JP5391982B2 - Terminal device and power supply control method - Google Patents

Description

  The present invention relates to a terminal device having an application function for receiving an incoming call for wireless LAN communication and a power supply control method for the terminal device.

  With the widespread use of wireless LAN (local area network), wireless LAN communication functions such as mobile phone devices compatible with wireless LAN are provided. In addition, incoming calls for wireless LAN communication such as telephone functions using wireless LAN communication are provided. Terminal devices having a standby application function have appeared.

  Here, in order to suppress the power consumption of the terminal device, it is desirable to stop the power supply to the wireless unit that performs the wireless LAN communication when the wireless LAN communication is not performed. However, in a portable terminal device having an application function that waits for incoming calls for wireless LAN communication, there is a problem that power is constantly supplied to the wireless unit in order to wait for incoming calls, and the power consumption cannot be suppressed.

  The present invention has been made in view of such circumstances, and an object of the present invention is a terminal device having an application function that is waiting for an incoming call for wireless LAN communication, and can control power supply to a wireless unit An apparatus and a power supply control method are provided.

[1] The present invention has been made to solve the above-described problems, and a terminal device according to an aspect of the present invention includes a wireless unit that performs wireless LAN communication and an incoming call waiting for wireless LAN communication performed by the wireless unit. An application unit that executes an application that uses wireless LAN communication performed by the wireless unit, including a certain application, a power supply unit that supplies power to each unit, and an application that is waiting for an incoming call of the wireless LAN communication are set. If it is determined that the setting is made, the power supply unit is controlled to supply power to the wireless unit. If it is determined that the setting is not made, wireless LAN communication is performed. Further determine whether or not it is used, and when it is determined that it is used, control the power supply unit to supply power to the wireless unit, A radio power control unit for controlling the power supply unit so as not to supply power to the radio portion when the cross-sectional, and a display unit for displaying an image or character the application section outputs an operation unit for receiving a user operation, A display power supply control unit that controls power supply to the display unit by the power supply unit in accordance with an input state of a user operation to the operation unit, and the application that is waiting for an incoming call of the wireless LAN communication is It is an application that performs telephone communication using wireless LAN communication, the setting to use the application that is waiting for an incoming call of the wireless LAN communication is a SIP setting, and the wireless power control unit is configured such that the power supply unit sends the display unit to the display unit. When supplying power, it is determined that the wireless LAN communication is being used, and when the power supply unit does not supply power to the display unit, It determines that no use of LAN communication, characterized in that.

[ 2 ] A power supply control method according to an aspect of the present invention displays a wireless unit that performs wireless LAN communication, a power supply unit that supplies power to each unit, and an image or a character that is output in an application execution step. A power supply control method for a terminal device, comprising: a display unit; and an operation unit that receives a user's operation , wherein the wireless unit includes an application that is waiting for an incoming call for wireless LAN communication performed by the wireless unit. An application execution step for executing an application that uses LAN communication, and whether or not a setting for using an application that is waiting for an incoming call of the wireless LAN communication is made. If it is determined that the setting is made, When the power supply unit is controlled to supply power to the radio unit and it is determined that the setting is not made Further determine whether or not the line LAN communication is used, and when it is determined that the wireless unit is used, the power unit is controlled to supply power to the wireless unit. When it is determined that the wireless LAN unit is not used, power is not supplied to the wireless unit. wherein comprising a radio power control step of controlling the power unit, and a display power supply control step of controlling the supply of power to the display unit by the power supply unit according to the input status of the user operation to the operation unit as The wireless LAN communication waiting application is an application that performs telephone communication using the wireless LAN communication, and the setting for using the wireless LAN communication waiting application is a SIP setting. The power control step determines that the wireless LAN communication is in use when the power supply unit supplies power to the display unit, and When the source unit does not supply power to the display unit, it is determined that the wireless LAN communication is not used .

  According to the present invention, it is possible to control power supply to a wireless LAN communication function unit of a terminal device having an application function that is waiting for an incoming call for wireless LAN communication.

