JP4168261B2 - Mobile phone antenna and switching method thereof - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to an antenna of a mobile phone equipped with a plurality of antennas. In particular, the present invention relates to a method for switching antennas for each function used by a user.
[0002]
[Prior art]
The conventional antenna system includes at least two antennas and a switch circuit that switches so that at least one of the antennas is fed, and the antenna that is not fed among the antennas is a parasitic element with respect to the fed antenna The antenna directivity is switched by functioning as (see, for example, Patent Document 1).
[0003]
  Moreover, in the conventional mobile communication device, the omnidirectional antenna, the directional antenna, the transmission / reception unit, the changeover switch for switching the connection state between the omnidirectional antenna and the directional antenna and the transmission / reception unit, and the changeover switch are controlled. Control circuit and control circuitRoadThe changeover switch is controlled in accordance with the usage state of the mobile communication device, and the omnidirectional antenna and the transmission / reception unit are connected in the standby state (see, for example, Patent Document 2).
[0004]
[Patent Document 1]
JP 2002-232224 (paragraph 0044 to paragraph 0053, FIG. 1)
[Patent Document 2]
JP 2000-261679 (paragraph 0011, FIG. 2)
[0005]
In recent years, mobile phones are becoming more and more generally folded due to convenience when being carried, ease of use when talking, and the like.
In addition, since Internet connection and WEB access with a mobile phone are generally performed, one of the reasons is that a large display can be configured in this shape.
[0006]
On the other hand, mobile phone antennas have conventionally used whip antennas and helical antennas at their tips, and in the case of a folded shape, they are generally arranged at the end, center, etc. of the unfolded state.
However, the frequency used in a mobile phone is gradually shifted from a UHF (Ultra High Frequency) band to a frequency in the order of GHz called a band, and the size of the antenna is being reduced due to the shortening of the wavelength.
[0007]
FIG. 11 is a perspective view showing a schematic appearance of an example of antenna arrangement in a mobile phone as a premise of the present invention.
As shown in the figure, the mobile phone 100 has a folded shape and is used in a state where the upper side portion 101 and the lower side portion 102 of the casing of the mobile phone 100 are unfolded.
On the front surface of the upper part 101, display for the user is performed in general. For example, in applications such as Internet connection by operating the mobile phone 100, a display unit 103 for displaying a WEB page, etc., a receiver unit including a receiver such as a speaker 104 is provided, and an input operation from a user is received on the front surface of the lower side portion 102. Specifically, an input unit 105 configured with a keyboard or the like, and a transmission unit 106 configured with a microphone are provided.
[0008]
Furthermore, an antenna 107 that performs transmission and reception is disposed at the upper end portion of the upper portion 101 when the cellular phone 100 is deployed.
The antenna 107 is a pattern antenna, a chip antenna, or the like that forms an antenna pattern with a copper plate on a substrate as a typical shape of a small antenna.
By using these antennas in the antenna 107, it is possible to realize a so-called built-in antenna that does not have a protruding shape like a whip antenna.
[0009]
However, the incorporation of the antenna 107 of the mobile phone 100 has the following problems.
The first problem is that when the antenna 107 is arranged at the upper end of the upper part 101, the user may be concerned about the influence of the electromagnetic wave on the human head.
When the antenna 107 is disposed at the upper end portion of the upper portion 101, the antenna 107 is in contact with the head just during a voice call.
[0010]
From the viewpoint of the frequency characteristics of the UHF band to the quasi-microwave band used in the mobile phone 100 and the transmission output used in the mobile phone 100, there is no influence on the human body in the view of the Ministry of Internal Affairs and Communications. The frequency used in Local Area Network (IEEE (Institute of Electrical and Electronics Engineers) 802.11) is the same as the frequency used in the microwave oven.
[0011]
For this reason, although there is no theoretical influence due to differences in transmission output, modulation method, etc., it is not surprising that there is a concern about the general user's psychology.
In order to avoid the first problem, when the antenna 107 is disposed at the lower end portion of the lower side portion 102, the second problem assumed in terms of transmission / reception efficiency of the antenna 107 occurs as follows.
[0012]
FIG. 12 is a perspective view showing a schematic external view of another example of the arrangement example of the antenna of the mobile phone which is the premise of the present invention.
As shown in this figure, compared with FIG. 11, the antenna 107 is disposed at the lower end portion of the lower side portion 102 in a deployed state of the mobile phone 100.
As described above, in recent mobile phones, it is common sense that the mobile phone 100 alone is connected to the Internet, browses a WEB page, and the like.
