JP2006013901A - Antenna device, and radio communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an antenna with directivity, and at the same time, improve shield effect. <P>SOLUTION: An antenna 106 for external radio communication is installed in a circuit board 104 which is mounted in a 1st cabinet part 101, and at the same time, circuit boards 104, 108 which are respectively installed in the 1st cabinet 101 and a 2nd cabinet 102, embeds antennas 107, 110 for internal radio communication, and respectively forms a ground layer 111, 112 so that they are respectively located at least in a side of either upper or lower side of the respective antennas 107, 110 for the internal radio communication. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an antenna device and a wireless communication terminal, and is particularly suitable when applied to a clamshell mobile phone or the like.

  In recent mobile phones, in order to be able to display still images and moving images captured by a digital camera in addition to still images such as characters and graphics, a liquid crystal display device mounted on the mobile phone The resolution has been increased. Along with this, the amount of data exchanged between the digital camera and the liquid crystal display device has also increased, and it has been proposed to use a high-speed transfer method called LVDS (Low Voltage Differential Signaling) for connecting a display body and an image sensor. Yes.

  Further, in recent mobile phones, the size of the display body is increased without impairing the portability of the mobile phone, and the operation buttons are prevented from being accidentally operated while carrying the mobile phone. A clamshell structure that can fold a telephone is used. In this clamshell structure, the first housing part on which the control unit mainly responsible for the external wireless communication function of the mobile phone is mounted and the second housing part on which the display body is mounted are connected via a hinge, The first housing part and the second housing part can be closed or opened with respect to each other via a hinge.

For example, Patent Documents 1 to 4 disclose a method for realizing high-density mounting while providing directivity to an antenna by surface mounting the antenna on a printed board.
JP-A-7-221537 JP-A-9-83233 JP 2001-119230 A Japanese Patent Laid-Open No. 2003-78327

  However, since the resolution of display bodies mounted on mobile phones has been increased, in order to transmit high bit rate image data and the like to the display bodies by wire, there are many flexible wiring boards for sending signals to the display bodies. Need to be pinned. For this reason, in a cellular phone having a clamshell structure, when data transmission between the first casing and the second casing is performed by wire, it is necessary to pass a flexible wiring board having multiple pins through the hinge. Further, the hinge structure becomes complicated and the mounting process becomes complicated. As a result, there has been a problem that not only becomes an obstacle to reducing the size and thickness of the mobile phone, but also causes an increase in cost and a deterioration in reliability.

  On the other hand, instead of the flexible printed circuit board, an internal wireless communication antenna is provided in each of the first housing part and the second housing part, and data transmission between the first housing part and the second housing part is performed internally. When communication is performed, interference occurs between the mobile phone and external wireless communication. For this reason, there has been a problem that the internal wireless communication environment changes depending on the state of external wireless communication of the mobile phone, and the reliability in transmitting data reliably deteriorates.

  In particular, when a wireless communication system with low output, such as UWB (Ultra Wide Band), is adopted for internal wireless communication, the power level difference from the radio wave output by the external wireless communication of the mobile phone increases. The power level difference between can be as much as 90 dB. For this reason, even if the signal is out of the target band, the influence on the internal wireless communication cannot be ignored, the wireless communication environment deteriorates due to the interference of the mobile phone with the external wireless communication, and the bit error rate deteriorates. Or increased retransmission due to degradation of the packet error rate.

Further, in the methods disclosed in Patent Documents 1 to 4, since the antenna is mounted on the surface of the printed circuit board, the shield of the radio wave transmitted from the antenna is not sufficient, and between the external wireless communication and the internal wireless communication. There was a problem that interference could not be reduced.
Accordingly, an object of the present invention is to provide an antenna device and a radio communication terminal that can improve directivity while improving the shielding effect.

In order to solve the above-described problem, according to an antenna device according to an aspect of the present invention, a circuit board, a radiator embedded in the circuit board, and a top and bottom of the radiator formed on the circuit board. And a ground layer disposed on at least one of the above.
As a result, it is possible to shield radio waves radiated in the vertical direction from the radiator, and to radiate radio waves from the side surface of the circuit board. For this reason, it becomes possible to improve the shielding effect while enabling the antenna to have directivity, and it is possible to reduce mutual interference with other communications while suppressing an increase in mounting area.

