JP3994316B2 - Communication device and switching device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication device and a switching device.
[0002]
[Prior art]
In a PDC (Personal Digital Cellular) communication device, when performing a voice call and data communication, communication is performed using a TDMA (Time Division Multiple Access) method. In the PDC system, diversity reception is performed in which switching is performed at high speed by time division in order to improve reception sensitivity, thereby switching to the antenna having the better reception status out of the two antennas. ing.
[0003]
A communication device having an external terminal to which an external antenna can be connected has also appeared. In a communication device having an external terminal, use of an antenna and an external terminal is switched by a switch. As described above, in the communication apparatus, there are switch circuits for performing various types of switching between the transmission / reception apparatus, the antenna, and the external terminal.
[0004]
FIG. 3 is a block diagram illustrating an example of a main configuration of a PDC (1.5 GHz) mobile phone 300 according to the related art. As shown in FIG. 3, the mobile phone 300 includes an antenna ANT1, an antenna ANT2, an external terminal A-1, an external terminal A-2, a switch SW1 having movable pieces SW1-1 to SW1-4, a switch SW2, and a received signal separation. A duplexer DUP1 having a unit RX and a transmission signal separation unit TX, a reception device RX101, and a transmission device TX201 are connected by connections c1 to c10, respectively.
[0005]
The receiving device RX101 and the transmitting device TX201 are connected to the antenna ANT1, the antenna ANT2, an external antenna connected to the external terminal A-1, and an external antenna connected to the external terminal A-2 via the antenna. It is carried out. Switches SW1 and SW2 for performing diversity control by switching the antennas ANT1 and ANT2 and the external terminals A-1 and A-2 during the data communication or talking, and the transmission signal and the reception signal are separated by the difference in frequency. A duplexer DUP1, which is a duplexer, is provided.
[0006]
At the time of transmission, the antenna ANT1 is basically used, and when an external antenna is connected to the external terminal A-1, the external terminal A-1 is used. Switching between the antenna ANT1 and the external terminal A-1 is performed by switching the switch SW2 under the control of the control unit when the external antenna is connected.
[0007]
At the time of reception, basically, the antenna ANT1 or the antenna ANT2 having the better reception status is selected by diversity control. When the external antenna is connected, an antenna having excellent reception status is selected from the two external antennas. Switching by diversity reception (diversity control) is performed by the switch SW1-1. Then, the connection to the antenna or the external terminal to be finally used is switched by SW1-2, SW1-3, and switch SW2.
[0008]
Along with the PDC method described above, in recent years, the W-CDMA (Wide Band Code Division Multiple Access) method has begun to spread. Since the W-CDMA system has excellent communication performance, it is not necessary to perform diversity control unlike the PDC system, and the switch circuit for antenna switching is simple.
[0009]
FIG. 4 is a block diagram showing an example of a main configuration of a W-CDMA mobile phone 400 in the prior art. As shown in FIG. 4, the cellular phone 400 includes an antenna ANT3, an external terminal B, a switch SW3, a duplexer DUP2 having a reception signal separation unit RX and a transmission signal separation unit TX, a reception device RX301, and a transmission device TX401. These parts are connected by connections d1 to d5, respectively.
[0010]
The receiving device RX301 and the transmitting device TX401 perform data communication and a call via either the antenna ANT3 or the external terminal B. A switch SW3 for switching between the antenna ANT3 and the external terminal B during the data communication or a call, and a duplexer DUP2 that is a duplexer that separates a transmission signal and a reception signal according to a difference in frequency are provided.
[0011]
For transmission and reception, the antenna ANT3 is basically used, and when the external antenna is connected to the external terminal B, the external terminal B is used. Switching between the antenna ANT3 and the external terminal B is performed by a switch SW3.
[0012]
FIG. 5 is a block diagram showing an example of a main configuration of a dual-band mobile phone 500 that can be used in both the PDC method and the W-CDMA communication method in the prior art. As shown in FIG. 5, the dual-band mobile phone 500 has both a PDC system circuit configuration shown in FIG. 3 and a W-CDMA circuit configuration shown in FIG.
[0013]
[Problems to be solved by the invention]
However, the dual-band mobile phone 500 according to the prior art is provided with the antenna ANT1 or the external terminal A-1 for PDC transmission / reception, and the antenna ANT2 or the external terminal A-2 for diversity reception, and the W-CDMA system. An antenna ANT3 or an external terminal B is provided for transmission / reception. That is, three antennas and three external terminals were provided. For this reason, the number of necessary parts and the number of connections are large, and the number of necessary switches is large. Therefore, the control for switching is large and the circuit configuration is complicated. As a result, the circuit scale has to be increased.
