JP2010161575A - Transceiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transceiver reducing cost of a transmitting/receiving device and improving the reliability thereof by reducing damages on a transmission amplifier part. <P>SOLUTION: This transceiver 100 includes: the transmission amplifier part 1 for amplifying a transmission signal (f1); an antenna 3 for radiating the transmission signal (f1) amplified by the transmission amplifier part 1, as radio waves and receiving reception radio waves as a reception signal (f2); a transmission/reception separating circulator 2 for separating the transmission signal (f1) to be transmitted from the antenna 3 from the received reception signal (f2); a band removal filter 6 for removing an unnecessary band signal included in the reception signal (f2), separated by the transmission/reception separating circulator 2; a reception amplifier part 7 for amplifying the reception signal (f2) having passed through the band removal filter 6; and an antireflective circulator (isolator) 4 for transmitting an undesired signal (fx) reflected from the band removal filter 6 to a reflected wave-absorbing terminator 5. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a transceiver, and more particularly, to a circuit configuration that suppresses a reflected wave that is generated when a voltage standing wave ratio (VSWR) of an antenna deteriorates.

Conventionally, radar transceivers and time division multiplexing transceivers are configured to transmit and receive by sharing one antenna. For example, FIG. 4 is a diagram illustrating a schematic configuration of a transceiver that shares one antenna. The transmission signal (f1) amplified by the transmission amplifier 10 is output to the port 2 via the port 1 of the transmission / reception separating circulator 11 and sent to the antenna 12. The antenna 12 has a VSWR (voltage standing wave ratio). When the standing wave ratio is deteriorated, the transmission signal (f1) is reflected by the transmission / reception separating circulator 11, and is input from the port 2 and output from the port 3 (the reflected wave at that time is fx). The reflected transmission signal (fx) reaches the reception band elimination filter (hereinafter referred to as a band elimination filter) 13 via the transmission / reception separating circulator 11 and is reflected because it is outside the band of the band elimination filter. Return to the port 3 of the transmission / reception separating circulator 11. The transmission signal (fx) returned to the transmission / reception separating circulator 11 is input from the port 3, output from the port 1, and returns to the transmission amplification unit 10, and excessive power is input to the transmission amplification unit 10. As a result, there is a problem that the transmission amplification unit 10 is damaged.
Further, Patent Document 1 discloses an amplifier capable of avoiding destruction and deterioration even when a high-power high-frequency signal is input while maintaining good reception noise performance. Patent Document 2 discloses a microwave power transmitter that can be downsized while ensuring stable operation. Patent Document 3 discloses an antenna transmission / reception shared circuit that reduces transmission power loss caused by an antenna changeover switch of a transmitter / receiver that performs transmission and reception in a time-sharing manner to reduce power consumption of the transmitter / receiver. .
JP 2008-245081 A Japanese Patent Laid-Open No. 2005-311701 JP-A-9-321654

However, the conventional technique disclosed in Patent Document 1 is composed of an amplifier that can avoid destruction and deterioration even when a high-power high-frequency signal is input. There is a limit.
Moreover, since the prior art disclosed in Patent Document 2 is configured to stop transmission by detecting a transmission reflected wave, there is a problem that control is complicated.
Further, the conventional technique disclosed in Patent Document 3 is configured to use an RF switch at the time of transmission to terminate the reception side port and at the time of reception to terminate the transmission side port, so that the control is complicated. In addition, a circuit for controlling the RF switch is required.
The present invention has been made in view of such a problem. By combining at least two circulators, the reflected wave is prevented from returning to the transmission side, and the damage of the transmission amplification unit is reduced to reduce the cost of the transmission / reception apparatus. It is an object of the present invention to provide a transmitter / receiver capable of improving down and reliability.

In order to solve such a problem, the present invention provides a transmission amplifier for amplifying a transmission signal, a transmission signal amplified by the transmission amplifier as a radio wave, and a reception radio wave as a reception signal. An antenna to transmit, a transmission / reception separation circulator that separates a transmission signal transmitted from the antenna and a received reception signal, a band removal filter that removes an unnecessary band signal included in the reception signal separated by the transmission / reception separation circulator, A reception amplification unit that amplifies the reception signal that has passed through the band elimination filter; and an antireflection circulator that transmits an unnecessary signal reflected from the band elimination filter to a reflected wave absorption terminator. To do.
The most significant feature of the present invention is that at least two circulators are provided, the reflected wave reflected from the band elimination filter is separated by one circulator and absorbed by the terminator, and the reflected wave returning to the transmission amplifier is reduced. is there. As a result, the reflected wave can be separated and absorbed with a simple configuration and without any external control.

