JP5861421B2 - Electronics - Google Patents

Description

  The present invention relates to an electronic device.

  Conventionally, an electronic device that is activated in an analysis mode (debug mode, maintenance mode) different from the normal mode is known (see, for example, Patent Document 1).

JP 2010-009454 A

However, when the analysis mode is activated by an operation, an operation using a hard key of the main body, an operation on another device connected by a USB, or the like is required. Accordingly, when a portable electronic device is activated in the analysis mode, problems such as securing a hard key space at the time of design or preparing other devices at the time of use arise. In addition, depending on the procedure to be activated in the analysis mode, there is a problem that the user has unintentionally activated in the analysis mode.
The present invention provides another device and an electronic device that is activated in the analysis mode without using a hard key of the main body, and that is not easily activated in the analysis mode if not intended.

In order to solve the above problem, an electronic device according to one embodiment of the present invention includes a display unit having a display screen, a detection unit that detects contact on the display screen, and after the power is turned on and before the startup of the device. A control unit that activates the device in a second activation mode different from the first activation mode that is activated when the predetermined contact state is not detected by the detection unit; The detection unit includes a first detection mode for detecting a contact / non-contact change at each position on the display screen, and a second detection for detecting a contact / non-contact distribution on the display screen. A detection mode, and the control unit may control the detection unit to detect the predetermined contact state in the second detection mode .

 In the electronic device, the control unit controls the detection unit to operate in the first detection mode and activates the device in the first activation mode, and controls the detection unit in the second activation mode. When starting up the device itself, the detection unit may be controlled to operate in the second detection mode.

In order to solve the above problem, an electronic device according to one embodiment of the present invention includes a display unit having a display screen, a detection unit that detects contact on the display screen, and after the power is turned on and before the startup of the device. A control unit that activates the device in a second activation mode different from the first activation mode that is activated when the predetermined contact state is not detected by the detection unit; The detection unit has a detection mode for detecting a contact / non-contact change at each position on the display screen, and the control unit is configured to detect the predetermined contact state in the detection mode. In addition, the detection unit may be controlled.

  In the electronic apparatus, the detection unit detects a contact / non-contact distribution on the display screen in addition to a first detection mode that is a detection mode for detecting the change of the contact / non-contact. The control unit further controls the detection unit to operate in the first detection mode when the device starts up in the first startup mode, and the second startup mode. When starting up the device itself, the detection unit may be controlled to operate in the second detection mode.

  In the electronic apparatus, the predetermined contact state may be a point-by-point contact on each of the divided areas divided into four parts on the top, bottom, left, and right of the display screen.

  According to the present invention, it is possible to provide another device and an electronic device that is activated in the analysis mode without using the hard key of the main body, and that is not easily activated in the analysis mode when not intended. it can.

It is an example of a schematic external view of the electronic device 1 by the 1st Embodiment of this invention, and a functional block diagram. It is explanatory drawing for demonstrating the determination timing of the starting mode of the control part. 3 is an example of a flowchart showing a flow of processing of the electronic device 1. It is explanatory drawing for demonstrating the contact to the display screen. It is an example of the flowchart which shows the flow of a process of the electronic device 2 by the 2nd Embodiment of this invention. It is an example of the flowchart which shows the flow of a process of the electronic device 3 by the 3rd Embodiment of this invention.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an example of a schematic external view (a) and a functional block diagram (b) of an electronic device 1 according to the first embodiment of the present invention. As illustrated in FIGS. 1A and 1B, the electronic device 1 includes a display unit 10, a detection unit 20, a control unit 30, and a power supply unit 90. The electronic device 1 includes a storage unit (not shown), operation buttons, and the like.

  The power supply unit 90 supplies power to each unit of the electronic device 1 according to the operation of the operation button. The control unit 30 activates the own device 1 and controls the other units during activation and after activation. Details of the control unit 30 will be described later.

  The display unit 10 includes (includes) a display screen (touch panel) 100 that receives an instruction from an operator. The display unit 10 starts up the display screen 100 by power supply from the power supply unit 90 and displays various information on the control unit 30 according to instructions.

  Note that areas 100-1, 100-2, 100-3, and 100-4 in FIG. 1A are divided areas that are divided into four parts on the display screen 100 in the vertical and horizontal directions for convenience. That is, each position on the display screen 100 belongs to one of the divided areas 100-1, 100-2, 100-3, and 100-4.

