JP3909833B2 - Antenna switching circuit and communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication device in which a plurality of radio communication systems using different radio frequency bands are combined, and more particularly to an antenna switching circuit thereof and a communication device including the same.
[0002]
[Prior art]
In recent years, in wireless communication devices, development of communication devices that combine multiple wireless communication systems that use different wireless frequency bands has been progressing.
As a prior art relating to a communication device that combines a plurality of wireless communication systems using different radio frequency bands, for example, an invention described in Japanese Patent Application Laid-Open No. 2002-9679 is known.
4 and 5 are block diagrams showing the configuration of an antenna sharing apparatus used in a communication device combining PDC and PHS according to the prior art.
[0003]
In the first conventional example of FIG. 4, the PDC transmission unit 21 is connected to one terminal of the duplexer 27A, the PHS transmission unit 23 is connected to the other terminal, and the antenna 25A is connected to one switching terminal of the antenna changeover switch 26A. An antenna 25B is connected to the other changeover terminal, and a common terminal of the antenna changeover switch 26A and a common terminal of the duplexer 27A are connected, and either the antenna 25A or the antenna 25B is connected to the duplexer by the antenna changeover switch 26A. It will be in the state connected to the common terminal of 27A.
On the other hand, the duplexer 27B has a PDC receiver 22 connected to one terminal and a PHS receiver 24 connected to the other terminal, and the antenna changeover switch 26B has one switch terminal and the antenna 25A connected to the other switch terminal. Is connected to the antenna 25B, the common terminal of the antenna changeover switch 26B and the common terminal of the duplexer 27B are connected, and either the antenna 25A or the antenna 25B is connected to the common terminal of the duplexer 27B by the antenna changeover switch 26B. Connected.
PDC uses a frequency band of 810 to 960 MHz, and PHS uses a frequency band of 1893 to 1919 MHz. The duplexers 27A and 27B are used to enable transmission / reception by PDC and PHS while sharing the antenna. The duplexer 27A outputs the PDC transmission signal input from the PDC transmission unit 21 and the PHS transmission signal input from the PHS transmission unit 23 to the antenna changeover switch 26A. The duplexer 27B demultiplexes the signal input from the antenna selector switch 26B into a PDC reception signal and a PHS reception signal, and distributes the PDC reception signal to the PDC reception unit 22 and the PHS reception signal to the PHS reception unit 24. The antenna changeover switch 26A selects one of the antennas 25A and 25B as an antenna used for transmission of PDC and PHS, and the antenna changeover switch 26B uses one of the antennas 25A and 25B as an antenna used for reception of PDC and PHS. select.
As described above, in the first conventional example, PDC and PHS can be transmitted and received by sharing an antenna, and transmission and reception diversity can be performed in each mode of PDC or PHS using a plurality of antennas.
[0004]
In the second conventional example of FIG. 5, the antenna 25A is connected to the common terminal of the duplexer 27A, one switching terminal of the antenna switching switch 26A is connected to one terminal thereof, and the antenna switching switch 26B is connected to the other terminal. One switching terminal is connected. Similarly, the antenna 25B is connected to the common terminal of the duplexer 27B, the switching terminal at the other end of the antenna selector switch 26A is connected to one terminal thereof, and the switching terminal at the other end of the antenna selector switch 26B is connected to the other terminal. It is connected.
Further, the common terminal of the transmission / reception changeover switch 28A is connected to the common terminal of the antenna changeover switch 26A, the PDC transmission unit 21 is one terminal of the transmission / reception changeover switch 28A, and the PDC reception part 22 is the other end switching terminal. It is connected.
The common terminal of the transmission / reception changeover switch 28B is connected to the common terminal of the antenna changeover switch 26B, the PHS transmission unit 23 is connected to one switching terminal of the transmission / reception changeover switch 28B, and the PHS receiving unit 24 is connected to the other switching terminal. Has been.
The transmission / reception change-over switch 28A switches between PDC transmission / reception. The transmission / reception changeover switch 28B switches between PHS transmission / reception.
