JP2010220010A - Communication apparatus and communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication apparatus and a communication method causing little power loss. <P>SOLUTION: The communication apparatus includes a first antenna capable of transmitting and receiving radio signals of N frequency bands, a second antenna capable of transmitting and receiving a radio signal of a predetermined frequency band other than the N frequency bands, an external antenna terminal, N transmitting/receiving sections corresponding to the N frequency bands, respectively, for controlling transmission/reception of a signal of the frequency band related to the device concerned, a predetermined transmitting/receiving section for controlling transmission/reception of a signal of the predetermined frequency band, a first switch having one end connected to the first antenna, a second switch having one end connected to the second antenna and the other end connected to the predetermined transmitting/receiving section, a third switch having one end connected to the external antenna terminal, a fourth switch having one end connected to the predetermined transmitting/receiving section and to the other end of the second switch, and N transmitting/receiving switches connected to the transmitting/receiving sections related to the device concerned, along with the other ends of the first, third and fourth switches being connected with the other ends of the transmitting/receiving switches. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a communication device and a communication method, and more particularly to a communication device and a communication method capable of transmitting and receiving signals in a plurality of frequency bands.

  Communication devices that can transmit and receive signals in a plurality of frequency bands with one antenna are known (see Patent Documents 1 and 2).

  FIG. 7 is a block diagram illustrating a main part of a circuit configuration of a communication apparatus capable of individually transmitting and receiving signals in the first, second, and third frequency bands. In FIG. 7, a 2 GHz band is used as the first frequency band, an 800 MHz band is used as the second frequency band, and a 1.7 GHz band is used as the third frequency band.

  In FIG. 7, the communication apparatus includes an antenna (hereinafter referred to as “ANT”) 1, an external antenna terminal (hereinafter referred to as “TP”) 2, a transmission / reception unit 3 for 2 GHz band, and a transmission / reception unit 4 for 800 MHz band. And a 1.7 GHz band transmitting / receiving unit 5 and a switch module (hereinafter referred to as “SW”) 6.

  The transmission / reception unit 3 includes a transmission / reception sharer (hereinafter referred to as “FIL”) 31, a low noise amplifier (hereinafter referred to as “LNA”) 32, a reception side bandpass filter (hereinafter referred to as “BPF”) 33, A transmitter (hereinafter referred to as “RX”) 34, a transmitter (hereinafter referred to as “TX”) 35, and a terminal 36. The transmission / reception unit 4 includes a FIL 41, an LNA 42, a BPF 43, an RX 44, a TX 45, and a terminal 46. The transmission / reception unit 5 includes a FIL 51, an LNA 52, a BPF 53, an RX 54, a TX 55, and a terminal 56. SW6 includes a switch 61, a switch 63, and switches 6a to 6c.

  ANT1 transmits and receives N (N is an integer greater than or equal to 1) frequency bands (in the example shown in FIG. 7, radio signals in each of the three frequency bands of 2 GHz band, 800 MHz band, and 1.7 GHz band). Is possible.

  In order to cover the 2 GHz band, the 800 MHz band, and the 1.7 GHz band, ANT1 covers the 2 GHz band and the 1.7 GHz band in a wide band, and the 800 MHz band is set as a two-band resonance.

  An external antenna (not shown) is connected to TP2.

  The transmission / reception unit 3 corresponds to the 2 GHz band and controls transmission / reception of signals in the 2 GHz band.

  The FIL 31 is a commonly used duplexer. The FIL 31 includes a reception band pass filter (hereinafter referred to as “reception side filter”) 31 a that passes a signal of 2 GHz band, and a transmission band pass filter (hereinafter referred to as “transmission side filter”) 31 b that passes a signal of 2 GHz band. Including. One end of the reception filter 31a and one end of the transmission filter 31b are connected to the terminal 36 on the antenna side. The reception-side filter 31 a outputs a signal in the 2 GHz band among the signals from the terminal 36 to the LNA 32.

  The LNA 32 amplifies the signal from the reception-side filter 31 a and outputs the amplified signal to the BPF 33. The BPF 33 outputs a signal in the 2 GHz band among the signals from the LNA 32 to the RX 34. The RX 34 receives a signal from the BPF 33 and outputs the signal to, for example, a subsequent circuit (not shown). The TX 35 outputs a transmission signal to the transmission filter 31b. The transmission-side filter 31 b outputs a signal in the 2 GHz band among the signals from the TX 35 to the terminal 36.

  The transmission / reception unit 4 corresponds to the 800 MHz band and controls transmission / reception of signals in the 800 MHz band. The transmission / reception unit 4 is described by replacing “2 GHz” with “800 MHz” in the description of the transmission / reception unit 3 and replacing “3” at the head of the code of each unit with “4”. Can do.