The antenna device according to one aspect of the present invention further includes a radio wave absorber formed on the circuit board and disposed on at least one of the upper and lower sides of the radiator.
Thereby, it becomes possible to further improve the shielding effect of the radio wave radiated in the vertical direction from the radiator, and to further reduce the mutual interference with other communications.

In the antenna device according to one aspect of the present invention, the radiator is configured by a part of a wiring pattern provided on the circuit board.
As a result, when the wiring pattern is formed on the circuit board, the radiator can be collectively formed on the circuit board, and the radiator can be embedded in the circuit board without increasing the number of processes. For this reason, it is possible to improve the shielding effect of the antenna while suppressing an increase in cost, and it is possible to reduce the size of the antenna device.

  In addition, according to the wireless communication terminal according to the aspect of the present invention, the first casing unit, the second casing unit coupled to the first casing unit, the first casing unit, and the second casing unit are provided. A connecting portion for connecting the first housing portion and the second housing portion so that a positional relationship with the housing portion can be changed; and an external wireless communication antenna mounted on the first housing portion. An external wireless communication control unit that is mounted on the first housing unit and mainly controls external wireless communication performed via the external wireless communication antenna, and a display unit that is mounted on the second housing unit A first circuit board mounted on the first housing part, a first internal wireless communication antenna embedded in the first circuit board, and the first circuit board. A first ground layer disposed on at least one of the upper and lower sides of the antenna for internal wireless communication, and the second casing portion A mounted second circuit board, a second internal radio communication antenna embedded in the second circuit board, and any one of the upper and lower sides of the second internal radio communication antenna formed on the second circuit board. A second ground layer disposed on at least one of the first internal wireless communication and the first internal wireless communication that is mounted on the first housing unit and controls internal wireless communication performed via the first internal wireless communication antenna. A control unit; and a second internal wireless communication control unit that is mounted on the second housing unit and controls internal wireless communication performed via the second internal wireless communication antenna. To do.

  As a result, it is possible to shield radio waves radiated in the vertical direction from the first and second internal wireless communication antennas and to radiate radio waves from the side surfaces of the first and second circuit boards. Become. For this reason, it is possible to improve the shielding effect while enabling the first and second internal wireless communication antennas to have directivity, and between the first and second internal wireless communication antennas. While enabling efficient transmission and reception of radio waves, it is possible to reduce mutual interference between external wireless communication and internal wireless communication, and increase the mounting area of the first and second internal wireless communication antennas. Can be suppressed.

  As a result, it is possible to suppress deterioration in the quality of internal wireless communication between the first housing unit and the second housing unit while allowing a change in the communication environment due to external wireless communication. Even when the amount of data transmission between the housing unit and the second housing unit increases, the configuration between the first housing unit and the second housing unit can be reduced without complicating the configuration of the connection unit. The positional relationship can be changed. Therefore, it is possible to reduce the size and thickness of the wireless communication terminal and increase the reliability while suppressing an increase in cost, and it is possible to increase the screen size of the wireless communication terminal without impairing the portability of the wireless communication terminal. Multiple functions can be achieved.

According to the wireless communication terminal of one aspect of the present invention, the first radio wave absorber formed on the first circuit board and disposed on at least one of the upper and lower sides of the first internal wireless communication antenna. And a second radio wave absorber formed on the second circuit board and disposed on at least one of the upper and lower sides of the second internal wireless communication antenna.
As a result, it is possible to further improve the shielding effect of radio waves radiated in the vertical direction from the first and second internal wireless communication antennas, and further reduce mutual interference with external wireless communication. .

In the wireless communication terminal according to one aspect of the present invention, the first internal wireless communication antenna is configured by a part of a wiring pattern provided on the first circuit board, and the second internal wireless communication terminal The wireless communication antenna is configured by a part of a wiring pattern provided on the second circuit board.
As a result, when the wiring patterns are formed on the first and second circuit boards, the first and second internal wireless communication antennas can be collectively formed on the first and second circuit boards. The first and second internal wireless communication antennas can be embedded in the first and second circuit boards, respectively, without increasing the number of processes. Therefore, it is possible to improve the shielding effect of the first and second internal wireless communication antennas while suppressing an increase in cost, and to reduce the size of the first and second internal wireless communication antennas. It becomes possible.

