JP2009230079A - Portable telephone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable telephone which includes an organic EL display, in which deterioration in a specific element in this organic EL display is prevented suppressing power consumption and the degree of freedom of display is improved. <P>SOLUTION: The portable telephone includes a setting means (S103) setting a timer and displaying display luminance either to a first mode or a second mode whose luminance is lower than that of the first mode when a lapse of a prescribed time in a non-operation state is noticed by the timer that the first mode is set; and a display control means displaying a display screen of this display thinning when a display is set to the second mode. The display control means displays the display screen with a thinning pattern in which a thinning position of the thinning pattern displayed at the last in the previous time is inverted when the display screen is thinned and displayed (S105 to S109). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a mobile phone that includes an organic EL display and sets a display screen to a thinning mode when the display is set to a low light mode due to a timeout due to no operation.

  In recent years, the functionality of mobile phones has improved, and users have come to use various functions such as Web browsing, games, and cameras using mobile phones. Along with this, the display content of the mobile phone has increased, and a brighter and higher quality screen can be displayed. However, on the other hand, there is a problem that the power consumption for display is increased.

Thus, an image display device has been proposed that can reduce power consumption and improve the degree of freedom of display (see Patent Document 1). This image display device displays the image by “decimated display” such as a checkered pattern and a line shape in the power saving mode, so that the number of used pixels in the power saving mode is the number of used pixels in the non power saving mode. It controls to become less than.
JP 2004-12655 A

  In the method of reducing the power consumption by displaying the display in the thinning mode, for example, when an organic EL display is used as the display, the device thinned in the thinning mode has a longer life, but the thinning is performed. There was a problem that the elements which did not exist deteriorated.

  The present invention has been made in view of the above problems, and includes an organic EL display, suppresses power consumption, prevents deterioration of specific elements in the organic EL display, and improves the degree of freedom of display. An object of the present invention is to provide a mobile phone that can be used. It is another object of the present invention to provide a mobile phone that can be operated by the user without a sense of incongruity when the display screen is set to the thinning mode.

  In order to solve the above-described problem, a mobile phone according to the present invention provides a timer and a predetermined display in a no-operation state when the display display brightness is set to at least the first mode or the first mode by the timer. Setting means for setting to any one of the second modes having lower brightness than the first mode when the passage of time is notified, and when the display is set to the second mode by the setting means, the display Display control means for thinning and displaying the display screen, and when the display screen is thinned and displayed, the display control means displays the thinning pattern obtained by inverting the thinning position of the thinning pattern displayed last time. It is characterized by doing.

  According to the mobile phone of the present invention, an organic EL display is provided, and the lighting time of each element of the organic EL display is made equal, thereby suppressing power consumption and preventing deterioration of specific elements in the organic EL display. In addition, the degree of freedom of display can be improved. Further, according to the mobile phone of the present invention, when the display screen is set to the thinning mode, the user can operate without a sense of incongruity.

[First Embodiment]
A mobile phone according to a first embodiment of the present invention will be described with reference to FIGS. As a mobile phone according to the first embodiment, a clamshell mobile phone 1 in which a plurality of casings are coupled so as to be freely opened and closed will be described as an example. 1A is a front view showing the mobile phone 1 in an open state, FIG. 1B is a side view showing the mobile phone 1 in an open state according to the present invention, and FIG. FIG. 2B is a side view showing the cellular phone 1 in a closed state.

  As shown in FIGS. 1 and 2, the mobile phone 1 is mainly configured by a rectangular plate-shaped upper housing 10 and a lower housing 11 having substantially the same shape as the upper housing 10. The upper casing 10 and the lower casing 11 are stacked so as to cover one surface in a closed state. The upper housing 10 and the lower housing 11 are hinged so as to sandwich the hinge portion 12, and the upper housing 10 is relative to the lower housing 11 with the hinge portion 12 as an axis in the X direction of FIG. It is formed so as to be rotatable by a predetermined angle. The cellular phone 1 is transformed from a closed state to an open state or from an open state to a closed state by rotating the upper housing 10 with respect to the lower housing 11.