According to a second aspect of the present invention, the transmission / reception separation circulator is disposed between the transmission amplification unit and the antenna, and the transmission / reception separation circulator and the antireflection circulator are connected in series between the antenna and the band elimination filter. The reflection wave absorbing terminator is connected to one port of the antireflection circulator.
In the present invention, since a transmission / reception separating circulator is disposed between the transmission amplifier and the antenna, the transmission signal is transmitted via one circulator. Further, since the transmission / reception separating circulator and the antireflection circulator are arranged in series between the antenna and the band elimination filter, the received signal is received via the two circulators. Here, when the signal is separated by the circulator, some power is lost. In addition, a considerable amount of power leaks without being separated. In the case of the present invention, since it operates through two circulators at the time of reception, the power loss at the time of reception is doubled, but the reflected wave is absorbed by the reflected wave absorption terminator, and the power that cannot be separated is separated between transmission and reception It is further attenuated by the circulator. Thereby, the power of the reflected wave that reaches the transmission amplifier can be further attenuated.

According to a third aspect of the present invention, the anti-reflection circulator and the transmission / reception separation circulator are arranged in series between the transmission amplification unit and the antenna, and the transmission / reception separation circulator is interposed between the antenna and the band elimination filter. It is arranged, and the reflected wave absorbing terminator is connected to one port of the antireflection circulator.
In the present invention, since the antireflection circulator and the transmission / reception separation circulator are arranged in series between the transmission amplifier and the antenna, the transmission signal is transmitted via the two circulators. Further, since the transmission / reception separating circulator is arranged between the antenna and the band elimination filter, the received signal is received via one circulator. Here, when the signal is separated by the circulator, some power is lost. In addition, a considerable amount of power leaks without being separated. In the case of the present invention, since it operates via two circulators at the time of transmission, the power loss at the time of transmission is doubled, but at the time of reception, a signal can be received with a small power loss. Thereby, S / N at the time of reception can be increased while the reflected wave is attenuated.

When the transmission / reception separation circulator and the antireflection circulator are each constituted by three ports, the output amplification unit is connected to the first port of the transmission / reception separation circulator. The antenna is connected to the second port, the first port of the antireflection circulator is connected to the third port, the band elimination filter is connected to the second port of the antireflection circulator, The reflected wave absorbing terminator is connected to the third port.
In the case of a three-port circulator, a signal input to the first port is input to the second port, a signal input from the second port is input to the third port, and a signal input to the third port is input to the first port. Is output. If a matched load is connected to one of these ports, an isolator is formed. When two circulators are connected and arranged based on this principle, one circulator functions to separate transmission and reception, and the other circulator (isolator) functions to separate reflected waves from signals. In the present invention, as a transmission / reception separation circulator, a transmission signal is input to the first port and output from the second port, and a reception signal is input to the second port and output from the third port. As an anti-reflection circulator, a received signal is input to the first port and output from the second port, and a reflected wave is input to the second port and output from the third port. A reflected wave absorbing terminator is connected to the third port. Thereby, the power of the reflected wave that reaches the transmission amplifier can be further attenuated.

When the transmission / reception separating circulator and the antireflection circulator are each constituted by three ports, an output terminal of the transmission amplifying unit is connected to the first port of the antireflection circulator. The first port of the transmission / reception separation circulator is connected to the second port, the reflected wave absorption terminator is connected to the third port, and the antenna is connected to the second port of the transmission / reception separation circulator. The band elimination filter is connected to the third port.
In the present invention, as an antireflection circulator, a transmission signal is input to the first port and output from the second port, and a reflected wave is input to the second port and output from the third port. A reflected wave absorbing terminator is connected to the third port. As a transmission / reception separating circulator, a transmission signal is input to the first port and output from the second port, and a reception signal is input to the second port and output from the third port. In addition, the reflected wave is input to the second port and output from the third port. Thereby, S / N at the time of reception can be increased while the reflected wave is attenuated.

