JP4907465B2 - Mobile terminal device - Google Patents

Description

  The present invention relates to a mobile terminal device having a display unit.

  In recent years, mobile terminal devices such as mobile phones have become widespread. In portable terminal devices in which portability is a basic function for improving convenience, driving using a battery power source is common. Therefore, the request to receive the functional services of the portable terminal device for as long as possible is fundamental, and in addition to the improvement of the accumulated energy density due to the advancement of secondary storage battery technology, the reduction of power consumption is reduced. Electricity is required for the design of portable terminal devices as a very important technology.

  A mobile phone, which is a representative example of a mobile terminal device, has a voice communication service (hereinafter referred to as “call”) as a basic function. The call function is generally realized by a transmitter and a receiver in the terminal, but in addition to these, an in-terminal loudspeaker is provided, and a call function form called a speakerphone / hands-free call or a wired (earphone / earphone) For example, there is a call function form using a transmitter / receiver in a separate case by a microphone connection / wireless connection (call using a Bluetooth headset).

  In the latter type of speakerphone / hands-free phone call and earphone / microphone connection, the user can make a call service while checking the display of the mobile terminal device, but can the display be turned off? It is difficult to discriminate whether or not, and it is impossible to perform the light extinction control uniformly from the viewpoint of convenience.

  However, in a case where a phone call is made using a transmitter and a handset in the former terminal, the user uses the earphone close to the mobile terminal device, so the mobile terminal device is brought close to the ear during the call. It cannot be seen from the physical position even if the display is lit during a call. Therefore, in a mode in which the ear is used close to the mobile terminal device (when the receiver is close to the ear during a call), it is possible to save power by turning off the display function.

Based on this problem recognition, the invention of power saving control related to the display during a call of the mobile terminal device has been invented and proposed by various means in the past. Examples of the literature are shown below.
JP 11-239203 A JP-A-10-271199 JP 2000-22786 A JP 2001-352395 A JP 2003-224655 A JP 2003-309644 A JP-A-2005-223629 JP 2006-21655 A

  In addition to these inventions, in order to save power as described above, a method of simply turning on / off display control with the start / end of a call service has been proposed. Since cases such as status display such as answer / call start / end call and confirmation of call duration display during a call are assumed, the control method using only the call state management impairs convenience.

  However, in the conventional inventions shown in these document examples, a mechanical contact switch and a sensor (capacitance, distance measurement by light / sonic wave, temperature,...) That detects that the ear is approaching are provided. The above-mentioned problem solving proposal has been made. Therefore, it can be said that these conventional inventions have the following two new common problems.

  The first point is that detection means for detecting the position of the ear or the face of a person is necessary, and means that cannot expect functions other than detection are used as selection of these detection means. For this reason, there is a tendency that the device cost spent for the expected effect of power saving increases.

  The second point is that it is necessary to continue to detect that the ear is close at least during a call, while making power saving an effect of the final invention. In addition to the circuit necessary for the communication function, detection by a sensor circuit is necessary. The circuit needs to operate, and the power consumption of the sensor circuit is a factor that reduces the power saving effect.

  In the invention detected by the mechanical contact of Patent Document 1 or Patent Document 8, the power consumption is not required for the above-mentioned second detection, but the ear contact is caused by the individual difference at the mechanical contact. There is a concern that it cannot be detected due to the difference in condition, and it is necessary to enlarge the switch for reliable detection, and it is necessary for the user to make sure that the ear is applied, lack of certainty, design restrictions, etc. There are disadvantages. In addition, in the case of a tilt sensor as in Patent Document 5, since the tilt direction of the terminal device is different in a telephone call or the like lying down, a problem such as inability to detect can be pointed out, which is insufficient to solve the problem. It can be said that.

  The present invention has been made in view of such circumstances, and does not provide special dedicated means as much as possible, does not have problems such as unstable operation due to mechanical contacts, and is a fundamental problem to be solved. An object of the present invention is to provide a portable terminal device capable of realizing control.

  In recent years, in the wireless communication technology, a technology has been developed that uses a plurality of antennas to improve propagation efficiency and improve communication quality. This technology is called diversity technology, adaptive antenna technology, smart antenna technology, or the like. According to such a technique for improving antenna performance, it is possible to perform transmission / reception with good propagation efficiency by enabling prediction and directivity control of a desired wave arrival direction, and by combining with communication power control means, communication power can be reduced. The effect of reduction can also be expected.

