JPH09270601A - Transmission reception changeover circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce number of components by providing an additional microstrip line of a specific wavelength and a transmitter side limiter diode to an end of an input port side of a transmitter side microstrip line and a receiver side limiter diode to an end of an output port side of the receiver side microstrip line so as to eliminate the need for a control signal. SOLUTION: When a transmission signal with high power is given to a transmission input port 1, transmitter side and receiver side limiter diodes 4, 5 receive a microwave signal with high power. As a result, the transmitter side and receiver side limiter diodes 4, 5 are conductive. In this case, since an end point of an additional microstrip line 7 whose line length is 1/4 wavelength of the microwave signal connects to ground, the transmission signal is outputted to a transmitter side microstrip line 8. On the other hand, the transmission signal at the receiver side outputted to the transmitter side microstrip line 8 is outputted to a signal input output port 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microwave signal switching circuit, and more particularly to a transmission / reception switching circuit for switching between a transmission signal and a reception signal.

[0002]

2. Description of the Related Art A switching circuit of this type is, for example, a MICR.
It is shown on page 86 of the July 1986 issue of OWAVE & RF. In the switching circuit, the circuits are switched by controlling two PIN diodes using a control signal.

FIG. 5 shows a switching circuit for the transmission signal input port 1 of the transmission side microstrip line 8 connected between the transmission signal input port 1 and the signal input / output port 3.
To the receiving side, and the receiving side PIN diode 15 is connected to the receiving signal output port 2 side of the receiving side microstrip line 9 connected between the receiving signal output port 2 and the signal input / output port 3. Connected.

In FIG. 5, when a transmission signal is passed from the transmission signal input port 1 to the signal input / output port 3, a negative voltage of several V is applied as a control signal from one control signal input port 20 through the choke circuit 18. At the same time, a positive current of several mA is applied as a control signal from the other control signal input port 21 via the choke circuit 18. The transmitting PIN diode 14 to which a negative voltage of several V is applied is opened, and the receiving PIN diode 15 to which a positive current of several mA is applied is short-circuited.

As a result, when viewed from the signal input / output port 3,
The transmission signal is the transmission signal input port 1 because it is in the open state and the short state at the length of one-quarter wavelength of the microwave signal.
From the transmission signal output port 3 to the reception signal output port 2.

When the received signal is passed from the signal input / output port 3 to the received signal output port 2, the control signal input port 20
To the control signal input port 21 and a negative voltage of several V as a control signal.

[0007]

In the switching circuit of FIG. 5,
It is necessary to input a control signal from the outside. The reason is that positive current and negative voltage must be applied from the outside in order to short-circuit and open the transmitting-side PIN diode 14 and the receiving-side PIN diode 15.

Further, since it is necessary to provide the capacitors 16 and 17 between the transmitting PIN diode 14 and the receiving PIN diode 15, there is a problem that the number of parts increases. The reason is that different voltages and currents must be applied to the transmitting PIN diode 14 and the receiving PIN diode 15.

Therefore, it is an object of the present invention to provide a transmission / reception switching circuit that does not require a control signal.

Another object of the present invention is to provide a transmission / reception switching circuit capable of reducing the number of parts.

[0011]

A transmission / reception switching circuit according to the present invention is a transmission / reception switching circuit for switching a transmission signal and a reception signal, and a transmission signal input port for inputting a transmission signal and a reception signal for outputting a reception signal. A signal output port, a signal input / output port for inputting a reception signal and an output of a transmission signal, and a line length connected between the transmission signal input port and the signal input / output port is a quarter of a microwave signal. 1
Transmission side microstrip line, additional microstrip line having a line length of which one end is connected to the end portion of the transmission side microstrip line on the side of the transmission signal input port and having a quarter wavelength of a microwave signal, the additional microstrip line A transmission side limiter diode connected in series to the other end of the strip line, and a line length connected in series between the reception signal output port and the signal input / output port for receiving a quarter wavelength of a microwave signal And a reception side limiter diode connected to the reception signal output port side end of the reception side microstrip line.

[0012]

When the high power transmission signal is input to the transmission signal input port, the limiter diode is short-circuited by the microwave signal. Further, when a low power reception signal is input to the reception signal input port, the limiter diode remains open because the microwave signal has low power.

Since the limiter diode connected to the end point of the microstrip line whose line length is a quarter wavelength of the microwave signal is in a short circuit state or an open state, the transmission signal is transmitted from the transmission signal input port to the transmission signal output port. The received signal is output from the received signal input port to the received signal output port.

[0014]

Next, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a transmission / reception switching circuit according to a first embodiment of the present invention. The transmission / reception switching circuit is for switching between a transmission signal and a reception signal, and includes a transmission signal input port 1 for inputting the transmission signal, a reception signal output port 2 for outputting the reception signal, and a reception signal. Signal input / output port 3 for the input of the input signal and the output of the transmission signal. Transmit signal input port 1 and signal input / output port 3
A transmission-side microstrip line 8 having a line length of ¼ wavelength of the microwave signal is connected between and.
One end of an additional microstrip line 7 having a line length of ¼ wavelength of a microwave signal is connected to an end of the transmission side microstrip line 8 on the transmission signal input port 1 side. At the other end of the additional microstrip line 7,
The transmitter side limiter diode 4 is connected in series.
Between the reception signal output port 2 and the signal input / output port 3, a reception side microstrip line 9 having a line length of ¼ wavelength of a microwave signal is connected in series. The receiving side limiter diode 5 is connected to the receiving signal output port 2 side end of the receiving side microstrip line 9. Further, the signal input / output port 3 has a choke circuit 6
Is connected.