  The detection unit 20 includes a plurality of electrodes fed from the power supply unit 90. The plurality of electrodes correspond to each position on the display screen 100 and detect contact at each position on the display screen 100. That is, the detection unit 20 detects the presence or absence of contact at each position on the display screen 100 based on the capacitance value of each electrode.

  The detection unit 20 has the following two detection modes (first detection mode / second detection mode) that are different in operation (detection mode). The detection mode of the detection unit 20 is controlled by the control unit 30.

(First detection mode)
In the first detection mode, a change in capacitance (signal in) is detected. That is, when operating in the first detection mode, the detection unit 20 detects a change in contact / non-contact at each position on the display screen 100. Therefore, for example, when a finger has been in contact with a certain position before the start of detection (before the start of the operation of the detection unit 20), the capacitance at the position is constant and does not change. Does not detect contact with the position. The first detection mode is a mode suitable for normal use because the processing load is less than that of the second detection mode.

(Second detection mode)
In the second detection mode, a capacitance state (capacitance waveform distribution state) is detected. That is, when operating in the second detection mode, the detection unit 20 detects a contact / non-contact distribution (current contact / non-contact) on the display screen 100. Therefore, for example, even when the finger continues to contact a certain position before the start of detection, the detection unit 20 detects contact with the position from the capacitance value at the position. The second detection mode has a larger processing load than the first detection mode, but is a mode suitable for analysis of the operation of the electric device 1 itself such as inspection of the display unit 10.

  The control unit 30 activates the own device 1 by power supply from the power supply unit 90. Specifically, the control unit 30 activates the device 1 in the first activation mode (normal mode) when there is no predetermined contact with the display screen 100 during activation of the device 1. When there is a predetermined contact, the device 1 is activated in the second activation mode (analysis mode). That is, the control unit 30 is activated when a predetermined contact state (described later) is detected by the detection unit 20 after the power is turned on and before the own device 1 is activated, when the predetermined contact state is not detected. The device 1 is activated in a second activation mode different from the first activation mode.

  Further, as described above, the detection mode of the detection unit 20 includes the first detection mode and the second detection mode. The control unit 30 is configured to detect a predetermined contact state in the second detection mode. The detection unit 20 is controlled.

  Therefore, even when the finger touches the display screen 100 for the first time after the power is turned on (specifically, after the start of detection), the control unit 30 displays the display screen before the power is turned on (specifically, before the detection is started) Even when the finger continues to contact 100, a notification that the state of contact has been detected is acquired from the detection unit 20.

  That is, the control unit 30 notifies at least one of a predetermined contact state formed (created) after power-on or a predetermined contact state formed and maintained before power-on by the detection unit 20. If recognized, the device 1 is activated in the second activation mode. On the other hand, the control part 30 starts the own apparatus 1 in the 1st starting mode, when none is recognized.

  Moreover, the control part 30 controls the detection mode of the detection part 20 according to the starting mode to start. Specifically, when starting up the device 1 in the first startup mode (normal mode), the control unit 30 operates in the first detection mode with a smaller processing load than the second detection mode. The detection unit 20 is controlled. That is, the control unit 30 switches the detection mode of the detection unit 20 from the second detection mode to the first detection mode. On the other hand, when starting the own device 1 in the second startup mode (analysis mode), the control unit 30 causes the detection unit 20 to operate in the second detection mode suitable for analyzing the operation of the own device 1. Control.

FIG. 2 is an explanatory diagram for explaining the determination timing of the activation mode of the control unit 30. In FIG. 2, time T ₁ is the power-on time of the own device 1, time T ₂ is the start time of the start mode selection time, time T ₃ is the end time of the start mode selection time, and time T ₄ is the start of the own device 1. Represents the start time. The activation mode selection time is a predetermined time for the operator to select the activation mode.

Time from time T ₁ to time T ₂ is a preparation time for the activation mode selection time. At the time, the display screen 100 is started up, the detection mode of the detection unit 20 is set, and the like. For example, the control unit 30 sets the detection mode of the detection unit 20 to the second detection mode.