[0014]
SUMMARY OF THE INVENTION An object of the present invention is to simplify a circuit configuration in a dual-band communication apparatus, reduce necessary parts, simplify control, and reduce the circuit scale.
[0015]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention described in claim 1
First transmission means for transmitting a transmission signal of a first frequency band;
First receiving means for receiving a received signal in the first frequency band;
Second transmission means for transmitting a transmission signal in a second frequency band different from the first frequency band;
Second receiving means for receiving a received signal in the second frequency band;
In a dual-band communication device equipped with
A first antenna provided for transmitting and receiving in the first frequency band corresponding to the first transmitting means and the first receiving means;
A second antenna provided for transmitting and receiving in the second frequency band corresponding to the second transmitting means and the second receiving means;
When the first receiving means receives a reception signal of the first frequency band, the first antenna or the second antenna based on the reception status of the first antenna and the second antenna by diversity control A control unit for selecting the second antenna;
Switching means for selectively connecting the first receiving means to the first antenna side or the second antenna side, wherein the first receiving means receives the first frequency band; When receiving the signal, when the first antenna is selected by the control unit, the connection of the first receiving means is switched to the first antenna side, and the second antenna is selected. Switching means for switching the connection of the first receiving means to the second antenna side in the case,
It is characterized by having.
[0016]
The invention according to claim 2 is the invention according to claim 1,
A first connection terminal to which a first external antenna for transmitting and receiving in the first frequency band corresponding to the first transmission means and the first reception means can be connected;
A first antenna unit configured by the first connection terminal and the first antenna;
A second connection terminal to which a second external antenna for transmitting and receiving in the second frequency band corresponding to the second transmission means and the second reception means can be connected;
A second antenna portion configured by the second connection terminal and the second antenna;
When the first external antenna is connected to said first connecting terminal, switching the first transmitting means and the first receiving means to connect to said first connecting terminal, said first First terminal switching means for switching the first transmission means and the first reception means to be connected to the first antenna when the first external antenna is not connected to the connection terminal;
When said second external antenna is connected to the second connection terminal to connect the second transmitting means and the second receiving means, or the first receiving means to the second connection terminal When the second external antenna is not connected to the second connection terminal, the second transmission means and the second reception means, or the first reception means are switched to the second connection terminal. Second terminal switching means for switching to connect to the antenna,
The control unit performs diversity control when the first receiving unit receives a reception signal of the first frequency band in a state where the first external antenna and the second external antenna are connected. By selecting the first external antenna or the second external antenna based on the reception status in the first external antenna and the second external antenna,
The switching means is connected to the first antenna section when the first external antenna is selected by the control section when the first receiving section receives a reception signal of the first frequency band. The connection of the first receiving unit is switched, and when the second external antenna is selected, the connection of the first receiving unit is switched to the second antenna unit.
[0017]
The invention according to claim 3 is the invention according to claim 1,
A first connection terminal to which a first external antenna for performing transmission and reception in the first frequency band corresponding to the first transmission means and the first reception means can be connected;
A first antenna unit configured by the first connection terminal and the first antenna;
A second connection terminal to which a second external antenna for transmitting and receiving in the second frequency band corresponding to the second transmission means and the second reception means can be connected;
A second antenna portion configured by the second connection terminal and the second antenna;
First switching means for switching the first transmitting means and the first receiving means to connect to the first connection terminal or the first antenna;
A second switching means for switching the second transmitting means and the second receiving means or the first receiving means so as to be connected to the second connection terminal or the second antenna; ,
When the first receiving unit receives a reception signal in the first frequency band, the control unit performs diversity control to control the first antenna, the first external antenna, and the second antenna. And selecting the first antenna, the first external antenna, the second antenna, or the second external antenna based on the reception status at the second external antenna,
The switching means is provided when the first antenna or the first external antenna is selected by the control unit when the first receiving means receives a reception signal of the first frequency band. When the connection of the first receiving means to the first antenna section is switched and the second antenna or the second external antenna is selected, the second antenna section is connected to the first receiving means. Switch connection,
When the first antenna is selected by the control unit when the first receiving unit receives a reception signal of the first frequency band, the first terminal switching unit is Switching the connection of the first receiving means to one antenna, and switching the connection of the first receiving means to the first external antenna when the first external antenna is selected,
When the second antenna is selected by the control unit when the first receiving unit receives the reception signal of the first frequency band, the second terminal switching unit is Switching the connection of the first receiving means to the second antenna, and switching the connection of the first receiving means to the second external antenna when the second external antenna is selected. .