A sixth aspect of the present invention is characterized in that the reflected wave absorbing terminator is constituted by a pure resistor having a predetermined resistance value.
The reflected wave absorbing terminator is set to match the impedance (50Ω) of the transmission circuit. Also, a pure resistor is used so that the phase does not change. As a result, impedance matching of the circuit can be achieved and unnecessary reflection from the reflected wave absorbing terminator can be prevented.

According to the present invention, since at least two circulators are provided, the reflected wave reflected from the band elimination filter is separated by one circulator and absorbed by the terminator, and the reflected wave returning to the transmission amplification unit is reduced. Thus, the reflected wave can be separated and absorbed without any external control.
Also, since it operates via two circulators during reception, the power loss during reception is doubled. However, the reflected wave is absorbed by the reflected wave absorption terminal, and the power that cannot be separated is further attenuated by the transmission / reception separation circulator. Is done. Thereby, the power of the reflected wave that reaches the transmission amplifier can be further attenuated.
Further, since it operates via two circulators at the time of transmission, the power loss at the time of transmission is doubled, but at the time of reception, a signal can be received with a small power loss. Thereby, S / N at the time of reception can be increased while the reflected wave is attenuated.

As a transmission / reception separation circulator, a transmission signal is input to the first port and output from the second port, and a reception signal is input to the second port and output from the third port. As an anti-reflection circulator, a received signal is input to the first port and output from the second port, and a reflected wave is input to the second port and output from the third port. A reflected wave absorbing terminator is connected to the third port. Thereby, the power of the reflected wave that reaches the transmission amplifier can be further attenuated.
As an anti-reflection circulator, a transmission signal is input to the first port and output from the second port, and a reflected wave is input to the second port and output from the third port. A reflected wave absorbing terminator is connected to the third port. As a transmission / reception separating circulator, a transmission signal is input to the first port and output from the second port, and a reception signal is input to the second port and output from the third port. In addition, the reflected wave is input to the second port and output from the third port. Thereby, S / N at the time of reception can be increased while the reflected wave is attenuated.
The reflected wave absorbing terminator is set to match the impedance (50Ω) of the transmission circuit. Further, since the pure resistance is used so that the phase does not change, the impedance matching of the circuit can be achieved, and unnecessary reflection from the reflected wave absorbing terminator can be prevented.

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .
FIG. 1 is a diagram showing a configuration of a transceiver according to the first embodiment of the present invention. The transceiver 100 radiates a transmission signal (f1) amplified by the transmission amplification unit 1 as a radio wave and a reception radio wave as a reception signal (f2). Included in the antenna 3 to be transmitted, the transmission / reception separation circulator 2 for separating the transmission signal (f1) transmitted from the antenna 3 and the received reception signal (f2), and the reception signal (f2) separated by the transmission / reception separation circulator 2 Band elimination filter 6 that removes the unnecessary band signal, reception amplification section 7 that amplifies the received signal (f2) that has passed through the band elimination filter 6, and reflected wave absorption of the unwanted signal (fx) reflected from the band elimination filter 6 And an antireflection circulator (isolator) 4 for transmission to a terminator (hereinafter simply referred to as a terminator) 5.

The most significant feature of this embodiment is that it comprises at least a transmission / reception separating circulator 2 and an anti-reflection circulator 4, and the reflected wave (fx) reflected from the band elimination filter 6 is separated by the anti-reflection circulator 4 and then terminated by a terminator 5. This is to reduce the reflected wave (fx) that has been absorbed and returned to the transmission amplifying unit 1. As a result, the reflected wave can be separated and absorbed with a simple configuration and without any external control.
That is, the transmission / reception separation circulator 2 is arranged between the transmission amplifier 1 and the antenna 3, and the transmission / reception separation circulator 2 and the antireflection circulator 4 are arranged in series between the antenna 3 and the band elimination filter 6. The terminator 5 is connected to one port of the antireflection circulator 4. In the present invention, since the transmission / reception separating circulator 2 is arranged between the transmission amplifier 1 and the antenna 3, the transmission signal (f1) is transmitted via one circulator. Further, since the transmission / reception separating circulator 2 and the antireflection circulator 4 are arranged in series between the antenna 3 and the band elimination filter 6, the received signal (f2) is received via the two circulators. Here, when the signal is separated by the circulator, some power is lost. In addition, a considerable amount of power leaks without being separated. In the case of this embodiment, since it operates via two circulators at the time of reception, the power loss at the time of reception is doubled, but the reflected wave (fx) is absorbed by the terminator 5 and power that cannot be separated is transmitted and received. Further attenuated by the separation circulator 2. Thereby, the power of the reflected wave that reaches the transmission amplifier 1 can be further attenuated.