[0013]
In the case of the cellular phone 100 having a folded shape, the display unit 103 is generally disposed on the front surface of the upper side portion 101 and the input unit 105 is often disposed on the front surface of the lower side portion 102. In many cases, the user uses the lower side portion 102 by hand.
For this reason, when the antenna 107 is arranged at the lower end of the lower side portion 102, the antenna 107 is covered with a hand, so that the transmission / reception efficiency of the antenna 107 is lowered during transmission / reception. appear.
[0014]
[Problems to be solved by the invention]
Therefore, in view of the above-mentioned problems, the present invention eliminates the concern about the influence of electromagnetic waves from the antenna during a voice call, and the antenna of the mobile phone and the switching thereof that the antenna transmission / reception efficiency does not decrease when browsing the WEB page when connected to the Internet It aims to provide a method.
[0017]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention provides:In an antenna of a mobile phone having a voice call function and an Internet connection function,A first antenna built in the right side of the lower end portion of the mobile phone for making a voice call, a second antenna built in the left side of the lower end portion of the mobile phone for making a voice call, and the mobile phone A third antenna built in the right side of the upper end portion of the telephone and for connecting to the Internet; and a fourth antenna built in the left side of the upper end portion of the mobile phone and for connecting to the Internet;The first antenna, the first2The antenna3Antenna switching switch for switching the fourth antenna to perform transmission / reception, a voice call occurrence detecting unit for detecting occurrence of a voice call from an application activation state, and generation of a voice call by the voice call occurrence detecting unit A voice flag storage unit that stores a voice flag at the time of detection; a transmission occurrence detection unit that detects transmission occurrence of data;When the voice flag is set in the voice flag storage unit and the occurrence of voice call transmission is detected, the antenna used for receiving the previous voice call is selected from the first antenna and the second antenna. When transmission is performed and a voice call is received, one of the first antenna and the second antenna that is advantageous for diversity reception is selected and received, and the transmission occurrence detector is connected to the Internet. When transmission of connection is detected, transmission is performed by selecting the antenna used for reception of the previous Internet connection from among the third antenna and the fourth antenna, and when the Internet is received, Select one of the third antenna and the fourth antenna that is advantageous for diversity reception and perform reception.An antenna for a mobile phone is provided, comprising: an antenna switching unit that controls the antenna switching switch.
[0018]
By this means, it is possible to eliminate concerns about the influence of electromagnetic waves from the antenna during a voice call, and to prevent the transmission / reception efficiency of the antenna from dropping when browsing the WEB page when connecting to the Internet, and at the same time, between the transmission and reception phases of the mobile phone When the amount of spatial movement of the main body is not large, an effect of reducing the influence of transmission fading can be expected by transmitting using an antenna selected by diversity reception.
Preferably, the first antenna, the second antenna, the third antenna, and the fourth antenna are a chip antenna or a pattern antenna.
[0019]
  By this means, the first antenna, the second antenna, the front third antenna, and the fourth antenna can be miniaturized.underedge,UpPlacement at the end is possible.
  Preferably, the mobile phone having a folded shape is in a developed state.underLateralunderThe first antenna at the end, the first2Antenna,UpLateralUpAt the end3And the fourth antenna are arranged.
[0020]
  By this means, it is possible to incorporate the antenna into a highly convenient mobile phone.
  Preferably, the first antenna, the first antenna2The antenna3The transmission and reception frequencies of the antenna and the fourth antenna are the same.
  By this means, in particular, since IEEE802.11 uses the same frequency for both transmission and reception, it is possible to obtain an effect that fading conditions are basically the same for transmission and reception in a stationary state.The
[0021]
  TheFurthermore, the present invention provides a method for detecting the occurrence of a voice call from an application activation state and a voice flag when the occurrence of a voice call is detected in an antenna switching method for a mobile phone having a voice call function and an Internet connection function. And a step of detecting occurrence of data transmission;When the voice flag is set and transmission of a voice call is detected, the antenna used for receiving the previous voice call is selected from the first antenna and the second antenna, and the voice call is performed. When one of the first antenna and the second antenna is selected, the one that is advantageous for diversity reception is selected for reception. When transmission is detected, the upper end of the cellular phone is detected. Of the third antenna and the fourth antenna respectively built in the left and right of the antenna, the Internet connection is transmitted by the antenna used for the reception of the previous Internet connection, and when the Internet is received, the third antenna and the fourth antenna are transmitted. Selecting one of the four antennas that is advantageous for diversity reception and performing reception.Provided is a method for switching an antenna of a mobile phone.