[0018]
The invention according to claim 4
First transmission means for transmitting a transmission signal of a first frequency band;
First receiving means for receiving a received signal in the first frequency band;
Second transmission means for transmitting a transmission signal in a second frequency band different from the first frequency band;
Second receiving means for receiving a received signal in the second frequency band;
A first antenna provided for transmitting and receiving in the first frequency band corresponding to the first transmitting means and the first receiving means;
A second antenna provided for transmitting and receiving in the second frequency band corresponding to the second transmitting means and the second receiving means;
Is a connected switching device,
When the first receiving means receives a reception signal of the first frequency band, the first antenna or the second antenna based on the reception status of the first antenna and the second antenna by diversity control A control unit for selecting the second antenna;
Switching means for selectively connecting the first receiving means to the first antenna side or the second antenna side, wherein the first receiving means receives the first frequency band; When receiving the signal, when the first antenna is selected by the control unit, the connection of the first receiving means is switched to the first antenna side, and the second antenna is selected. Switching means for switching the connection of the first receiving means to the second antenna side in the case,
It is characterized by having.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
First, the configuration will be described.
[0023]
FIG. 1 is a block diagram showing a main configuration of mobile phone 100 in the present embodiment. The mobile phone 100 is a dual-band mobile phone that can be used in both PDC (1.5 GHz) and W-CDMA communication methods.
[0024]
As shown in FIG. 1, the mobile phone 100 includes an antenna ANT10, an antenna ANT20, an external terminal T-1, an external terminal T-2, a switch SW10, a switch SW20, a switch SW30, a reception signal separation unit RX, and a transmission signal separation unit TX. A duplexer DUP1 having a reception signal separator RX and a transmission signal separator TX, a receiver RX101, a transmitter TX201, a receiver RX301, and a transmitter TX401, each of which is connected a1 Are connected by ~ a11.
[0025]
The antenna ANT10 is an antenna provided for transmitting and receiving PDC signals, receives a signal from a base station B (not shown), supplies the signal to the receiving device RX101 via the duplexer DUP1, and transmits the transmitting device TX201. Is wirelessly transmitted to the base station B via the duplexer DUP1. The antenna ANT10 has a function as a first antenna.
[0026]
The antenna ANT20 is an antenna provided for receiving a PDC system signal and transmitting and receiving a W-CDMA system signal. The antenna ANT20 receives a signal from a base station B (not shown) and receives a duplexer DUP1 or a duplexer DUP2. Via the duplexer DUP2 and wirelessly transmitted to the base station B. The signal is supplied to the reception device RX101 or the reception device RX301 via the transmission device TX401. The antenna ANT20 has a function as a second antenna.
[0027]
The external terminal T-1 is a terminal for connecting to the mobile phone 100 an external antenna for receiving a PDC signal and transmitting and receiving a W-CDMA signal. When connected to the external terminal T-1, the external antenna receives a signal from a base station B (not shown), supplies the signal to the receiving device RX101 or the receiving device RX301 via the duplexer DUP1 or the duplexer DUP2, and from the transmitting device TX401. The input signal is wirelessly transmitted to the base station B via the duplexer DUP2. The external terminal T-1 has a function as a second connection terminal.
[0028]
The external terminal T-2 is a terminal for connecting an external antenna for transmitting and receiving PDC signals to the mobile phone 100. When the external antenna is connected to the external terminal T-2, the external antenna receives a signal from a base station B (not shown), supplies the signal to the receiving device RX101 via the duplexer DUP1, and transmits the signal input from the transmitting device TX201 to the duplexer. Wireless transmission to base station B via DUP1. The external terminal T-2 has a function as a first connection terminal.
[0029]
The switch SW10 is controlled by a control unit (not shown) and switched to the connection a1 or connection a2 side. Normally, the switch SW10 is on the connection a1 side, and the antenna to be used is set to the antenna ANT10. When the external antenna is connected, the switch SW10 is switched to the connection a2 side, and the antenna to be used is set to the external antenna connected to the external terminal T-2. The switch SW10 has a function as first terminal switching means.