  More specifically, when the transmission / reception separation circulator 2 and the antireflection circulator 4 are each constituted by three ports, the transmission amplification unit 1 is connected to the port (1) (first port) of the transmission / reception separation circulator 2. Output terminal 1b, antenna 3 to port (2) (second port), port (1) (first port) of antireflection circulator 4 to port (3) (third port) Port), the input terminal 6a of the band elimination filter 6 is connected to the port (2) (second port) of the antireflection circulator 4, and the terminator 5 is connected to port 3 (third port). . That is, in the case of a 3-port circulator, the signal input to the port (1) is input to the port (2), the signal input from the port (2) is input to the port (3), and the signal input to the port (3) is input to the port (1). ) Is output. That is, the signal is separated in the direction of the arrow. Of these, an isolator is obtained when a matched load (terminator 5) is connected to the port (3), such as the antireflection circulator 4. When two circulators are connected and arranged based on this principle, one circulator functions to separate transmission and reception, and the other circulator (isolator) functions to separate reflected waves from signals. In the present embodiment, the transmission / reception separating circulator 2 inputs the transmission signal (f1) to the port (1) and outputs it from the port (2), and inputs the reception signal (f2) to the port (2) and connects to the port (2). Output from 3). As the anti-reflection circulator 4, the received signal (f2) is input to the port (1) and output from the port (2), and the reflected wave (fx) is input to the port (2) from the port (3). Output. The terminator 5 is connected to the port (3). Thereby, the power of the reflected wave that reaches the transmission amplifier 1 can be further attenuated.

Next, the transmission signal (f1) is represented by a solid arrow, and the reception signal (f2) is represented by a dotted arrow, and the operation of this embodiment will be described. In FIG. 1, a case where there is no reflected wave from the antenna 3 will be described. As a transmission operation, the transmission signal (f1) is input to the input terminal 1a of the transmission amplifier 1. The input transmission signal (f1) is amplified to a predetermined power by the transmission amplifier 1, is output from the output terminal 1b, and is input to the port (1) of the transmission / reception separating circulator 2. The transmission / reception separating circulator 2 separates the transmission signal (f1) and outputs it to the port (2). Then, it is radiated as a radio wave via the antenna 3. Therefore, the transmission signal (f1) is not input to the reception amplification unit 7 during transmission.
Next, as a reception operation, the reception signal (f2) received from the antenna 3 is input to the port (2) of the transmission / reception separation circulator 2. The transmission / reception separating circulator 2 separates the received signal (f2) and outputs it to the port (3). Since the port (3) is connected to the port (1) of the antireflection circulator 4, the reception signal (f2) input from the port (1) is separated and output from the port (2). The port (2) is connected to the input terminal 6 a of the band elimination filter 6. Since the band elimination filter 6 is configured to pass only the reception band (f2), the reception signal (f2) is output from the output terminal 6b and input to the input terminal 7a of the reception amplification unit 7. Then, it is amplified to a predetermined power and output from the output terminal 7b. Therefore, the reception signal (f2) is not input to the transmission amplification unit 1 at the time of reception.

  Next, a case where the transmission signal (f1) is reflected from the antenna 3 due to deterioration of the VSWR of the antenna 3 will be described with reference to FIG. In this description, the reflected wave is described using (fx) as a one-dot chain line. The operation at the time of transmission is the same as in FIG. When the VSWR of the antenna 3 deteriorates, the transmission signal (f1) is reflected by the transmission / reception separation circulator 2 as a reflected wave (fx). The reflected wave (fx) is input to the port (2) of the transmission / reception separating circulator 2, and the reflected wave (fx) is separated and output to the port (3). Since the port (3) is connected to the port (1) of the antireflection circulator 4, the reflected wave (fx) input from the port (1) is separated and output from the port (2). The port (2) is connected to the input terminal 6 a of the band elimination filter 6. However, since the band elimination filter 6 is configured to pass only the reception band (f2), the reflected wave (fx) is reflected by the input terminal 6a and input to the port (2) of the anti-reflection circulator 4. Is done. The reflected wave (fx) input to the port (2) is separated into the port (3) and flows to the ground G via the terminator 5. As a result, the power of the reflected wave (fx) is consumed by the terminator 5 and hardly appears at the port (1), so that the transmission amplification unit 1 is destroyed via the port (1) of the transmission / reception separating circulator 2. There is no.

