JP2011100486A - Electronic apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve input control for a coordinate input device matched with a user and to improve the operability of the coordinate input device by dynamically setting a specific area for invalidating coordinate data input by the coordinate input device. <P>SOLUTION: A personal computer includes a touch pad 16 for inputting coordinate data. A utility 113b executes setting processing for setting an invalidating range for invalidating coordinate data input by the touch pad 16. A driver 113c determines whether the coordinate data input by the touch pad 16 is included within the invalidating range set by the setting processing. An OS 113a executes processing corresponding to the coordinate data determined as valid coordinate data by the driver 113c. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an electronic device provided with a coordinate input device such as a touch pad.

  Generally, in a notebook personal computer, a touch pad is provided as a coordinate input device on the upper surface of a main body housing as a pointing device. Usually, the touchpad is arranged at the approximate center on the front side of the keyboard. The touchpad can be expected to improve usability by expanding the area, but its size is limited because it needs to be placed in a position that does not hinder key input. If the area of the touch pad is enlarged, it becomes easy for a hand to touch the touch pad unintentionally when inputting a key to the keyboard. In this case, processing unintended by the user is executed in response to an input from the touch pad, resulting in a decrease in operability. For example, when the touchpad is touched during key input, the pointer (mouse cursor) on the screen may be moved to move the character input position.

  In a conventional personal computer, in order to deal with a case where the touch pad is touched unintentionally, for example, input from the touch pad is invalidated during key input. Thereby, even if the touchpad is touched unintentionally, the cursor is prevented from moving unexpectedly during key input (see, for example, Patent Document 1).

Japanese Patent Laid-Open No. 10-133796

  As described above, in the conventional personal computer, the entire touch pad is invalidated during key input, so that processing unintended by the user is not executed even if the touch pad is touched during key input.

  However, in the conventional control on the touch pad, the entire touch pad is invalidated during key input, and thus the user cannot intentionally use the pointing function while inputting keys. For example, during key input, operations such as click, double click, drag and drop using the touch pad cannot be executed, and operability using the touch pad cannot be used effectively.

  The present invention has been made in consideration of the above-described circumstances, and by allowing a specific area to invalidate coordinate data input by a coordinate input device to be dynamically set, coordinate input tailored to the user can be performed. An object of the present invention is to provide an electronic device capable of improving the operability by realizing input control on the apparatus.

  In order to solve the above-described problem, the present invention provides a coordinate input device that inputs coordinate data, and a wider first contact range than the preset first contact range based on the coordinate data input by the coordinate input device. A range detection unit for detecting the contact range of 2 and an invalidation range for invalidating the coordinate data input by the coordinate input device based on the second contact range detected by the range detection unit Setting means for performing, when the coordinate data input by the coordinate input device is within the invalidation range, processing means for executing processing for invalidating the coordinate data, and invalidation by the invalidation range setting means And a setting canceling means for canceling the setting of the invalidation range when a predetermined time has elapsed since the range was set.

  According to the present invention, it is possible to dynamically set a specific area that invalidates the coordinate data input by the coordinate input device, thereby realizing input control of the touch pad according to the user and improving operability. It becomes possible to improve.

The perspective view in the state where the display unit of personal computer 10 in this embodiment was opened. The block diagram which shows the system configuration | structure of the computer main body 11 in this embodiment. The top view which shows the upper surface of the computer main body 11 in this embodiment. The figure which shows an example of the invalidation range indicator 19 in this embodiment. The block diagram related to the input control of the touchpad 16 in the personal computer 10 of this embodiment. The flowchart which shows the setting operation | movement of the touchpad control data 113d by the utility 113b in this embodiment. The figure which shows an example of the touchpad setting screen in this embodiment. The figure which shows an example of the setting screen of the invalidation range setting process in this embodiment. The figure which shows an example of the range in which the input of the coordinate data with respect to the touchpad 16 in this embodiment is effective. The flowchart which shows the invalidation range setting process in this embodiment. The figure which shows the example of a display in the invalidation range setting process in this embodiment. The figure which shows an example of the coordinate data group (contact range) input in order to register the contact pattern in this embodiment. The figure for demonstrating calculation of the contact pattern in this embodiment. The figure which shows the position of the hand in the case of performing key input with respect to the keyboard 13. The figure which shows an example of the invalidation range which is set when a hand is placed as shown in FIG. The flowchart shown about the touchpad control process by the driver 113c in this embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
First, the configuration of an electronic device according to an embodiment of the present invention will be described with reference to FIGS. This electronic device is realized as a notebook personal computer 10 that can be driven by a battery.