The antenna changeover switch 26A is selected from the antennas 25A and 25B as antennas for transmitting and receiving PDC, and the antenna changeover switch 26B is selected from the antennas 25A and 25B as antennas used for transmission and reception of PHS.
The duplexer 27A demultiplexes the reception signal of the antenna 25A into a PDC reception signal and a PHS reception signal, and distributes the PDC reception signal to the antenna changeover switch 26A and the PHS reception signal to the antenna changeover switch 26B.
The duplexer 7B demultiplexes the reception signal of the antenna 25B into a PDC reception signal and a PHS reception signal, and distributes the PDC reception signal to the antenna changeover switch 26A and the PHS reception signal to the antenna changeover switch 26B.
As described above, in the second conventional example, PDC and PHS can be transmitted and received by sharing an antenna, and transmission and reception diversity can be performed simultaneously in each mode of PDC and PHS using a plurality of antennas.
[0005]
In addition, as a third conventional technique related to a communication device in which a plurality of wireless communication systems using different wireless frequency bands are combined, an invention described in, for example, Japanese Patent Application Laid-Open No. 2001-285114 is known.
FIG. 6 is a block diagram showing a communication device combining a CDMA cellular and wireless LAN according to the prior art.
Here, two dual-band antennas 31A and 31B are used, and the antennas 31A and 31B are separated for the transmitting unit 35 and the receiving unit 39 for CDMA cellular.
In the wireless LAN unit 37, since diversity is performed, both antennas 31A and 31B are connected via the antenna duplexers 33A and 33B.
In such a third conventional example, since there is no switch for cellular, loss of transmission / reception signals due to antenna sharing can be reduced, and antenna diversity can be performed for the other wireless communication system.
[0006]
[Problems to be solved by the invention]
However, in the configuration of the first conventional example, the same antenna cannot be used for transmission / reception in a plurality of wireless communication systems at the same time. For example, if the first wireless communication system uses an antenna for diversity, the second wireless communication system can use diversity because the second wireless communication system can use only the antenna selected by the first wireless communication system. It is because it is not possible.
[0007]
On the other hand, in the configuration of the second conventional example, antenna diversity can be performed independently for each of a plurality of wireless communication systems. However, since signals pass through two switches of the transmission / reception changeover switch and the antenna changeover switch, There is a problem in that loss increases and transmission output must be increased during transmission, resulting in increased power consumption and degradation of reception sensitivity during reception.
[0008]
In the configuration of the third conventional example, antenna diversity can be performed for one wireless communication system with respect to a plurality of wireless communication systems, but antenna diversity cannot be performed for the other wireless communication system. There was a problem.
[0009]
The present invention is for solving such a conventional problem, and can perform antenna diversity independently for a plurality of radio communication systems using different radio frequency bands, and can transmit and receive signals. An object of the present invention is to provide an antenna switching circuit with low loss and a communication device including the antenna switching circuit.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, in the antenna switching circuit and the communication device of the present invention, the first radio system using the first frequency band and the second frequency band different from the first frequency band are used. Two wireless systems, a first antenna and a second antenna shared by the first wireless system and the second wireless system, a first duplexer connected to the first antenna, and the first In a communication device including a second duplexer connected to two antennas, the first switch connected between the transmitter of the first wireless system and the first duplexer, and the first A second switch connected between the receiver of the wireless system and the first duplexer, and a third switch connected between the transmitter of the first wireless system and the second duplexer Switch of the first wireless system A fourth switch connected between the transmitter and the second duplexer, and a fifth switch connected between the transmitter of the second wireless system and the first duplexer, A sixth switch connected between the receiver of the second radio system and the first duplexer, and a connection between the transmitter of the second radio system and the second duplexer And an eighth switch connected between the receiver of the second radio system and the second duplexer.
[0011]
In addition, an external output terminal shared by the first wireless system and the second wireless system, a third duplexer connected to the external output terminal, a transmission unit of the first wireless system, and the first A ninth switch connected between the third duplexer, a tenth switch connected between the receiver of the first wireless system and the third duplexer, and the second switch An eleventh switch connected between the transmitter of the wireless system and the third duplexer; and a first switch connected between the receiver of the second wireless system and the third duplexer. It features twelve switches.