[0030]
The switch SW20 is controlled by a control unit (not shown) and switched to the connection a3 or connection a4 side. Normally, the switch SW20 is on the connection a4 side, and the antenna to be used is set to the antenna ANT20. When the external antenna is connected, the switch SW20 is switched to the connection a3 side, and the antenna to be used is set to the external antenna connected to the external terminal T-1. The switch SW20 has a function as second terminal switching means.
[0031]
The switch SW30 is switched to the connection a5 or the connection a6 side under the control of a control unit (not shown). Switching of the switch SW30 is based on diversity control at the time of reception by the PDC method, and the switch SW30 is switched to the antenna side of the antenna ANT10 or the antenna ANT20 in which the reception status is good when the external antenna is not connected. In the external antenna connection state, the external terminal T-1 or T-2 is switched to the external terminal side to which the external antenna having a good reception state is connected. The control unit has a function as a determination unit, and the switch SW30 has a function as a switching unit.
[0032]
The duplexer DUP1 includes a dielectric filter or the like, and includes a transmission signal separation unit TX and a reception signal separation unit RX. The transmission signal separation unit TX is connected to the transmission device TX201 through the connection a8, passes only the transmission signal (frequency of 1429 MHz to 1453 MHz) of the PDC system (1.5 GHz band) input from the transmission device TX201, and transmits other transmissions. Block and suppress signals and received signals. The reception signal separation unit RX is connected to the reception device RX101 through the connection a9, and passes only the reception signal (frequency of 1477 MHz to 1501 MHz) of the PDC system (1.5 GHz band) among the reception signals, and other reception signals and Block and suppress transmission signals.
[0033]
The duplexer DUP2 is configured by a dielectric filter or the like, and includes a reception signal separation unit RX and a transmission signal separation unit TX. The reception signal separation unit RX is connected to the reception device RX301 through the connection a10, and passes only W-CDMA reception signals (frequency of 2110 MHz to 2170 MHz) among reception signals and blocks other reception signals and transmission signals. And repress. The transmission signal separation unit TX is connected to the transmission device TX401 through the connection a11, passes only a W-CDMA transmission signal (frequency of 1920 MHz to 1980 MHz) input from the transmission device TX401, and transmits other transmission signals and reception signals. To prevent and suppress
[0034]
The receiving device RX101 receives and processes the received signal that has passed through the duplexer DUP1 based on the PDC method. The receiving device RX101 has a function as a first receiving unit.
The transmission device TX201 performs transmission processing of a transmission signal based on the PDC method. The transmission device TX201 has a function as a first transmission unit.
The reception device RX301 performs reception processing on the reception signal that has passed through the duplexer DUP2 based on the W-CDMA system. The receiving device RX301 has a function as second receiving means.
The transmission apparatus TX401 performs transmission processing of transmission signals based on the W-CDMA system. The transmission apparatus TX401 has a function as a second transmission unit.
[0035]
Next, the operation will be described with reference to FIG.
In the transmission processing in the PDC system, the transmission signal output from the transmission device TX201 passes through the connection a8, the duplexer DUP1, and the connection a5, and is switched via the connection a1 and the antenna ANT10 by switching the switch SW10, or the connection a2 and the external terminal It is transmitted from T-2 via an external antenna. Note that the antenna ANT10 is basically used at the time of transmission by the PDC method, and the external terminal T-2 is used when the external antenna is connected to the external terminal T-2.
[0036]
The reception processing in the PDC system is based on diversity control, and in the non-connected state of the external antenna, basically, the antenna having the excellent reception status is selected from the antenna ANT10 or the antenna ANT20 and received from the selected antenna. The reception device RX101 performs reception processing on the reception signal. When the external antenna is connected, the external terminal connected to the external antenna with excellent reception status is selected from the external terminal T-1 or the external terminal T-2, and the selected external terminal is connected. The reception signal received from the external antenna is received and processed by the reception signal RX101.
[0037]
In the reception process in the PDC system, when the antenna ANT10 is selected by diversity control, the switch SW30 is switched to the connection a5 side in the external antenna non-connection state. Accordingly, the reception signal received from the antenna ANT10 is received and processed by the receiving device RX101 via the connection a1, the switch SW10, the connection a5, the switch SW30, the connection a7, the duplexer DUP1, and the connection a9.