  A display 13 for displaying display information including characters and images is provided on the inner surface of the upper housing 10 (the surface facing the lower housing 11). The display 13 is formed of, for example, an organic EL (Electro-Luminescence) panel. An organic EL panel is a display panel using a phenomenon in which light is emitted by excitons (excitons) generated by recombination of electrons and holes injected into an organic compound. A speaker 14 for outputting sound is provided on the inner surface of the upper housing 10. The display 13 and the speaker 14 are covered with the lower casing 11 and not exposed to the outside when the mobile phone 1 is closed, but the upper casing 10 is rotated with respect to the lower casing 11. When exposed to an open state, it is exposed to the outside.

  On the inner surface of the lower housing 11 (the surface facing the upper housing 10), for example, a power key for switching the power ON / OFF, a calling key for performing call processing, numbers and characters are provided. An operation key 15 including a numeric keypad for inputting is provided. A microphone 16 for collecting sound is provided on the inner surface of the lower housing 11. These operation keys 15 and the microphone 16 are covered with the upper casing 10 and are not exposed to the outside when the mobile phone 1 is closed, but the upper casing 10 is rotated with respect to the lower casing 11. When exposed to an open state, it is exposed to the outside.

  Next, functions of the mobile phone 1 will be described with reference to a functional block diagram shown in FIG. As shown in FIG. 4, the mobile phone 1 includes a main control unit 20, a power supply circuit unit 21, an operation input control unit 22, a display control unit 23, a voice control unit 24, a communication control unit 25, a storage unit 26, and a timer unit. 27 are communicably connected to each other via a bus.

  The main control unit 20 includes a CPU (Central Processing Unit), performs overall control of the mobile phone 1, and performs input control processing of the operation keys 15 and other various arithmetic processing and control processing. The power supply circuit unit 21 switches the power ON / OFF state based on, for example, an input by the user via the operation key 15 and supplies power to each unit from a power supply source (battery or the like) when the power is on. Thus, the mobile phone 1 is made operable. The power supply circuit unit 21 transmits information indicating the remaining battery level to the main control unit 20, and the main control unit 20 causes the display 13 to display an icon indicating the remaining battery level based on this information.

  The operation input control unit 22 includes an input interface for the operation keys 15. When detecting that the operation key 15 is pressed, the operation input control unit 22 generates a signal indicating the pressed operation key 15 and transmits the signal to the main control unit 20. The display control unit 23 includes a display interface for the display 13, and displays display information including documents and images on the display 13 based on the control of the main control unit 20. The display control unit 23 measures the accumulated time while the display 13 is emitting light.

  The voice control unit 24 generates an analog voice signal from the voice collected by the microphone 16 based on the control of the main control unit 20 and converts the analog voice signal into a digital voice signal. Further, when acquiring the digital audio signal, the audio control unit 24 converts the digital audio signal into an analog audio signal based on the control of the main control unit 20 and outputs the analog audio signal as audio from the speaker 14.

  Based on the control of the main control unit 20, the communication control unit 25 performs spectrum despreading processing on the received signal received from the base station (not shown) via the antenna 25a to restore the data. This data is transmitted to the sound control unit 24 and output from the speaker 14 according to an instruction from the main control unit 20, transmitted to the display control unit 23 and displayed on the display 13, or recorded in the storage unit 26. To do. Further, when the communication control unit 25 acquires audio data collected by the microphone 16, data input via the operation keys 15, or data stored in the storage unit 26 based on the control of the main control unit 20, These data are subjected to spread spectrum processing and transmitted to the base station via the antenna 25a.

  The communication control unit 25 transmits information indicating the radio wave state of the mobile phone 1 to the main control unit 20, and the main control unit 20 displays an icon indicating the radio wave state on the display 13 based on this information.

  The storage unit 26 is used when processing performed by the main control unit 20 is performed when a ROM (Read Only Memory), a hard disk, a non-volatile memory, or the main control unit 20 stores processing programs and data necessary for the processing. RAM (Random Access Memory) that temporarily stores data to be stored. In addition, it is assumed that a processing program when the main control unit 20 performs brightness adjustment processing described later is stored in, for example, a ROM.