  The transmission / reception unit 5 corresponds to the 1.7 GHz band and controls transmission / reception of signals in the 1.7 GHz band. The description of the transmission / reception unit 5 is made by replacing “2 GHz” with “1.7 GHz” in the description of the transmission / reception unit 3 and replacing “3” at the head of the code of each unit with “5”. It can be carried out.

  SW6 connects any one of the transmission / reception units 3 to 5 to ANT1 or TP2. One end of the switch 61 is connected to ANT1. One end of the switch 63 is connected to TP2. The switch 6 a corresponds to the transmission / reception unit 3. One end of the switch 6 a is connected to the terminal 36 of the transmission / reception unit 3. The switch 6 b corresponds to the transmission / reception unit 4. One end of the switch 6 b is connected to the terminal 46 of the transmission / reception unit 4. The switch 6 c corresponds to the transmission / reception unit 5. One end of the switch 6 c is connected to the terminal 56 of the transmission / reception unit 5.

  The other end of the switch 61, the other end of the switch 63, and the other ends of the switches 6a to 6c are connected to each other.

  Next, the operation of the communication apparatus shown in FIG. 7 will be described.

  First, an operation in a situation where an external antenna connected to TP2 is designated as an antenna used for communication (hereinafter referred to as “first situation”) will be described.

  In the first situation, when the 2 GHz band is designated as the frequency band used for communication, the switches 63 and 6a are closed and the other switches are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to TP2.

  In the first situation, when the 800 MHz band is designated as the frequency band used for communication, the switches 63 and 6b are closed and the other switches are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to TP2.

  In the first situation, when the 1.7 GHz band is designated as the frequency band used for communication, the switches 63 and 6c are closed and the other switches are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to TP2.

  Subsequently, an operation in a situation where ANT1 (internal antenna) is designated as an antenna used for communication (hereinafter referred to as “second situation”) will be described.

  In the second situation, when the 2 GHz band is designated as the frequency band used for communication, the switches 61 and 6a are closed and the other switches are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to the ANT1.

  In the second situation, when the 800 MHz band is designated as the frequency band used for communication, the switches 61 and 6b are closed and the other switches are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to the ANT1.

  In the second situation, when the 1.7 GHz band is designated as the frequency band used for communication, the switches 61 and 6c are closed and the other switches are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to the ANT1.

JP 2003-168996 A JP 2002-171315 A

  In recent years, the 1.5 GHz band has been newly standardized as a frequency band for communication. Therefore, there is a demand for a communication apparatus that can perform communication using signals in conventional frequency bands (for example, 2 GHz band, 800 MHz band, 1.7 GHz band) and can also perform communication using signals in the 1.5 GHz band.

  FIG. 8 shows a circuit configuration of a communication apparatus that enables transmission and reception of signals in the 2 GHz band, the 800 MHz band, the 1.7 GHz band, and the 1.5 GHz band using the same technique as the communication apparatus shown in FIG. It is the block diagram which showed the principal part.

  The communication apparatus shown in FIG. 8 is different from the communication apparatus shown in FIG. 7 in that ANT1A is included instead of ANT1, SW6A is included instead of SW6, and a transmission / reception unit 7 is further included. In FIG. 8, the same components as those shown in FIG. 7 are denoted by the same reference numerals.

  The transmission / reception unit 7 corresponds to the 1.5 GHz band and controls transmission / reception of signals in the 1.5 GHz band. In the description of the transmission / reception unit 7, in the description of the transmission / reception unit 3 described above, “2 GHz” is replaced with “1.5 GHz”, and the leading “3” in the code of each unit is replaced with “7”. It can be carried out.

  In addition to the configuration of SW6, a switch 6d is added to SW6A. One end of the switch 6 d is connected to the terminal 76 of the transmission / reception unit 7. The other end of the switch 6d is connected to the other end of the switch 61, the other end of the switch 63, and the other ends of the switches 6a to 6c.

  ANT1A needs to cover a wide band from 1.44 GHz to 2.16 GHz due to the addition of the 1.5 GHz band.

  For this reason, in the communication apparatus shown in FIG. 8, antenna efficiency falls and the problem that the power loss in an antenna increases arises.

  As a technique for solving this problem, a technique of installing a dedicated antenna for 1.5 GHz band in the communication apparatus in addition to ANT1 operating in the 2 GHz band, 800 MHz band, and 1.7 GHz band can be considered.