The radio communication terminal according to one aspect of the present invention is characterized in that the radio communication terminal is a mobile phone.
As a result, even when the clamshell structure is adopted for the mobile phone, data transmission between the mobile phone casings can be stably performed wirelessly. For this reason, it is possible to suppress the complexity of the structure of the connecting portion even when the amount of data exchanged between the cases increases in response to the increase in resolution of the display portion mounted on the mobile phone. At the same time, it is possible to prevent complication of the mounting process. As a result, it is possible to reduce the size and thickness of the mobile phone and increase the reliability while suppressing an increase in cost, and to increase the screen size and functionality of the mobile phone without impairing the portability of the mobile phone. Can be achieved.

In the wireless communication terminal according to one aspect of the present invention, the internal wireless communication is weak wireless or UWB wireless short-range wireless.
Thereby, it is possible to stably perform the internal wireless communication while suppressing the mutual interference between the external wireless communication and the internal wireless communication. For this reason, even when the amount of data transmission between the first housing portion and the second housing portion increases, the space between the first housing portion and the second housing portion is within the restrictions of the law and regulations. It is possible to perform data transmission wirelessly, and it is possible to change the positional relationship between the first housing portion and the second housing portion without complicating the configuration of the connecting portion.

Hereinafter, a wireless communication terminal according to an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing a state when a clamshell mobile phone to which the wireless communication control method of the present invention is applied is opened, and FIG. 2 is a clamshell mobile phone to which the wireless communication control method of the present invention is applied. It is a perspective view which shows a state when a telephone is closed.
In FIG. 1 and FIG. 2, an operation button 4 is disposed on the surface of the first housing unit 1, and a microphone 5 is provided at the lower end of the first housing unit 1. An external wireless communication antenna 6 is attached to the upper end. In addition, a display body 8 is provided on the surface of the second housing portion 2, and a speaker 9 is provided on the upper end of the second housing portion 2. In addition, a display body 11 and an imaging element 12 are provided on the back surface of the second housing portion 2. As the display bodies 8 and 11, for example, a liquid crystal display panel, an organic EL panel, a plasma display panel, or the like can be used. As the image sensor 12, a CCD or CMOS sensor can be used. The first housing unit 1 and the second housing unit 2 include internal wireless communication antennas 7 and 10 that perform internal wireless communication between the first housing unit 1 and the second housing unit 2, respectively. Is provided.

  And the 1st housing | casing part 1 and the 2nd housing | casing part 2 are connected via the hinge 3, and the 2nd housing | casing part 2 is made into 1st by rotating the 2nd housing | casing part 2 by using the hinge 3 as a fulcrum. It can be folded on the housing part 1. The operation button 4 can be protected by the second housing unit 2 by closing the second housing unit 2 on the first housing unit 1, and the operation button 4 may be mistaken when carrying a mobile phone. Operation can be prevented. Further, by opening the second housing part 2 from the first housing part 1, the operation button 4 can be operated while viewing the display body 8, a telephone call can be made using the speaker 9 and the microphone 5, and the operation button 4 can be operated. Imaging can be performed while operating.

Here, by using the clamshell structure, the display body 8 can be disposed on almost the entire surface of the second housing portion 2, and the size of the display body 8 can be increased without deteriorating the portability of the mobile phone. It is possible to improve visibility.
Further, by providing the internal wireless communication antennas 7 and 10 in the first housing portion 1 and the second housing portion 2, respectively, the first housing is achieved by internal wireless communication using the internal wireless communication antennas 7 and 10. Data transmission between the unit 1 and the second housing unit 2 can be performed. For example, image data and audio data captured by the first housing unit 1 via the external wireless communication antenna 6 are transferred to the second housing unit 2 by internal wireless communication using the internal wireless communication antennas 7 and 10. , And an image can be displayed on the display body 8 or sound can be output from the speaker 9. In addition, image data captured by the image sensor 12 is sent from the second housing unit 2 to the first housing unit 1 by internal wireless communication using the internal wireless communication antennas 7 and 10, and is used for external wireless communication. It can be sent to the outside via the antenna 6.

