JP4791162B2 - Portable information terminal - Google Patents

Description

  The present invention relates to a portable information terminal, and more particularly to a portable information terminal that is driven by receiving power from a secondary battery.

  In recent years, the functions of mobile phones have been improved, so that mobile phones can be used not only as televisions, radios, audios, and game machines, but also as information communication terminals for browsing Internet websites. Since the mobile phone uses a secondary battery such as a nickel metal hydride battery as a driving source, it is necessary to charge the secondary battery. When charging a secondary battery of a mobile phone, an AC adapter connected to a commercial power source is usually attached. When a mobile phone is used in a charged state with an AC adapter connected, the power output from the AC adapter is supplied to the load of the mobile phone (for example, Patent Document 1).

However, some AC adapters have different output power, and it is only necessary to connect an AC adapter that can output power exceeding the power consumption of the mobile phone. However, there is an AC adapter that can output only power that is less than the power consumption of the mobile phone. When connected, power is supplied from the secondary battery to supplement the power consumed by the load of the mobile phone. When the storage capacity of the secondary battery decreases, power cannot be supplied to the load, and the mobile phone suddenly stops driving. If the power to be supplied to the mobile phone is insufficient and the program executed on the mobile phone stops without being terminated, the data being accessed is destroyed or the program ends without writing the setting data. Next, when power is supplied, it does not start normally and fails.
JP-A-8-98421

  The present invention has been made to solve the above-described problems, and one of the objects of the present invention is to provide a portable information terminal that can be used in a charged state and prevents data loss or failure in advance. It is to be.

The present invention has been made to achieve the above-described object. According to one aspect of the present invention, a portable information terminal stores power receiving means for receiving power from outside and at least a part of the received power. Power storage means for supplying the stored power to the load, and determination means for determining whether or not the power consumed by the load exceeds the received power in a state where the power is received from the outside by the power receiving means , reduced by determining the determination means, the state that is powered from the outside by the receiving means, on condition that the power consumed is determined to exceed the power received by the load, the power consumed by the load And a control means for setting the power saving mode.

  According to the present invention, when power is received from the outside and the power consumption consumed by the load exceeds the received power, the power saving mode is set. For this reason, since the electric power for charging an electrical storage means is ensured, an electrical storage capacity does not reduce by the electrical storage means continuing supplying electric power to a load. As a result, it is possible to provide a portable information terminal that can be used in a charged state and that prevents loss or failure of data.

  Preferably, the control unit is capable of executing a plurality of types of application programs. When each of the plurality of types of application programs is executed by the control unit, the control unit drives at least one of the plurality of loads, and the control unit When in the power saving mode, at least one of the application programs being executed among the plurality of types of application programs is terminated.

  According to the present invention, when in the power saving mode, at least one of the application programs being executed among the plurality of types of application programs is terminated, so that the application program can be terminated normally and the power consumption The program being executed can be made continuously executable by reducing the number of.

  Preferably, an external power measuring unit that measures the power received by the power receiving unit is further provided, and the control unit includes a determining unit that determines an application program to be ended based on the measured power.

  According to the present invention, it is possible to prevent the power consumption from exceeding the power received from the outside while executing the application program as much as possible. For example, if the measured power is large, the application program that drives a load with low power consumption is terminated. If the measured power is small, the application program that drives a load with large power consumption is terminated. The power can be prevented from exceeding the received power.

  Preferably, the power receiving means includes a first power receiving means for receiving power from the first external power source and a second power receiving means for receiving power from the second external power source, and the control means includes the first power receiving means and the second power receiving means. And determining means for determining an application program to be ended based on which of the power is received.

  According to the present invention, it is possible to prevent the power consumption from exceeding the power received from the outside while executing the application program as much as possible. For example, if the power received from the first external power supply is greater than the power received from the second power receiving means, the application program for driving a load with low power consumption is terminated when receiving power from the first external power supply. When receiving power from the second external power supply, the application program for driving a load with large power consumption can be terminated so that the power consumption does not exceed the received power.

Preferably, the control unit sets the power saving mode on the condition that the power consumption consumed by the load exceeds the received power and the output voltage of the power storage unit is lower than a predetermined value.

According to the present invention, if the output voltage of the power storage means is equal to or higher than a predetermined value, the power is supplied to the load because the power storage capacity is sufficient to supply the load of the power storage means. For this reason, the load can be driven as much as possible.
Preferably, the power consumption of the plurality of loads in the power saving mode is smaller than the received power.
Preferably, the control means includes release means for releasing the power saving mode when the output voltage of the power storage means is recovered after the power saving mode is set.
According to this aspect, if charging is performed until the output voltage of the power storage means recovers, sufficient power is stored in the power storage means to supply the load, so the power saving mode is canceled and the load is driven. However, it is possible to prevent the load from stopping driving for a while.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, detailed description thereof will not be repeated.

<First Embodiment>
FIG. 1 is a perspective view showing an appearance of a mobile phone according to the first embodiment of the present invention. Referring to FIG. 1, mobile phone 1 includes an operation side portion 3 and a display side portion 2. An operation key 14 such as a numeric keypad and a call key and a microphone 13 are arranged on the inner side surface of the operation side portion 3, and a camera 24 described later is arranged on the outer side surface opposite to the inner side surface. A liquid crystal display (LCD) 15 and a first speaker 11 are disposed on the inner side surface of the display side portion 2. A second speaker 12 is disposed on the side surface of the display side portion 2. Although an example in which the mobile phone 1 includes the LCD 15 is shown here, an organic EL (ElectroLuminescence) display may be used instead of the LCD 15.