  When the timer unit 27 receives a signal for starting the timer from the main control unit 20, the timer unit 27 measures the elapsed time, and outputs a signal indicating that the timer has ended based on the elapse of a predetermined time. Send to. The predetermined time at this time may be preset and stored in the timer unit 27, for example, or the signal from the main control unit 20 may include information on the predetermined time.

  The mobile phone 1 uses an organic EL display capable of displaying a screen with high brightness as the display 13. However, on the other hand, since the organic EL element gradually decreases in luminance due to light emission due to voltage application, a phenomenon called “burn-in” occurs in an organic EL display that has been used for a long time due to the element having deteriorated luminance. There are drawbacks. Image sticking is a phenomenon that occurs as a result of an increase in the luminance difference between an element that emits light for a long time and a light emitting element that forms the periphery of the element.

  Further, in the cellular phone 1, in order to save power of the display 13 and prevent deterioration of the display 13, when the user does not operate for a certain period of time, the brightness is lower than the highest brightness all-light mode than the all-light mode. It is designed to shift from the low light mode to the extinguishing mode when the user does not operate for a certain time in the low light mode. Therefore, the cellular phone 1 according to the first embodiment thins the display screen while it is set to the low light mode, thereby further reducing power consumption and preventing image burn-in and deterioration. .

FIG. 4 shows a normal screen displayed on the display 13. FIG. 5 shows a screen obtained by thinning the display screen in a grid, FIG. 6 shows a screen obtained by thinning the display screen in a horizontal line, and FIG. 7 shows a screen obtained by thinning the display screen in a vertical line. As described above, when it is not necessary to display a high-quality image on the display 13 (for example, when the display 13 is set to the low light mode), the mobile phone 1 displays the display screen of the display 13 with the display contents. The display control process is performed to display the image so as to be confirmed by the user. (In FIGS. 5 to 7, thinning is performed for a plurality of pixels or a plurality of lines for easy understanding. However, thinning may be performed for one pixel or one line.)
In addition, it is possible to reduce the number of pixels used for display by thinning and displaying specific pixels on the display screen. However, if the same pixels are always thinned and displayed, pixels that are lit each time and pixels that are not lit each time are displayed. There will be a difference in service life between them. Therefore, by replacing the thinning pattern (arrangement pattern of thinning elements and non-thinning elements) every time the light mode is shifted, each pixel on the display 13 is thinned evenly. Lifetime can be kept even.

  When the display 13 is set to the low light mode, the mobile phone 1 according to the first embodiment performs a display control process for thinning and displaying the display screen of the display 13. A procedure for the mobile phone 1 of the first embodiment to perform the display control process will be described based on the flowchart shown in FIG. An example of displaying a screen thinned out in a lattice shape as shown in FIG. 5 will be described. Hereinafter, for example, “step S101” is described as “S101”, and the term “step” is omitted.

  The mobile phone 1 is designed so that when the user does not perform an operation for a predetermined time (for example, 10 seconds) when the display 13 is in the full light mode, the display 13 is timed out and the display 13 is switched from the full light mode to the low light mode. ing. Therefore, the main control unit 20 determines whether or not a timeout has occurred due to no operation (S101). If no timeout has occurred due to no operation (No in S101), the main control unit 20 stands by as it is. When a time-out occurs due to no operation (Yes in S101), the main control unit 20 sets the display 13 of the mobile phone 1 to the low light mode (S103).

  When the display 13 of the mobile phone 1 is switched from the full-light mode to the low-light mode, the display screen of the display 13 becomes dark, so that it is not necessary to perform high-quality display on the display 13. Therefore, when the display 13 is set to the low light mode, the display screen on the display 13 is thinned and displayed.

  The main control unit 20 determines whether the previous thinning pattern is the pattern 1 or the pattern 2 (S105). That is, for example, two kinds of patterns, pattern 1 and pattern 2, are prepared for each thinning pattern, and pattern 2 is a pattern in which the thinning position of pattern 1 is reversed (the part that is turned on in pattern 1 is turned off). In addition, a pattern in which the part that was turned off is turned on). For example, if the thinning pattern on the display screen shown in FIG. 9A is pattern 1, the thinning pattern on the display screen shown in FIG.