  Thereby, it is not necessary to perform data transmission between the first casing unit 1 and the second casing unit 2 by wire, and it is not necessary to pass the flexible wiring board having multiple pins through the hinge 3. For this reason, it becomes possible to suppress the complexity of the structure of the hinge 3 and to prevent the mounting process from becoming complicated, thereby reducing the size and thickness of the mobile phone and increasing the reliability while suppressing an increase in cost. It is possible to increase the screen size and functionality of the mobile phone without impairing the portability of the mobile phone.

FIG. 3 is a perspective view showing the appearance of a rotary mobile phone to which the wireless communication control method of the present invention is applied.
In FIG. 3, an operation button 24 is disposed on the surface of the first housing portion 21, a microphone 25 is provided at the lower end of the first housing portion 21, and an upper end of the first housing portion 21 is provided. An external radio communication antenna 26 is attached. A display body 28 is provided on the surface of the second housing part 22, and a speaker 29 is provided on the upper end of the second housing part 22. The first casing portion 21 and the second casing portion 22 have internal wireless communication antennas 27 and 30 that perform internal wireless communication between the first casing portion 21 and the second casing portion 22, respectively. Is provided.

  The first housing portion 21 and the second housing portion 22 are connected via a hinge 23, and the second housing portion 22 is rotated horizontally around the hinge 23 as a fulcrum, thereby The first housing portion 21 can be placed on top of the first housing portion 21, or the second housing portion 22 can be shifted from the first housing portion 21. The operation button 24 can be protected by the second housing portion 22 by arranging the second housing portion 22 on the first housing portion 21, and the operation button 24 can be used when carrying the mobile phone. Can be prevented from being operated by mistake. Further, by rotating the second housing portion 22 horizontally and shifting the second housing portion 22 from the first housing portion 21, the operation button 24 can be operated while viewing the display body 28, the speaker 29 and It is possible to talk while using the microphone 25.

  Here, by providing the antennas 27 and 30 for internal wireless communication in the first housing part 21 and the second housing part 22 respectively, the first housing is used for internal wireless communication using the antennas 27 and 30 for internal wireless communication. Data transmission between the body part 21 and the second housing part 22 can be performed. For example, image data and audio data captured by the first housing unit 21 via the external wireless communication antenna 26 are transferred to the second housing unit 22 by internal wireless communication using the internal wireless communication antennas 27 and 30. The image can be displayed on the display body 28, or the sound can be output from the speaker 29.

  As a result, it is not necessary to pass the flexible wiring board having a large number of pins through the hinge 23, and it is possible to suppress the complexity of the structure of the hinge 23 and to prevent the mounting process from becoming complicated. . For this reason, it is possible to reduce the size and thickness of the mobile phone and increase the reliability while suppressing an increase in cost, and to increase the screen size and functionality of the mobile phone without impairing the portability of the mobile phone. Can be achieved.

In the above-described embodiment, a mobile phone has been described as an example, but the present invention can also be applied to a video camera, a PDA (Personal Digital Assistance), a notebook personal computer, and the like.
FIG. 4 is a perspective view showing the internal configuration of the wireless communication terminal according to the first embodiment of the present invention.
In FIG. 4, a circuit board 104 is mounted in the first casing unit 101, and a circuit board 108 is mounted in the second casing unit 102. As the circuit boards 104 and 108, a multilayer printed board, a build-up wiring board, a multilayer flexible board, or the like can be used. Electronic components 105 and 109 are mounted on the circuit boards 104 and 108, respectively. Examples of the electronic components 105 and 109 include an IC chip, a capacitor, a coil, a resistor, a crystal resonator, and a connector. In addition, an external wireless communication antenna 106 is attached to the circuit board 104, and internal wireless communication antennas 107 and 110 are embedded in the circuit boards 104 and 108, respectively. In addition, ground layers 111 and 112 are formed on the circuit boards 104 and 108 so as to be disposed on at least one of the upper and lower sides of the internal wireless communication antennas 107 and 110, respectively. Here, the term “internal radio communication antenna” means the radiator portion of the internal radio communication antenna.