  The operation side unit 3 and the display side unit 2 are rotatably connected by a hinge mechanism, and the operation side unit 3 and the display side unit 2 can be opened and closed. Further, the display side part 2 is connected to the operation side part 3 so as to be rotatable about a rotation axis orthogonal to the rotation axis of the hinge mechanism. As a result, the mobile phone 1 can change the state into four modes: flip closed style (hereinafter referred to as “closed style”), flip open style (hereinafter referred to as “open style”), twist style, and front style. . The closed style is a closed state in which the inner side surface of the operation side portion 3 and the inner side surface of the display side portion 2 face each other. In the closed style, since the LCD 16 and the operation key 14 face each other, the operation key 14 and the LCD 16 do not come into contact with the outside, and an operation unintended by the user is input or damaged by touching an external object. Since it is prevented, it is a style suitable for transportation. The open style is an open state in which the inner side surface of the operation side portion 3 and the inner side surface of the display side portion 2 face the same direction and are visible to the user. Since the microphone 13 and the speaker 11 are in the same direction, it is suitable for a call, and since the LCD 14 and the operation key 14 are in the same direction, it is suitable for operating the operation key 14 while watching the LCD 14. Style. Furthermore, since the image capturing direction of the camera 24 and the display surface of the LCD 16 are opposite to each other, the style is suitable for photographing another person as a subject. The twist style is an open state in which the inner side surface of the operation side portion 3 and the outer side surface of the display side portion 2 face the same direction. Since the camera 24 and the LCD 16 are in the same direction, the style is suitable for photographing a user as a subject. The front style is a closed state in which the inner side surface of the operation side portion 3 and the outer side surface of the display side portion 2 face each other. Since the camera 24 and the LCD 16 are in opposite directions, this style is suitable for photographing other people as subjects. It is also a style suitable for watching TV.

  FIG. 2 is a functional block diagram illustrating an example of functions of the mobile phone according to the first embodiment. Referring to FIG. 2, the mobile phone 1 includes a control unit 21 for controlling the entire mobile phone 1, a radio circuit 22 connected to the antenna 22A, a codec unit 28 for processing audio data, Each of the microphone 13 and the first speaker 11 connected to the codec unit 28, the tuner 23 connected to the antenna 22A, the AV decoder 29, the camera 24, the operation unit 25 that receives an input of a user operation, and the LCD 16 A display control unit 30 for controlling display, a ROM (Read Only Memory) 31 for storing programs executed by the control unit 21, and a RAM (Random Access Memory) used as a work area of the control unit 21. ) 32 and EEPROM (Electronici) for storing address book data and the like in a nonvolatile manner all-Erasable and Programmable ROM) 33, vibration unit 26, card interface (I / F) 27, external communication connection terminal 34 such as USB (Universal Serial Bus), power supply control unit 35, and mobile phone 1 And a power consumption detector 36 for detecting the power to be generated.

  The radio circuit 22 receives the radio signal received by the antenna 22 </ b> A and outputs an audio signal obtained by demodulating the radio signal to the codec unit 28. The radio circuit 22 receives the audio signal from the codec unit 28 and outputs a radio signal obtained by modulating the audio signal to the antenna 22A. The codec unit 28 decodes the audio signal input from the radio circuit 22, converts the decoded digital audio signal to analog, amplifies it, and outputs it to the first speaker 11. The codec unit 28 receives an analog audio signal from the microphone 13, converts the audio signal to digital, encodes it, and outputs the encoded audio signal to the radio circuit 22.

  The tuner 23 is connected to the antenna 22A, and receives a broadcast signal received by the antenna 22A. The broadcast signal is a high frequency digital modulation signal including video data and audio data. The tuner 23 extracts a signal having a specific frequency from the high frequency digital modulation signal input from the antenna 22A. Further, the tuner 23 includes a deinterleave circuit and an error correction circuit, and demodulates the extracted high frequency digital modulation signal of a specific frequency and outputs a variable length code to the AV decoder 29. The AV decoder 29 includes a video decoder and an audio decoder, decodes the variable length code input from the tuner 23 to generate a video signal and an audio signal, and performs D / A (digital / analog) conversion on the video signal. Are output to the display control unit 30, and the audio signal is D / A converted and applied to the second speaker 12. Although an example of receiving and playing back a digital television broadcast wave is shown here, an analog television broadcast wave may be received and played back. Further, instead of the television broadcast or in addition to the television broadcast, the broadcast radio wave of the radio broadcast may be received and reproduced.

  The display control unit 30 is controlled by the control unit 21 and controls the LCD 16 according to an instruction input from the control unit 21 to display an image on the LCD 16. The image displayed on the LCD 16 includes a moving image and a still image.

A removable flash memory 27A is attached to the card I / F 27. The control unit 21 can access the flash memory 27A via the card I / F 27. Although an example in which a program to be executed by the control unit 21 is stored in the ROM 31 will be described here, the program is stored in the flash memory 27A, the program is read from the flash memory 27A, and the control unit 21 You may make it perform. The recording medium for storing the program is not limited to the flash memory 27A, but a flexible disk, a cassette tape, an optical disk (CD-ROM (Compact Disc)
-ROM) / MO (Magnetic Optical Disc) / MD (Mini Disc) / DVD (Digital Versatile Disc)), IC card (including memory card), optical card, mask ROM, EPROM, EEPROM, etc. . Alternatively, the mobile phone 1 may be connected to the Internet via the wireless circuit 22, and a program may be downloaded from a computer connected to the Internet and executed by the control unit 21. The program here includes not only a program directly executable by the control unit 21 but also a program in a source program format, a compressed program, an encrypted program, and the like.