Various studies have already been made on the influence of the human body on the antenna characteristics, but three major effects can be considered.
Absorption: Decrease in radiation efficiency Shielding: Change in radiation directivity Impedance change: Increase in mismatch loss

  In many cases, these effects are finally evaluated as alternative parameters such as diversity gain / antenna gain as radio performance. For diversity combining reception, there are methods such as selection combining, equal gain combining, and maximum ratio combining. However, in any method, there are control determination results such as weighting results between antennas such as selection results and combining ratio results. .

  Based on changes in antenna characteristics and antenna selection / combination ratio results, installation information on the direction of the casing and antenna directivity, the magnitude of loss due to impedance changes, received field strength of incoming waves, reception error information, etc. By deriving the positional relationship of the obstacle with respect to the installed antenna, it can be used as a control input for power-saving control without newly providing special means such as a capacitance sensor or infrared distance sensor for human body / ear detection. Is possible.

  The portable terminal device according to the present invention is capable of obtaining a power saving effect of a display unit by using a technology for improving antenna performance such as diversity technology prepared for improving basic performance as a wireless communication device. Yes, a plurality of antennas, a communication control unit for detecting antenna characteristics obtained via the antennas and switching the antennas, a display unit, and a relative positional relationship between the display unit and the plurality of antennas is constant. And a display control unit that controls the display unit when the plurality of antenna characteristics change by a predetermined value or more.

  According to the above configuration, the display unit is controlled using the antenna performance improvement technology prepared for improving the basic performance as a wireless communication device. The power consumption of the display unit can be reduced without causing any trouble.

  In the above configuration, the antenna characteristic detected by the communication control unit is antenna directivity.

  In the above configuration, when the display control unit detects that the antenna characteristic has changed by a certain value or more after the start of a call, the display control unit turns off the display unit.

  Further, in the above configuration, the display control unit turns off the display unit when the deterioration of the characteristic is detected after the start of the call as compared with the antenna characteristic before the start of the call.

  Further, in the above configuration, after the display control unit turns off the display unit and further detects that the antenna characteristics before the start of the call are restored, the display control unit turns on the display unit again.

  Further, the mobile terminal device of the present invention includes a plurality of antennas, a communication control unit for detecting antenna characteristics obtained via the antennas and switching the antennas, a display unit, the display unit, and the plurality of antennas. A display control unit that controls the display unit when the selection of the plurality of antennas is switched when the plurality of antenna characteristics change by a predetermined value or more with the relative positional relationship of .

  According to the above configuration, the display unit is controlled using the antenna performance improvement technology prepared for improving the basic performance as a wireless communication device. The power consumption of the display unit can be reduced without causing any trouble.

  According to the present invention, when a change in antenna characteristics is detected in a state where the relative positional relationship between the display unit and the plurality of antennas is constant, a part of the body such as the user's head is displayed on the mobile terminal device. Judging that it is approaching or moving away from the surface direction. At this time, the display unit is turned off, or the display unit is turned on again, so that human body proximity detection is realized without providing a special sensor or the like for detecting that the human body is approaching, During a telephone call or the like, the maximum effect of saving power by turning off the display unit of the mobile terminal device can be obtained.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments for carrying out the invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing a schematic configuration of a mobile terminal device according to an embodiment of the present invention. FIG. 2 is a perspective view showing the appearance of the mobile terminal device according to the present embodiment. 1 and 2, the mobile terminal device 1 according to the present embodiment includes three antenna elements 11-1 to 11-3, an antenna control unit 12, a communication control unit 13, a receiver (speaker) 14, A transmitter (microphone) 15, a voice processing unit 16, a display control unit 17, a display illumination unit 18, a button illumination unit 19, and a control unit 20 are provided.

  The three antenna elements 11-1 to 11-3 are arranged with different directivities and polarization planes so as to complement the propagation characteristics. As shown in FIG. 2, the antenna element 11-1 is an antenna that is closest to the receiver 14 in contact with the ear and is closest to the human body, and is installed at a position that is susceptible to a change in impedance due to the influence of the human body. Since the antenna element 11-1 is affected by the head during a call, the directivity pattern degenerates in the head direction. Considering the influence at the time of a call, it has antenna characteristics with directivity directed in the direction opposite to the head in advance. The antenna element 11-2 is arranged in the middle of the casing of the mobile terminal device 1 and requires a certain level of antenna performance even when it is folded or opened. have. The antenna element 11-3 is an antenna that is disposed below the mobile terminal device 1 and is close to the transmitter 15.