  If the previous thinning pattern is pattern 1 (Yes in S105), the main control unit 20 sets the thinning pattern to pattern 2 and thins it for display (S107). If the previous thinning pattern is pattern 2 (No in S105), the main control unit 20 sets the thinning pattern to pattern 1 and displays the thinned pattern (S109).

  In this way, the mobile phone 1 includes the organic EL display as the display 13 and displays a display screen in which specific pixels are thinned out on the display 13 when the display 13 shifts from the full-light mode to the low-light mode. At this time, by inverting the thinning pattern every time the mode is changed to the low light mode, it is possible to prevent only specific pixels of the display 13 from being deteriorated.

  Further, when setting the display 13 to the low light mode, the mobile phone 1 may display the thinned display screen on the display 13 and then alternately switch the thinning pattern of the pattern 1 and the pattern 2 every predetermined time. . The display control process at this time will be described based on the flowchart shown in FIG.

  As in step S101, the main control unit 20 determines whether or not a timeout has occurred due to no operation (S201). If no timeout has occurred due to no operation (No in S201), the main control unit 20 stands by as it is. When a time-out occurs due to no operation (Yes in S201), the main control unit 20 sets the display 13 of the mobile phone 1 to the low light mode (S203).

  While the display 13 of the mobile phone 1 is set to the low light mode, the display screen of the display 13 is displayed in a dark state. Even if the pattern is switched, the user is unlikely to feel uncomfortable. Therefore, when the display 13 is set to the low light mode, the display screen on the display 13 is thinned and displayed, and the thinning pattern is switched and displayed every predetermined time.

  The main control unit 20 starts a thinning pattern switching timer for switching the thinning pattern (S205). That is, the main control unit 20 transmits a signal for starting a timer to the timer unit 27. While the display 13 is set to the low light mode, the thinning pattern is switched based on this timer.

  The main control unit 20 determines whether or not the previous thinning pattern is the pattern 2 (S207). When the previous thinning pattern is pattern 1 as shown in FIG. 9A (No in S207), the main control unit 20 sets the thinning pattern of the display 13 to pattern 1 and displays the thinned pattern (FIG. 9A). S209). When the previous thinning pattern is pattern 1 (Yes in S207), the main control unit 20 sets the thinning pattern of the display 13 to pattern 2 and displays the thinned pattern (S211).

  The main control unit 20 determines whether or not the low light mode of the display 13 is continued (S213). The low light mode of the display 13 is, for example, a state in which the user moves to the full light mode by operating the mobile phone 1 or the user does not operate the mobile phone 1 after the display 13 enters the low light mode. When the display 13 shifts to the extinguishing mode due to the continuous operation, the low light mode is terminated. For these reasons, when the low light mode of the display 13 is ended (No in S213), the main control unit 20 ends the display control process.

  When the low light mode of the display 13 is continued (Yes in S213), the main control unit 20 determines whether or not the thinning pattern switching timer activated in step S205 has ended (S215). At this time, the main control unit 20 determines that the thinning pattern switching timer has ended based on the reception of a signal indicating that the timer has ended from the timer unit 27.

  When the thinning pattern switching timer has not expired (No in S215), the process returns to step S213, and the main control unit 20 determines whether or not the low light mode is continued. When the thinning pattern switching timer has ended (Yes in S215), the main control unit 20 restarts the thinning pattern switching timer (S217). That is, the main control unit 20 transmits a signal for starting the timer again to the timer unit 27. Then, returning to step S207, the main control unit 20 switches the thinning pattern of the display 13 again.

  As described above, the mobile phone 1 includes the organic EL display as the display 13, and when the display 13 is set to the low light mode due to no operation, a display screen in which specific pixels are thinned out on the display 13 is displayed. Is displayed. The mobile phone 1 keeps the lighting time of each pixel of the display 13 even by switching the thinning pattern at that time at regular intervals.

  It should be noted that thinning out the specific pixels of the display 13 is not limited to the low light mode, and a scene that does not require high-definition display may be defined in advance and thinned out in this scene. At that time, a thinning process may be performed on a part of the screen. For example, while the mobile phone 1 is viewing a TV or a video, the display 13 does not shift to the low light mode, but the user is gazing at the video part, so other parts other than the video part (information It is considered that the display portion and the skin portion) may be subjected to thinning processing every certain time.