  The camera 24 includes a lens and a photoelectric conversion element such as a CMOS (Complementary Metal Oxide Semiconductor) sensor, and focuses light collected by the lens on a CMOS sensor. The CMOS sensor photoelectrically converts the received light to convert image data. Output to the control unit 21. The camera 24 is controlled by the control unit 21, starts imaging in response to an instruction from the control unit 21, and outputs the obtained still image data or moving image data to the control unit 21. The camera 24 includes an image processing circuit that executes image processing for improving the image quality of photoelectrically converted image data, and an A / D conversion circuit that converts image data from analog to digital. The control unit 21 outputs still image data or moving image data output from the camera 24 to the display control unit 30 and displays it on the LCD 16 or encodes the still image data or moving image data using a compression encoding method, The data is stored in the flash memory 27A attached to the card I / F 27.

  The operation unit 25 includes an operation key 14 and a lamp 25A. The operation key 14 receives an operation input by the user and outputs the received operation to the control unit 21. The lamp 25A emits light under the control of the control unit 21.

  When an operation is input from the operation key 14, the control unit 21 executes a process according to the input operation. The control unit 21 reads and executes a plurality of application programs stored in the ROM 31. The application program includes an application program for causing the mobile phone 1 to function as a television or a radio, an application program for causing the mobile phone 1 to function as a digital camera or a digital video camera, and an application for causing the mobile phone 1 to function as an audio device. Program, application program for causing the mobile phone 1 to function as a game machine, application program for causing the mobile phone 1 to function as a communication device communicating with an external device, a browsing program, an application program for editing an address book, e-mail Application program for sending and receiving These application programs are described in a program language such as C language or JAVA (registered trademark), but the program language in which the application program is described is not limited thereto, and is described in any other program language. May be. Further, a plurality of application programs are stored in the ROM 31 and mounted on the mobile phone 1, but the plurality of application programs may be described in a single program language or described in different program languages. It may be. That is, application programs described in a plurality of program languages may be mixed.

  The control unit 21 can simultaneously execute a plurality of application programs. However, as the number of application programs to be executed increases, the load increases and the power consumption increases. The control unit 21 drives loads such as the tuner 23, the AV decoder 29, the second speaker 12, the camera 24, the display control unit 30, the LCD 16, and the external communication connection terminal 34 when executing the application program. When an application program is executed, power is consumed with a load corresponding to the application program. For example, when an application program for causing the mobile phone 1 to function as a television is executed by the control unit 21, the tuner 23, the AV decoder 29, the second speaker 12, the display control unit 30, and the LCD 16 are driven. Electricity is consumed.

  The power supply control unit 35 includes an external power supply terminal 43 to which an external power supply 45 is connected, an external power detection unit 44, and a secondary battery 41, and supplies power to each load of the mobile phone 1. The external power supply 45 is an A / C adapter connected to a commercial power supply. The secondary battery 41 is a nickel cadmium battery, a nickel metal hydride battery, a lithium polymer battery, or the like. The external power detection unit 44 detects that the external power supply 45 is connected to the external power supply terminal 43 and outputs a signal indicating whether or not the external power supply 45 is connected to the control unit 21.

  When the power consumption consumed by the mobile phone 1 is smaller than the power supplied from the external power supply 45, the power control unit 35 supplies the power supplied from the external power supply 45 to the mobile phone 1 while using the remaining power. The secondary battery 41 is configured to be supplied to the secondary battery 41 and charged. Further, when the power consumption consumed by the mobile phone 1 exceeds the power supplied from the external power supply 45, the power control unit 35 outputs the power stored in the secondary battery 41 and is supplied from the external power supply 45. In addition to the power to be supplied, the mobile phone 1 is configured to be supplied. For example, the secondary battery 41 and the external power supply 45 may be connected in parallel. For this reason, when the mobile phone 1 is connected to the external power supply 45, the mobile phone 1 consumes the power supplied from the external power supply 45, but when the power consumption exceeds the power supplied from the external power supply 45, The electric power stored in the secondary battery 41 is consumed.

  Control unit 21 includes a mode switching unit 51. The mode switching unit 51 receives the power consumption consumed by the mobile phone 1 from the power consumption detection unit 36, and receives a signal from the external power detection unit 44 indicating whether power is being supplied from the external power supply 45. Is done. When the mode switching unit 51 is supplied with power from the external power supply 45, if the power consumption input from the power consumption detection unit 36 exceeds the power supplied from the outside, the mode switching unit 51 switches the mobile phone 1 to the power saving mode. Switch to. The power supplied from the external power supply 45 to the mobile phone 1 is set in advance, and it is determined whether or not the power consumption input from the power consumption detector 36 exceeds the power supplied from the outside. Further, the external power detection unit 44 may measure the output power of the external power supply 45 and output the measured power value to the control unit 21. When the voltage of the external power supply 45 is determined in advance, the current value of the output terminal of the external power supply 45 may be measured. In this case, when there are a plurality of types of external power supplies 45 with different output power, the output power of the connected external power supply 45 is measured, so the control unit 21 accurately acquires the power supplied from the external power supply 45. be able to.