The time from time T ₂ to time T ₃ is the activation mode selection time.
The detection unit 20 detects contact with the display screen 100 in the second detection mode in which the capacitance state can be detected at the time. Moreover, the control part 30 determines the starting mode which starts the own apparatus 1 in the said time.
Specifically, after the time T _2, when the operator at the time T ₃ before a certain time T _Y of touches on the display screen 100 to a predetermined contact state detecting section 20, of the predetermined contact At the time of detection (time T _Y ), the predetermined contact state is detected and notified to the control unit 30. The control unit 30 determines the second activation mode as the activation mode for activating the device 1 upon detection (notification) by the detection unit 20.
Also, if the operator from the time T _2, before a certain time T _X of continues touching the display screen 100 so as to maintain a predetermined contact state detecting unit 20, the time T _2,, the predetermined contact Detect and notify the control unit 30. Control unit 30, the time T ₂ (notification time), determines a second activation mode as a start mode for starting the own device 1.
The control unit 30, in time to the time T _{2 ~} time T _3, (For notifications free) detector 20 may not detect a predetermined contact state, at time T _{2 ~} time T ₃ time After the elapse, the first activation mode is determined as the activation mode in which the device 1 is activated.

The time from time T ₃ to time T _{4 is} the time before the start-up of the device 1 after the start-up mode selection time ends. During the time, the control unit 30 does not recognize the predetermined contact state. For example, the control unit 30 controls the detection unit 20 to stop the detection operation, or ignores the notification from the detection unit 20 without stopping the detection operation of the detection unit 20. In the case where the notification from the detection unit 20 is ignored, the detection mode of the detection unit 20 is arbitrary, but the control unit 30 determines the first activation mode as the activation mode for activating the own device 1. If it is, the detection mode of the detection unit 20 may be controlled to be switched from the second detection mode to the first detection mode.

Time T ₄ after the time during activation of the self-device 1, and is the time after activation.
The control unit 30 determines the first activation mode as the activation mode for activating the device 1 during the activation mode selection time (that is, when the detection unit 20 has not detected a predetermined contact state). Activates the device 1 in the first activation mode.
Moreover, the control part 30 makes the detection mode of the detection part 20 a 1st detection mode, when starting the own apparatus 1 in a 1st start mode. That is, the control unit 30 controls the detection unit 20 to operate in the first detection mode when it is controlled to stop the detection operation of the detection unit 20 during the period from time T ₃ to time T _4. If the second detection mode is not switched to the first detection mode, the second detection mode may be switched to the first detection mode.

On the other hand, the control unit 30 determines the second activation mode as the activation mode for activating the device 1 at the activation mode selection time (that is, when the detection unit 20 has detected a predetermined contact state). First, the device 1 is activated in the second activation mode.
Moreover, the control part 30 makes the detection mode of the detection part 20 a 2nd detection mode, when starting the own apparatus 1 in a 2nd starting mode. That is, the control unit 30 controls the detection unit 20 to operate in the second detection mode when it is controlled to stop the detection operation of the detection unit 20 during the period from time T ₃ to time T _4. Control.

FIG. 2 is an example in which the control unit 30 determines the second activation mode as the activation mode for activating the device 1 at a predetermined time (activation mode selection time). After the elapse of time (for example, a certain time between time T ₃ and time T ₄ ), the second activation mode may be determined as the activation mode for activating the device 1. That is, when the detection unit 20 notifies that the predetermined contact state has been detected during the activation mode selection time, the control unit 30 sets the activation mode to activate the device 1 after the activation mode selection time has elapsed. The second activation mode may be determined, and the first activation mode may be determined as an activation mode for activating the device 1 when not notified.

  FIG. 3 is an example of a flowchart showing a processing flow of the electronic device 1. The flowchart shown in FIG. 3 starts when the power is turned on. The control unit 30 sets the detection mode of the detection unit 20 to the second detection mode (step S10). The control unit 30 determines whether or not a predetermined contact state on the display screen 100 has been detected by the detection unit 20 (step S20).

  In step S20, when it is determined that the predetermined contact state is not detected by the detection unit 20 (step S20: No), the control unit 30 determines whether or not the activation mode selection time has ended (elapsed) ( Step S40). In step S40, when it is determined that the activation mode selection time has not ended (step S40: No), the control unit 30 returns to step S20.

  On the other hand, in step S20, when the control unit 30 determines that the predetermined contact state has been detected by the detection unit 20 (step S20: Yes), the control unit 30 determines the second activation mode as the activation mode for activating the device 1 itself. (Step S30). Subsequent to step S30, the control unit 30 determines whether the activation mode selection time has ended (elapsed) (step S42). In step S42, when the control unit 30 determines that the activation mode selection time has not ended (step S42: No), the control unit 30 returns to step S42.