  Further, thinning may be performed when the character size is larger than a predetermined size according to the character size of the displayed character. That is, when the character size is small, there is a possibility that the character cannot be recognized by the thinning process. Therefore, a character size threshold may be set, and the thinning process may be performed only when the character size is larger than a certain size.

  According to the first embodiment, an organic EL display is provided as the display 13, and the lighting time of each element of the organic EL display is equalized, thereby suppressing power consumption and reducing deterioration of specific elements in the organic EL display. It is possible to prevent and improve the degree of freedom of display.

  In addition, according to the first embodiment, when the display 13 is set to the thinning mode at the timing when the display 13 is set to the low-light mode, when the display 13 is set to the thinning mode, the user does not feel uncomfortable. It becomes possible to operate.

[Second Embodiment]
A second embodiment of the cellular phone according to the present invention will be described with reference to FIGS. In addition, the same code | symbol is attached | subjected to the structure same as 1st Embodiment, and the overlapping description is abbreviate | omitted. As shown in FIGS. 1 and 2, the mobile phone 1 </ b> A of the second embodiment has the same configuration as the mobile phone 1 of the first embodiment. Further, as shown in FIG. 3, the mobile phone 1 </ b> A of the second embodiment is similar to the mobile phone 1 of the first embodiment, as shown in FIG. 3, the main control unit 20, the power supply circuit unit 21, the operation input control unit 22, and the display control unit 23. The voice control unit 24, the communication control unit 25, the storage unit 26, and the timer unit 27 are configured to be communicable with each other via a bus.

  When an organic EL display is used as the display 13 of the mobile phone 1A, the organic EL display has a drive life due to baking, and thus it is necessary to devise measures to prevent the display 13 from deteriorating. In particular, in the mobile phone 1A, there is a display area in which icons indicating radio wave reception sensitivity, remaining battery power, and the like are constantly displayed, and an element that emits light with high luminance is fixed. In comparison with this, the luminance is more likely to deteriorate.

  Therefore, in the cellular phone 1A, the same image is displayed with the display area shifted, or the same image is displayed with the luminance reversed, thereby preventing the same element from being lit for a long time and the light emission time of each element. To distribute.

  For example, FIG. 11A shows an icon indicating radio wave reception sensitivity. When this icon is displayed on the display 13, as shown in FIG. 11B, the same image is displayed by shifting the display area, thereby preventing a specific element from being lit for a long time and emitting light from each element. Time can be distributed.

  FIG. 12A shows an icon indicating the remaining battery level of the mobile phone 1. When this icon is displayed on the display 13, as shown in FIG. 12B, the same image is displayed with the luminance reversed, thereby preventing a specific element from being lit for a long time and emitting light from each element. Time can be distributed.

  However, if the display image on the display 13 is changed in the mobile phone 1A as described above, the user is greatly discomforted. Therefore, if a limit value is set for the cumulative element emission time, and the element emits light longer than this limit value, the icon display area will be shifted when switching to the next low light mode and extinguishing mode. Or brightness deterioration reduction processing such as reversing the brightness of the icon. At the same time, the accumulated time of element light emission is reset. As a result, the accumulated time of light emission of the element is reset, and as a result of the luminance deterioration reduction process, light is emitted for the time determined by the limit value even in the element that newly emitted light. By repeating this, it is possible to disperse the luminance degradation and execute the processing without giving the user a sense of incongruity.

  A procedure for performing display control processing for reducing deterioration of the display 13 while the display 13 is set to the low light mode in the mobile phone 1A of the second embodiment will be described based on a flowchart shown in FIG. It is assumed that a timer indicating the light emission limit of the display 13 is activated in the mobile phone 1A (S301). In the mobile phone 1A, while the display 13 is set to the low light mode, processing for reducing deterioration of the display 13 is performed based on the timer of the light emission limit.

  The mobile phone 1 is designed to time out in the low light mode when the user does not perform an operation for a predetermined time (for example, 10 seconds) in the all-light mode of the display 13. The main control unit 20 determines whether or not a time-out occurs in the low light mode without any operation (S303). At this time, it is determined that a time-out has occurred by receiving a signal indicating that the timer has expired from the timer unit 27. If no time-out has occurred in the low light mode due to no operation (No in S303), the main control unit 20 waits as it is.