The mobile phone 1 reduces the power consumption of the mobile phone 1 in the power saving mode. The mobile phone 1 includes a radio circuit 22, a tuner 23, a codec unit 28, an AV decoder 29, a microphone 13, speakers 11, 12, a display control unit 30, an LCD 16, a camera 24, a lamp 25A, a vibration unit 26, a card I / F 27, and the like. Including multiple loads. In the state of the power saving mode, the mobile phone 1 stops driving some of the plurality of loads, or drives the mobile phone 1 with lower power consumption. The power consumption when the mobile phone 1 is in the power saving mode is smaller than the output power of the external power supply 45. A specific example of the power saving mode is shown below.
(1) When the control unit 21 is executing an application program, the control unit 21 executes an application program end process to end the execution of the application program. Thereby, the power consumption of the control part 21 reduces. In addition, since the load that has been driven by the control unit 21 executing the application program is not driven, power consumption is reduced. When there are a plurality of application programs to be executed by the control unit 21, all of them may be ended or a part of them may be ended. When terminating a part, the inactive application program is terminated.
(2) A power saving screen in which the brightness of the screen displayed on the LCD 16 is lowered is displayed. Thereby, the power consumption of the LCD 16 is reduced.
(3) Stop the network search. When the data communication application program is executed by the control unit 21, the network search executed by the wireless circuit 22 is stopped. Thereby, the power consumption of the radio circuit 22 is reduced. Instead of stopping the network search completely, the frequency of the network search may be lowered.
(4) When an external device is connected to the external communication connection terminal 34, the communication with the external device is disconnected. Thereby, the power consumption of the external communication connection terminal 34 and the control part 21 can be reduced. Instead of completely disconnecting communication with the external device, the connection confirmation frequency may be reduced.
(5) When moving images such as animation are used for the standby screen and background screen displayed on the LCD 16, still images are displayed. Thereby, the power consumption of the display control part 30 and LCD16 can be reduced.

  The mode switching unit 51 causes the LCD 16 to display a warning screen including a message indicating that the process cannot be executed when the mobile phone 1 is in the power saving mode. Then, when the period of the power saving mode exceeds a predetermined time, the mode switching unit 51 cancels the power saving mode and switches the mobile phone 1 to the normal mode. The predetermined time is sufficient for the storage capacity of the secondary battery 41 to recover. At this time, the mode switching unit 51 causes the LCD 16 to display a standby screen indicating that the mode has been switched to the normal mode. The standby screen is also an initial screen displayed when the mobile phone 1 is turned on. Therefore, the user can confirm that the standby screen is displayed and know that the normal operation can be input. The mode switching unit 51 outputs a warning sound from the second speaker 12 when the mobile phone 1 shifts from the normal mode to the power saving mode or when the mobile phone 1 shifts from the power saving mode to the normal mode. It may be. Even when the user is looking away from the LCD 16 of the mobile phone 1, the user can be informed that the mode has been shifted to the power saving mode or has been shifted from the power saving mode to the normal mode.

  FIG. 3 is a diagram illustrating an example of a warning screen displayed on the LCD in the power saving mode. The warning screen includes the message “Charging. Please wait.” For this reason, the user of the mobile phone 1 can know that the mobile phone 1 has shifted to the power saving mode.

  FIG. 4 is a flowchart showing an example of the flow of the mode switching process executed by the control unit 21 of the mobile phone in the first embodiment. Referring to FIG. 4, control unit 21 determines whether or not external power supply 45 is connected based on a signal input from external power detection unit 44 (step S01). If the external power supply 45 is connected, the control unit 21 proceeds to step S02. If the external power supply 45 is not connected, the control unit 21 enters a standby state (NO in step S01). That is, the mode switching process is a process executed on condition that the external power supply 45 is connected to the mobile phone 1. In step S02, the control unit 21 acquires the current value of the external power supply 45. Since the current output from the external power supply 45 is measured by the external power detection unit 44 and the current value measured by the external power detection unit 44 is output to the control unit 21, the control unit 21 is input from the external power detection unit 44. The current value is acquired as the current value of the external power supply 45. The control unit 21 acquires the current consumption of the mobile phone 1 in step S03. Since the current output from the power control unit 35 is measured by the power consumption detection unit 36 and the current value measured by the power consumption detection unit 36 is output to the control unit 21, the control unit 21 is input from the power consumption detection unit 36. Current value is acquired as current consumption.

  In step S04, the control unit 21 compares the current consumption value acquired in step S03 with the current value of the external power supply 45 acquired in step S02. If the current consumption is larger than the current value of the external power supply 45, the control unit 21 performs processing in step S05. Otherwise, the process ends. This is because if the current consumption is not smaller than the current value of the external power supply 45, the power stored in the secondary battery 41 is charged without being consumed.

  In step S05, the control unit 21 sets the mobile phone 1 to the power saving mode. The control unit 21 stops driving of a plurality of loads of the mobile phone 1 or drives the mobile phone 1 with reduced power consumption. In this power saving mode, the output of sound and images output by functions other than the telephone function are stopped. Specifically, viewing of television broadcasting or radio broadcasting, music playback, and shooting using a camera are prohibited. In step S06, the control unit 21 displays a warning screen on the LCD 16. As a result, the warning screen shown in FIG. 3 is displayed on the LCD 16, so that the user can be informed that the mobile phone 1 has entered the power saving mode.