FIG. 3 is a diagram showing a configuration of a transceiver according to the second embodiment of the present invention. The same components will be described with the same reference numerals as in FIG. This transceiver 110 differs from FIG. 1 in that an antireflection circulator 4 and a transmission / reception separating circulator 2 are arranged in series between the transmission amplifier 1 and the antenna 3, and between the antenna 3 and the band elimination filter 6. The transmission / reception separating circulator 2 is disposed at the end, and the terminator 5 is connected to the port (3) of the antireflection circulator 4.
In the present embodiment, the antireflection circulator 4 and the transmission / reception separation circulator 2 are arranged in series between the transmission amplifier 1 and the antenna 3, so that the transmission signal (f1) is transmitted via the two circulators. It will be. Since the transmission / reception separating circulator 2 is arranged between the antenna 3 and the band elimination filter 6, the received signal (f2) is received via one circulator. Here, when the signal is separated by the circulator, some power is lost. In addition, a considerable amount of power leaks without being separated. In the case of this embodiment, since it operates via two circulators at the time of transmission, the power loss at the time of transmission is doubled, but at the time of reception, a signal can be received with a small power loss. Thereby, it is possible to increase the S / N during reception while attenuating the reflected wave (fx).

More specifically, when the transmission / reception separating circulator 2 and the antireflection circulator 4 are each constituted by three ports, the output terminal 1b of the transmission amplifying unit 1 is connected to the port (1) of the antireflection circulator 4. The port (1) of the transmission / reception separation circulator 2 is connected to the port (2), the terminator 5 is connected to the port (3), the antenna 3 is connected to the port (2) of the transmission / reception separation circulator 2, The input terminal 6a of the band elimination filter 6 is connected to the port (3).
In the present embodiment, as the anti-reflection circulator 4, the transmission signal (f1) is input to the port (1) and output from the port (2), and the reflected wave (fx) is input to the port (2) to the port (2). Output from 3). The terminator 5 is connected to the port (3). As the transmission / reception separating circulator 2, the transmission signal (f1) is input to the port (1) and output from the port (2), and the reception signal (f2) is input to the port (2) and from the port (3). Output. The reflected wave (fx) is input to the port (2) and output from the port (3). Thereby, it is possible to increase the S / N during reception while attenuating the reflected wave (fx).

Next, the transmission signal (f1) is represented by a solid arrow, and the reception signal (f2) is represented by a dotted arrow, and the operation of this embodiment will be described. Here, a case where there is no reflected wave from the antenna 3 will be described. As a transmission operation, the transmission signal (f1) is input to the input terminal 1a of the transmission amplifier 1. The input transmission signal (f1) is amplified to a predetermined power by the transmission amplifier 1, is output from the output terminal 1b, and is input to the port (1) of the antireflection circulator 4. The antireflection circulator 4 separates the transmission signal (f1) and outputs it to the port (2). Since the port (2) is connected to the port (1) of the transmission / reception separating circulator 2, it is separated and output from the port (2). Then, it is radiated as a radio wave via the antenna 3. Therefore, the transmission signal (f1) is not input to the reception amplification unit 7 during transmission.
Next, as a reception operation, the reception signal (f2) received from the antenna 3 is input to the port (2) of the transmission / reception separation circulator 2. The transmission / reception separating circulator 2 separates the received signal (f2) and outputs it to the port (3). The port (3) is connected to the input terminal 6a of the band elimination filter 6. Since the band elimination filter 6 is configured to pass only the reception band (f2), the reception signal (f2) is output from the output terminal 6b and input to the input terminal 7a of the reception amplification unit 7. Then, it is amplified to a predetermined power and output from the output terminal 7b. Therefore, the reception signal (f2) is not input to the transmission amplification unit 1 at the time of reception.