  In step S40, the control unit 30 determines that the activation mode selection time has ended (step S40: Yes), that is, determines that the predetermined contact state is not detected by the detection unit 20 in the activation mode selection time. The control unit 30 determines the first activation mode as the activation mode for activating the own device 1 (step S50). Subsequent to step S50, the control unit 30 performs control so that the detection mode of the detection unit 20 is switched from the second detection mode to the first detection mode (step S60). Subsequent to step S60, the control unit 30 activates the device 1 in the first activation mode (step S70). Then, the flowchart shown in FIG. 3 ends.

  In step S42, when the control unit 30 determines that the activation mode selection time has ended (step S42: Yes), the control unit 30 activates the device 1 in the second activation mode (step S90). Then, the flowchart shown in FIG. 3 ends.

  In the flowchart shown in FIG. 3, when the control unit 30 determines that the predetermined contact state is detected by the detection unit 20 (step S20: Yes), the second activation is performed as the activation mode for activating the device 1 itself. Although the mode is determined (step S30), the control unit 30 may determine the second start mode as the start mode for starting the own device 1 after the start mode selection time is over (step S42: Yes). Good. The same applies to the flowcharts (described later) shown in FIGS.

FIG. 4 is an explanatory diagram for explaining contact with the display screen 100. Specifically, the predetermined contact state detected by the detection unit 20 is, as shown in FIG. 4A, the divided areas 100-1, 100-2, 100-3, 100-4 of the display screen 100. Point-by-point contact. Circles A, B, C, and D shown in FIG. 4A represent contact positions.
That is, when the contact state shown in FIG. 4A is created by the operator during the activation mode selection time (for example, the operator enters each of the divided areas 100-1, 100-2, 100-3, and 100-4). In the case where the four fingers are simultaneously touched, the detection unit 20 detects the contact, and the control unit 30 recognizes the predetermined contact state by the notification from the detection unit 20.

FIG. 4B shows a state where the predetermined contact state is created within the activation mode selection time. FIG. 4C illustrates a state in which a predetermined contact state is created before the activation mode selection time and is maintained even during the activation mode selection time. FIG. 4D shows a state where a predetermined contact state has not been created.
As described above, the control unit 30 of the electronic device 1 according to the first embodiment controls the detection unit 20 so as to detect a predetermined contact state in the second detection mode. Therefore, since the detection unit 20 detects a contact in both the case of FIG. 4B and the case of FIG. 4C, the control unit 30 is not illustrated in FIG. 4B. Even in the case of 4 (c), it recognizes that it is in a predetermined contact state, and activates its own device 1 in the second activation mode. On the other hand, the control unit 30 does not recognize the predetermined contact state in the case of FIG. 4D, and activates the device 1 in the first activation mode.

(Second Embodiment)
Hereinafter, a second embodiment of the present invention will be described. The electronic device 2 according to the second embodiment of the present invention includes a display unit 10, a detection unit 21, a control unit 31, and a power supply unit 90. The electronic device 2 includes a storage unit, operation buttons, and the like. That is, the electronic device 2 is different in that the electronic device 2 includes a detection unit 21 and a control unit 31 instead of the detection unit 20 and the control unit 30 included in the electronic device 1 according to the first embodiment. Hereinafter, the difference part will be described.

  The detection unit 21 has the first detection mode in the detection unit 20 of the electronic device 1 according to the first embodiment, and does not have the second detection mode in the detection unit 20. That is, the detection unit 21 detects a change in contact / non-contact at each position on the display screen 100. Therefore, the detection unit 21 detects the contact when the finger first contacts the display screen 100 after the power is turned on (specifically, after the detection is started), but before the power is turned on (specifically, before the detection is started). ) Does not detect the contact when the finger continues to touch the display screen 100 (for example, the detection unit 21 detects the contact of FIG. 4B, but does not detect the contact of FIG. 4C). do not do).

  Therefore, the control unit 31 activates the device 2 in the second activation mode when the predetermined contact state formed (made) after the power is turned on is recognized by the notification from the detection unit 21. On the other hand, the control part 31 starts the own apparatus 2 in the 1st starting mode, when not recognizing. Since the detection unit 21 has one detection mode as described above, the control unit 31 may not have a function of switching the detection mode of the detection unit 21.

  FIG. 5 is an example of a flowchart showing a processing flow of the electronic device 2. The flowchart shown in FIG. 5 starts when the power is turned on. The control unit 31 determines whether or not a predetermined contact state on the display screen 100 has been detected by the detection unit 21 (step S120).