  In step S07, the control unit 21 determines whether or not a predetermined time has elapsed since entering the power saving mode. If the predetermined time has not elapsed, the control unit 21 returns the process to step S06, and if the predetermined time has elapsed, performs the processing. Proceed to step S08. In step S08, the control unit 21 cancels the power saving mode and switches the mobile phone 1 from the power saving mode to the normal mode. As a result, the mobile phone 1 is set in the power saving mode for a predetermined time, and the secondary battery 41 stores the electric power. The predetermined time is sufficient for the storage capacity of the secondary battery 41 to recover. In step S09, the control unit 21 displays a standby screen on the LCD 16. As a result, the user can be notified that the mobile phone 1 has entered the normal mode.

  In step S02, the current value of the current output from the external power supply 45 is acquired from the external power detection unit 44. However, whether or not the external power supply 45 is connected to the mobile phone 1 from the external power detection unit 44. A signal indicating the above may be acquired. When the power output from the external power supply 45 is determined, a predetermined current value may be stored. In step S03, the current value of the current output from the power supply control unit 35 is acquired. However, for each application program executed by the control unit 21 of the mobile phone 1, it is executed by the control unit 21. Is stored in advance, and the power consumption corresponding to the application program executed by the control unit 21 is read from the table to obtain the power consumption of the mobile phone 1. You may do it. The table may be associated with maximum power consumption for each of a plurality of types of application programs. In this case, the power consumption detector 36 is unnecessary.

  If the power consumption consumed by the mobile phone 1 is greater than the power supplied from the external power supply 45, the mobile phone 1 in the present embodiment places the mobile phone 1 in the power saving mode for a predetermined time. Thereby, electric power is supplied to the secondary battery 41 from the external power supply 45 and charged at a predetermined time. Since the user can know that the mobile phone 1 is in the power saving mode by looking at the warning screen, the power consumption is the output power of the external power supply 45 until the charging of the secondary battery is completed. If the use exceeding this value is refrained, the storage capacity of the secondary battery is reduced and the driving of the mobile phone 1 does not stop suddenly.

<Second Embodiment>
In the first embodiment, the mobile phone 1 sets the mobile phone 1 in a single power saving mode regardless of the amount of power supplied by the external power supply. The mobile phone 1 in the second embodiment can be set to a plurality of levels of power saving modes, and is set to a power saving mode of a level corresponding to the output power of the external power supply 45 connected to the mobile phone 1. It is a thing. Since other configurations are the same as those of the above-described mobile phone 1, the description thereof will not be repeated here. The mobile phone 1 according to the second embodiment has a plurality of types of external power supplies 45 having different output powers, and can handle a case where any of a plurality of types of external power sources 45 can be connected to the mobile phone 1.

  FIG. 5 is a diagram illustrating an example of a power saving mode definition table in which the level of the power saving mode is defined. This power saving mode definition table is stored in the ROM 31 in advance. Referring to FIG. 5, the power saving mode definition table defines a function to be stopped in each of the three power saving modes of levels 1 to 3. Here, priorities are assigned to the functions, and the functions are classified into levels 1 to 3 in descending order of priority. The power saving mode of level 1 is associated with a function for playing music and moving images, a function for viewing TV / radio, and a camera shooting / recording function. In the level 1 power saving mode, execution of these functions is prohibited. The level 2 power saving mode is associated with an external communication function, a game function, and a Web browsing function. In the level 2 power saving mode, in addition to the function associated with level 1, execution of the function associated with level 2 is prohibited. The level 3 power saving mode is associated with an address book editing function and an electronic mail transmission / reception function. In the power saving mode of level 3, in addition to the functions associated with level 1 and level 2, the execution of the function associated with level 3 is prohibited.

  The power saving mode definition table classifies the output power of the external power supply 45 into three categories of high, medium, and low, and associates the classified output voltage with the level of the power saving mode. Level 1 power saving mode is associated when output power is high, level 2 power saving mode is associated when output power is medium, and level 3 power saving mode is supported when output power is low Attached. The power saving mode definition table defines more functions to be stopped as the output power of the external power supply 45 is smaller.

  Note that the power saving mode definition table shown in FIG. 5 is only an example and is not limited to this. If the function to be stopped is associated with the output power of the external power supply 45, the table is not limited thereto. Good. The power saving mode definition table can be executed by the mobile phone 1 and the output power of the external power supply 45 so that the power consumption of the mobile phone 1 in the power saving mode of each level is smaller than the output power of the external power supply 45. May be associated with various functions. For this reason, the power saving mode definition table does not associate the function to be stopped with the level of the power saving mode, but limits the power consumption, for example, lowers the brightness of the LCD 16, lowers the output volume, or communication. Limits such as reducing the frequency for the purpose may be associated.

  FIG. 6 is a flowchart illustrating an example of the flow of mode switching processing executed by the control unit 21 of the mobile phone 1 according to the second embodiment. Referring to FIG. 6, steps S11 to S14 are the same as steps S01 to S04 of the mode switching process shown in FIG. Therefore, description thereof will not be repeated.