[0022]
By this means, similarly to the above-described invention, it is possible to eliminate the concern about the influence of the electromagnetic wave from the antenna at the time of voice call, and to prevent the antenna transmission / reception efficiency from being lowered when browsing the WEB page when connected to the Internet. When the amount of spatial movement of the mobile phone body is not large between the transmission and reception phases, an effect of reducing the influence of transmission fading can be expected by transmitting using the antenna selected by diversity reception.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view showing a schematic appearance of an antenna arrangement example in a mobile phone according to the present invention. As shown in this figure, compared to FIGS. 11 and 12, the mobile phone 100 having a folded shape is provided with an antenna 107 and an antenna 108, and the mobile phone 100 in an unfolded state has an antenna at the upper end of the upper portion 101. 107, antennas 108 are respectively disposed at the lower end portions of the lower side portion 102 and are built in.
[0024]
As with the antenna 107, the antenna 108 is a pattern antenna, a chip antenna, or the like that forms an antenna pattern with a copper plate on a substrate as a typical shape of a small antenna, and the antenna 108 uses such an antenna to be like a whip antenna. Thus, it is possible to realize a so-called built-in antenna that does not have a protrusive shape. Here, the antenna 107 and the antenna 108 are assumed to be chip antennas as shapes.
[0025]
The antenna 107 is used for Internet connection such as browsing a WEB page, the antenna 108 is used for voice call, and the cellular phone 100 having a voice call function, an Internet connection function, and a WEB page browsing function has an antenna for each function used by the user. 107 and the antenna 108 can be switched.
FIG. 2 is a block diagram showing a schematic configuration example of a radio circuit of the mobile phone 100 that switches between the antenna 107 and the antenna 108 in FIG.
[0026]
Here, it is assumed that IEEE802.11 is used as the radio circuit of the mobile phone 100.
As shown in the figure, the wireless circuit 200 is provided with an application unit 201 connected to a display unit 103 and an input unit 105, and the application unit 201 includes a CPU (central processing unit).
[0027]
Further, a D / A (Analog / Digital) / A / D (Digital / Analog) conversion unit 202 is connected to the application unit 201, and a D / A (Analog / Digital) / A / D (Digital / Analog) conversion unit is connected. 202 is connected to the receiving unit 104 and the transmitting unit 106, converts a digital voice data into an analog voice signal and outputs it to the receiving unit 104 during a voice call, and converts the analog voice signal inputted from the transmitting unit 106 into digital voice data. Convert.
[0028]
In the application unit 201, in accordance with a program stored in an application memory 203, which will be described later, a reception through the display unit 103, the input unit 105, and a D / A (Analog / Digital) / A / D (Digital / Analog) conversion unit 202 Control of the entire radio circuit 200 including control of the unit 104 and the transmitter 106 is performed.
[0029]
An application memory 203 is connected to the application unit 201, and the application memory 203 stores a program for executing control of the application unit 201.
In particular, the application unit 201 is provided with a voice call occurrence detection unit 201A. The voice call occurrence detection unit 201A always monitors an application activated by a user, and performs a voice call outgoing operation by a user operation or a voice call incoming call. This is detected when a voice call start event occurs.
[0030]
Further, the application unit 201 performs data input / output for transmission / reception with a baseband processing unit 204 (to be described later) over a wireless line, control of the baseband processing unit 204, and the like.
For this reason, the application unit 201 incorporates each interface circuit (not shown) for enabling data transmission / reception with the baseband processing unit 204, the display unit 103, the keyboard 105, and the D / A / A / D conversion unit 202. .
[0031]
Further, a baseband processing unit 204 is connected to the application unit 201, and the baseband processing unit 204 follows the program stored in the baseband memory 205 described later in the IEEE 8.0.11 baseband processing and data link layer. Until the MAC (Media Access Control) processing.
[0032]
In particular, the baseband processing unit 204 is provided with a transmission occurrence detection unit 204A. Since the transmission occurrence detection unit 204A clearly separates the transmission phase and the reception phase in IEEE 802.11, there is user data to be transmitted. However, if it is determined that the transmission is possible, a transmission event is generated to detect the transmission. Further, the baseband processing unit 204 is provided with an antenna switching unit 204B. The antenna switching unit 204B detects the transmission occurrence of the antenna switching unit 204B and the antenna based on the voice flag stored in the voice flag storage unit 205A described later. 107, the antenna 108 is switched.
[0033]
A baseband memory 205 is connected to the baseband processing unit 204. The baseband memory 205 stores a program for the baseband processing unit 204, and is also used for a work area, a buffer, and the like.
Further, the baseband memory 205 is provided with a voice flag storage unit 205A, and the voice flag storage unit 205A also stores a voice flag for indicating the activation state of a voice call application, as will be described later.