  FIG. 9 is a block diagram illustrating a main part of a circuit configuration of a communication apparatus in which an antenna dedicated for the 1.5 GHz band is installed. The communication apparatus shown in FIG. 9 is different from the communication apparatus shown in FIG. 8 in that ANT1 is included instead of ANT1A, SW6B is included instead of SW6A, and ANT8 is included. In FIG. 9, the same components as those shown in FIG. 7 or FIG.

  The ANT8 can transmit and receive a 1.5 GHz band radio signal.

  In addition to the configuration of SW6A, switch 6e is added to SW6B. One end of the switch 6e is connected to the ANT8. The other end of the switch 6e is connected to the other end of the switch 61, the other end of the switch 63, and the other ends of the switches 6a to 6d.

  For this reason, in SW6B, the number of switches connected to the same connection point (in FIG. 9, wiring 6f) increases compared to SW6A. When the number of switches connected to the same connection point increases, the parasitic capacitance at the connection point increases, and the wiring for connecting the switches also increases. For this reason, in the communication apparatus shown in FIG. 9, the problem that the power loss in the switching path | route (SW6B) regarding a switch increases newly arises.

  The objective of this invention is providing the communication apparatus and communication method which can solve the subject mentioned above.

  The communication apparatus of the present invention can transmit and receive a radio signal in a specific frequency band other than the N frequency bands, and a first antenna capable of transmitting and receiving radio signals in N (N is an integer of 1 or more) frequency bands. A second antenna, an external antenna terminal to which an external antenna is connected, N transmission / reception units that individually correspond to the N frequency bands and control transmission / reception of signals in the frequency band corresponding to the second antenna, A specific transmission / reception unit for controlling transmission / reception of a signal in a specific frequency band, a first switch having one end connected to the first antenna, one end connected to the second antenna, and the other end connected to the specific transmission / reception unit A second switch, a third switch having one end connected to the external antenna terminal, a fourth switch having one end connected to the specific transmitting / receiving unit and the other end of the second switch, and the N transmitting / receiving units. N transmission / reception switches individually connected and having one end connected to the transmission / reception unit corresponding to itself, the other end of the first switch, the other end of the third switch, and the fourth switch And the other ends of the N transmission / reception switches are connected to each other.

  The communication method of the present invention is a communication method performed by the communication device, wherein the fourth switch includes a fifth switch having one end connected to the specific transmission / reception unit and the other end of the second switch, and one end of the fourth switch. A sixth switch connected to the other end of the fifth switch, the other end connected to the other end of the first switch, the other end of the third switch, and the other end of each of the N transmission / reception switches; A reception step for receiving antenna specification information for specifying an antenna to be used for communication, and frequency band specification information for specifying a frequency band to be used for communication, and the antenna specification information received in the reception step And a control step for controlling opening and closing of the first, second, third, fifth and sixth switches and the N transmission / reception switches based on the frequency band designation information. No.

  According to the present invention, it is possible to reduce the power loss of the communication device.

It is the block diagram which showed the communication apparatus of 1st Embodiment of this invention. It is the block diagram which showed the other example of the communication apparatus of 1st Embodiment of this invention. It is the block diagram which showed the communication apparatus of 3rd Embodiment of this invention. It is the block diagram which showed the comparative example of 3rd Embodiment. It is the block diagram which showed the other comparative example of 3rd Embodiment. It is the block diagram which showed the other comparative example of 3rd Embodiment. It is the block diagram which showed the communication apparatus which can transmit / receive the signal of a some frequency band. It is the block diagram which showed the communication apparatus which can transmit / receive the signal of a some frequency band. It is the block diagram which showed the communication apparatus which can transmit / receive the signal of a some frequency band.

  Embodiments of the present invention will be described below.

(First embodiment)
FIG. 1 is a block diagram showing a communication apparatus according to the first embodiment of the present invention. In FIG. 1, the same components as those shown in FIG. 9 are denoted by the same reference numerals.

  In FIG. 1, a communication device such as a mobile phone includes ANT 1 and 8, TP 2, transmission / reception units 3 to 5 and 7, and SW 6 C and 9.

  In addition to the configuration of SW6, a switch 66 is added to SW6C. SW9 includes switches 62 and 65. A series circuit of the switch 65 and the switch 66 constitutes the switch 64. The switch 64 may be a single switch.

  One end of the switch 62 is connected to the ANT8. One end of the switch 64 is connected to the other end of the transmission / reception unit 7 and the switch 62. The other end of the switch 61, the other end of the switch 63, the other end of the switch 64, and the other ends of the switches 6a to 6c are connected to each other. One end of the switch 65 is connected to the other end of the transmission / reception unit 7 and the switch 62. One end of the switch 66 is connected to the other end of the switch 65. The other end of the switch 66 is connected to the other end of the switch 61, the other end of the switch 63, and the other ends of the switches 6a to 6c.