[0012]
A first external output terminal and a second external output terminal shared by the first wireless system and the second wireless system; a third duplexer connected to the first external output terminal; A ninth switch connected between the transmitter of the first wireless system and the third duplexer, and between the receiver of the first wireless system and the third duplexer. A tenth switch connected; an eleventh switch connected between the transmitter of the second radio system and the third duplexer; a receiver of the second radio system; A twelfth switch connected between the third duplexer, a fourth duplexer connected to the second external output terminal, the transmitter of the first wireless system, and the fourth A thirteenth switch connected between the duplexer, the receiver of the first wireless system, and the A fourteenth switch connected between the four duplexers, a fifteenth switch connected between the transmitter of the second wireless system and the fourth duplexer, and A sixteenth switch connected between the receiving unit of the second radio system and the fourth duplexer is provided.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
With the above-described configuration, the present invention can independently perform antenna diversity in a plurality of wireless communication systems using different wireless frequency bands, and can provide a communication device with less loss of transmission / reception signals. become.
Embodiments of the present invention will be described below with reference to the drawings.
[0014]
(Embodiment 1)
FIG. 1 is a circuit configuration diagram of an antenna switching circuit according to Embodiment 1 of the present invention.
According to the antenna switching circuit in Embodiment 1 of the present invention, one of the first antenna 4A and the second antenna 4B is connected to one transmitter of the first wireless communication system 1A and the second wireless communication system 1B. Alternatively, the first antenna 4A and the second antenna 4B are connected to the receiving unit via one switch, and the other receiving unit of the first wireless communication system 1A and the second wireless communication system 1B or It is possible to connect to the transmission unit via one switch.
[0015]
In FIG. 1, the transmitter 2A and the receiver 3A of the first radio communication system 1A, the transmitter 2B and the receiver 2B of the second radio communication system 1B, the first radio communication system and the second radio communication A first antenna 4A and a second antenna 4B used for both transmission and reception of the system; a duplexer 5A in which the antenna 4A is connected to a common terminal; a duplexer 5B in which the antenna 4B is connected to a common terminal; A switch 6A that connects 2A and duplexer 5A, a switch 7A that connects transmitter 2A and duplexer 5B, a switch 8A that connects receiver 3A and duplexer 5A, and a receiver 3A and duplexer 5B A switch 9A, a switch 6B connecting the transmitter 2B and the duplexer 5A, a switch 7B connecting the transmitter 2B and the duplexer 5B, and a switch 8B connecting the receiver 3B and the duplexer 5A And a switch 9B for connecting the receiving portion 3B duplexer 5B.
[0016]
Next, the operation in the first embodiment will be described.
When the first antenna 4A is used during transmission of the first wireless communication system 1A, the switch 6A is turned on, and the switch 7A and the switch 8A are turned off.
When the second antenna 4B is used, the switch 7A is turned on and the switches 6A and 9A are turned off.
When the first antenna 4A is used at the time of reception by the first wireless communication system 1A, the switch 8A is turned on and the switches 6A and 9A are turned off.
When the second antenna 4B is used, the switch 9A is turned on, and the switch 7A and the switch 8A are turned off.
When the first antenna 4A is used during transmission of the second wireless communication system 1B, the switch 6B is turned on, and the switch 7B and the switch 8B are turned off.
When the second antenna 4B is used, the switch 7B is turned on, and the switch 6B and the switch 9B are turned off.
When the first antenna 4A is used at the time of reception by the second wireless communication system 1B, the switch 8B is turned on, and the switch 6B and the switch 9B are turned off.
When the second antenna 4B is used, the switch 9B is turned on, and the switch 7B and the switch 8B are turned off.
[0017]
The duplexer 5A connects the transmission signal of the first radio system 1A via the switch 6A and the transmission signal of the second radio system 1B via the switch 6B to the first antenna 4A. Further, the reception signal of the antenna 4A is demultiplexed into the reception signal of the first wireless communication system and the reception signal of the second wireless communication system, and the reception signal of the first wireless communication system is sent to the switch 8A to the second wireless communication system. The received signal of the communication system is distributed to the switch 8B.