1 is a configuration diagram showing a schematic configuration of a wireless LAN system according to an embodiment of the present invention. It is a block block diagram which shows the function structure of the portable terminal device 10 in the embodiment. It is an external view of the portable terminal device 10 in the embodiment. It is a figure which shows the example of the wireless LAN setting data containing the setting which performs telephone communication using the wireless LAN communication in the embodiment. It is a figure which shows the example of the connection destination setting in the same embodiment. 4 is a flowchart illustrating a processing procedure in which the wireless power supply control unit 103 controls power supply from the power supply unit 180 to the wireless unit 110 in the embodiment. 4 is a sequence showing an operation example in which the mobile terminal device 10 communicates with the access point device 20 in the embodiment.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
Hereinafter, a portable terminal device to which the present invention is applied will be described as an example. However, the scope of the present invention is not limited to a portable terminal device, and can be applied to a wireless LAN terminal device. In the following, a case where the terminal device has a telephone communication function using wireless LAN communication as an application function waiting for wireless LAN communication will be described. However, a chat function or real-time reception of news or mail is received. Other application functions such as a function to perform
FIG. 1 is a configuration diagram showing a schematic configuration of a wireless LAN system according to an embodiment of the present invention.
In FIG. 1, the wireless LAN system 1 includes a mobile terminal device (terminal device) 10, a terminal device 11, and an access point device 20. The access point device 20 is connected to the Internet 30.
The access point device 20 is a wireless LAN access point, and relays communication between the mobile terminal device 10 and the terminal device 11 and connection to the Internet 30 by the mobile terminal device 10 or the terminal device 11.
The mobile terminal device 10 and the terminal device 11 are terminal devices connected to a wireless LAN, and perform wireless communication with the access point device 20.
The wireless LAN system 1 may include other portable terminal devices, terminal devices, and access point devices. Alternatively, the wireless LAN system 1 may not include the terminal device 11. Further, the access point device 20 may not be connected to the Internet 30.

FIG. 2 is a block configuration diagram illustrating a functional configuration of the mobile terminal device 10.
In the figure, the mobile terminal device 10 includes a control unit 100, a radio unit 110, a display unit 120, an operation unit 130, an audio processing unit 140, a microphone 150, a speaker 160, a storage unit 170, a power source, Part 180. The control unit 100 includes a wireless control unit 101, an application unit 102, a wireless power supply control unit 103, and a display power supply control unit 104.
The wireless unit 110 performs wireless LAN communication. Specifically, radio section 110 modulates the transmission signal output from radio control section 101 into a signal having a transmission frequency, amplifies the modulated signal, and transmits the amplified signal to access point apparatus 20 via the antenna. Radio section 110 also amplifies a received signal received from access point apparatus 20 via an antenna, demodulates the received signal to a baseband signal, and outputs the baseband signal to radio control section 101.

The display unit 120 is a liquid crystal display, for example, and notifies the user of various types of information by displaying characters and images output from the application unit 102. In addition, as will be described later, the power supply to the display unit 120 is controlled by the display power source control unit 104. When power supply to the display unit 120 is stopped, the display unit 120 is in a display off state.
The operation unit 130 has key buttons such as 0 to 9 numeric keys, up / down / left / right direction keys, and a determination key. When the user receives a key button operation, the operation unit 130 outputs an operation signal corresponding to the operated key button. Output to the application unit 102.
The microphone 150 collects ambient sound and converts it into an analog electrical signal, and outputs the converted electrical signal to the audio processing unit 140. When an electrical signal is output from the sound processing unit 140, the speaker 160 converts the output electrical signal into sound. The audio processing unit 140 digitizes an analog electric signal output from the microphone 150 and outputs the digitized signal to the application unit 102. The audio processing unit 140 converts the audio signal output from the application unit 102 as a digital electric signal into an analog signal and outputs the analog signal to the speaker 160.

The storage unit 170 stores a program that executes each unit of the control unit 100. In addition, the storage unit 170 stores information output from the control unit 100 as a temporary storage area when the control unit 100 operates. The storage unit 170 also stores wireless settings. Specific contents of the wireless setting will be described later. Furthermore, the storage unit 170 stores various data such as audio data and image data used by the application unit 102.
The power supply unit 180 supplies power to each unit. At that time, the power supply unit 180 supplies power to the wireless unit 110 according to the control of the wireless power supply control unit 103 or stops supplying power. In addition, the power supply unit 180 supplies power to the display unit 120 according to the control of the display power supply control unit 104 or stops supplying power.