  ANT1 can generally be referred to as a first antenna. ANT8 can generally be referred to as a second antenna. TP2 can generally be referred to as an external antenna terminal. The transmission / reception units 3 to 5 can generally be referred to as 3 (N = 3) transmission / reception units. The transmission / reception unit 7 can be generally called a specific transmission / reception unit. 1.5 GHz can generally be called a specific frequency band. Switches 61 to 65 can be generally referred to as a first switch, a second switch, a third switch, a fourth switch, and a fifth switch, respectively. Each of switches 6a-6c can generally be referred to as a transmission / reception switch. The switches in the switches 6a to 6c are included in the control target switches.

  Next, the operation will be described.

  First, an operation in a situation (first situation) in which an external antenna connected to TP2 is designated as an antenna used for communication will be described.

  In the first situation, when the 1.5 GHz band is specified as the frequency band used for communication, the switches 63, 65, and 66 are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to TP2.

  In the first situation, when the 2 GHz band is designated as the frequency band used for communication, the switches 63, 65, and 6a are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to TP2.

  In the first situation, when the 800 MHz band is designated as the frequency band used for communication, the switches 63, 65 and 6b are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to TP2.

  In the first situation, when the 1.7 GHz band is designated as the frequency band used for communication, the switches 63, 65 and 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to TP2.

  Next, the operation in a situation (second situation) in which the internal antennas of ANT1 and ANT8 are designated as antennas used for communication will be described.

  In the second situation, when the 1.5 GHz band is designated as the frequency band used for communication, the switches 61, 62 and 66 are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to the ANT 8.

  In the second situation, when the 2 GHz band is designated as the frequency band used for communication, the switches 61, 62, and 6a are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to the ANT1.

  In the second situation, when the 800 MHz band is designated as the frequency band used for communication, the switches 61, 62, and 6b are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to the ANT1.

  In the second situation, when the 1.7 GHz band is designated as the frequency band used for communication, the switches 61, 62, and 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to the ANT1.

  Next, the effect of this embodiment will be described.

  In the communication apparatus shown in FIG. 8, the power loss at the antenna is large, and in the communication apparatus shown in FIG. 9, the power loss at the path switch is large and the power consumption increases.

  In the present embodiment, since the ANT8 is provided for the 1.5 GHz band, it is possible to prevent a power loss due to a reduction in efficiency due to the broadening of the antenna band, and the switching circuit (SW6C and SW6C) without causing a complicated path switching. By configuring 9), there is an effect of preventing power loss at the path changeover switch. As a result, there is an effect that it is possible to provide a wireless circuit of a communication device (for example, a mobile terminal device) with low power loss, and thus provide a communication device (for example, a mobile terminal device) with low power consumption.

  Note that the opening and closing of the switch in the communication device is controlled by, for example, a control unit.

  FIG. 2 is a block diagram in which an example of a configuration for controlling opening / closing of a switch in the communication device is added to the communication device shown in FIG. In FIG. 2, the same components as those shown in FIG.

  In FIG. 2, the accepting unit 10 is, for example, a setting switch, and accepts antenna designating information for designating an antenna used for communication and frequency band designating information for designating a frequency band used for communication.

  The control unit 11 controls opening and closing of the switches in the SWs 6C and 9 based on the antenna designation information and the frequency band designation information received by the reception unit 10.

  For example, when the reception unit 10 receives external antenna designation information (first designation information) for designating an external antenna as the antenna designation information, the control unit 11 switches the switches 63 and 65 among the switches 61 to 63 and 65. Close and open switches 61 and 62.

  On the other hand, when the reception unit 10 receives the internal antenna specification information (fourth specification information) for specifying the internal antennas of ANT1 and ANT8 as the antenna specification information, the control unit 11 switches among the switches 61 to 63 and 65. 61 and 62 are closed, and switches 63 and 65 are opened.

  When the receiving unit 10 receives specific frequency band specifying information (second specifying information) specifying 1.5 GHz as the frequency band specifying information, the control unit 11 includes the switches 6a to 6c and 66. The switch 66 is closed and the switches 6a to 6c are opened.

  When the reception unit 10 receives communication frequency band specification information (third specification information) specifying 2 GHz as the frequency band specification information, the control unit 11 selects the switch among the switches 6a to 6c and 66. 6a is closed and switches 6b-6c and 66 are opened.

  When the reception unit 10 receives communication frequency band specification information (third specification information) specifying 800 MHz as the frequency band specification information, the control unit 11 selects the switch among the switches 6a to 6c and 66. 6b is closed and switches 6a, 6c and 66 are opened.