  In step S15, the control unit 21 obtains output power from the current value of the external power supply 45 acquired in step S12, reads the power saving mode definition table from the ROM 31, and classifies the output power defined in the power saving mode definition table. Determine the level. And the control part 21 sets the mobile telephone 1 to the power saving mode of the level determined by step S15 (step S16). When the mobile phone 1 is set to the level 1 power saving mode, the control unit 21 stops the function of playing music / video, stops the function of watching TV / radio, and also uses the camera shooting / recording function. Stop. Specifically, the control unit 21 has an application program for causing the mobile phone 1 to function as a television or a radio, an application program for causing the mobile phone 1 to function as a digital camera or a digital video camera, and the mobile phone 1 as an audio device. The application program for functioning is terminated. Further, when the mobile phone 1 is set in the level 2 power saving mode, the control unit 21 has an external communication function, a game function, and a web browsing function in addition to the function stopped in the level 1 power saving mode. Stop. Specifically, in addition to the application program terminated in the level 1 power saving mode, the control unit 21 uses an application program for causing the mobile phone 1 to function as a communication device that communicates with an external device. The execution of the application program and the browsing program for functioning as a machine is terminated. Further, when the mobile phone 1 is set to the level 3 power saving mode, the control unit 21 stops the address book editing function and the e-mail transmission / reception function in addition to the function stopped in the level 2 power saving mode. Let Specifically, in addition to the application program terminated in the level 2 power saving mode, the control unit 21 terminates the execution of the application program for editing the address book and the application program for sending and receiving e-mails. Let

  In this example, the execution of the application program is terminated. However, in the level 1 power saving mode in which the output power of the external power supply 45 is largely associated, the execution of the application program is terminated and the function is stopped. Instead of this, for example, the brightness of the LCD 16 may be reduced, or the power consumption may be reduced by reducing the volume, and the level 2 or the output power of the external power supply 45 associated with the medium or low level may be reduced. At level 3, execution of the application program may be terminated to stop the function.

  If a predetermined time has elapsed since entering the power saving mode (YES in step S17), the control unit 21 cancels the power saving mode and switches the mobile phone 1 from the power saving mode to the normal mode (step S18). End the process. Thereby, the mobile phone 1 is set to the power saving mode for a predetermined time. In step S09, the control unit 21 displays a standby screen on the LCD 16. As a result, the user can be notified that the mobile phone 1 has entered the normal mode.

  The mobile phone 1 according to the second embodiment sets the mobile phone 1 in the power saving mode for a predetermined time if the power consumption consumed by the mobile phone 1 is larger than the power supplied from the external power supply 45. The level of the power saving mode varies depending on the power supplied from 45. Since the power saving mode definition table defines more functions to be stopped as the output power of the external power supply 45 is smaller, the mobile phone 1 is set to a power saving mode at a level determined according to the power supplied from the external power supply 45. As a result, the power consumption of the entire mobile phone 1 can be reduced to the output power of the external power supply 45 or less. For this reason, while the mobile phone 1 is being charged, the usable functions differ depending on the output power of the external power supply 45, but as many functions as possible can be used. Also, if the power consumption exceeds the output power of the external power supply 45 until the charging of the secondary battery 41 is completed, the storage capacity of the secondary battery decreases and the driving of the mobile phone 1 stops suddenly. There is nothing to do.

<Modification>
In the mobile phone 1 according to the second embodiment, an example in which power is supplied from the external power supply 45 to the mobile phone 1 is shown. The mobile phone 1 may be supplied with power from an external device connected to the external communication connection terminal 34. The mobile phone 1 according to the modification corresponds to a case where power is supplied from an external device connected to the external communication connection terminal 34. This is because the power supplied from the external communication connection terminal 34 and the power supplied from the external power supply 45 are different.

  FIG. 7 is a functional block diagram showing an example of the function of the mobile phone in the modification of the second embodiment. Referring to FIG. 7, the difference from FIG. 2 is that power supplied from an external device connected to external communication connection terminal 34 is input to power supply control unit 35A. Since the other configuration is the same as that of the mobile phone 1 in the second embodiment, description thereof will not be repeated here.

  The external power detection unit 44A of the power supply control unit 35A detects that the external power supply 45 is connected to the external power supply terminal 43, and outputs a signal indicating whether or not the external power supply 45 is connected to the control unit 21. . The external power detection unit 44A detects whether or not power is supplied from an external device connected to the external communication connection terminal 34, and the power is supplied from the external device connected to the external communication connection terminal 34. A signal indicating whether or not there is output to the control unit 21.

  When the external power supply 45 is connected to the external power supply output terminal 43, the power supply control unit 35A supplies power to the mobile phone 1 in the same manner as described above. In addition, the power control unit 35 </ b> A is configured so that the power consumption consumed by the mobile phone 1 is less than the power supplied from the external communication connection terminal 34 in a state where power is supplied from the external device connected to the external communication connection terminal 34. When the power is small, the power supplied from the external communication connection terminal 34 is supplied to the mobile phone 1 while the remaining power is supplied to the secondary battery 41 to charge the secondary battery 41. In addition, when the power consumption consumed by the mobile phone 1 exceeds the power supplied from the external communication connection terminal 34, the power control unit 35A outputs the power stored in the secondary battery 41, and the external communication connection terminal In addition to the power supplied from 34, the mobile phone 1 is configured to be supplied. For this reason, in the state in which the mobile phone 1 is supplied with power from the external communication connection terminal 34, the mobile phone 1 consumes power supplied from the external communication connection terminal 34, but the power consumption is from the external communication connection terminal 34. When the supplied power is exceeded, the power stored in the secondary battery 41 is consumed.

  In the mobile phone 1 in the modification, the level 1 and the level 2 of the power saving mode definition table shown in FIG. 5 are used. The output power of the external power supply 45 is larger than the power supplied from the external communication connection terminal 34. For this reason, when the power is supplied from the external power supply 45 and the power consumption of the mobile phone 1 exceeds the power supplied from the external power supply 45, the mode switching unit 51 enters the level 1 power saving mode. The mobile phone 1 is set and the function defined in the level 1 is stopped. Further, the mode switching unit 51 saves level 2 when the power consumption of the mobile phone 1 exceeds the power supplied from the external communication connection terminal 34 in a state where the power is supplied from the external communication connection terminal 34. The mobile phone 1 is set in the power mode, and the functions defined in the level 1 and the level 2 are stopped.