  Although the antenna elements 11-2 and 11-3 are not as close to the human body as the antenna element 11-1, they can be said to be antennas that often approach the human body. Considering when placed on a table, etc., it shall have antenna characteristics with a certain degree of directivity toward the front of the housing. In addition, since the directivity pattern of each antenna, the number of antennas, the combination of arrangements, and the like vary depending on the housing design and usage pattern, the above-described combination is nothing but an example.

  In FIG. 1, an antenna control unit 12 performs antenna selection / weighting control in accordance with changes in reception characteristics such as reception field strength and reception error rate. Based on the change in the antenna selection / weighting control results before and after the start of the call, the deterioration of the antenna characteristics in the direction of the opening of the receiver 14 on the front of the housing is detected. Then, the detection result is input to the communication control unit 13. The communication control unit 13 transmits and receives a radio signal for voice communication, and inputs the detection result of the antenna characteristic deterioration from the antenna control unit 12 to the control unit 20. The detection result of the antenna characteristic deterioration may be input to the control unit 20 instead of being input to the communication control unit 13. In this way, when the detection result of the antenna characteristic deterioration is input from the antenna control unit 12, the control unit 20 inputs the detection result to the display control unit 17. On the other hand, the relative positional relationship between the display unit 21 and the antenna elements 11-1 to 11-3 is detected by a position detection unit (not shown). For example, in the case of a foldable portable terminal device, the relative positional relationship may be detected by detecting the positional relationship of the connected casings.

  The display control unit 17 determines whether or not the head of the human body has approached based on the detection result of the deterioration of the antenna characteristics after the start of the call. If the display control unit 17 determines that the head of the human body has approached, the display control unit 17 controls the turning off of the display illumination unit 18. Do. If the display illumination unit 18 is turned off and then it is determined that the antenna characteristics before the start of the call are restored, the display illumination unit 18 is turned on again. Here, when the display control unit 17 controls the display illumination unit 18 when there is a change in the antenna characteristics, the display control unit 17 is relative to the display unit 21 (see FIG. 2) of the mobile terminal device 1 after the start of the call. The display illumination unit 18 is controlled when the antenna characteristics change by a certain value or more with respect to the characteristics of the three antenna elements 11-1 to 11-3 when the positional relationship is constant. In addition, when the display control unit 17 controls to turn off the display illumination unit 18 when there is a change in the antenna selection, the display control unit 17 is relative to the display unit 21 (see FIG. 2) of the mobile terminal device 1 after the start of the call. The display illumination unit 18 is controlled when the selection of the antenna is switched with respect to the selection state of the three antenna elements 11-1 to 11-3 when the positional relationship is constant.

  The audio processing unit 16 processes the transmitted / received communication data as an audio signal. The handset 14 and the transmitter 15 are incorporated in the mobile terminal device 1 as voice input / output means. The display illumination unit 18 is integrated with the display unit 21 shown in FIG. 2 and illuminates the display unit 21 so that the display unit 21 can be seen in a dark place. In particular, the display unit 21 has an LCD (Liquid Crystal Display). When used, it is used as a backlight. The light source used in this illumination is a cold cathode tube, an LED (Light Emitting Diode) or the like, and an LED is used particularly in a small device such as a mobile phone. In addition to the LCD, a display element such as EL (Electro Luminescence) may be used for the display unit 21.

  The button illumination unit 19 is integrated with an operation unit 22 including a numeric keypad and function keys shown in FIG. 2, and illuminates the operation unit 22 so that the operation unit 22 can be seen even in a dark place. As a light source used in this illumination, an LED is mainly used. The control unit 20 controls each part of the apparatus and operates according to a program stored therein.

  Next, the operation of the mobile terminal device 1 of the present embodiment will be described using the antenna directivity and the impedance change operation.

  FIG. 3 is an operation image diagram of the mobile terminal device 1. In the case of the receiving side, the user of the mobile terminal device 1 can check the incoming call, the telephone number of the other party, the radio wave status / time, and the like from the information displayed on the display unit 21. . On the other hand, in the case of the calling side, it is possible to confirm the input of the calling telephone number and the connection / calling status from the information displayed on the display unit 21 at the start of the call. Even during a call, the mobile terminal device 1 can be removed from the ear, and various information such as the call time, radio wave status, time, phone book, and memo can be confirmed by the information displayed on the display unit 21. is there. At this time, the relative positional relationship between the display unit 21 and each of the antenna elements 11-1 to 11-3 is substantially constant, but the user has the vicinity of the antenna element 11-2 for the characteristics of each antenna. In this case, the impedance of the antenna element 11-2 changes somewhat, and the antenna element 11-1 and the antenna element 11-3 have little change in characteristics.