  When the reception unit 10 receives communication frequency band specification information (third specification information) specifying 1.7 GHz as the frequency band specification information, the control unit 11 includes the switches 6a to 6c and 66. , Switch 6c is closed and switches 6a, 6b and 66 are opened.

  In this case, the controller 11 can automatically control the opening and closing of each switch. Further, the control unit 11 controls the opening and closing of the switches 61 to 63 and 65 based on the antenna designation information, and controls the opening and closing of the switches 6a to 6c and 66 based on the frequency band designation information. For this reason, it becomes possible to facilitate the open / close control of each switch.

(Second Embodiment)
The configuration of the communication device according to the second embodiment of the present invention is basically the same as that of the communication device according to the first embodiment, but the switching control of each switch by the control unit 11 is different from the communication device according to the first embodiment. .

  In the present embodiment, when the receiving unit 10 receives external antenna specifying information as antenna specifying information and receives specific frequency band specifying information specifying 1.5 GHz as frequency band specifying information, the control unit 11 The switches 63, 65 and 66 are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to TP2.

  When the receiving unit 10 receives external antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying 2 GHz as frequency band specifying information, the control unit 11 switches the switches 63 and 6a. Close and open the other switches (the remaining switches of the switch to be controlled). Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to TP2.

  When the receiving unit 10 receives external antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying 800 MHz as frequency band specifying information, the control unit 11 switches the switches 63 and 6b. Close and open the other switches (the remaining switches of the switch to be controlled). Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to TP2.

  When the receiving unit 10 receives external antenna specifying information as the antenna specifying information and receives communication frequency band specifying information specifying 1.7 GHz as the frequency band specifying information, the control unit 11 switches the switch 63. And 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to TP2.

  When the receiving unit 10 receives the internal antenna specifying information as the antenna specifying information and receives the specific frequency band specifying information specifying 1.5 GHz as the frequency band specifying information, the control unit 11 switches the switch 62. Close and open the other switches (the remaining switches of the switch to be controlled). Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to the ANT 8.

  When the receiving unit 10 receives internal antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying a 2 GHz band as frequency band specifying information, the control unit 11 includes the switch 61 and 6a is closed and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to the ANT1.

  When the receiving unit 10 receives internal antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying an 800 MHz band as frequency band specifying information, the control unit 11 includes the switch 61 and 6b is closed and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to the ANT1.

  When the reception unit 10 receives internal antenna specification information as antenna specification information and receives communication frequency band specification information specifying a 1.7 GHz band as frequency band specification information, the control unit 11 61 and 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to the ANT1.

  In this case, there is an advantage that isolation between paths is increased as compared with the first embodiment.

(Third embodiment)
FIG. 3 is a block diagram showing a communication apparatus according to the third embodiment of the present invention.

  In the third embodiment of the present invention, a GPS (Global Positioning System) receiving unit 12 and phase shifters (hereinafter referred to as “ST”) 13 and 14 are added to the first embodiment of the present invention. In the third embodiment, the GPS receiving unit 12 and the transmitting / receiving unit 7 use ANT8. ST13 can generally be referred to as a first phase shifter. ST14 can generally be referred to as a second phase shifter.

  The GPS receiver 12 receives a GPS signal in the 1.5 GHz band. The GPS receiver 12 includes a reception band pass filter (hereinafter referred to as “BPFg”) 121, a low noise amplifier (hereinafter referred to as “LNAg”) 122, a reception band pass filter (hereinafter referred to as “BPFg”) 123, Receiver (hereinafter referred to as “RXg”) 124.

  The BPFg 121 outputs a 1.5 GHz band signal among the signals from the ANT 8 to the LNAg 122. The LNAg 122 amplifies the signal from the BPFg 121 and outputs the amplified signal to the BPFg 123. The BPFg 123 outputs a signal in the 2 GHz band among the signals from the LNAg 122 to the RXg 124.

  One end of ST13 is connected to a terminal 76 of the transmission / reception unit 7. The other end of ST13 is connected to the other end of switch 62 and one end of switch 65.

  One end of ST 14 is connected to the GPS receiver 12. The other end of ST14 is connected to the other end of ST13, the other end of switch 62, and one end of switch 65.

  In the present embodiment, the passband frequency of the BPFg 121 and the stopband frequency of the FIL11 are set so that the passband frequency of the BPFg121 becomes the stopband frequency of the FIL11. In the FIL11, the characteristic impedance of the frequency band is the maximum. It has become.