  In step S120, when the control unit 31 determines that the predetermined contact state is not detected by the detection unit 21 (step S120: No), the control unit 31 determines whether the activation mode selection time has ended (elapsed) ( Step S140). In step S140, when the control unit 31 determines that the activation mode selection time has not ended (step S140: No), the control unit 31 returns to step S120.

  On the other hand, in step S120, when the control unit 31 determines that the predetermined contact state has been detected by the detection unit 21 (step S120: Yes), the control unit 31 determines the second activation mode as the activation mode for activating the device 2 itself. (Step S130). Subsequent to step S130, the control unit 31 determines whether the activation mode selection time has ended (elapsed) (step S142). In step S142, when the control unit 31 determines that the activation mode selection time has not ended (step S142: No), the control unit 31 returns to step S142.

  In step S140, when the control unit 31 determines that the activation mode selection time has ended (step S140: Yes), the control unit 31 determines the first activation mode as the activation mode for activating the own device 2 ( Step S150). Subsequent to step S150, the control unit 31 activates the own device 2 in the first activation mode (step S170). Then, the flowchart shown in FIG. 5 ends.

  In step S142, when the control unit 31 determines that the activation mode selection time has ended (step S142: Yes), the control unit 31 activates the device 2 in the second activation mode (step S190). Then, the flowchart shown in FIG. 5 ends.

(Third embodiment)
Hereinafter, a third embodiment of the present invention will be described. The electronic device 3 according to the third embodiment of the present invention includes a display unit 10, a detection unit 20, a control unit 32, and a power supply unit 90. The electronic device 3 includes a storage unit, operation buttons, and the like. That is, the electronic device 3 is different in that the electronic device 3 includes a control unit 32 instead of the control unit 30 included in the electronic device 1 according to the first embodiment. Hereinafter, the difference part will be described.

  As described above, the detection mode of the detection unit 20 includes the first detection mode and the second detection mode. The control unit 32 detects the predetermined contact state in the first detection mode. 20 is controlled. Therefore, the detection unit 20 detects the contact when the finger first touches the display screen 100 after the power is turned on (specifically, after the detection is started), but before the power is turned on (specifically, before the detection is started). ) Does not detect the contact when the finger continues to touch the display screen 100 (for example, the detection unit 20 detects the contact of FIG. 4B, but does not detect the contact of FIG. 4C). do not do).

  That is, the control unit 32 activates the own device 3 in the second activation mode when the predetermined contact state formed (made) after power-on is recognized by the notification from the detection unit 20. On the other hand, the control part 32 starts the own apparatus 3 in 1st starting mode, when not recognizing.

  Moreover, the control part 32 controls the detection part 20 so that it may operate | move in a 1st detection mode, when starting the own apparatus 3 in a 1st start mode. On the other hand, when starting the own device 3 in the second startup mode, the control unit 32 controls the detection unit 20 to operate in the second detection mode suitable for analyzing the operation of the own device 3. That is, the control unit 32 switches the detection mode of the detection unit 20 from the first detection mode to the second detection mode.

  FIG. 6 is an example of a flowchart showing a processing flow of the electronic device 3. The flowchart shown in FIG. 6 starts when the power is turned on. The control unit 32 sets the detection mode of the detection unit 20 to the first detection mode (step S210). The control unit 32 determines whether or not a predetermined contact state on the display screen 100 has been detected by the detection unit 20 (step S220).

  In step S220, when the control unit 32 determines that the predetermined contact state is not detected by the detection unit 20 (step S220: No), the control unit 32 determines whether the activation mode selection time has ended (elapsed) ( Step S240). In step S240, when the control unit 32 determines that the activation mode selection time has not ended (step S240: No), the control unit 32 returns to step S220.

  On the other hand, in step S220, when the control unit 32 determines that the predetermined contact state is detected by the detection unit 20 (step S220: Yes), the control unit 32 determines the second activation mode as the activation mode for activating the device 3 itself. (Step S230). Subsequent to step S230, the control unit 32 determines whether the activation mode selection time has ended (elapsed) (step S242). In step S242, when the control unit 32 determines that the activation mode selection time has not ended (step S242: No), the control unit 32 returns to step S242.

  In step S240, when the control unit 32 determines that the activation mode selection time has ended (step S240: Yes), the control unit 32 determines the first activation mode as the activation mode for activating the own device 3 ( Step S250). Subsequent to step S250, the control unit 32 activates the device 3 in the first activation mode (step S270). Then, the flowchart shown in FIG. 6 ends.