[0038]
In the reception process in the PDC system, when the external terminal T-2 is selected by diversity control, the switch SW30 is switched to the connection a5 side in the external antenna connection state. As a result, the received signal received from the external antenna connected to the external terminal T-2 is received by the receiving device RX101 via the connection a2, the switch SW10, the connection a5, the switch SW30, the connection a7, the duplexer DUP1, and the connection a9. Received.
[0039]
In the reception process in the PDC system, when the external terminal T-1 is selected by diversity control, the switch SW30 is switched to the connection a6 side in the external antenna connection state. As a result, the reception signal received from the external antenna connected to the external terminal T-1 is received by the receiving device RX101 via the connection a3, the switch SW20, the connection a6, the switch SW30, the connection a7, the duplexer DUP1, and the connection a9. Received.
[0040]
In the reception process in the PDC method, when the antenna ANT20 is selected by diversity control, the switch SW30 is switched to the connection a6 side in the external antenna non-connection state. Thus, the reception signal received from the antenna ANT20 is received and processed by the receiving device RX101 via the connection a4, the switch SW20, the connection a6, the switch SW30, the connection a7, the duplexer DUP1, and the connection a9.
[0041]
In the transmission processing in the W-CDMA system, the transmission signal output from the transmission device TX401 passes through the connection a11, the duplexer DUP2, and the connection a6, and is switched from the connection a3 and the external terminal T-1 by switching the switch SW20. Or via connection a4 and antenna ANT20. Note that the antenna ANT20 is basically used at the time of transmission by the W-CDMA system, and the external terminal T-1 is used when the external antenna is connected to the external terminal T-1.
[0042]
In the reception processing in the W-CDMA system, when an external antenna is connected to the external terminal T-1, the switch SW20 is switched to the connection a3 side. Thereby, the reception signal received from the external antenna connected to the external terminal T-1 is received and processed by the receiving device RX301 via the connection a3, the switch SW20, the connection a6, the duplexer DUP2, and the connection a10. When the external antenna is not connected to the external terminal T-1, the switch SW20 is switched to the connection a4 side. Accordingly, the reception signal received from the antenna ANT20 is received and processed by the receiving device RX301 via the connection a4, the switch SW20, the connection a6, the duplexer DUP2, and the connection 10.
[0043]
As described above, according to the mobile phone 100, the external terminal T-1 and the antenna ANT20 provided for the W-CDMA system are the same as the antenna and the external terminal provided for diversity reception of the conventional PDC system. By combining the functions of the PDC and W-CDMA systems with two antennas, two external terminals, and three switches, the PDC and W-CDMA systems can be operated simultaneously. Diversity control is possible.
[0044]
Therefore, the number of necessary parts such as the number of antennas, the number of external terminals, the number of connections, the number of switches, and the like can be reduced as compared with the conventional case. In addition, since the number of switches is reduced, control for switching is simplified. As a result, circuit design is simplified and the circuit is miniaturized.
[0045]
In addition, the description content in the said embodiment is a suitable example of the mobile telephone 100 which concerns on this invention, and is not limited to this.
For example, in the above embodiment, a mobile phone that can use the PDC method and the W-CDMA method is described, but the communication method is not limited to this. Of course, the present invention is not limited to a mobile phone that can use two communication methods, but can be applied to a mobile phone that is a single communication method and can use two frequency bands.
[0046]
Further, in the above embodiment, in the diversity control, when the external antenna is connected, the switch SW10 and the switch SW20 are forcibly switched, and 2 connected to the external terminal T-1 and the external terminal T-2. Of the two external antennas, the external terminal having the better reception status is switched to the external terminal, but the antenna ANT10, the antenna ANT20, the external antenna connected to the external terminal T-1, and the external terminal T-2 are connected. Of the four external antennas, the antenna may be switched to an antenna having excellent reception status.
[0047]
Further, the configuration of the present embodiment can be applied as described below.
[0048]
FIG. 2 is a diagram illustrating an example of a main configuration of a mobile phone 200 that can be used in four different communication systems, that is, a PDC system, a W-CDMA system, a GSM (Global System for Mobile Communications) system, and a DCS (Digital Communication System) system. It is. As shown in FIG. 2, in this configuration, a switch SW40 is added to the connection a6 portion of the main configuration of the mobile phone 100 shown in FIG. 1, and the W-CDMA system, GSM system, and DCS system can be switched. Note that the GSM method and the DCS method do not perform diversity reception.