  And the 1st housing | casing part 101 and the 2nd housing | casing part 102 are connected so that the positional relationship between the 1st housing | casing part 101 and the 2nd housing | casing part 102 can be changed. In addition, as a method of changing the positional relationship between the first casing unit 101 and the second casing unit 102, in addition to a method of folding the second casing unit 102 on the first casing unit 101, A method for enabling the second housing 102 to rotate horizontally on the first housing 101 or a method for allowing the second housing 102 to slide left and right or back and forth on the first housing 101 Can be mentioned.

Here, the internal wireless communication antennas 107 and 110 are arranged so that the internal wireless communication antennas 107 and 110 face each other when the first housing unit 101 and the second housing unit 102 are opened. The wireless communication antennas 107 and 110 are preferably arranged in the circuit boards 104 and 108, respectively.
When data transmission is performed between the first housing unit 101 and the second housing unit 102, internal wireless communication is performed via the internal wireless communication antennas 107 and 110 embedded in the circuit boards 104 and 108, respectively. It can be performed.

FIG. 5 is a block diagram showing a schematic configuration of the wireless communication terminal of FIG.
In FIG. 5, the first casing unit 101 includes an external wireless communication antenna 106 that transmits and receives external wireless communication radio waves, and a wireless unit 202 that performs modulation and demodulation processing of signals transmitted and received via the external wireless communication antenna 106. A baseband signal processing unit 203 that performs baseband signal processing, a control unit 204 that controls the entire wireless communication terminal, a work area when the control unit 204 executes processing, and stores processing results RAM 205, ROM 206 that stores various control programs for operating the wireless communication terminal, transmission / reception unit 207 that controls internal wireless communication performed via the internal wireless communication antenna 107, and transmission / reception of internal wireless communication radio waves. An antenna 107 for internal wireless communication performed on the side of the one casing unit 101 is provided.

  In addition, the second casing unit 102 has a transmission / reception unit 221 that controls internal wireless communication performed via the internal wireless communication antenna 110, and transmits / receives internal radio communication radio waves on the second casing unit 102 side. An internal wireless communication antenna 110, a camera 223 that performs imaging, a liquid crystal display unit 224 that displays display data, and an additional device 225 are provided. In addition, as transmission / reception data in external wireless communication, for example, voice data at the time of a call, character data at the time of mail, image data, and the like can be cited. The transmission / reception data in the internal wireless communication can include, for example, image data captured by the camera 223, display data displayed on the liquid crystal display unit 224, a control signal for controlling the second housing unit 102, and the like. . Further, a CPU can be used as the control unit 204. Further, examples of the additional device 225 include an LED, a microphone, and a speaker.

  When data is transmitted via the external wireless communication antenna 106, the transmission data sent to the baseband signal processing unit 203 is subjected to baseband signal processing. Then, modulation processing of transmission data output from the baseband signal processing unit 203 is performed by the wireless unit 202 and transmitted to the outside via the external wireless communication antenna 106. On the other hand, when data is received via the external wireless communication antenna 106, received data received via the external wireless communication antenna 106 is sent to the wireless unit 202, and demodulation processing is performed by the wireless unit 202. Then, the reception data output from the wireless unit 202 is sent to the baseband signal processing unit 203, subjected to baseband signal processing by the baseband signal processing unit 203, and then output to the control unit 204.

  The transmission / reception unit 207 can transmit the image data, audio data, and the like sent from the control unit 204 via the internal wireless communication antenna 107. When image data, audio data, or the like is transmitted via the internal wireless communication antenna 107, the image data, audio data, or the like is received via the internal wireless communication antenna 110. Then, the transmission / reception unit 221 displays the image data received through the internal wireless communication antenna 110 on the liquid crystal display unit 224, or transmits the audio data received through the internal wireless communication antenna 110 from the speaker. Can be.

  Further, the transmission / reception unit 221 can transmit the image data captured by the camera 223 via the internal wireless communication antenna 110. Then, when imaging data is transmitted via the internal wireless communication antenna 110, the imaging data is received via the internal wireless communication antenna 107. Then, the transmission / reception unit 207 can send imaging data received via the internal wireless communication antenna 107 to the control unit 204. Then, the control unit 204 can process the imaging data sent from the second housing unit 102 or store it in the RAM 205.