Next, a case where the transmission signal (f1) is reflected from the antenna 3 due to deterioration of the VSWR of the antenna 3 will be described. In this description, the reflected wave (fx) is described as a one-dot chain line arrow. Since the operation at the time of transmission is the same as the operation described above, the description is omitted. When the VSWR of the antenna 3 deteriorates, the transmission signal (f1) is reflected by the transmission / reception separation circulator 2 as a reflected wave (fx). The reflected wave (fx) is input to the port (2) of the transmission / reception separating circulator 2, and the reflected wave (fx) is separated and output to the port (3). The port (3) is connected to the input terminal 6 a of the band elimination filter 6. However, since the band elimination filter 6 is configured to pass only the reception band (f2), the reflected wave (fx) is reflected by the input terminal 6a and input to the port (3) of the transmission / reception circulator 2. Is done. The reflected wave (fx) inputted to the port (3) is separated into the port (1), inputted into the port (2) of the antireflection circulator 4, separated into the port (3), and passed through the terminator 5. To the ground G. As a result, the power of the reflected wave (fx) is consumed by the terminator 5 and hardly appears at the port (1), so that the transmission amplifying unit 1 is not destroyed.
The terminator 5 is set to match the impedance (50Ω) of the transmission circuit. Also, a pure resistor is used so that the phase does not change. Thereby, impedance matching of the circuit can be achieved and unnecessary reflection from the terminator 5 can be prevented.

It is a figure which shows the structure of the transmitter / receiver which concerns on the 1st Embodiment of this invention. It is a figure explaining the case where the VSWR of an antenna deteriorates and a transmission signal is reflected from an antenna. It is a figure which shows the structure of the transmitter / receiver which concerns on the 2nd Embodiment of this invention. It is a figure which shows schematic structure of the transmitter / receiver which shared one antenna.

  1, 10 Transmission amplification unit, 2, 11 Transmission / reception separation circulator, 3, 12 antenna, 4 Antireflection circulator, 5 Reflection absorption terminator, 6, 13 Band elimination filter, 7, 14 Reception amplification unit, 100, 110 Transceiver, f1 transmission signal, f2 reception signal, fx reflected wave, G ground

Claims (6)

A transmission amplifier for amplifying the transmission signal;
An antenna that radiates a transmission signal amplified by the transmission amplification unit as a radio wave and receives a reception radio wave as a reception signal;
A transmission / reception separating circulator for separating a transmission signal transmitted from the antenna and a received reception signal;
A band elimination filter that removes an unnecessary band signal included in the reception signal separated by the transmission / reception separation circulator;
A reception amplification unit that amplifies the reception signal that has passed through the band elimination filter;
An anti-reflection circulator for transmitting an unnecessary signal reflected from the band elimination filter to a reflected wave absorbing terminator.   The transmission / reception separation circulator is disposed between the transmission amplification unit and the antenna, and the transmission / reception separation circulator and the antireflection circulator are disposed in series between the antenna and the band elimination filter, The transceiver according to claim 1, wherein the reflected wave absorbing terminator is connected to one port of the antireflection circulator.   The anti-reflection circulator and the transmission / reception separation circulator are arranged in series between the transmission amplification unit and the antenna, and the transmission / reception separation circulator is arranged between the antenna and the band elimination filter, The transceiver according to claim 1, wherein the reflected wave absorbing terminator is connected to one port of the antireflection circulator.   When the transmission / reception separation circulator and the antireflection circulator are each composed of three ports, the output terminal of the transmission amplification unit is connected to the first port of the transmission / reception separation circulator, and the second port is connected to the second port. An antenna is connected, a first port of the antireflection circulator is connected to a third port, the band elimination filter is connected to a second port of the antireflection circulator, and the third port is connected to the third port. 3. The transceiver according to claim 1, further comprising a reflected wave absorbing terminator connected thereto.   When the transmission / reception separating circulator and the antireflection circulator are each constituted by three ports, the output terminal of the transmission amplifier is connected to the first port of the antireflection circulator, and the second port is connected to the second port. A first port of the transmission / reception separation circulator; a third port connected to the reflected wave absorbing terminator; and a second port of the transmission / reception separation circulator connected to the antenna; The transceiver according to claim 1, wherein the band elimination filter is connected to the transmitter / receiver.   The transceiver according to any one of claims 1 to 5, wherein the reflected wave absorbing terminator is configured by a pure resistor having a predetermined resistance value.

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