  When the call is started, except for hands-free call, the user puts his ear on the handset 14 provided in the mobile terminal device 1 and brings his mouth close to the handset 15. At this time, although the relative positional relationship between the display unit 21 and each antenna element is substantially constant, the characteristics of the antenna elements 11-1 to 11-3 are affected by the head of the antenna element 11-1. The antenna element 11-2 and the antenna element 11-3 are sandwiched between the hand and the head, although there are no significant changes because they have difficult characteristics and there are few obstacles when held in the hand. It becomes a state, and the directivity characteristics in the head direction deteriorate, and the influence of the impedance becomes large. Therefore, when performing antenna selection or combination weighting, there is a strong tendency to select the antenna element 11-1 and increase the weighting of the antenna element 11-1. The antenna element 11-3 varies in the degree of influence depending on how the portable terminal device 1 is held (the position of the hand), but the surface side having the operation unit 22 of the portable terminal device 1 has a small distance to the user. Therefore, the antenna performance can be ensured.

  FIG. 4 is a block diagram illustrating a schematic configuration of the mobile terminal device 1 including a transmission / reception unit. In the figure, the receiving unit 30 includes a number of amplitude adjusters (or variable phase shifters) 31-1 to 31-3 corresponding to the number of antenna elements 11-1 to 11-3 and amplitude adjusters 31-1 to 31-1. A receiving circuit 32 that receives and demodulates radio signals from the antenna elements 11-1 to 11-3 that have been combined after amplitude adjustment in each of 31-3. The transmission unit 33 includes a signal transmitter 35 that generates a transmission signal, and transmission power amplifiers (PA: power amplifier) 36-1 that amplify the number of transmission signals corresponding to the number of antenna elements 11-1 to 11-3. 36-3, transmission power amplifiers 36-1 to 36-3, and isolators 37-1 to 37-3 interposed between the antenna elements 11-1 to 11-3.

  The isolators 37-1 to 37-3 prevent the transmission signal output from the signal transmitter 35 from affecting its own circuit. The isolators 37-1 to 37-3 are provided with a protection function for preventing the reflected wave from the antenna elements 11-1 to 11-3 from returning to the transmission power amplifiers 36-1 to 36-3, and the cross modulation and impedance by the reflected wave. The antenna having a large change is separated from the transmission power amplifiers 36-1 to 36-3.

  This circuit configuration detects a change in reception characteristics based on a change in the positional relationship between the antenna elements 11-1 to 11-3 and the human body. The antenna control unit 12 performs antenna selection / weighting control in accordance with changes in reception characteristics such as reception field strength and reception error rate. Based on the change in the antenna selection / weighting control results before and after the start of the call, the deterioration of the antenna characteristics in the direction of the opening of the receiver 14 on the front of the housing is detected. Based on this detection result, the display control unit 17 determines that the head of the human body is approaching, and controls the display illumination unit 18 to be turned off.

  The user moves the mobile terminal device 1 away from the ear to a position where the display unit 21 can be seen when the user wants to check the call time even after the call ends or during the call. At this time, the antenna selection / weighting control result changes again. When the antenna control unit 12 obtains a detection result such as a pattern before a call, the display control unit 17 controls the lighting of the display illumination unit 18 again.

  As described above, according to the mobile terminal device 1 of the present embodiment, the antenna control unit 12 performs antenna selection / weighting control according to changes in reception characteristics such as reception field strength and reception error rate, and before and after the start of a call. The deterioration of the antenna characteristics in the direction of the opening of the handset 14 on the front side of the housing is detected by the change in the antenna selection / weighting control results in the display, and the display control unit 17 detects the deterioration of the antenna characteristics after the call starts. If it is determined whether or not the head of the human body is approaching, and if it is determined that the head of the human body is approaching, the display illumination unit 18 is controlled to be turned off. When it is detected that the antenna characteristics have been restored, the display illumination unit 18 is turned on again. Therefore, it is possible to save power by effectively turning off the battery by turning off the light when the user cannot see the display unit 21 and turning on the light when the user can see the display unit 21.

  In the above-described embodiment, only the lighting / lighting control of the display lighting unit 18 is performed, but the button lighting unit 19 may also perform the lighting / lighting control together.

  In the above embodiment, the three antenna elements 11-1 to 11-3 are used. However, the number of antenna elements is not limited as long as there are at least two antenna elements.