[0034]
For this reason, the baseband processing unit 204 incorporates an interface circuit (not shown) to enable data transmission / reception with the application unit 201. A modulation / demodulation processing unit 206 is connected to the baseband processing unit 204, and the modulation / demodulation processing unit 206 performs mutual conversion between a baseband signal and a radio signal.
An amplifier 207 is connected to the modulation / demodulation processing unit 206, and the amplifier 207 amplifies the transmission signal.
[0035]
An RF switch 208 is connected to the output side of the amplifier 207, and the RF switch 208 switches transmission / reception by controlling the baseband processing unit 204 based on transmission detection of the transmission generation detection unit 204A via the transmission / reception switching control signal line 223. used.
A filter 209 is connected to the RF switch 208, and the filter 209 is a band-pass filter for allowing only a frequency band used in a wireless line to pass.
[0036]
An RF switch 210 is connected between the antenna 107 and the antenna 108 and the filter 209, and the RF switch 210 is connected to the antenna switching unit of the baseband processing unit 204 via the antenna for voice communication / antenna switching control signal line 224 for browsing a web page. It is used for switching which of the antenna 107 and the antenna 108 is used under the control of 204B.
[0037]
As described above, in this embodiment, since the baseband processing unit 204 performs processing up to the data link layer, the data input / output unit for the application unit 201 to transmit / receive via a wireless line is positioned above the data link layer. It is assumed to be a packet unit of the network layer, specifically, an IP (Internet Protocol: RFC791) packet unit is assumed.
[0038]
Although control according to IEEE802.11 is required for the transmission / reception timing of the wireless line, the baseband processing unit 204 performs the control.
The application unit 201 and the baseband processing unit 204 are connected by two logic signal lines, a data signal line 221 and a control signal line 222.
On the data signal line 221, user data transmitted / received via a wireless line, specifically, the aforementioned IP packet is exchanged.
[0039]
Various controls from the application unit 201 to the baseband processing unit 204, notifications from the baseband processing unit 204 to the application unit 201, and the like are performed through the control signal line 222.
The application unit 201 also sets a sound flag, which will be described later, through the control signal line 222.
[0040]
FIG. 3 is a flowchart for explaining the voice flag setting control. As shown in FIG. 5A, in step S301, the voice call occurrence detection unit 201A of the application unit 201 monitors an application that is always started by the user, as described above, When a voice call start event occurs when a voice call is received, this is detected.
[0041]
In step S302, when the voice call occurrence detection unit 201A of the application unit 201 detects the occurrence of a voice call start event, the voice flag is turned on in the voice flag storage unit 205A of the baseband memory 205 via the baseband processing unit 204. Set to.
Next, as shown in this figure (b), when a voice call end event occurs in step S303 in the voice call occurrence detecting unit 201A of the application unit 201 due to a voice call end operation or the like by a user operation, Is detected.
[0042]
In step S304, when the voice call occurrence detection unit 201A of the application unit 201 detects the occurrence of a voice call end event, the voice flag is turned off to the voice flag storage unit 205A of the baseband memory 205 via the baseband processing unit 204. Set to. ,
FIG. 4 is a flowchart for explaining an example of switching operation of the antenna 107 and the antenna 108 during transmission.
[0043]
As shown in the figure, in step S311, as described above, the transmission phase and the reception phase are clearly separated in IEEE 802.11, and the transmission occurrence detection unit 204A of the baseband processing unit 204 uses the user to be transmitted. A transmission event is generated when it is determined that data is present and transmission is possible.
[0044]
In step S312, when a transmission event occurs, the transmission occurrence detection unit 204A of the baseband processing unit 204 first controls the RF switch 208 to turn on the radio signal transmission side path.
In step S313, when the voice call occurrence detection unit 201A of the application unit 201 detects the occurrence of a voice call start event, the voice flag storage unit 205A of the baseband memory 205 is turned on via the baseband processing unit 204. Set to. The antenna switching unit 204B of the baseband processing unit 204 checks ON / OFF of the audio flag in the audio flag storage unit 205A.
[0045]
In step S314, the antenna switching unit 204B of the baseband processing unit 204 controls the RF switch 210 and selects the antenna 108 positioned at the lower end of the lower side unit 102 when the audio flag is ON.
In step S315, the antenna switching unit 204B of the baseband processing unit 204 controls the RF switch 210, and selects the antenna 107 positioned at the upper end of the upper unit 101 when the audio flag is OFF.
[0046]
In step S316, an IEEE802.11 packet is transmitted, and the process ends.
FIG. 5 is a flowchart showing an operation example for explaining an example of the relationship between selection of an antenna at the time of transmission and antenna selection at the time of reception.