The duplexer 5B connects the transmission signal of the first radio system 1A via the switch 7A and the transmission signal of the second radio system 1B via the switch 7B to the first antenna 4B. Further, the received signal of the antenna 4B is demultiplexed into the received signal of the first wireless communication system and the received signal of the second wireless communication system, and the received signal of the first wireless communication system is sent to the switch 9A. The received signal of the communication system is distributed to the switch 9B.
[0018]
Looking at the switch through which transmission / reception signals pass in each mode, when the first antenna 4A is used during transmission in the first wireless communication system 1A, the transmission signal passes only through the switch 6A and uses the second antenna 4B. In this case, only the switch 7A passes.
Further, when the first antenna 4A is used at the time of reception in the first wireless communication system 1A, the received signal passes only through the switch 8A, and when the second antenna 4B is used, only the switch 9A passes through.
Further, when the first antenna 4A is used at the time of transmission in the second wireless communication system 1B, the transmission signal passes only through the switch 6B, and when the second antenna 4B is used, only the switch 7B passes through.
Further, when the first antenna 4A is used at the time of reception in the second wireless communication system 1B, the received signal passes only through the switch 8B, and when the second antenna 4B is used, only the switch 9B passes through.
In either case, since only one switch is used, the loss of transmission / reception signals can be reduced.
[0019]
With the configuration of such an antenna switching circuit, a plurality of wireless communication systems using different radio frequency bands can be independently subjected to antenna diversity, and a communication device with reduced loss of transmitted / received signals is provided. Is possible.
[0020]
(Embodiment 2)
FIG. 2 is a circuit configuration diagram of an antenna switching circuit according to Embodiment 2 of the present invention.
In the second embodiment, one external output terminal can be connected to the first embodiment, and the same parts are denoted by the same reference numerals and description thereof is omitted.
In FIG. 2, the second embodiment further uses the external output terminal 12 and the external output terminal 12 that are used in both the first wireless communication system 1A and the second wireless communication system 1B in common with the first embodiment. A duplexer 5C connected to the terminal, a switch 10A connecting the transmitter 2A and the duplexer 5C of the first wireless communication system, and a switch 11A connecting the receiver 3A and the duplexer 5C of the first wireless communication system And a switch 10B that connects the transmitter 2B and duplexer 5C of the second wireless communication system, and a switch 11B that connects the receiver 3B and duplexer 5C of the second wireless communication system.
[0021]
Next, operations added to the first embodiment in the second embodiment will be described.
When the first antenna 4A or the second antenna 4B is used during transmission of the first wireless communication system 1A, the switch 10A is turned off.
When the external connection terminal 12 is used during transmission of the first wireless communication system 1A, the switch 10A is turned on, and the switch 6A and the switch 7A are turned off.
When the first antenna 4A or the second antenna 4B is used at the time of reception by the first wireless communication system 1A, the switch 11A is turned off.
When the external connection terminal 12 is used at the time of reception by the first wireless communication system 1A, the switch 11A is turned on, and the switch 8A and the switch 9A are turned off.
[0022]
When the first antenna 4A or the second antenna 4B is used during transmission of the second wireless communication system 1B, the switch 10B is turned off.
When using the external connection terminal 12 during transmission of the second wireless communication system 1B, the switch 10B is turned on, and the switch 6B and the switch 7B are turned off.
When the first antenna 4A or the second antenna 4B is used at the time of reception by the second wireless communication system 1B, the switch 11B is turned off.
When the external connection terminal 12 is used at the time of reception by the second wireless communication system 1B, the switch 11B is turned on, and the switch 8B and the switch 9B are turned off.
[0023]
The duplexer 5C connects the transmission signal of the first radio system 1A via the switch 10A and the transmission signal of the second radio system 1B via the switch 10B to the external output terminal 12. Further, the received signal of the external output terminal 12 is demultiplexed into the received signal of the first wireless communication system and the received signal of the second wireless communication system, and the received signal of the first wireless communication system is sent to the switch 11A. The received signal of the wireless communication system is distributed to the switch 11B.
