller than the impedance of the PIN diode when a current is not applied when a voltage is not applied to the control voltage application circuit, and a predetermined current is applied to the PIN diode. When the current flows, the impedance is higher than the impedance of the PIN diode.

(E) Working FET, a tuning circuit that is the load of this FET, a secondary coil that is coupled to the primary coil that forms this tuning circuit via mutual inductance, and a PIN diode that is connected to this secondary coil. Since it is configured, the gain can be controlled by the DC voltage even in a circuit having a high signal source impedance.

(F) Embodiment An embodiment of the attenuator circuit of the present invention will be described with reference to the circuit diagram of FIG.

In the figure, 1 is a FET, 2 is a tuning circuit which is a load of FET 1, 2a is a primary coil of the tuning circuit 2, 2b is a secondary coil of the tuning circuit 2,
3 is a bypass capacitor for forming an amplifier circuit with FET 1 and tuning circuit 2, 4 is a resistor for setting FET 1 to a predetermined operating point, 5 is a PIN diode, and 6 is the impedance of the PIN diode 5. Control terminal, 7 is PI
A resistor for applying a predetermined voltage to the N diode 5, 8
Is a bypass capacitor, and 9 is a capacitor for guiding the signal obtained by the tuning circuit 2 to the subsequent stage.

The control terminal 6 and the anode of the PIN diode 5 are connected via the resistor 7, and the cathode of the PIN diode 5 and one terminal of the secondary coil 2b are directly connected. Further, the other terminal of the secondary coil 2b is connected to the earth circuit, and the connection line J connecting the resistor 7 and the anode of the PIN diode 5 and the earth circuit are connected via the bypass capacitor 8.

In the attenuator circuit configured in this way, the impedance when the primary side is viewed from the secondary side of the tuning circuit 2 is sufficiently lower than the impedance of the PIN diode 5 when no current flows through the PIN diode 5, and If the impedance is set to be sufficiently higher than the impedance when the rated current is applied, there is almost no gain loss in the attenuator circuit when the voltage is not applied to the control terminal 6, and when the voltage is applied to the control terminal 6. , The impedance of the tuning circuit on the primary side itself is constant, but the impedance on the secondary side becomes low, and as a result, the primary side is shunted, and it is possible to obtain an attenuation amount of -20 to -30 dB. . In order to obtain the attenuation in this way, a voltage may be applied to the control terminal 6, and the amount of attenuation can be adjusted arbitrarily by applying this voltage.

In this embodiment, the FET is used to form the attenuation circuit, but other elements may be used if the signal source impedance is high. If the signal source impedance is high,
It can also be applied to passive circuits.

(G) Effect of the device According to the attenuator circuit of the present invention, since the attenuator circuit is configured as described above, in a circuit with a small number of tuning coils, the tuning circuit is not affected by other circuit elements, and the signal source impedance is high. Also, the gain can be controlled by the DC voltage.

Moreover, it has excellent features such as a simple structure, no need for isolation in the pattern of the printed circuit board, and a low cost structure, which is easy to implement.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing an embodiment of an attenuator circuit according to the present invention. 2 and 3 are circuit diagrams showing a conventional embodiment. Explanation of main symbols 1: FET 2: Tuning circuit 2a: Primary coil 2b: Secondary coil 5: PIN diode 6: Control terminal

Claims (1)

[Scope of utility model registration request] 1. A high frequency amplifier circuit, a primary coil of a tuning circuit connected to an output of the high frequency amplifier circuit and provided in a non-amplified signal path, and a secondary coil coupled to the primary coil by mutual inductance. And a PIN diode which is an attenuator element having one end connected to the secondary coil,
A control voltage applying circuit that is connected to the other end of the PIN diode and applies a control voltage, and an impedance when the primary coil side is viewed from the secondary coil side applies a voltage to the control voltage applying circuit. When the current is not applied, the impedance is lower than the impedance of the PIN diode when current is not applied, and when the predetermined current is applied to the PIN diode, the P
An attenuator circuit characterized by being configured to be larger than the impedance of the IN diode.