The control unit 100 controls each unit. The control unit 100 is realized by a CPU (Central Processing Unit) reading and executing a program stored in the storage unit 170.
In the control unit 100, the wireless control unit 101 controls wireless communication of the mobile terminal device 10 in accordance with a wireless LAN standard defined by IEEE (Institute of Electrical and Electronics Engineers) 802.11, and performs various communication processes. Specifically, the wireless control unit 101 demodulates the baseband signal input from the wireless unit 110 to generate digital reception data, and outputs the generated reception data to the application unit 102. Further, the wireless control unit 101 modulates digital transmission data output from the application unit 102 to generate an analog baseband signal, and outputs the generated baseband signal to the wireless unit 110.

The application unit 102 activates an application in response to an operation signal output from the operation unit 130. The application that the application unit 102 starts includes an application that uses a wireless LAN, for example, an application that displays a homepage screen acquired from the Internet 30 on the display unit 120, an application that performs telephone communication using wireless LAN communication, An application for performing various settings such as communication function settings and display method settings on the display unit 120 is included.
When an application that performs telephone communication using wireless LAN communication is executed, the application unit 102 receives a telephone number and a signal indicating a call request from the operation unit 130, and the wireless control unit 101, the wireless unit 110, the antenna, A signal indicating a telephone number and a call request is transmitted to the access point device 20 via the communication point, and communication processing is performed in response to a reply from the access point device 20. In addition, when a call request is received from the access point device 20, the application unit 102 displays a message indicating that a call is requested on the display unit 120, and receives a ring tone from the speaker 160 via the voice processing unit 140. The incoming call processing is performed in response to a user operation from the operation unit 130. In addition, during a call, the application unit 102 uses the access point device to convert the audio signal collected by the microphone 150 and digitized by the audio processing unit 140 as a transmission frequency signal via the radio control unit 101, the radio unit 110, and the antenna. 20, and when a signal received from the access point device 20 is input as a digital audio signal via the radio unit 110 and the radio control unit 101, the audio is emitted from the speaker 160 via the audio processing unit 140. .

The wireless power supply control unit 103 controls power supply from the power supply unit 180 to the wireless unit 110 based on whether or not the setting for performing telephone communication using wireless LAN communication is made and whether or not wireless LAN communication is used. .
The display power supply control unit 104 supplies power from the power supply unit 180 to the display unit 120 according to the opening / closing state of the housing of the mobile terminal device 10, the input state of the user operation to the operation unit 130, and the operation state of the application unit 102. To control. As will be described later, the casing of the mobile terminal device 10 is an openable type. The display power supply control unit 104 detects opening / closing of the housing, and controls the power supply unit 180 not to supply power to the display unit 120 when the housing is closed. Further, even when the housing is opened, the power supply unit 180 does not supply power to the display unit 120 when a certain time has elapsed since the housing opening operation and no input is performed from the operation unit 130 for a certain time. To control.

FIG. 3 is an external view of the mobile terminal device 10.
In the figure, the mobile terminal device 10 includes a first casing 51, a second casing 52, and a hinge portion 53. The first casing 51 includes the operation unit 130 and the microphone 150 described above. The second housing 52 includes the display unit 120 and the speaker 160 described above.
The hinge portion 53 connects the first housing 51 and the second housing 52 so as to be freely opened and closed, and the mobile terminal device 10 is in an open state (the second housing 52 is connected to the first housing 51 as shown in FIG. On the other hand, the casing can be opened and closed as in the closed state (the second casing 52 is closed with respect to the first casing 51) shown in FIG. The user can carry the portable terminal device 10 with the casing closed, and use the portable terminal device 10 with the casing open.