As shown in the figure, in step S321, the antenna switching unit 204B of the baseband processing unit 204 determines which one of the voice call function and the Internet connection function such as web page browsing is selected.
[0047]
In step S322, when the voice call function is selected, the antenna 108 is selected.
If transmission occurs in step S323, transmission is performed using the antenna 108.
If reception occurs in step S324, reception is performed using the antenna 108 used for transmission.
[0048]
In step S325, when an Internet connection function such as WEB browsing is selected, the antenna 107 is selected.
If transmission occurs in step S326, transmission is performed using the antenna 107.
If reception occurs in step S327, reception is performed using the antenna 107 used for transmission.
[0049]
Next, an example in which the antenna 107 and the antenna 108 are used for diversity reception will be described below.
In this case, in the antenna switching unit 204B of the baseband processing unit 204, as described above, the antenna 107 is used for Internet connection such as browsing a WEB page and the antenna 108 is used for voice calling / voice page browsing switching mode. In addition, when the diversity switching mode is provided and the diversity switching mode is selected, the reception-side path is turned ON with respect to the RF switch 208 and the voice communication antenna / WEB page browsing antenna switching control signal line 224 is set to diversity. Used as the switching control signal line 224, diversity reception is performed.
[0050]
FIG. 6 is a flowchart showing an operation example for explaining another example of the relationship between the selection of the antenna at the time of transmission and the selection of the antenna at the time of reception.
As shown in the figure, in step S331, the antenna switching unit 204B of the baseband processing unit 204 determines which one of the voice call function and the Internet connection function such as web page browsing is selected.
[0051]
In step S332, when the voice call function is selected, the antenna 108 is selected.
In step S333, when transmission occurs, transmission is performed using the antenna 108.
If reception occurs in step S334, reception is performed using the antenna 108 used for transmission.
[0052]
In step S335, it is determined whether the quality of the received signal is good. If it is good, reception is continued using the antenna 108.
In step S336, if the quality of the received signal is poor, the antenna 107 is selected for reception.
In step S337, when an Internet connection function such as WEB browsing is selected, the antenna 107 is selected.
[0053]
When transmission occurs in step S338, transmission is performed using the antenna 107.
In step S339, when reception occurs, reception is performed using the antenna 107 used for transmission.
In step S340, it is determined whether the quality of the received signal is good. If it is good, reception is continued using the antenna 107.
[0054]
In step S341, if the quality of the received signal is poor, the antenna 108 is selected for reception.
In the baseband processing unit 204, during diversity reception, during reception of the preamble code, the RF switch 210 is controlled so that the antenna 107 and the antenna 108 are alternately switched, and the reception quality in each reception phase is compared. The operation such as selecting the antenna that can be received at is performed.
[0055]
It should be noted that the antenna switching algorithm in diversity reception is not directly related to the antenna switching method of the present invention and is a general matter, and thus detailed description thereof is omitted here.
In this way, according to the antenna switching method of the present invention, during a voice call, the antenna 107 located at the upper end of the upper part 101 is not used for transmission, and the mobile phone 100 farthest away from the human head is used. Since the antenna 108 mounted on the lower end portion of the lower side portion 102 is used for transmission, it is possible to reduce the influence on the human head due to the transmission electromagnetic wave during a voice call.
[0056]
Furthermore, according to the antenna switching method of the present invention, the lower end of the lower side portion 102 where the keyboard 105 of the mobile phone 100 is arranged by the user by an operation at the time of Internet connection such as browsing a WEB page by the mobile phone 100 alone. In the situation where the antenna 108 located at the upper part is covered with a hand and operated, the antenna 107 located at the upper end of the upper part 101 is used for transmission, so that transmission / reception efficiency can be improved.
[0057]
The antenna 107 and the antenna 108 can be used not only for each function but also for diversity reception.
Next, there is a problem of fading due to reflection interference in radio waves, and it is considered that the effect as in the example of FIG. 1 described above cannot always be obtained from the relationship of the phase difference. explain.
[0058]
FIG. 7 is a perspective view showing a schematic external appearance of another example in the arrangement example of the antenna of the mobile phone according to the modification of FIG. As shown in this figure, compared with FIG. 1, the mobile phone 100 is mounted with a total of four antennas 107A and 107B and antennas 108A and 108B. Two antennas 107A and 107B and two antennas 108A and 108B are arranged on the left and right sides of the lower end portion of the lower side portion 102, respectively, and are built in.