  Also, in the above embodiment, the obstacle (human head) is determined based on the antenna selection / weighting control results. However, as information for antenna selection / weighting, received field strength and reception error There are many control methods based on received results such as rate. Control based on the received result is generally responsive, and can be determined when the transmission / reception frequency is the same for both transmission and reception, such as circuit switching. When the transmission ratio is very large, the reception frequency is low, so there is little information for determining antenna selection, and the detection accuracy may be reduced. Therefore, it is necessary to detect an obstacle based on a change amount during transmission such as an antenna impedance change.

  FIG. 5 is a block diagram illustrating a schematic configuration of the mobile terminal device 2 using an isolator, a coupler, or the like as a mechanism that is not affected by an impedance change in a general transmission circuit (application example 1). In the configuration shown in the figure, the reflected wave is detected by two transmission lines of the main line and the sub line in each coupler 38-1 to 38-3, and each transmission power amplifier 36 is detected by each detector 39-1 to 39-3. The feedback control is performed at −1 to 36-3. Changes in the wireless characteristics / impedance due to the positional relationship between the user's body of the mobile terminal device 2 and the antenna elements 11-1 to 11-3 appear in the detection results of the detectors 39-1 to 39-3.

  The effects of the antenna and the human body that can be detected at the time of transmission include amplifiers 40-1 to 40-3 that detect the amount of reflected wave loss of the isolators 37-1 to 37-3, as in the mobile terminal device 3 shown in FIG. This can also be realized (Application Example 2). Further, like the mobile terminal device 4 shown in FIG. 7, if the feedback control result of the basic component parts of the transmission / reception circuit is used, in addition to the prediction type adaptation of the transmission system, the result of the reception system is adapted, It is possible to improve the accuracy of human body detection (application example 3).

  The present invention has an effect that power saving control, which is a fundamental problem to be solved, can be realized without providing any special dedicated means as much as possible, without causing problems such as unstable operation due to mechanical contacts. However, it can be applied to a mobile terminal device such as a mobile phone.

The block diagram which shows schematic structure of the portable terminal device which concerns on one embodiment of this invention The perspective view which shows the external appearance of the portable terminal device which concerns on the said embodiment of this invention Operation image diagram of portable terminal device according to above embodiment of the present invention The block diagram which shows schematic structure including the transmission / reception part of the portable terminal device which concerns on the said embodiment of this invention. The block diagram which shows schematic structure of the application example 1 of the portable terminal device which concerns on the said embodiment of this invention. The block diagram which shows schematic structure of the application example 2 of the portable terminal device which concerns on the said embodiment of this invention. The block diagram which shows schematic structure of the application example 3 of the portable terminal device which concerns on the said embodiment of this invention.

Explanation of symbols

1-4 Mobile terminal devices 11-1 to 11-3 Antenna element 12 Antenna control unit 13 Communication control unit 14 Handset 15 Transmitter 16 Voice processing unit 17 Display control unit 18 Display illumination unit 19 Button illumination unit 20 Control unit 21 Display Unit 22 Operation unit 30 Reception unit 31-1 to 31-3 Amplitude adjuster 32 Reception circuit 33 Transmission unit 35 Signal transmitter 36-1 to 36-3 Transmission power amplifier 37-1 to 37-3 Isolators 38-1 to 38 -3 Coupler 39-1 to 39-3 Detector 40-1 to 40-3 Amplifier

Claims (6)

Multiple antennas,
A communication control unit for detecting antenna characteristics obtained through the antenna and switching the antenna;
A display unit;
A display control unit that controls the display unit when the plurality of antenna characteristics change by a predetermined value or more in a state where a relative positional relationship between the display unit and the plurality of antennas is constant;
A mobile terminal device comprising:   The mobile terminal apparatus according to claim 1, wherein the antenna characteristic detected by the communication control unit is antenna directivity.   The mobile terminal device according to claim 1, wherein the display control unit turns off the display unit when detecting that the antenna characteristic has changed by a certain value or more after the start of a call.   2. The mobile terminal device according to claim 1, wherein the display control unit turns off the display unit after the start of a call when the deterioration of the characteristic is detected in comparison with the antenna characteristic before the start of the call.   The portable terminal device according to claim 4, wherein the display control unit turns on the display unit again when it is detected that the display unit returns to the antenna characteristic before the start of a call after the display unit is turned off. Multiple antennas,
A communication control unit for detecting antenna characteristics obtained through the antenna and switching the antenna;
A display unit;
When the relative positional relationship between the display unit and the plurality of antennas is constant and the plurality of antenna characteristics change by a predetermined value or more, or when the selection of the plurality of antennas is switched, the display unit A display control unit for controlling
A mobile terminal device comprising:

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