Next, settings for performing telephone communication using wireless LAN communication will be described.
FIG. 4 is a diagram illustrating an example of wireless LAN setting data including settings for performing telephone communication using wireless LAN communication.
As shown in the figure, the setting items of the wireless LAN setting of the mobile terminal device 10 include a plurality of profile settings and connection destination settings.
The profile setting is a collection of setting items according to the wireless LAN environment to be used. The profile setting includes a profile name, a wireless setting, and an IP (Internet Protocol) setting. The profile name is an identifier for distinguishing a plurality of profiles from each other.

  Wireless settings include channel settings, output settings, and security settings. The channel setting indicates a channel setting defined in IEEE 802.11. In the example of profile 1 in FIG. 4, channel 1 is set as the channel setting. The output setting indicates the setting of the transmission power of the mobile terminal device 10. In the example of FIG. 4, the output setting is selected from among “high” for setting the transmission power large, “low” for setting the transmission power small, and “medium” for setting the transmission power high and low. , “High” is set. In the security setting, encryption used in WPA (Wi-Fi Protected Access), which is a wireless LAN security standard of IEEE 802.11, is set.

The IP setting includes SIP (Session Initiation Protocol) address setting, SIP server setting, and authentication setting. The authentication setting includes an ID (Identifier) and a password. The mobile terminal device 10 uses VoIP (Voice Over IP), which is a technology for realizing a telephone function using wireless LAN communication, and uses SIP as a call control standard in VoIP. In the IP setting, this SIP setting is made. That is, the SIP setting is an application setting for performing telephone communication using wireless LAN communication.
In the SIP address setting, the SIP address of the mobile terminal device 10 is set. The SIP server address is set in the SIP server setting.
The authentication setting ID and password are an ID and a password used when the SIP server authenticates the mobile terminal device 10. In order for the mobile terminal device 10 to execute a telephone function using wireless LAN communication, it is necessary to set all setting items of SIP address setting, SIP server setting, ID, and password. Therefore, the wireless power control unit 103 determines whether or not the telephone function using wireless LAN communication in the profile is used based on whether or not these items are set. When any setting item of SIP address setting, SIP server setting, ID, and password is set, the wireless power control unit 103 determines that the profile uses a telephone function using wireless LAN communication, and either If the item is not set, it is determined that the profile does not use the telephone function using wireless LAN communication. When the ID and password are optional setting items, the wireless power control unit 103 determines whether the telephone function using the wireless LAN communication in the profile is used depending on whether the SIP address setting and the SIP server setting are set. to decide.
In the connection destination setting, information indicating which profile the mobile terminal device 10 uses is set.

FIG. 5 is a diagram illustrating an example of connection destination setting. In order for the mobile terminal device 10 to perform wireless LAN communication, after setting the profile setting of FIG. 4, it is necessary that at least one of the profile settings is specified as the connection destination in the connection destination setting. FIG. 5A shows an example in which four profiles 1 to 4 are set. Circles attached to the profile 3 in FIG. 4A indicate that the setting items of the SIP address setting, the SIP server setting, the ID, and the password described in FIG. 4 are set. Yes. The profiles 1, 2, and 4 that are not circled are profiles in which these SIP settings are not performed.
In connection destination setting example 1 in FIG. 5B, profiles 1, 3, and 4 are specified in the connection destination setting. In this connection destination setting example, a profile 3 in which all setting items of SIP address setting, SIP server setting, ID, and password are set is included in the connection destination setting profile. Therefore, the wireless power control unit 103 determines that the telephone function using the wireless LAN communication is being used. On the other hand, in connection destination setting example 2 in FIG. 5C, profiles 1, 2, and 4 are specified in the connection destination setting. In this connection setting example, a profile in which any setting item of SIP address setting, SIP server setting, ID, and password is set is not included in the connection destination setting profile. Therefore, the wireless power control unit 103 determines that the telephone function using the wireless LAN communication is not used.