[0049]
The duplexer DUP3 is connected to the switch SW40 via the connection b17. The duplexer DUP3 is connected to a receiving device RX501 through a connection b13, a transmitting device TX601 through a connection b14, a receiving device RX701 through a connection b15, and a transmitting device TX801 through a connection b16. The switch SW40 functions as a communication system switching unit and a second communication system switching unit.
[0050]
The duplexer DUP3 is an antenna switch module for GSM / DCS, and enables transmission / reception with two different communication systems of the GSM system and the DCS system with one antenna. The signal, the DCS transmission signal, and the DCS reception signal are separated by frequency difference. The duplexer DUP3 has a function as a signal separation unit.
[0051]
The receiving device RX501 receives the received signal that has passed through the duplexer DUP3 based on the GSM method. The receiving device RX501 has a function as third receiving means.
The transmission apparatus TX601 performs transmission signal transmission processing based on the GSM scheme. The transmission device TX601 has a function as a third transmission unit.
The receiving device RX701 processes the received signal that has passed through the duplexer DUP3 based on the DCS method. The receiving device RX701 has a function as fourth receiving means.
The transmission device TX801 performs transmission processing of a transmission signal based on the DCS method. The transmission device TX801 has a function as a fourth transmission unit.
[0052]
With the above configuration, when the mobile phone 200 performs transmission / reception by the GSM method or the DCS method, the switch SW40 is switched to the connection b17 side by control from a control unit (not shown). However, the W-CDMA system, GSM system, and DCS system cannot be operated simultaneously.
[0053]
As described above, the mobile phone 200 applies the configuration of the mobile phone 100 and switches the GSM and DCS transmission / reception devices 501, 601, 701, and 801 through the duplexer DUP 3 by adding the switch SW 40. Connectable. Therefore, it is possible to communicate with four different communication systems with a simple circuit configuration without increasing the number of antennas.
[0054]
In addition, the detailed configurations and detailed operations of the mobile phone 100 and the mobile phone 200 can be changed as appropriate without departing from the spirit of the present invention.
[0055]
【The invention's effect】
According to the present invention, in a dual-band communication apparatus, it is possible to simplify the circuit configuration, reduce necessary parts, simplify control, and reduce the circuit scale.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main configuration of a dual-band mobile phone 100 according to the present invention.
FIG. 2 is a block diagram showing a main configuration of a mobile phone 200 that can be used in four communication methods according to the present invention.
FIG. 3 is a block diagram showing an example of a main configuration of a PDC mobile phone 300 according to the prior art.
FIG. 4 is a block diagram illustrating an example of a main configuration of a W-CDMA mobile phone 400 according to the related art.
FIG. 5 is a block diagram showing an example of a main configuration of a dual-band mobile phone 500 that can be used in the PDC system and the W-CDMA system in the prior art.
[Explanation of symbols]
100 cellular phone 200 cellular phone ANT10 antenna ANT20 antenna T-1 external terminal T-2 external terminal SW10 switch SW20 switch SW30 switch SW40 switch DUP1 duplexer (PDC system)
DUP2 duplexer (W-CDMA system)
DUP3 duplexer (GSM and DCS)
RX101 Receiver (PDC method)
TX201 transmitter (PDC method)
RX301 receiver (W-CDMA system)
TX401 Transmitter (W-CDMA system)
RX501 Receiver (GSM system)
TX601 transmitter (GSM system)
RX701 Receiver (DCS method)
TX801 transmitter (DCS system)
a1-a11 connection b1-b16 connection

Claims (4)

First transmission means for transmitting a transmission signal of a first frequency band;
First receiving means for receiving a received signal in the first frequency band;
Second transmission means for transmitting a transmission signal in a second frequency band different from the first frequency band;
Second receiving means for receiving a received signal in the second frequency band;
In a dual-band communication device equipped with
A first antenna provided for transmitting and receiving in the first frequency band corresponding to the first transmitting means and the first receiving means;
A second antenna provided for transmitting and receiving in the second frequency band corresponding to the second transmitting means and the second receiving means;
When the first receiving means receives a reception signal of the first frequency band, the first antenna or the second antenna based on the reception status of the first antenna and the second antenna by diversity control A control unit for selecting the second antenna;
Switching means for selectively connecting the first receiving means to the first antenna side or the second antenna side, wherein the first receiving means receives the first frequency band; When receiving the signal, when the first antenna is selected by the control unit, the connection of the first receiving means is switched to the first antenna side, and the second antenna is selected. Switching means for switching the connection of the first receiving means to the second antenna side in the case,
A communication apparatus comprising: A first connection terminal to which a first external antenna for transmitting and receiving in the first frequency band corresponding to the first transmission means and the first reception means can be connected;
A first antenna unit configured by the first connection terminal and the first antenna;
A second connecting terminal and the second external antenna can be connected for transmitting and receiving in the second frequency band corresponding to said second transmission means and said second receiving means,