  Here, the internal wireless communication antennas 107 and 110 are embedded in the circuit boards 104 and 108, respectively, and are arranged on at least one of the upper and lower sides of the internal wireless communication antennas 107 and 110, respectively. , 108 can be shielded from the radio waves radiated in the vertical direction from the internal radio communication antennas 107, 110, and the radio waves can be shielded from the side surfaces of the circuit boards 104, 108. Can be emitted. For this reason, it is possible to improve the shielding effect while allowing the internal wireless communication antennas 107 and 110 to have directivity, and to efficiently transfer radio waves between the internal wireless communication antennas 107 and 110. This makes it possible to reduce the mutual interference between the external wireless communication and the internal wireless communication, and to suppress an increase in the mounting area of the internal wireless communication antennas 107 and 110.

  As a result, it is possible to suppress deterioration in the quality of internal wireless communication between the first housing unit 101 and the second housing unit 102 while allowing changes in the communication environment due to external wireless communication, Even when the amount of data transmission between the first casing unit 101 and the second casing unit 102 increases, the first casing unit 101 and the second casing can be configured without complicating the configuration of the connecting unit. The positional relationship with the unit 102 can be changed. Therefore, it is possible to reduce the size and thickness of the wireless communication terminal and increase the reliability while suppressing an increase in cost, and it is possible to increase the screen size of the wireless communication terminal without impairing the portability of the wireless communication terminal. Multiple functions can be achieved.

Note that the internal radio communication antennas 107 and 110 can be configured by a part of the wiring pattern provided on the circuit boards 104 and 108.
As a result, when the wiring patterns are formed on the circuit boards 104 and 108, the internal wireless communication antennas 107 and 110 can be collectively formed on the circuit boards 104 and 108, respectively, without increasing the number of processes. The internal wireless communication antennas 107 and 110 can be embedded in the circuit boards 104 and 108, respectively. Therefore, it is possible to improve the shielding effect of the internal radio communication antennas 107 and 110 while suppressing an increase in cost, and it is possible to reduce the size of the internal radio communication antennas 107 and 110.

FIG. 6A is a plan view showing a schematic configuration of an internal wireless communication antenna unit of a wireless communication terminal according to the second embodiment of the present invention, and FIG. 6B is a cross-sectional view of FIG. .
In FIG. 6, antennas 302 and 305 for internal wireless communication are embedded in circuit boards 301 and 304, respectively. In addition, ground layers 303 a and 303 b are formed on the circuit board 301 so as to be arranged above and below the internal wireless communication antenna 302. In addition, ground layers 306 a and 306 b are formed on the circuit board 304 so as to be disposed above and below the internal wireless communication antenna 305.

Here, when internal wireless communication is performed between the internal wireless communication antennas 302 and 305, the end surfaces of the circuit boards 301 and 304 can be arranged to face each other.
As a result, it is possible to shield radio waves radiated in the vertical direction from the internal wireless communication antennas 302 and 305 and to radiate radio waves from the side surfaces of the circuit boards 301 and 304. For this reason, it is possible to improve the shielding effect while allowing the internal wireless communication antennas 302 and 305 to have directivity, and to suppress mutual interference with other communications while suppressing an increase in mounting area. Can be reduced.

In the embodiment of FIG. 6, the method of providing the ground layers on the upper and lower surfaces of the circuit boards 301 and 304 has been described. However, the ground surfaces are also provided on the side surfaces of the circuit boards 301 and 304 except for the opposing surfaces of the circuit boards 301 and 304. A layer may be provided.
FIG. 7 is a plan view showing a schematic configuration of the internal wireless communication antenna unit of the wireless communication terminal according to the third embodiment of the present invention, and FIG. 7B is a cross-sectional view of FIG.

  In FIG. 7, antennas 402 and 405 for internal wireless communication are embedded in circuit boards 401 and 404, respectively. In addition, ground layers 403a and 403b are formed on the circuit board 401 so as to be arranged above and below the internal wireless communication antenna 402, respectively. In addition, ground layers 406a and 406b are formed on the circuit board 404 so as to be disposed above and below the internal wireless communication antenna 405, respectively. In addition, radio wave absorbers 407a and 407b are attached to the ground layers 403a and 403b, respectively, and radio wave absorbers 408a and 408b are attached to the ground layers 403a and 403b, respectively.