Next, control of power supply from the power supply unit 180 to the wireless unit 110 performed by the wireless power supply control unit 103 will be described.
FIG. 6 is a flowchart illustrating a processing procedure in which the wireless power supply control unit 103 controls power supply from the power supply unit 180 to the wireless unit 110. When the mobile terminal device 10 is turned on, the wireless power supply control unit 103 starts processing for controlling power supply from the power supply unit 180 to the wireless unit 110.
In step S101, the wireless power supply control unit 103 determines whether or not a profile in which any setting items of SIP address setting, SIP server setting, ID, and password are set is included in the connection destination setting profile. Thus, it is determined whether or not the telephone function using the wireless LAN function is used. When it is determined that there is use (step S101: YES), the process proceeds to step S102, and when it is determined that there is no use (step S101: NO), the process proceeds to step S104.
In step S <b> 102, the wireless power supply control unit 103 controls the power supply unit 180 to supply power to the wireless unit 110. In step S <b> 103, the wireless power control unit 103 determines whether or not the mobile terminal device 10 is powered off by a user operation from the operation unit 130. When it is determined that the power is turned off (step S103: YES), the power supply unit 180 stops the power supply to each unit, and the mobile terminal device 10 controls the power supply from the power supply unit 180 to the wireless unit 110. Exit. If it is determined that the power is not turned off (step S103: NO), the process returns to step S101.
In step S <b> 104, the wireless power control unit 103 determines whether power is supplied to the display unit 120. When it is determined that power is supplied to the display unit 120 (step S104: YES), the process proceeds to step S107, and when it is determined that power is not supplied (step S104: NO), the process proceeds to step S105.
In step S <b> 105, the wireless power supply control unit 103 controls the power supply unit 180 not to supply power to the wireless unit 110. In step S <b> 106, it is determined whether or not the mobile terminal device 10 is turned off by a user operation from the operation unit 130. When it is determined that the power is turned off (step S106: YES), the power supply unit 180 stops the power supply to each unit, and the mobile terminal device 10 controls the power supply from the power supply unit 180 to the wireless unit 110. Exit. If it is determined that the power is not turned off (step S106: NO), the process returns to step S101.
In step S <b> 107, the wireless power supply control unit 103 controls the power supply unit 180 to supply power to the wireless unit 110. In step S <b> 108, the wireless power supply control unit 103 determines whether or not the mobile terminal device 10 is powered off by a user operation from the operation unit 130. When it is determined that the power is turned off (step S108: YES), the power supply unit 180 stops the power supply to each unit, and the mobile terminal device 10 controls the power supply from the power supply unit 180 to the wireless unit 110. Exit. If it is determined that the power is not turned off (step S103: NO), the process returns to step S101.
As described above, when the wireless power control unit 103 determines that the telephone function using the wireless LAN communication is not used and determines that power is not supplied to the display unit 120, the wireless power control unit 103 supplies power to the wireless unit 110. The power supply unit 180 is controlled so as not to occur. On the other hand, when it is determined that the telephone function using wireless LAN communication is being used, or when it is determined that power is supplied to the display unit 120, the power supply unit 180 is controlled to supply power to the wireless unit 110. To do.

FIG. 7 is a sequence illustrating an operation example in which the mobile terminal device 10 communicates with the access point device 20.
As shown in FIG. 5 (c), the profile in which any setting items of SIP address setting, SIP server setting, ID, and password are not included in the connection destination setting profile. 3 shows an operation example in which power supply to the wireless unit 110 is controlled and wireless LAN communication is performed. Further, in the example of the figure, the setting for performing communication with the access point device 20 is set in the profile 4. In addition, the mobile terminal device 10 is in a power-on state. Moreover, the portable terminal device 10 is in a state where power is not supplied to the display unit 120 at the beginning of the example of FIG.
Here, power is supplied to the display unit 120 based on a user operation such as opening the mobile terminal device 10, for example. In addition, the application unit 102 executes an application that uses a wireless LAN, such as displaying a homepage on the Internet, according to a user operation, and the mobile terminal device 10 performs a first discovery sequence of sequences S201 to S203.
In sequence S201, the mobile terminal device 10 performs a discovery sequence according to the profile 1 and transmits a probe request. However, since the mobile terminal device 10 is out of the access point device set in the profile 1, the access point device is discovered. Fail. Similarly, in the sequence S202, the mobile terminal device 10 performs the discovery sequence according to the profile 2, but fails to discover the access point device. Furthermore, in sequence S203, the mobile terminal device 10 performs a discovery sequence according to the profile 4, but since it is far from the access point device 20, the probe request does not reach the access point device 20, there is no response from the access point device 20, and access Failure to find point device.
Thereafter, the mobile terminal device 10 approaches the access point device 20 and is located within the service area of the access point device 20, and performs the second discovery sequence after the sequence S204.
In the sequence S204, the mobile terminal device 10 performs the discovery sequence according to the profile 1. However, as in the case of the sequence S201, the mobile terminal device 10 fails to discover the access point device. Similarly, in the sequence S205, the mobile terminal device 10 performs a discovery sequence according to the profile 2, but fails to discover the access point device. On the other hand, in sequence S <b> 206, mobile terminal apparatus 10 performs a discovery sequence according to profile 4 and transmits a probe request. In sequence S <b> 207, mobile terminal apparatus 10 receives a probe response from access point apparatus 20. In sequence S <b> 208, the mobile terminal device 10 transmits an access request to the access point device 20 and receives authentication. In sequence S <b> 209, the mobile terminal device 10 receives an access response permitting access from the access point device 20. As a result, the mobile terminal device 10 is connected to the access point device 20 and becomes communicable.
Thereafter, when the power supply to the display unit 120 is stopped based on a user operation such as closing the casing of the mobile terminal device 10, for example, in sequence S <b> 210, the mobile terminal device 10 performs a disconnection sequence and performs the access point device 20. After the access point device 20 completes the disconnection process, the mobile terminal device 10 receives a disconnect response from the access point device 20. Thereafter, the mobile terminal device 10 stops power supply to the wireless unit 110.