A second antenna portion configured by the second connection terminal and the second antenna;
When the first external antenna is connected to said first connecting terminal, switching the first transmitting means and the first receiving means to connect to said first connecting terminal, said first First terminal switching means for switching the first transmission means and the first reception means to be connected to the first antenna when the first external antenna is not connected to the connection terminal;
When said second external antenna is connected to the second connection terminal to connect the second transmitting means and the second receiving means, or the first receiving means to the second connection terminal When the second external antenna is not connected to the second connection terminal, the second transmission means and the second reception means, or the first reception means are switched to the second connection terminal. Second terminal switching means for switching to connect to the antenna,
The control unit performs diversity control when the first receiving unit receives a reception signal of the first frequency band in a state where the first external antenna and the second external antenna are connected. By selecting the first external antenna or the second external antenna based on the reception status in the first external antenna and the second external antenna,
The switching means is connected to the first antenna section when the first external antenna is selected by the control section when the first receiving section receives a reception signal of the first frequency band. 2. The communication according to claim 1, wherein the connection of the first receiving unit is switched, and the connection of the first receiving unit is switched to the second antenna unit when the second external antenna is selected. apparatus. A first connection terminal to which a first external antenna for transmitting and receiving in the first frequency band corresponding to the first transmission means and the first reception means can be connected;
A first antenna unit configured by the first connection terminal and the first antenna;
A second connection terminal to which a second external antenna for transmitting and receiving in the second frequency band corresponding to the second transmission means and the second reception means can be connected;
A second antenna portion configured by the second connection terminal and the second antenna;
First switching means for switching the first transmitting means and the first receiving means to connect to the first connection terminal or the first antenna;
A second switching means for switching the second transmitting means and the second receiving means or the first receiving means so as to be connected to the second connection terminal or the second antenna; ,
When the first receiving unit receives a reception signal in the first frequency band, the control unit performs diversity control to control the first antenna, the first external antenna, and the second antenna. And selecting the first antenna, the first external antenna, the second antenna, or the second external antenna based on the reception status at the second external antenna,
The switching means is provided when the first antenna or the first external antenna is selected by the control unit when the first receiving means receives a reception signal of the first frequency band. When the connection of the first receiving means to the first antenna section is switched and the second antenna or the second external antenna is selected, the second antenna section is connected to the first receiving means. Switch connection,
When the first antenna is selected by the control unit when the first receiving unit receives a reception signal of the first frequency band, the first terminal switching unit is Switching the connection of the first receiving means to one antenna, and switching the connection of the first receiving means to the first external antenna when the first external antenna is selected,
When the second antenna is selected by the control unit when the first receiving unit receives the reception signal of the first frequency band, the second terminal switching unit is Switching the connection of the first receiving means to two antennas, and switching the connection of the first receiving means to the second external antenna when the second external antenna is selected. The communication apparatus according to claim 1. First transmission means for transmitting a transmission signal of a first frequency band;
First receiving means for receiving a received signal in the first frequency band;
Second transmission means for transmitting a transmission signal in a second frequency band different from the first frequency band;
Second receiving means for receiving a received signal in the second frequency band;
A first antenna provided for transmitting and receiving in the first frequency band corresponding to the first transmitting means and the first receiving means;
A second antenna provided for transmitting and receiving in the second frequency band corresponding to the second transmitting means and the second receiving means;
Is a connected switching device,
When the first receiving means receives a reception signal of the first frequency band, the first antenna or the second antenna based on the reception status of the first antenna and the second antenna by diversity control A control unit for selecting the second antenna;
Switching means for selectively connecting the first receiving means to the first antenna side or the second antenna side, wherein the first receiving means receives the first frequency band; When receiving the signal, when the first antenna is selected by the control unit, the connection of the first receiving means is switched to the first antenna side, and the second antenna is selected. Switching means for switching the connection of the first receiving means to the second antenna side in the case,
A switching device characterized by comprising:

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