  The external power detection unit 44A measures the power supplied from the external communication connection terminal 34, and measures the power supplied from the external communication connection terminal 34 or the output power of the external power supply 45. Any one of the values may be output to the mode switching unit 51. In this case, as described in the second embodiment, using the power saving mode definition table shown in FIG. 5, the level of the power saving mode according to the power input from the outside is determined, The mobile phone 1 can be set to the determined power saving mode.

<Third Embodiment>
The cellular phone 1 in the third embodiment is obtained by changing the processing of the mode switching unit 51 by adding a function of detecting the voltage of the secondary battery 41 to the cellular phone 1 in the first embodiment. . Since the other configuration is the same as that of the mobile phone 1 in the first embodiment, description thereof will not be repeated here.

  FIG. 8 is a functional block diagram illustrating an example of functions of the mobile phone according to the third embodiment. Referring to FIG. 8, mobile phone 1 is different from mobile phone 1 in the first embodiment shown in FIG. 2 in that voltage detection for detecting the voltage of secondary battery 41 in power supply control unit 35B. The point which added the part 42 and the point which changed the process of 51 A of mode switching parts. The voltage detection unit 42 measures the voltage between the output terminals of the secondary battery 41 and outputs the measured voltage to the control unit 21. The mode switching unit 51A receives the power consumption consumed by the mobile phone 1 from the power consumption detection unit 36, receives the current value of the output terminal of the external power supply 45 from the external power detection unit 44, and receives the current value from the voltage detection unit 42. A voltage value between the output terminals of the secondary battery 41 is input. If the power consumption input from the power consumption detection unit 36 exceeds the power supplied from the outside and the voltage of the secondary battery 41 is below a predetermined threshold T, the mode switching unit 51A The mobile phone 1 is switched to the power saving mode for a predetermined time during which the storage capacity of the secondary battery 41 is restored. Here, in the power saving mode, the control unit 21 does not execute everything except the telephone function. Thereby, since the electric power consumed by the mobile phone 1 is reduced, the electric power can be supplied to the secondary battery 41 and stored.

  When the mobile phone 1 is in the power saving mode, the mode switching unit 51A causes the LCD 16 to display a warning screen including a message indicating that the process cannot be executed. Then, when the period in the power saving mode exceeds a predetermined time, the mode switching unit 51A cancels the power saving mode and switches the mobile phone 1 to the normal mode. At this time, the mode switching unit 51A displays a standby screen on the LCD 16 to indicate that the mode has been switched to the normal mode. Therefore, the user can confirm that the standby screen is displayed and know that the normal operation can be input.

  FIG. 9 is a flowchart illustrating an example of the flow of mode switching processing executed by the control unit 21 of the mobile phone 1 according to the third embodiment. Referring to FIG. 9, steps S21 to S23 are the same as steps S01 to S03 of the mode switching process shown in FIG. Therefore, description thereof will not be repeated.

  In step S24, the control unit 21 compares the current consumption value acquired in step S23 with the current value of the external power supply 45 acquired in step S22. If the current consumption is larger than the current value of the external power supply 45, the control unit 21 performs the process in step S25. If not, the process returns to step S21. This is because if the current consumption is not smaller than the current value of the external power supply 45, the power stored in the secondary battery 41 is charged without being consumed. The controller 21 acquires the output voltage V of the secondary battery 41 in step S25. Since the voltage between the output terminals of the secondary battery 41 is measured by the voltage detection unit 42 and the voltage value measured by the voltage detection unit 42 is output to the control unit 21, the control unit 21 is input from the voltage detection unit 42. The voltage value is acquired as the output voltage V of the secondary battery 41. In step S26, the control unit 21 compares the output voltage V of the secondary battery 41 acquired in step S25 with a threshold value T. If the output voltage V is smaller than the threshold value, the process proceeds to step S27. If not, the process returns to step S21. Steps S27 to S31 are the same as steps S05 to S09 of the mode switching process shown in FIG. Therefore, description thereof will not be repeated.

  In the mobile phone 1 according to the third embodiment, the power consumption consumed by the mobile phone 1 is larger than the power supplied from the external power supply 45 and the output voltage V of the secondary battery 41 is higher than the threshold value T. If it is smaller, the mobile phone 1 is set to the power saving mode for a predetermined time. Since the storage capacity of the secondary battery 41 can be determined from the output voltage V of the secondary battery 41, the mobile phone 1 is set to the power saving mode only when the storage capacity of the secondary battery 41 is small. The secondary battery 41 can be charged with power consumption less than or equal to the output power of the external power supply 45. Since the storage capacity of the secondary battery 41 can be maintained at a predetermined capacity or higher, it is possible to prevent the output power of the secondary battery 41 from being reduced and the mobile phone 1 from suddenly being stopped. The mobile phone in the second embodiment can be applied to the mobile phone 1 in the third embodiment. In this case, the processes in steps S15 to S18 in FIG. 6 are executed instead of the processes in steps S27 to S31 in FIG.