  As described above, in the mobile terminal device 10, the wireless power control unit 103 is based on whether or not an application for performing telephone communication using wireless LAN communication is set and whether or not power is supplied to the display unit 120. Since the power supply from the power supply unit 180 to the wireless unit 110 is controlled, is telephone communication using wireless LAN communication actually performed even if an application for performing telephone communication using wireless LAN communication is provided? It is possible to suppress power consumption by determining whether or not to control power supply to the wireless LAN communication function (wireless unit 110). Further, since it is determined whether or not the telephone communication using the wireless LAN communication is performed based on whether or not the setting for performing the telephone communication using the wireless LAN communication is performed, the power to the wireless unit 110 is determined. No special user settings or special user operations are required to control the supply. In addition, when it is determined that the telephone communication using the wireless LAN communication is not used, the wireless power control unit 103 determines the presence or absence of the wireless LAN communication based on the presence or absence of the power supply to the display unit 120. Therefore, power supply to the wireless unit 110 is controlled at an appropriate timing, and a power saving effect can be expected.

Note that the method by which the wireless power supply control unit 103 determines whether wireless LAN communication is used is not limited to a method based on whether power is supplied to the display unit 120. For example, when the mobile terminal device 10 is in an open state (when the second housing 52 is in an open state with respect to the first housing 51), it is determined that wireless LAN communication is being used, and the mobile terminal device 10 is in a closed state. In some cases (when the second housing 52 is closed with respect to the first housing 51), it may be determined that the wireless LAN communication is not used.
In the method of determining whether or not wireless LAN communication is used based on whether or not power is supplied to the display unit 120 described above, the power to the display unit 120 can be saved to save power even when the mobile terminal device 10 is open. There may be a case where the supply is stopped and the display is turned off. When the wireless LAN communication is terminated in conjunction with this and the power supply to the wireless unit 110 is stopped, it is necessary to start again from the wireless LAN connection when using an application that performs wireless LAN communication immediately thereafter. For this reason, it may take time until the start of wireless LAN communication, which may give the user a sense of discomfort. On the other hand, when the power supply to the wireless unit 110 is linked to the opening / closing of the mobile terminal device 10, when the mobile terminal device 10 is in the closed state, the user's input operation from the operation unit 130 is not performed, and an application that performs wireless LAN communication is also available. Since it can be expected not to be used, it is possible to avoid giving the user the above-mentioned uncomfortable feeling.