[0059]
From the above-described usage pattern, the antennas 108A and 108B arranged on the left and right of the lower end portion of the lower side portion 102 are used in the situation at the time of a voice call, and the upper end portion of the upper side portion 101 in the situation at the time of Internet connection such as web page browsing Antennas 107A and 107B arranged on the left and right sides of the antenna are used.
FIG. 8 is a block diagram illustrating a schematic configuration example of a radio circuit of the mobile phone 100 that performs switching between the antenna 107A, the antenna 107B, the antenna 108A, and the antenna 108B in FIG.
[0060]
As shown in this figure, compared with FIG. 2, an RF switch 211 is connected between the RF switch 210 and the antennas 107A and 107B, and an RF switch 212 is connected between the RF switch 210 and the antennas 108A and 108B. Connected.
The RF switch 210 uses either the antenna 107A or the antenna 107B or the antenna 108A or the antenna 108B under the control of the antenna switching unit 204B of the baseband processing unit 204 via the voice call antenna switching control signal line 224. Used to switch between.
[0061]
The RF switch 211 is used for switching which of the antenna 107A and the antenna 107B is used under the control of the antenna switching unit 204B of the baseband processing unit 204 via the diversity switching control signal line 225.
The RF switch 212 is used for switching which of the antennas 108A and 108B is used under the control of the antenna switching unit 204B of the baseband processing unit 204 via the diversity switching control signal line 225.
[0062]
First, before explaining the switching operation of the antenna 107A, the antenna 107B, the antenna 108A, and the antenna 108B, it is assumed that an antenna that can be received under better conditions is selected in the reception phase immediately before the IEEE802.11 packet transmission. .
Specifically, it is assumed that the antenna 108A or the antenna 108B is selected at the time of a voice call, the antenna 107A or the antenna 107B is selected at the time of Internet connection such as browsing a WEB page, and which antenna is used is transmitted next. Memorize up to the phase.
[0063]
As described above, the diversity antenna switching algorithm is not directly related to the antenna switching method of the present invention and is a general matter, and therefore, detailed description thereof is omitted here.
FIG. 9 is a flowchart for explaining an example of switching operation of the antenna 107A, the antenna 107B, the antenna 108A, and the antenna 108B at the time of transmission.
[0064]
As shown in this figure, in step S351, the transmission occurrence detection unit 204A of the baseband processing unit 204 generates a transmission event when it is determined that there is user data to be transmitted and it is possible to transmit, and transmission occurs. Detection is performed. In step S352, the transmission occurrence detection unit 204 of the baseband processing unit 204 detects the occurrence of a transmission event, and first controls the RF switch 208 by the control of the antenna switching unit 204B to turn on the radio signal transmission side path. .
[0065]
In step S353, when the voice call occurrence detection unit 201A of the application unit 201 detects the occurrence of a voice call start event, the voice flag is turned on in the voice flag storage unit 205A of the baseband memory 205 via the baseband processing unit 204. Set to. The antenna switching unit 204B of the baseband processing unit 204 checks ON / OFF of the audio flag in the audio flag storage unit 205A.
[0066]
In step S354, the antenna switching unit 204B of the baseband processing unit 204 checks whether the antenna 108A or the antenna 108B has been selected in the diversity reception in the immediately preceding reception phase when the audio flag is ON.
In step S355, the antenna switching unit 204B of the baseband processing unit 204 switches to the antenna 108A if the antenna 108A is selected.
[0067]
In step S356, the antenna switching unit 204B of the baseband processing unit 204 switches to the antenna 108B if the antenna 108A is not selected.
In step S357, when the voice flag is OFF, the antenna switching unit 204B of the baseband processing unit 204 confirms whether the antenna 107A or the antenna 107B has been selected in the diversity reception in the immediately preceding reception phase.
[0068]
In step S358, the antenna switching unit 204B of the baseband processing unit 204 switches to the antenna 107A if the antenna 107A is selected.
In step S359, the antenna switching unit 204B of the baseband processing unit 204 switches to the antenna 107B if the antenna 107A is not selected.
[0069]
In step S360, an IEEE802.11 packet is transmitted, and the process ends.
FIG. 10 is a flowchart illustrating an operation example for explaining an example of the relationship between selection of an antenna at the time of transmission and selection of an antenna at the time of reception.
As shown in the figure, in step S371, the antenna switching unit 204B of the baseband processing unit 204 determines which one of the voice call function and the Internet connection function such as web page browsing is selected.
[0070]
In step S372, if the voice call function is selected, it is determined whether or not the antenna 108A was used in the previous reception.
In step S373, when the antenna 108A is used in the previous reception, the antenna 108A is selected.
In step S374, when the antenna 108B is used in the previous reception, the antenna 108B is selected.