  When a time-out occurs due to no operation (Yes in S303), the main control unit 20 determines whether or not the timer activated in Step S301 has exceeded the light emission limit value (S305). When the timer exceeds the light emission limit value (Yes in S305), the main control unit 20 sets the display 13 to the low light mode, performs the deterioration mitigation process, and sets the timer activated in step S301. Reset once and start again (S307).

  Degradation reduction processing distributes the light emission time of each element by changing the display area, changing the element to be lit, or changing the element to be turned on and off by reversing the brightness. This is a process for reducing the drive deterioration of the display 13. For example, when the icon indicating the radio wave state is displayed in the state shown in FIG. 11A, the display area is moved as shown in FIG. For example, when the remaining battery level is displayed as shown in FIG. 12A, the luminance is inverted as shown in FIG.

  When the timer does not exceed the light emission limit value (No in S305), the main control unit 20 sets the display 13 to the low light mode (S309).

  The main control unit 20 determines whether or not the low light mode of the display 13 is continued (S311). The low light mode of the display 13 is, for example, a state in which the user moves to the full light mode by operating the mobile phone 1 or the user does not operate the mobile phone 1 after the display 13 enters the low light mode. When the display 13 shifts to the extinguishing mode due to the continuous operation, the low light mode is terminated. For these reasons, when the low light mode of the display 13 is ended (No in S311), the process returns to step S303, and the main control unit 20 determines again whether or not the low light mode has timed out without any operation. .

  When the low light mode of the display 13 is continued (Yes in S311), the main control unit 20 determines whether or not the light-out mode has timed out due to no operation (S313). At this time, the main control unit 20 determines that the timer has ended based on the reception of a signal indicating that the timer has ended from the timer unit 27. The cellular phone 1 is designed to time out to the extinguishing mode if the user does not perform an operation for a predetermined time (for example, 10 seconds) in the low light mode of the display 13.

  When the time-out mode has not timed out due to no operation (No in S313), the process returns to Step S311 and the main control unit 20 determines whether or not the low light mode is continued. If the time-out mode has been timed out due to no operation (Yes in S313), the main control unit 20 determines whether or not the emission limit timer activated in Step S301 or S307 has exceeded the emission limit value (S315). . This determination is performed in the same procedure as in step S305.

  When the timer has exceeded the light emission limit value (Yes in S315), the main control unit 20 sets the display 13 to the extinguishing mode, performs the deterioration reduction process similarly to Step S307, and in Step S301 or S307 The started timer is reset once and started again (S317).

  When the timer does not exceed the light emission limit value (No in S315), the main control unit 20 sets the display 13 to the extinguishing mode (S319). Then, the main control unit 20 determines whether or not the extinguishing mode is continued (S321). The extinguishing mode of the display 13 is ended when, for example, the user operates the mobile phone 1 and shifts to the all-light mode.

  When the light-off mode is continued (Yes in S321), the main control unit 20 ends the display control process for reducing the deterioration of the display 13. When the extinguishing mode is not continued (No in S321), that is, when the display 13 shifts to the all-light mode, the process returns to step S303 to determine again whether the display 13 has timed out to the low-light mode without any operation. .

  In this way, the mobile phone 1 includes the organic EL display as the display 13, and icons, etc. are always displayed when the display 13 shifts from the full light mode to the low light mode or from the low light mode to the off mode. The displayed contents are displayed by moving the display area or reversing the brightness to disperse the brightness deterioration between the elements of the display 13 and only the specific pixels of the display 13 are deteriorated. To prevent it.

  Further, by performing the luminance deterioration reduction process when switching from the full-light mode to the low-light mode or from the low-light mode to the extinguishing mode, the luminance deterioration reduction process can be performed without making the user feel uncomfortable.

  According to the second embodiment, an organic EL display is provided as the display 13, and the lighting time of each element of the organic EL display is made uniform, thereby suppressing power consumption and deteriorating specific elements in the organic EL display. It is possible to prevent and improve the degree of freedom of display.