  FIG. 1 is a perspective view of the personal computer 10 with the display unit opened. The computer (electronic device) 10 includes a computer main body (electronic device main body) 11 and a display unit 12. The display unit 12 incorporates a display device composed of an LCD (Liquid Crystal Display) 17, and the display screen of the LCD 17 is positioned substantially at the center of the display unit 12.

  The display unit 12 is attached to the computer main body 11 by hinges 18A and 18B so as to be rotatable between an open position and a closed position.

  The computer main body 11 has a thin box-shaped housing. A keyboard 13, a power button switch 14 for turning on / off the computer 10, an input operation panel 15, a touch pad 16, an invalidation range indicator 19, and the like are disposed on the upper surface of the computer main body 11. The input operation panel 15 is an input device for inputting an event corresponding to a pressed button switch, and includes a plurality of button switches for activating a plurality of functions.

  In the personal computer 10 according to the present embodiment, the touch pad 16 is disposed in a range called a palm rest, on the front side of the keyboard 13 on the upper surface of the computer main body 11. The touch pad 16 is usually a pointing device that inputs coordinate data by a user touching with a fingertip. In the example shown in FIG. 1, the touch pad 16 has a size that is substantially the same as the horizontal width of the upper surface of the computer main body 11.

  In FIG. 1, the touch pad 16 has almost the same size as the horizontal width of the upper surface of the computer main body 11. However, the touch pad 16 may be configured in any size and disposed in any position regardless of the home position of the keyboard 13. it can. For example, when the user places his / her hand at the home position with respect to the keyboard 13, the size of the range including the position of the hand can be configured. In the personal computer 10 according to the present embodiment, even if the touch pad 16 is disposed at a position where the user places his / her hand when inputting a key, the coordinate data input in the range where the hand is placed is invalidated (disabled). The range can be set. Therefore, even if a hand is placed on the palm rest (touch pad 16) at the time of key input, it is possible to prevent input of coordinate data not intended by the user.

  Therefore, when the area of the upper surface of the computer main body 11 is small because the personal computer 10 is small, even if the touch pad 16 cannot be disposed avoiding the position where the hand is placed due to the design of the personal computer 10, it is satisfactory. A touch pad 16 of a size that can ensure operability can be provided.

  The invalidation range indicator 19 is an elongated display device arranged along the horizontal width direction of the touch pad 16. When the invalidation range is set for the touch pad 16, the invalidation range indicator 19 performs a display for clearly indicating the invalidation range to the user. Details will be described later (see FIGS. 3 and 4).

  FIG. 2 is a block diagram showing a system configuration of the computer main body 11. The computer main body 11 includes a CPU 111, a north bridge 112, a main memory 113, a graphics controller 114, and a south bridge 115. The computer main body 11 also includes a BIOS-ROM 120, a hard disk drive (HDD) 130, an optical disk drive (ODD) 140, a sound controller 150, an embedded controller / keyboard controller IC (EC / KBC) 160, a power supply circuit 170, and an LED controller 180. Have.

  The CPU 111 is a processor that controls the operation of the computer 10. The CPU 111 executes an operating system (OS) 113a that is loaded from a boot device, for example, the HDD 130, into the main memory 113. The CPU 111 executes various application programs. The CPU 111 also executes a system BIOS (Basic Input Output System) stored in the BIOS-ROM 120. The system BIOS is a program for hardware control.

  In the personal computer 10 of the present embodiment, a utility 113b for performing input control on the touch pad 16 is prepared. The utility 113b sets touch pad control data 113d for controlling the input of the touch pad 16. In the touch pad control data 113d, for example, whether or not the invalidation range set for the touch pad 16 is linked to key input to the keyboard 13, whether the invalidation range of the touch pad 16 is the entire touch pad 16, touch Either a part of the pad 16 or a part touched by other than the input operation is set. The driver 113c performs input control on the touch pad 16 according to the touch pad control data 113d set by the utility 113b.

  The north bridge 112 is a bridge device that connects the local bus of the CPU 111 and the south bridge 115. The north bridge 112 also includes a memory controller that controls access to the main memory 113. The north bridge 112 also has a function of executing communication with the graphics controller 114 via an AGP (Accelerated Graphics Port) bus or the like.

  The graphics controller 114 is a display controller that controls the LCD 17 used as a display monitor of the computer 10. The graphics controller 114 has a video memory (VRAM) 114a, and generates a video signal that forms a display image to be displayed on the LCD 17 from display data written in the VRAM 114a.