[0071]
If transmission occurs in step S375, transmission is performed using the selected antenna 108A or antenna 108B.
In step S376, the reception waits.
In step S377, if reception occurs, reception is performed using antenna 108A, and it is determined whether the quality of the received signal is good.
[0072]
In step S378, if good, the antenna 108A is selected and reception is continued, and information using the antenna 108A is stored for reception.
In step S379, if the quality of the received signal of the antenna 108A is poor, the antenna 108B is selected for reception, and information using the antenna 108B is stored for reception.
[0073]
In step S380, if an Internet connection function such as WEB browsing is selected, it is determined whether or not the antenna 107A is used in the previous reception.
In step S381, when the antenna 107A is used in the previous reception, the antenna 107A is selected.
In step S382, when the antenna 107B is used in the previous reception, the antenna 107B is selected.
[0074]
In step S383, if transmission occurs, transmission is performed using the selected antenna 108A or antenna 108B.
In step S384, reception is awaited.
If reception occurs in step S385, reception is performed using antenna 107A, and it is determined whether the quality of the received signal is good.
[0075]
In step S386, if good, the antenna 107A is selected and reception is continued, and information using the antenna 107A is stored for reception.
In step S387, if the quality of the received signal of the antenna 107A is poor, the antenna 107B is selected for reception, and information using the antenna 107B is stored for reception.
[0076]
Therefore, it is possible to eliminate concerns about the influence of electromagnetic waves from the antenna during voice calls, and to prevent the antenna transmission / reception efficiency from being reduced when browsing the WEB page when connected to the Internet. When the amount of spatial movement is not large, an effect of reducing the influence of transmission fading can be expected by transmitting using the antenna selected by diversity reception. In particular, since IEEE802.11 uses the same frequency for both transmission and reception, it is possible to obtain an effect that the fading condition is basically the same for transmission and reception in a stationary state.
[0077]
In the embodiments described so far, IEEE801.11 has been assumed as a wireless circuit, but it is naturally possible to apply the wireless circuit to other wireless circuits. In this case as well, it is determined whether or not a voice call is in progress, and the transmission antenna is switched.
In the above description, the antenna is incorporated into the mobile phone having a folded shape and high convenience. However, the present invention can be similarly applied to a mobile phone having no folded shape.
[0078]
【The invention's effect】
As described above, according to the present invention, the step of detecting the occurrence of a voice call from the application activation state, the voice flag is set when the occurrence of a voice call is detected, the occurrence of transmission of data is detected, and the occurrence of transmission is detected. If the detected voice flag is not set, the first antenna located at the upper end of the mobile phone is selected, and the selected first antenna transmits to the Internet connection request, When transmission is detected and the voice flag is set, the second antenna located at the lower end of the mobile phone is selected, and the selected second antenna transmits the voice call request. Since the antenna that is advantageous for diversity reception is selected from the first antenna and the second antenna, the reception is performed. To dispel the concerns of the impact of waves, when connected to the Internet, it has become possible to make transmission and reception efficiency of the antenna does not fall at the time of viewing of the WEB page.
[0079]
Furthermore, when the occurrence of a voice call is detected from the application activation state, a voice flag is set when the occurrence of a voice call is detected, the transmission of data is detected, the occurrence of transmission is detected, and the voice flag is set Selects the first two antennas located respectively on the left and right of the upper end of the mobile phone, and selects one of the selected two antennas that is advantageous for diversity reception to receive the Internet connection. If the transmission is detected and the voice flag is not set, the antennas used for the reception of the previous Internet connection are transmitted. And select one of the selected two antennas that is advantageous for diversity reception, and Since the voice call was transmitted using the antenna used to receive the previous voice call, the concern about the influence of the electromagnetic wave from the antenna was eliminated during the voice call, and the WEB page was viewed when connected to the Internet. Sometimes it is possible to prevent the antenna transmission / reception efficiency from decreasing, and at the same time, if the amount of spatial movement of the mobile phone body is not large between transmission and reception phases, transmission is performed by transmitting using the antenna selected for diversity reception. The effect of reducing the influence of fading can be expected.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a schematic appearance of an antenna arrangement example in a mobile phone according to the present invention.
2 is a block diagram showing a schematic configuration example of a radio circuit of a mobile phone 100 that switches between an antenna 107 and an antenna 108 in FIG. 1;
FIG. 3 is a flowchart illustrating audio flag setting control.
FIG. 4 is a flowchart illustrating an example of switching operation of the antenna 107 and the antenna 108 during transmission.
FIG. 5 is a flowchart showing an operation example for explaining an example of the relationship between antenna selection at transmission and antenna selection at reception.