Here, when internal wireless communication is performed between the internal wireless communication antennas 302 and 305, the end surfaces of the circuit boards 301 and 304 can be arranged to face each other.
This makes it possible to further improve the shielding effect of radio waves radiated in the vertical direction from the internal wireless communication antennas 402 and 405 while allowing radio waves to be radiated from the side surfaces of the circuit boards 401 and 404. Mutual interference with other communications can be further reduced.

The perspective view which shows a state when the clamshell type mobile telephone to which the radio | wireless communication control method of this invention is applied is opened. The perspective view which shows a state when the clamshell type mobile telephone to which the radio | wireless communication control method of this invention is applied is closed. The perspective view which shows the external appearance of the rotary mobile telephone to which the radio | wireless communication control method of this invention is applied. The perspective view which shows the internal structure of the radio | wireless communication terminal which concerns on 1st Embodiment of this invention. The block diagram which shows schematic structure of the radio | wireless communication terminal of FIG. The figure which shows the structure of the antenna part of the radio | wireless communication terminal which concerns on 2nd Embodiment of this invention. The figure which shows the structure of the antenna part of the radio | wireless communication terminal which concerns on 3rd Embodiment of this invention.

Explanation of symbols

  1, 21, 101 First housing part 2, 22, 102 Second housing part 3, 23, 103 Hinge 4, 24 Operation button 5, 25 Microphone 6, 6, 26, 106 External wireless communication antenna 7, 10, 27, 107, 110, 302, 305, 402, 405 Internal wireless communication antenna, 8, 11, 28 Display, 9, 29 Speaker, 12 Image sensor, 104, 108, 301, 304, 401 , 404 circuit board, 105, 109 electronic component, 111, 112, 303a, 303b, 306a, 306b, 403a, 403b, 406a, 406b ground layer, 202 radio unit, 203 baseband signal processing unit, 204 control unit, 205 RAM 206 ROM, 207, 221 Transceiver, 223 Camera, 224 Liquid crystal display, 407a, 40 b, 408a, 408b wave absorber

Claims (8)

A circuit board;
A radiator embedded in the circuit board;
An antenna device comprising: a ground layer formed on the circuit board and disposed on at least one of upper and lower sides of the radiator.   The antenna device according to claim 1, further comprising a radio wave absorber formed on the circuit board and disposed on at least one of upper and lower sides of the radiator.   The antenna device according to claim 1, wherein the radiator is configured by a part of a wiring pattern provided on the circuit board. A first housing part;
A second casing connected to the first casing;
A connecting portion that connects the first housing portion and the second housing portion so as to change a positional relationship between the first housing portion and the second housing portion;
An external wireless communication antenna mounted on the first housing part;
An external wireless communication control unit that is mounted on the first housing unit and mainly controls external wireless communication performed via the external wireless communication antenna;
A display unit mounted on the second housing unit;
A first circuit board mounted on the first housing part;
A first internal radio communication antenna embedded in the first circuit board;
A first ground layer formed on the first circuit board and disposed on at least one of the upper and lower sides of the first internal wireless communication antenna;
A second circuit board mounted on the second housing part;
A second internal radio communication antenna embedded in the second circuit board;
A second ground layer formed on the second circuit board and disposed on at least one of the upper and lower sides of the second internal wireless communication antenna;
A first internal wireless communication control unit that is mounted on the first housing unit and controls internal wireless communication performed via the first internal wireless communication antenna;
A wireless communication terminal, comprising: a second internal wireless communication control unit that is mounted on the second casing unit and controls internal wireless communication performed via the second internal wireless communication antenna . A first electromagnetic wave absorber formed on the first circuit board and disposed on at least one of the upper and lower sides of the first internal wireless communication antenna;
The wireless communication according to claim 4, further comprising: a second radio wave absorber formed on the second circuit board and disposed on at least one of the upper and lower sides of the second internal wireless communication antenna. Terminal. The first internal radio communication antenna is constituted by a part of a wiring pattern provided on the first circuit board,
6. The radio communication terminal according to claim 4, wherein the second internal radio communication antenna is configured by a part of a wiring pattern provided on the second circuit board.   The wireless communication terminal according to claim 4, wherein the wireless communication terminal is a mobile phone.   The wireless communication terminal according to any one of claims 4 to 7, wherein the internal wireless communication is weak wireless or UWB wireless short-range wireless.

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