A high power transmission signal is a transmission signal input port 1
When it is input to, the transmission signal is output to the signal input / output port 3. When a low power reception signal is input to the signal input / output port 3, the reception signal is output to the reception signal output port 2.

Next, the operation of the transmission / reception switching circuit of FIG. 1 will be described with reference to FIGS. 2 and 3 as well.

In FIG. 1, when a high power transmission signal is input to the transmission input port 1, a high power microwave signal is applied to the transmission side limiter diode 4 and the reception side limiter diode 5. As a result, both the transmitting side limiter diode 4 and the receiving side limiter diode 5 are short-circuited. FIG. 2 shows an equivalent circuit of the transmission / reception switching circuit in this case.

At this time, on the transmitting side, the additional microstrip line 7 whose line length is a quarter wavelength of the microwave signal is used.
The transmission signal is output to the transmission-side microstrip line 8 because the end points of are in the short-circuited state. On the other hand, on the receiving side, since the end point of the receiving side microstrip line 9 whose line length is a quarter wavelength of the microwave signal is in a short circuit state,
The transmission signal output to the transmission side microstrip line 8 is output to the signal input / output port 3.

In FIG. 1, when a low power reception signal is input to the signal input / output port 3, a low power microwave signal is applied to the transmission side limiter diode 4 and the reception side limiter diode 5. As a result, both the transmitting side limiter diode 4 and the receiving side limiter diode 5 are opened. An equivalent circuit of the transmission / reception switching circuit in that case is shown in FIG.

At this time, on the transmission side, the additional microstrip line 7 having a line length of ¼ wavelength is connected to the transmission side microstrip line 8 having a line length of ¼ wavelength.
The received signal is output to the receiving side microstrip line 9 because the end point of is in the open state. On the other hand, on the receiving side, since the end point of the receiving side microstrip line 9 having a line length of ¼ wavelength is in an open state, the receiving signal output to the receiving side microstrip line 9 is output to the receiving signal output port 2. Is output.

As the transmitting side limiter diode 4 and the receiving side limiter diode 5, known diode limiters are used which are short-circuited by a high power microwave signal and open by a low power microwave signal.

FIG. 4 shows a transmission / reception switching circuit according to the second embodiment of the present invention. In this transmission / reception switching circuit, a choke circuit 6 is connected to the transmission signal input port 1.

Since the choke circuit 6 plays a role of taking a DC return of the limiter diode, it may be connected to any part of this circuit except a place between the limiter diode and GND.

[0025]

As described above, according to the present invention,
A transmission / reception switching circuit that does not require a control signal and can reduce the number of components can be provided.

[Brief description of drawings]

FIG. 1 is a circuit diagram of a transmission / reception switching circuit according to a first embodiment of the present invention.

FIG. 2 is a circuit diagram showing an equivalent circuit when a transmission signal is input to the transmission / reception switching circuit of FIG.

3 is a circuit diagram showing an equivalent circuit when a reception signal is input to the transmission / reception switching circuit of FIG.

FIG. 4 is a circuit diagram of a transmission / reception switching circuit according to a second embodiment of the present invention.

FIG. 5 is a circuit diagram of an example of a conventional transmission / reception switching circuit.

[Explanation of symbols]

 1 transmission signal input port 2 reception signal output port 3 signal input / output port 4 transmission side limiter diode 5 reception side limiter diode 6 choke circuit 7 additional microstrip line 8 transmission side microstrip line 9 reception side microstrip line 14, 15 PIN diode 16, 17 Capacitor 18, 19 Choke circuit 20, 21 Control signal input port

Claims (3)

[Claims] 1. In a transmission / reception switching circuit for switching between a transmission signal and a reception signal, a transmission signal input port for inputting the transmission signal, a reception signal output port for outputting the reception signal, an input of the reception signal and a transmission signal A signal input / output port for output, a transmission side microstrip line having a line length of ¼ wavelength of a microwave signal connected between the transmission signal input port and the signal input / output port, the transmission side An additional microstrip line having a line length whose one end is connected to the end portion of the microstrip line on the side of the transmission signal input port is connected in series to the other end of the additional microstrip line having a quarter wavelength of the microwave signal. The limiter diode on the transmission side, the line length connected in series between the reception signal output port and the signal input / output port is a microwave signal And a receiving side limiter diode connected to an end of the receiving side microstrip line on the side of the receiving signal output port of the receiving side microstrip line. 2. The transmission / reception switching circuit according to claim 1, further comprising a choke circuit connected to the signal input / output port. 3. The transmission / reception switching circuit according to claim 1, further comprising a choke circuit connected to the transmission signal input port.