  In addition, the passband frequency of FIL11 and the stopband frequency of BPFg121 are set so that the passband frequency of FIL11 becomes the stopband frequency of BPFg121. In BPFg121, the characteristic impedance of the frequency band is maximized. Yes.

  ST13 and ST14 are input to the GPS receiver 12 and the phase of signals input to and output from the transmitter / receiver 7 so that the passband frequencies of the FIL 11 and BPFg 121 have optimum electrical lengths that are not affected by the other impedance. Adjust the signal phase. In this embodiment, ST13 and ST14 are formed by microstrip lines.

  Next, the operation of this embodiment will be described.

  For example, when the receiving unit 10 receives external antenna specifying information as the antenna specifying information and receives specific frequency band specifying information specifying 1.5 GHz as the frequency band specifying information, the control unit 11 switches the switch 63. , 65 and 66 are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to TP2. At the same time, the GPS receiver 12 is also connected to TP2.

  When the reception unit 10 receives external antenna specification information as antenna specification information and receives communication frequency band specification information specifying a 2 GHz band as frequency band specification information, the control unit 11 includes the switch 63, 65 and 6a are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to TP2.

  When the receiving unit 10 receives external antenna specifying information as antenna specifying information and receives communication frequency band specifying information for specifying an 800 MHz band as frequency band specifying information, the control unit 11 includes the switch 63, 65 and 6b are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to TP2.

  When the receiving unit 10 receives external antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying a 1.7 GHz band as frequency band specifying information, the control unit 11 63, 65 and 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to TP2.

  When the reception unit 10 receives internal antenna specification information as antenna specification information and specific frequency band specification information specifying 1.5 GHz as frequency band specification information, the control unit 11 switches the switch 61. , 62, 65 and 66 are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 7 corresponding to the 1.5 GHz band is connected to the ANT 8. At the same time, the GPS receiver 12 is also connected to the ANT8.

  When the receiving unit 10 receives internal antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying a 2 GHz band as frequency band specifying information, the control unit 11 includes a switch 61, 62 and 6a are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 3 corresponding to the 2 GHz band is connected to the ANT1.

  When the receiving unit 10 receives internal antenna specifying information as antenna specifying information and receives communication frequency band specifying information specifying an 800 MHz band as frequency band specifying information, the control unit 11 includes a switch 61, 62 and 6b are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 4 corresponding to the 800 MHz band is connected to the ANT1.

  When the reception unit 10 receives internal antenna specification information as antenna specification information and receives communication frequency band specification information specifying a 1.7 GHz band as frequency band specification information, the control unit 11 61, 62 and 6c are closed, and the other switches (the remaining switches of the control target switches) are opened. Therefore, the transmission / reception unit 5 corresponding to the 1.7 GHz band is connected to the ANT1.

  Here, a comparative example with the third embodiment will be described.

  FIG. 4 shows a communication apparatus in which an ANT 8 and a GPS receiver 12 are added to the communication apparatus shown in FIG. Since the communication apparatus shown in FIG. 4 does not have a transmission / reception unit corresponding to the 1.5 GHz band, the communication apparatus shown in FIG. 4 cannot transmit / receive using a signal in the 1.5 GHz band.

  FIG. 5 shows a communication device in which an ANT 8 and a GPS receiver 12 are added to the communication device shown in FIG. The communication device shown in FIG. 5 has the same problem as the communication device shown in FIG. Furthermore, ANT8 is a 1.5 GHz band antenna, and ANT1A is also trying to cover the 1.5 GHz band. For this reason, there is a problem that ANT8 and ANT1A interfere with each other to cause deterioration.

  FIG. 6 shows a communication device in which an ANT 8 and a GPS receiver 12 are added to the communication device shown in FIG. The communication device shown in FIG. 6 has the same problem as the communication device shown in FIG. Furthermore, since it is an antenna of 1.5 GHz band and has two ANT8, there is a problem that the ANT8 interferes with each other and causes deterioration. In addition, there are three antennas, and the configuration is complicated and not economical.

  On the other hand, in the present embodiment, since the transmission / reception unit 7 and the GPS reception unit 12 use the ANT 8, an antenna dedicated to GPS can be omitted, and a simple and economical communication device for 1.5 GHz band. (For example, a portable terminal device) can be provided.

  In this embodiment, the open / close control of each switch is the same as that of the first embodiment, but the open / close control of each switch may be the same as that of the second embodiment.