  Alternatively, the wireless power control unit 103 may determine whether to use wireless LAN communication based on whether or not an application using wireless LAN communication is executed. For example, the wireless power control unit 103 determines that the wireless LAN communication is being used at the timing when the application unit 102 activates the Internet browser, which is an application using wireless LAN communication, and supplies power to the wireless unit 110. The power supply unit 180 is controlled. The wireless power control unit 103 determines that the wireless LAN communication is not used at the timing when the application unit 102 terminates the Internet browser, and controls the power supply unit 180 to stop the power supply to the wireless unit 110. . As a result, even when there is no operation input from the operation unit 130 and the power supply to the display unit 120 is temporarily stopped, the mobile terminal device 10 can be connected to the wireless LAN if the application unit 102 is executing the Internet browser. Therefore, when the operation unit 130 receives an operation input from the user, such as referring to another home page, it is not necessary to start from the wireless LAN connection again, and the user feels uncomfortable. Can be avoided.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like within a scope not departing from the gist of the present invention.

  The present invention is suitable for use in a mobile terminal device and a power supply control method for the mobile terminal device.

DESCRIPTION OF SYMBOLS 1 Wireless LAN system 10 Portable terminal device 11 Terminal device 20 Access point device 30 Internet 51 1st housing 52 2nd housing 53 Hinge part 100 Control part 101 Wireless control part 102 Application part 103 Wireless power supply control part 104 Display power supply control part 110 Wireless Unit 120 display unit 130 operation unit 140 audio processing unit 150 microphone 160 speaker 170 storage unit 180 power supply unit

Claims (2)

A wireless unit for performing wireless LAN communication;
An application unit that executes an application that uses wireless LAN communication performed by the wireless unit, including an application that is waiting for an incoming call of wireless LAN communication performed by the wireless unit;
A power supply unit for supplying power to each unit;
It is determined whether or not a setting to use an application that is waiting for an incoming call of the wireless LAN communication is made, and when it is determined that the setting is made, the power supply unit is controlled to supply power to the wireless unit. If it is determined that the setting is not made, it is further determined whether or not wireless LAN communication is used, and if it is determined that the wireless LAN communication is used, the power supply unit is controlled to supply power to the wireless unit, A wireless power supply control unit that controls the power supply unit so as not to supply power to the wireless unit when determined;
A display unit for displaying images or characters output by the application unit;
An operation unit that receives user operations;
A display power source control unit that controls the supply of power to the display unit by the power source unit according to the input status of user operation to the operation unit;
Equipped with,
The application that is waiting for an incoming call of the wireless LAN communication is an application that performs telephone communication using the wireless LAN communication, and the setting that uses the application that is waiting for an incoming call of the wireless LAN communication is a SIP setting,
The wireless power supply control unit determines that the wireless LAN communication is used when the power supply unit supplies power to the display unit, and the wireless LAN communication unit determines that the power supply unit does not supply power to the display unit. Judge that there is no use of
A terminal device characterized by that. A wireless unit for performing wireless LAN communication;
A power supply unit for supplying power to each unit;
A display unit for displaying images or characters output in the application execution step;
An operation unit that receives user operations;
A power supply control method for a terminal device comprising:
An application execution step for executing an application using wireless LAN communication performed by the wireless unit, including an application that is waiting for an incoming call of wireless LAN communication performed by the wireless unit;
It is determined whether or not a setting to use an application that is waiting for an incoming call of the wireless LAN communication is made, and when it is determined that the setting is made, the power supply unit is controlled to supply power to the wireless unit. If it is determined that the setting is not made, it is further determined whether or not wireless LAN communication is used, and if it is determined that the wireless LAN communication is used, the power supply unit is controlled to supply power to the wireless unit, A wireless power control step for controlling the power supply unit so as not to supply power to the wireless unit when determined;
A display power supply control step for controlling the supply of power to the display unit by the power supply unit in accordance with an input state of a user operation to the operation unit;
Equipped with,
The application that is waiting for an incoming call of the wireless LAN communication is an application that performs telephone communication using the wireless LAN communication, and the setting that uses the application that is waiting for an incoming call of the wireless LAN communication is a SIP setting,
The wireless power control step determines that the wireless LAN communication is used when the power supply unit supplies power to the display unit, and determines that the wireless LAN communication is not used when the power supply unit does not supply power to the display unit. Judge that there is no use of
The power supply control method characterized by the above-mentioned.

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