Looking at the switch through which the transmission / reception signal passes when the external output terminal 12 is used, the transmission signal passes only through the switch 10A when transmitting in the first wireless communication system 1A, and the reception signal is switched when receiving. Only 11A passes.
Further, when transmitting in the second wireless communication system 1B, the transmission signal passes only through the switch 10B, and when receiving, the reception signal passes only through the switch 11B.
In either case, since only one switch is used, the loss of transmission / reception signals can be reduced.
[0024]
By providing an external connection terminal with such an antenna switching circuit configuration, the wireless characteristics of the communication device can be confirmed, and wireless characteristics can be easily measured in the case of manufacturing and repair.
Further, antenna diversity can be performed by the antenna and another antenna attached to the external connection terminal, and transmission / reception signal passing loss can be reduced even for the external connection terminal.
[0025]
(Embodiment 3)
FIG. 3 is a circuit configuration diagram of an antenna switching circuit according to Embodiment 3 of the present invention.
In the third embodiment, two external output terminals can be connected to the first embodiment, and the same parts are denoted by the same reference numerals and description thereof is omitted.
In FIG. 3, the third embodiment further includes an external output terminal 12 and an external output terminal 15 used in both the first wireless communication system 1A and the second wireless communication system 1B, and an external device. A duplexer 5C having the output terminal 12 connected to the common terminal, a duplexer 5D having the external output terminal 15 connected to the common terminal, and a switch 10A for connecting the transmitter 2A and the duplexer 5C of the first wireless communication system. A switch 11A that connects the receiver 3A of the first wireless communication system and the duplexer 5C, a switch 10B that connects the transmitter 2B of the second wireless communication system and the duplexer 5C, and a second wireless communication system 11B for connecting the receiver 3B and the duplexer 5C, the switch 13A for connecting the transmitter 2A and the duplexer 5D of the first wireless communication system, and the first wireless communication system A switch 14A for connecting the receiver 3A and the duplexer 5D, a switch 13B for connecting the transmitter 2B and the duplexer 5D of the second wireless communication system, and a receiver 3B and the duplexer 5D of the second wireless communication system And a switch 14B to be connected.
[0026]
Next, the operation added to the first embodiment in the third embodiment will be described.
When the first antenna 4A or the second antenna 4B is used during transmission of the first wireless communication system 1A, the switch 10A and the switch 13A are turned off.
When the external connection terminal 12 is used during transmission of the first wireless communication system 1A, the switch 10A is turned on, and the switch 13A, the switch 6A, and the switch 7A are turned off.
When the external connection terminal 15 is used during transmission of the first wireless communication system 1A, the switch 13A is turned on, and the switch 10A, the switch 6A, and the switch 7A are turned off.
When the first antenna 4A or the second antenna 4B is used at the time of reception by the first wireless communication system 1A, the switch 11A and the switch 14A are turned off.
When the external connection terminal 12 is used at the time of reception of the first wireless communication system 1A, the switch 11A is turned on, and the switch 14A, the switch 8A, and the switch 9A are turned off.
When the external connection terminal 15 is used at the time of reception by the first wireless communication system 1A, the switch 14A is turned on, and the switch 11A, the switch 8A, and the switch 9A are turned off.
[0027]
When the first antenna 4A or the second antenna 4B is used during transmission of the second wireless communication system 1B, the switch 10B and the switch 13B are turned off.
When the external connection terminal 12 is used during transmission of the second wireless communication system 1B, the switch 10B is turned on, and the switch 13B, the switch 6B, and the switch 7B are turned off.
When the external connection terminal 15 is used during transmission of the second wireless communication system 1B, the switch 13B is turned on, and the switch 10B, the switch 6B, and the switch 7B are turned off.
When the first antenna 4A or the second antenna 4B is used at the time of reception by the second wireless communication system 1B, the switch 11B and the switch 14B are turned off.
When the external connection terminal 12 is used at the time of reception by the second wireless communication system 1B, the switch 11B is turned on, and the switch 14B, the switch 8B, and the switch 9B are turned off.