  In each embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

1, 8 Antenna (ANT)
2 External antenna terminal (TP)
3-5, 7 Transmission / reception unit 31, 41, 51, 71 Transmission / reception sharer (FIL)
32, 42, 52, 72 Low noise amplifier (LNA)
33, 43, 53, 73 Reception-side bandpass filter (BPF)
34, 44, 54, 74 Receiver (RX)
35, 45, 55, 75 Transmitter (TX)
36, 46, 56, 76 Terminal 6C, 9 Switch module (SW)
61-66, 6a-6c Switch 12 GPS receiver 121, 123 Reception band pass filter (BPFg)
122 Low noise amplifier (LNAg)
124 Receiver (RXg)
13, 14 Phaser (ST)

Claims (8)

A first antenna capable of transmitting and receiving radio signals in N (N is an integer of 1 or more) frequency bands;
A second antenna capable of transmitting and receiving a radio signal in a specific frequency band other than the N frequency bands;
An external antenna terminal to which an external antenna is connected;
N transmission / reception units that individually correspond to the N frequency bands and control transmission / reception of signals in frequency bands corresponding to the N frequency bands;
A specific transmission / reception unit that controls transmission / reception of signals in the specific frequency band;
A first switch having one end connected to the first antenna;
A second switch having one end connected to the second antenna and the other end connected to the specific transceiver;
A third switch having one end connected to the external antenna terminal;
A fourth switch having one end connected to the specific transceiver and the other end of the second switch;
N transmission / reception switches individually corresponding to the N transmission / reception units and having one end connected to a transmission / reception unit corresponding to the N transmission / reception units,
A communication device in which the other end of the first switch, the other end of the third switch, the other end of the fourth switch, and the other ends of the N transmission / reception switches are connected to each other. . The communication device according to claim 1,
The fourth switch has one end connected to the specific transmitting / receiving unit and the other end of the second switch, one end connected to the other end of the fifth switch, and the other end connected to the first switch. A sixth switch connected to the other end, the other end of the third switch, and the other end of each of the N transmission / reception switches,
An accepting unit for receiving antenna designation information for designating an antenna to be used for communication and frequency band designation information for designating a frequency band to be used for communication;
A control target switch including the first, second, third, fifth and sixth switches and the N transmission / reception switches based on the antenna designation information and frequency band designation information received by the reception unit. A control unit for controlling the opening and closing of,
The controller is
When the reception unit receives first specification information specifying the external antenna as the antenna specification information, and receives second specification information specifying the specific frequency band as the frequency band specification information, Close the third, fifth and sixth switches, and open the remaining switches of the controlled switch,
The reception unit receives the first designation information as the antenna designation information, and third designation information that designates a communication frequency band that is one of the N frequency bands as the frequency band designation information. If accepted, close the third and fifth switches, the transmission / reception unit corresponding to the communication frequency band and the transmission / reception switch connected at one end, and open the remaining switches of the control target switch,
When the reception unit receives fourth specification information specifying the first antenna and the second antenna as the antenna specification information, and receives the second specification information as the frequency band specification information, Close the first, second and sixth switches, and open the remaining switches of the controlled switch,
When the reception unit receives the fourth designation information as the antenna information and receives the third designation information as the frequency band designation information, the first and second switches, and the communication frequency A communication device that closes a transmission / reception unit corresponding to a band and a transmission / reception switch connected to one end and opens the remaining switches of the switch to be controlled. The communication device according to claim 1,
The fourth switch has one end connected to the specific transmitting / receiving unit and the other end of the second switch, one end connected to the other end of the fifth switch, and the other end connected to the first switch. A sixth switch connected to the other end, the other end of the third switch, and the other end of each of the N transmission / reception switches,
An accepting unit for receiving antenna designation information for designating an antenna to be used for communication and frequency band designation information for designating a frequency band to be used for communication;
A control target switch including the first, second, third, fifth and sixth switches and the N transmission / reception switches based on the antenna designation information and frequency band designation information received by the reception unit. A control unit for controlling the opening and closing of,
The controller is
When the reception unit receives first specification information specifying the external antenna as the antenna specification information, and receives second specification information specifying the specific frequency band as the frequency band specification information, Close the third, fifth and sixth switches, and open the remaining switches of the controlled switch,
The reception unit receives the first designation information as the antenna designation information, and third designation information that designates a communication frequency band that is one of the N frequency bands as the frequency band designation information. If accepted, close the third switch, the transmission / reception unit corresponding to the communication frequency band and the transmission / reception switch connected at one end, and open the remaining switches of the control target switch,
When the reception unit receives fourth specification information specifying the first antenna and the second antenna as the antenna specification information, and receives the second specification information as the frequency band specification information, Close the second switch and open the remaining switches of the control target switch,