  In step S242, when the control unit 32 determines that the activation mode selection time has ended (step S242: Yes), the control unit 32 changes the detection mode of the detection unit 20 from the first detection mode to the second detection mode. Control is performed to switch to (step S280). Subsequent to step S280, the control unit 32 activates the own device 3 in the second activation mode (step S290). Then, the flowchart shown in FIG. 6 ends.

  The electronic devices 1, 2, and 3 according to the embodiments of the present invention have been described above. The predetermined contact state is the contact state shown in FIG. It is not limited to a point-by-point contact state on the divided areas 100-1, 100-2, 100-3, and 100-4. The predetermined contact state is not limited to that illustrated in FIG. 4A, but may be a contact state that is formed only by an intended operator and that is not easily formed by an unintended operator.

  As described above, the electronic devices 1, 2, and 3 according to the embodiment of the present invention are activated in the analysis mode (second activation mode) by touching the display screen 100 without using other devices and the hard keys of the main body. It is possible. On the other hand, when the electronic devices 1, 2, and 3 are activated in the analysis mode, a display is made so that the contact state is formed only by the intended operator and is hardly accidentally formed by the unintended operator. Since it is necessary to touch the screen 100, it is not easily activated in the analysis mode if the operator does not intend.

  Note that a program for executing the processing of the motion recognition unit 30 of the electronic devices 1, 2, and 3 according to the embodiment of the present invention is recorded on a computer-readable recording medium, and the program recorded on the recording medium is stored in the computer. The above-described various processes relating to the electronic devices 1, 2, and 3 according to the embodiments of the present invention may be performed by being read and executed by the system. Here, the “computer system” may include an OS and hardware such as peripheral devices. Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used. The “computer-readable recording medium” refers to a floppy (registered trademark) disk, a magneto-optical disk, an SD card, a writable nonvolatile memory such as a flash memory, a portable medium such as a CD-ROM, and a computer system. A built-in storage device such as a hard disk.

  Further, the “computer-readable recording medium” means a volatile memory (for example, DRAM (Dynamic DRAM) in a computer system that becomes a server or a client when a program is transmitted through a network such as the Internet or a communication line such as a telephone line. Random Access Memory)), etc., which hold programs for a certain period of time. The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.

1, 2, 3 ... Electronic equipment, 10 ... Display unit, 20, 21 ... Detection unit, 30, 31, 32 ... Control unit, 90 ... Power supply unit, 100 ... Display screen

Claims (5)

A display unit having a display screen;
A detection unit for detecting contact on the display screen;
A second activation different from the first activation mode that is activated when the predetermined contact state is not detected when the detection unit detects the predetermined contact state after the power is turned on and before the activation of the device itself. A control unit that activates the device in a mode;
Equipped with a,
The detector is
A first detection mode for detecting a contact / non-contact change at each position on the display screen; and a second detection mode for detecting a contact / non-contact distribution on the display screen;
The controller is
The detection unit is controlled to detect the predetermined contact state in the second detection mode.
Electronics. The electronic device according to claim 1 ,
The controller is
When starting the own device in the first start mode, control the detection unit to operate in the first detection mode,
When the device is activated in the second activation mode, the detection unit is controlled to operate in the second detection mode.
Electronics. A display unit having a display screen;
A detection unit for detecting contact on the display screen;
A second activation different from the first activation mode that is activated when the predetermined contact state is not detected when the detection unit detects the predetermined contact state after the power is turned on and before the activation of the device itself. A control unit that activates the device in a mode;
With
The detector is
A detection mode for detecting a contact / non-contact change at each position on the display screen;
The controller is
The detection unit is controlled to detect the predetermined contact state in the detection mode.
Electronics. The electronic device according to claim 3 ,
The detector is
In addition to the first detection mode, which is a detection mode for detecting a change in contact / non-contact, a second detection mode for detecting a contact / non-contact distribution on the display screen is further provided,
The controller is
When starting the own device in the first start mode, control the detection unit to operate in the first detection mode,
When the device is activated in the second activation mode, the detection unit is controlled to operate in the second detection mode.
Electronics. The electronic device according to any one of claims 1 to 4,
The predetermined contact state is:
It is a point-by-point contact on each of the divided areas divided into four on the top, bottom, left and right of the display screen
Electronics.

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