When the external connection terminal 15 is used during reception of the second wireless communication system 1B, the switch 14B is turned on, and the switch 11B, the switch 8B, and the switch 9B are turned off.
[0028]
The duplexer 5C connects the transmission signal of the first radio system 1A via the switch 10A and the transmission signal of the second radio system 1B via the switch 10B to the external output terminal 12. Further, the received signal of the external output terminal 12 is demultiplexed into the received signal of the first wireless communication system and the received signal of the second wireless communication system, and the received signal of the first wireless communication system is sent to the switch 11A. The received signal of the wireless communication system is distributed to the switch 11B. The duplexer 5D connects the transmission signal of the first wireless system 1A via the switch 13A and the transmission signal of the second wireless system 1B via the switch 13B to the external output terminal 15. Further, the received signal of the external output terminal 15 is demultiplexed into the received signal of the first wireless communication system and the received signal of the second wireless communication system, and the received signal of the first wireless communication system is sent to the switch 14A. The received signal of the wireless communication system is distributed to the switch 14B.
Looking at the switch through which the transmission / reception signal passes when the external output terminal 12 is used, the transmission signal passes only through the switch 10A when transmitting in the first wireless communication system 1A, and the reception signal is switched when receiving. Only 11A passes. In the case of transmission in the second wireless communication system 1B, the transmission signal passes only through the switch 10B. In the case of reception, the reception signal passes only through the switch 11B.
Looking at the switch through which the transmission / reception signal passes when the external output terminal 15 is used, the transmission signal passes only through the switch 13A when transmitting in the first wireless communication system 1A, and the reception signal is switched when receiving. Only 14A passes. Further, in the case of transmission in the second wireless communication system 1B, the transmission signal passes only through the switch 13B, and in the case of reception, the reception signal passes through only the switch 14B.
In either case, since only one switch is used, the loss of transmission / reception signals can be reduced.
[0029]
With such an antenna switching circuit configuration, the wireless characteristics of the communication device can be confirmed by the external connection terminal, and the wireless characteristics can be easily measured in the case of manufacturing and repair.
Further, by connecting different antennas to the two external connection terminals, antenna diversity can be performed, and transmission loss of transmission / reception signals can be reduced even for the external connection terminals.
[0030]
【The invention's effect】
As described above, according to the present invention, with the configuration of the antenna switching circuit, a plurality of radio communication systems using different radio frequency bands can be independently subjected to antenna diversity and transmission / reception signal loss is small. Communication equipment can be provided.
Further, the wireless characteristics of the communication device can be confirmed by the external connection terminal in the configuration of the antenna switching circuit, and the wireless characteristics can be easily measured in the case of manufacturing or repair. Further, by connecting different antennas to the two external connection terminals, antenna diversity can be performed, and transmission loss of transmission / reception signals can be reduced even for the external connection terminals.
[Brief description of the drawings]
FIG. 1 is a circuit configuration diagram of an antenna switching circuit according to a first embodiment of the present invention.
FIG. 2 is a circuit configuration diagram of an antenna switching circuit according to a second embodiment of the present invention.
FIG. 3 is a circuit configuration diagram of an antenna switching circuit according to a third embodiment of the present invention.
FIG. 4 is a circuit configuration diagram of an antenna switching circuit of a first conventional example.
FIG. 5 is a circuit configuration diagram of an antenna switching circuit of a second conventional example.
FIG. 6 is a block diagram of a communication device of a third conventional example.