When the accepting unit accepts the fourth designation information as the antenna information, and accepts the third designation information as the frequency band designation information, it corresponds to the first switch and the communication frequency band. A communication device that closes a transmission / reception unit and a transmission / reception switch to which one end is connected and opens the remaining switches of the control target switch. The communication apparatus according to any one of claims 1 to 3,
A GPS receiver that receives GPS signals in the specific frequency band;
A first phase shifter that has one end connected to the specific transmission / reception unit, the other end connected to the other end of the second switch and one end of the fourth switch, and adjusts a phase of a signal input to and output from the specific transmission / reception unit ,
One end is connected to the GPS receiver, the other end is connected to the other end of the first phase shifter, the other end of the second switch, and one end of the fourth switch, and the phase of the signal input to the GPS receiver A second phaser for adjusting
The first phase shifter and the second phase shifter are connected to the specific transmission / reception unit so that mutual influence between a signal input / output to / from the specific transmission / reception unit and a signal input to the GPS reception unit is reduced. A communication device for adjusting a phase of a signal to be input / output and a phase of a signal input to the GPS receiver. A communication method performed by the communication device according to claim 1,
The fourth switch has one end connected to the specific transmitting / receiving unit and the other end of the second switch, one end connected to the other end of the fifth switch, and the other end connected to the first switch. A sixth switch connected to the other end, the other end of the third switch, and the other end of each of the N transmission / reception switches,
An accepting step for receiving antenna designation information for designating an antenna to be used for communication and frequency band designation information for designating a frequency band to be used for communication;
Based on the antenna designation information and the frequency band designation information received in the reception step, a control target switch including the first, second, third, fifth and sixth switches and the N transmission / reception switches And a control step for controlling opening and closing. The communication method according to claim 5, wherein
In the control step,
In the accepting step, when the first designation information for designating the external antenna is accepted as the antenna designation information, and the second designation information for designating the specific frequency band is accepted as the frequency band designation information, Close the third, fifth and sixth switches, and open the remaining switches of the controlled switch,
In the accepting step, the first designation information is accepted as the antenna designation information, and third designation information for designating a communication frequency band that is one of the N frequency bands is designated as the frequency band designation information. If accepted, close the third and fifth switches, the transmission / reception unit corresponding to the communication frequency band and the transmission / reception switch connected at one end, and open the remaining switches of the control target switch,
In the receiving step, as the antenna designation information, fourth designation information for designating the first antenna and the second antenna is accepted, and when the second designation information is accepted as the frequency band designation information, Close the first, second and sixth switches, and open the remaining switches of the controlled switch,
In the receiving step, when the fourth designation information is accepted as the antenna information and the third designation information is accepted as the frequency band designation information, the first and second switches, and the communication frequency A communication method for closing a transmission / reception unit corresponding to a band and a transmission / reception switch to which one end is connected and opening the remaining switches of the switch to be controlled. The communication method according to claim 5, wherein
In the control step,
In the accepting step, when the first designation information for designating the external antenna is accepted as the antenna designation information, and the second designation information for designating the specific frequency band is accepted as the frequency band designation information, Close the third, fifth and sixth switches, and open the remaining switches of the controlled switch,
In the accepting step, the first designation information is accepted as the antenna designation information, and third designation information for designating a communication frequency band that is one of the N frequency bands is designated as the frequency band designation information. If accepted, close the third switch, the transmission / reception unit corresponding to the communication frequency band and the transmission / reception switch connected at one end, and open the remaining switches of the control target switch,
In the receiving step, as the antenna designation information, fourth designation information for designating the first antenna and the second antenna is accepted, and when the second designation information is accepted as the frequency band designation information, Close the second switch and open the remaining switches of the control target switch,
In the receiving step, when the fourth designation information is accepted as the antenna information, and the third designation information is accepted as the frequency band designation information, the first switch and the communication frequency band are supported. A communication method for closing a transmission / reception unit and a transmission / reception switch to which one end is connected and opening the remaining switches of the control target switch. The communication method according to any one of claims 5 to 7,
The communication device
A GPS receiver that receives GPS signals in the specific frequency band;
A first phase shifter that has one end connected to the specific transmission / reception unit, the other end connected to the other end of the second switch and one end of the fourth switch, and adjusts a phase of a signal input to and output from the specific transmission / reception unit ,
One end is connected to the GPS receiver, the other end is connected to the other end of the first phase shifter, the other end of the second switch, and one end of the fourth switch, and the phase of the signal input to the GPS receiver A second phase shifter for adjusting
The first phase shifter and the second phase shifter are connected to the specific transmission / reception unit so as to reduce the mutual influence between the signal input / output to / from the specific transmission / reception unit and the signal input to the GPS reception unit. A communication method for adjusting a phase of a signal to be input / output and a phase of a signal input to the GPS receiver.

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