  Further, according to the second embodiment, when the display mode is switched by switching the display mode of the display 13 at the timing when the display 13 is set to the low light mode or the extinguishing mode, the user can It becomes possible to operate without a sense of incongruity.

  As the description of the present invention, the mobile phone 1 and 1A have been described. However, the present invention is not limited to this, but PHS (Personal Handyphone System), PDA (Personal Digital Assistants), digital camera, video camera, portable audio device, portable video device, etc. Any electronic device provided with a display may be used.

(A) is a front view showing the opened state of the cellular phone according to the present invention, (B) is a side view showing the opened state of the cellular phone according to the present invention. (A) is a front view showing the closed state of the mobile phone according to the present invention, (B) is a side view showing the closed state of the mobile phone according to the present invention. 1 is a functional block diagram of a mobile phone according to the present invention. The screen figure which shows the normal display screen displayed on a display. The screen figure of a display screen at the time of performing a lattice-like thinning process on a display. The screen figure of a display screen at the time of performing the thinning process of a horizontal line shape in a display. The screen figure of a display screen at the time of performing the thinning process of a vertical line shape in a display. 5 is a flowchart showing a procedure when display control processing is performed in the mobile phone according to the first embodiment. (A) is a screen diagram of a display screen when pattern 1 thinning processing is performed on the display, and (B) is a screen diagram of a display screen when pattern 2 thinning processing is performed on the display. 5 is a flowchart showing a procedure when display control processing is performed in the mobile phone according to the first embodiment. (A) is a screen diagram when an icon indicating a radio wave state is displayed on the display, and (B) is a screen diagram when an icon indicating the radio wave state is displayed on the display with a display area shifted. (A) is a screen figure at the time of displaying the icon which shows a battery remaining charge on a display, (B) is a screen figure at the time of reversing the brightness | luminance and displaying the icon which shows a battery remaining charge on a display. The flowchart which shows the procedure at the time of performing a display control process in the mobile telephone of 2nd Embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Mobile phone, 10 ... Upper housing | casing, 11 ... Lower housing | casing, 12 ... Hinge part, 13 ... Display, 14 ... Speaker, 15 ... Operation key, 16 ... Microphone, 20 ... Main control part, 21 ... Power supply circuit part , 22 ... operation input control section, 23 ... display control section, 24 ... voice control section, 25 ... communication control section, 25a ... antenna, 26 ... storage section, 27 ... timer section, 30 ... display screen, 40, 41 ... icon .

Claims (5)

A timer,
When the display display brightness is notified of the elapse of a predetermined time in at least the first mode or the no-operation state when the timer is set to the first mode, the second brightness lower than that in the first mode is displayed. Setting means for setting to any of the modes,
Display control means for thinning and displaying the display screen of the display when the display is set to the second mode by the setting means,
The display control means, when thinning and displaying a display screen, displays the thinning pattern obtained by inverting the thinning position of the last thinning pattern displayed last time.   The display control means reverses the first thinning pattern or the thinning position of the first thinning pattern at every elapse of a predetermined time while the display is set to the second mode by the setting means. 2. The mobile phone according to claim 1, wherein two thinning patterns are alternately switched and displayed. Display means for displaying a predetermined icon on the display;
Setting means for setting the display display luminance to at least one of the first mode and the second mode having a lower luminance than the first mode;
Display control means for moving the display position of the predetermined icon displayed by the display means,
The display control means is configured such that when the display is set to the second mode by the setting means and the light emission time of the display after the display position of the predetermined icon is moved exceeds a predetermined time. A mobile phone that moves the display position of the predetermined icon. Display means for displaying a predetermined icon on the display;
Display control means for inverting and displaying the brightness of the predetermined icon displayed by the display means,
The display control means reverses the luminance of the predetermined icon when the light emission time of the display after the luminance of the predetermined icon is reversed exceeds a predetermined time. Mobile phone. Setting means for setting the display from the first mode to a second mode having a lower luminance than the first mode;
5. The mobile phone according to claim 4, wherein the display control means reverses the brightness of the predetermined icon based on the setting of the display set to the second mode by the setting means.

Images