[Explanation of symbols]
1A, 1B wireless communication system
2A, 2B transmitter
3A, 3B receiver
4A, 4B antenna
5A, 5B, 5C, 5D duplexer
6A, 6B switch
7A, 7B switch
8A, 8B switch
9A, 9B switch
10A, 10B switch
11A, 11B switch
12 External input terminal
13A, 13B switch
14A, 14B switch
15 External input terminal

Claims (6)

Shared by the first radio system using the first frequency band, the second radio system using the second frequency band different from the first frequency band, and the first radio system and the second radio system In a communication device including a first antenna and a second antenna, a first duplexer connected to the first antenna, and a second duplexer connected to the second antenna,
A first switch connected between the transmission unit of the first wireless system and the first duplexer, and a connection between the reception unit of the first wireless system and the first duplexer A second switch, a third switch connected between the transmitter of the first wireless system and the second duplexer, the receiver of the first wireless system, and the second A fourth switch connected between the second duplexer, a fifth switch connected between the transmitter of the second radio system and the first duplexer, and the second radio A sixth switch connected between the reception unit of the system and the first duplexer, and a seventh switch connected between the transmission unit of the second wireless system and the second duplexer An eighth switch connected between the switch and the receiver of the second wireless system and the second duplexer. Antenna switching circuit, characterized in that it comprises a. An external output terminal shared by the first wireless system and the second wireless system, a third duplexer connected to the external output terminal, a transmitter of the first wireless system, and the third wireless terminal A ninth switch connected between the duplexer, a tenth switch connected between the receiver of the first wireless system and the third duplexer, and the second wireless system An eleventh switch connected between the transmitter and the third duplexer, and a twelfth switch connected between the receiver of the second wireless system and the third duplexer. The antenna switching circuit according to claim 1, further comprising: A first external output terminal and a second external output terminal shared by the first wireless system and the second wireless system; a third duplexer connected to the first external output terminal; and A ninth switch connected between the transmitter of the first radio system and the third duplexer; and connected between the receiver of the first radio system and the third duplexer. A tenth switch, an eleventh switch connected between the transmitter of the second wireless system and the third duplexer, a receiver of the second wireless system, and the third A twelfth switch connected to the second duplexer, a fourth duplexer connected to the second external output terminal, a transmitter of the first wireless system, and the fourth duplexer A thirteenth switch connected between the first wireless system receiver and the fourth switch A fourteenth switch connected between the transmitter, a fifteenth switch connected between the transmitter of the second wireless system and the fourth duplexer, and the second switch The antenna switching circuit according to claim 1, further comprising a sixteenth switch connected between a receiving unit of the wireless system and the fourth duplexer. Shared by the first radio system using the first frequency band, the second radio system using the second frequency band different from the first frequency band, and the first radio system and the second radio system The first antenna and the second antenna, the first duplexer connected to the first antenna, the second duplexer connected to the second antenna, and the first radio system. A first switch connected between the transmitter and the first duplexer; a second switch connected between the receiver of the first wireless system and the first duplexer; A third switch connected between the transmitter of the first wireless system and the second duplexer, and between the receiver of the first wireless system and the second duplexer. A connected fourth switch, a transmitter of the second wireless system, and the A fifth switch connected between the first duplexer, a sixth switch connected between the receiver of the second wireless system and the first duplexer, and the second switch A seventh switch connected between the transmitter of the wireless system and the second duplexer; and an eighth switch connected between the receiver of the second wireless system and the second duplexer. A communication device comprising a switch. An external output terminal shared by the first wireless system and the second wireless system, a third duplexer connected to the external output terminal, a transmitter of the first wireless system, and the third wireless terminal A ninth switch connected between the duplexer, a tenth switch connected between the receiver of the first wireless system and the third duplexer, and the second wireless system An eleventh switch connected between the transmitter and the third duplexer, and a twelfth switch connected between the receiver of the second wireless system and the third duplexer. The communication device according to claim 4, further comprising: a switch. A first external output terminal and a second external output terminal shared by the first wireless system and the second wireless system; a third duplexer connected to the first external output terminal; and A ninth switch connected between the transmission unit of the first wireless system and the third duplexer; and connected between the reception unit of the first wireless system and the third duplexer. A tenth switch, an eleventh switch connected between the transmitter of the second radio system and the third duplexer, a receiver of the second radio system, and the third A twelfth switch connected to the second duplexer, a fourth duplexer connected to the second external output terminal, a transmitter of the first wireless system, and the fourth duplexer A thirteenth switch connected between the first wireless system receiver and the fourth switch A fourteenth switch connected between the transmitter, a fifteenth switch connected between the transmitter of the second wireless system and the fourth duplexer, and the second switch The communication device according to claim 4, further comprising a sixteenth switch connected between a reception unit of a wireless system and the fourth duplexer.

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