<Fourth embodiment>
In the mobile phone 1 according to the third embodiment, the period during which the mobile phone 1 is in the power saving mode is set to a predetermined time. The mobile phone 1 according to the fourth embodiment sets the mobile phone 1 to the power saving mode when the output voltage of the secondary battery 41 is smaller than the threshold value V. For this reason, if the output voltage of the secondary battery 41 is equal to or higher than the threshold value V while the mobile phone 1 is being charged, the mobile phone 1 is set to the normal mode even if the predetermined time has not elapsed.

  FIG. 10 is a flowchart showing an example of the flow of the mode switching process executed by the control unit 21 of the mobile phone 1 in the fourth embodiment. Referring to FIG. 10, steps S41 to S45 are the same as steps S21 to S25 of the mode switching process shown in FIG. 9, and therefore description thereof will not be repeated here. In step S46, the control unit 21 compares the output voltage V of the secondary battery 41 acquired in step S45 with a threshold value T. If the output voltage V is smaller than the threshold value, the process proceeds to step S47, and so on. If not, the process proceeds to step S48. The control unit 21 sets the mobile phone 1 to the power saving mode in step S47, returns the process to step S41, sets the mobile phone 1 to the normal mode in step S48, and then returns the process to step S41.

  In the mobile phone 1 according to the fourth embodiment, the power consumption consumed by the mobile phone 1 is larger than the power supplied from the external power supply 45 and the output voltage V of the secondary battery 41 is higher than the threshold value T. If it is smaller, the mobile phone 1 is set in the power saving mode, but if the output voltage V of the secondary battery 41 is equal to or higher than the threshold value T, the mobile phone 1 is set in the normal mode. For this reason, the time for the mobile phone 1 to be in the power saving mode can be made as short as possible. In addition, since the storage capacity of the secondary battery 41 can be maintained at a predetermined capacity or higher, it is possible to prevent the output power of the secondary battery 41 from being lowered and the mobile phone 1 from being suddenly stopped. Note that the mobile phone according to the second embodiment can be applied to the mobile phone 1 according to the fourth embodiment. In this case, steps S15 and S16 in FIG. 6 are executed instead of step S47 in FIG.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

It is a perspective view which shows the external appearance of the mobile telephone in the 1st Embodiment of this invention. It is a functional block diagram which shows an example of the function of the mobile telephone in 1st Embodiment. It is a figure which shows an example of the warning screen displayed on LCD in power saving mode. It is a flowchart which shows an example of the flow of the mode switching process performed with the control part of the mobile telephone in 1st Embodiment. It is a figure which shows an example of the power saving mode definition table which defined the level of the power saving mode. It is a flowchart which shows an example of the flow of the mode switching process performed in the control part of the mobile telephone in 2nd Embodiment. It is a functional block diagram which shows an example of the function of the mobile telephone in the modification of 2nd Embodiment. It is a functional block diagram which shows an example of the function of the mobile telephone in 3rd Embodiment. It is a flowchart which shows an example of the flow of the mode switching process performed in the control part of the mobile telephone in 3rd Embodiment. It is a flowchart which shows an example of the flow of the mode switching process performed in the control part of the mobile telephone in 4th Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Mobile phone, 2 Display side part, 3 Operation side part, 11 1st speaker, 12 2nd speaker, 13 Microphone, 14 Operation key, 21 Control part, 22 Radio circuit, 22A Antenna, 23 Tuner, 24 Camera, 25 operation Part, 25A lamp, 26 vibration part, 27 card I / F, 27A flash memory, 28 codec part, 29 AV decoder, 30 display control part, 31 ROM, 32 RAM, 33 EEPROM, 34 external communication connection terminal, 35, 35A , 35B Power control unit, 36 Power consumption detection unit, 41 Secondary battery, 42 Voltage detection unit, 43 External power supply terminal, 44, 44A External power detection unit, 45 External power supply, 51, 51A Mode switching unit.

Claims (7)

A power receiving means for receiving power from the outside;
Power storage means for storing at least part of the received power and supplying the stored power to a load;
Determining means for determining whether or not the power consumed by the load exceeds the received power in a state where the power is received from the outside by the power receiving means;
The determination of the determining means, wherein in a state that is powered from the outside by the receiving means, on condition that the power consumed by the load is determined to be greater than the power receiving and power is consumed by the load A portable information terminal comprising: a control unit configured to set a power saving mode to reduce power. The control means can execute a plurality of types of application programs,
When each of the plurality of types of application programs is executed by the control unit, the control unit drives at least one of the plurality of loads,
2. The portable information terminal according to claim 1, wherein when the control unit is in the power saving mode, the control unit terminates at least one of the plurality of types of application programs being executed. 5. An external power measuring means for measuring the power received by the power receiving means,
The portable information terminal according to claim 2, wherein the control unit includes a determination unit that determines the application program to be ended based on the measured power. The power receiving means includes first power receiving means for receiving power from a first external power source;
Second power receiving means for receiving power from a second external power source,
The control means, the first based on one is receiving from the receiving means and the second receiving means comprises determining means for determining an application program to the ends, portable information according to claim 2 or 3 Terminal. The control means enters the power saving mode on the condition that the power consumption consumed by the load exceeds the received power and the output voltage of the power storage means is below a predetermined value. The portable information terminal according to any one of claims 1 to 4 . The portable information terminal according to claim 1, wherein power consumption of the plurality of loads in the power saving mode is smaller than the received power. The portable information according to any one of claims 1 to 6, wherein the control means includes release means for canceling the power saving mode when the output voltage of the power storage means is recovered after the power saving mode is set. Terminal.

Images