FIG. 6 is a flowchart showing an operation example for explaining another example of the relationship between selection of an antenna at the time of transmission and selection of an antenna at the time of reception;
7 is a perspective view showing a schematic external appearance of another example in the arrangement example of the antenna of the mobile phone according to the modification of FIG. 1; FIG.
8 is a block diagram illustrating a schematic configuration example of a radio circuit of the mobile phone 100 that performs switching between the antenna 107A, the antenna 107B, the antenna 108A, and the antenna 108B in FIG. 5;
FIG. 9 is a flowchart illustrating an example of switching operation of antenna 107A, antenna 107B, antenna 108A, and antenna 108B during transmission.
FIG. 10 is a flowchart illustrating an operation example for explaining an example of a relationship between antenna selection at transmission and antenna selection at reception.
FIG. 11 is a perspective view showing a schematic appearance of an antenna arrangement example in a mobile phone as a premise of the present invention.
FIG. 12 is a perspective view showing a schematic external appearance of another example in the arrangement example of the antenna of the mobile phone as a premise of the present invention.
[Explanation of symbols]
100: Mobile phone
101 ... Upper side
102 ... lower side
103 ... Display section
104 ... Reception part
105 ... Input unit
106 ... Transmission part
107, 107A, 107B, 108, 108A, 108B ... antenna
201: Application section
202 ... D / A / A / D converter
203 ... Application memory
204 ... Baseband processing unit
205 ... Baseband memory
205A ... Voice flag storage unit
206: Modulation / demodulation processing unit
207 ... Amplifier
208, 210, 211, 212 ... RF switch
209 ... Filter
221, 222, 223, 224, 225... Control signal line

Claims (5)

In an antenna of a mobile phone having a voice call function and an Internet connection function,
A first antenna built in the right side of the lower end of the mobile phone for performing a voice call;
A second antenna built into the left side of the lower end of the mobile phone for making a voice call;
A third antenna built in the right side of the upper end portion of the mobile phone for connecting to the Internet;
A fourth antenna built in the left side of the upper end portion of the mobile phone, for making an Internet connection;
An antenna changeover switch for performing transmission / reception by switching the first antenna, the second antenna, the third antenna, and the fourth antenna;
A voice call occurrence detector that detects the occurrence of a voice call from the application activation state;
A voice flag storage unit that stores a voice flag when the occurrence of a voice call is detected by the voice call occurrence detection unit;
A transmission occurrence detector that detects the occurrence of data transmission;
When the voice flag is set in the voice flag storage unit and the occurrence of voice call transmission is detected, the antenna used for receiving the previous voice call is selected from the first antenna and the second antenna. When transmission is performed and a voice call is received, one of the first antenna and the second antenna that is advantageous for diversity reception is selected and received, and the transmission occurrence detector is connected to the Internet. When transmission of connection is detected, transmission is performed by selecting the antenna used for reception of the previous Internet connection from among the third antenna and the fourth antenna, and when the Internet is received, third antenna and the antenna switch to make the selected receive one towards advantageous diversity reception of said fourth antenna Gosuru mobile phone antenna, characterized in that it comprises an antenna switching unit. The mobile phone antenna according to claim 1 , wherein the first antenna, the second antenna, the third antenna, and the fourth antenna are chip antennas or pattern antennas. Wherein the lower end of the lower portion side in a state in which the portable phone having a folded shape is deployed first antenna, the second antenna, the third antenna to the end on the upper side, the fourth antenna, characterized in that it is arranged, the antenna of the mobile phone according to claim 1. The first antenna, the second antenna, the third antenna, wherein the transmission and reception frequencies of the fourth antenna are identical, mobile phone antenna according to claim 1. In a method for switching antennas of a mobile phone having a voice call function and an Internet connection function,
Detecting the occurrence of a voice call from the activated state of the application;
Setting a voice flag when detecting the occurrence of a voice call;
Detecting the occurrence of data transmission;
When the voice flag is set and transmission of a voice call is detected, the antenna used for receiving the previous voice call is selected from the first antenna and the second antenna, and the voice call is performed. When one of the first antenna and the second antenna is selected, the one that is advantageous for diversity reception is selected for reception. When transmission is detected, the upper end of the cellular phone is detected. Of the third antenna and the fourth antenna respectively built in the left and right of the antenna, the Internet connection is transmitted by the antenna used for the reception of the previous Internet connection, and when the Internet is received, the third antenna and the fourth antenna are transmitted. 4 select one towards advantageous diversity reception of the antennas, characterized in that it comprises the step of performing a reception of a mobile phone antenna Way exchange.

Images