  The south bridge 115 controls access to the BIOS-ROM 120. The BIOS-ROM 120 is a rewritable nonvolatile memory such as a flash ROM. As described above, the BIOS-ROM 120 stores the system BIOS. The south bridge 115 controls disk drives (I / O devices) such as the HDD 130 and the ODD 140.

  The south bridge 115 controls each device on the LPC bus 3. The PCI bus 2 is used as a system bus.

  The HDD 130 is a storage device that stores various programs and data. The HDD 130 writes / reads data to / from a magnetic disk rotated by a motor. The HDD 130 stores programs such as an operating system (OS) and drivers in advance. The OS is executed by the CPU 111 by being loaded into the main memory 113 in accordance with the system BIOS stored in the BIOS-ROM 120. Also, other programs and data are loaded into the main memory 113 as necessary and executed by the CPU 111.

  The ODD 140 is a drive unit that rotates an optical disk such as a compact disk (CD) or a digital versatile disk (DVD) by a motor. The ODD 140 reads / writes data from / to the optical disc.

  The sound controller 150 performs control for outputting sound from the speaker 151. For example, the sound controller 150 outputs sound from the speaker 151 in accordance with input control to the touch pad 16.

  The EC / KBC 160 is a microcomputer in which an embedded controller for power management and a keyboard controller for controlling the keyboard (KB) 13 and the touch pad 16 are integrated on a single chip. The EC / KBC 160 has a power control function for turning on the computer 10 in response to the operation of the power button switch 14 by the user by operating in cooperation with the power circuit 170.

  The power supply circuit 170 generates a system power supply voltage to be applied to each element of the computer main body 11 using a DC power supply supplied via a rechargeable battery 171 or an AC adapter 172 as a high voltage power supply. The AC adapter 172 converts AC power into DC power.

  The LED controller 180 controls lighting (flashing) of the plurality of LEDs 181 used in the invalidation range indicator 19. The LED controller 180 turns on (flashes) the LED 181 in accordance with input control to the touch pad 16. In other words, by turning on (flashing) the LED 181 corresponding to the invalidation range set for the touch pad 16, the user can recognize the portion set as the invalidation range.

FIG. 3 is a plan view showing the upper surface of the computer main body 11.
As shown in FIG. 3, a keyboard 13 is arranged on the computer main body 11, and a touch pad 16 is arranged on the front side (user side) of the keyboard 13. The touch pad 16 is formed to have substantially the same size as the horizontal width of the computer main body 11 (the entire palm rest). Further, an invalidation range indicator 19 is disposed between the keyboard 13 and the touch pad 16 along the horizontal width direction of the touch pad 16. As shown in FIGS. 1 and 3, the touch pad 16 is not only provided on the entire palm rest, but may be configured with an arbitrary width such as 3/4 or 2/3 in the horizontal width direction. good.

  In the invalidation range indicator 19, for example, as shown in FIG. 4, a plurality of tubular members 19a are embedded on a straight line so as to be flush with the upper surface of the housing. The coordinate input surface of the touch pad 16 is virtually divided into a plurality of small areas. In FIG. 3, small areas are represented by broken lines. The tubular member 19a is arranged in association with each small area.

FIG. 4 shows a schematic configuration of the tubular member 19 a constituting the invalidation range indicator 19.
The tubular member 19a is a tubular translucent member, and LEDs 19b and 19c (LEDs 181) are embedded at both ends thereof. By turning on the LEDs 19b and 19c, light is irradiated from both ends of the tubular member 19a, and the entire tubular member 19a is turned on. The LEDs 19b and 19c can be turned on with different colors, so that the display color of the tubular member 19a can be changed according to the situation.

  The invalidation range indicator 19 lights up (flashes) the LEDs 19b and 19c of the tubular member 19a corresponding to the valid range of the touchpad 16 (the range not set as the invalidation range), whereby the coordinates on the touchpad 16 are displayed. Visually notify the user of areas where data can be entered. The tubular member 19a corresponding to the invalidation range may be turned on (flashing).

  In the configuration shown in FIG. 3, the invalidation range indicator 19 is configured by embedding a plurality of tubular members 19a in the casing. However, the casing itself is configured by a translucent member, and the casing is an LED. May be configured to be displayed. For example, in the same manner as the invalidation range indicator 19 shown in FIG. 3, LEDs are embedded in positions that are respectively associated with a plurality of small areas of the touchpad 16 in a housing made of a translucent member. Moreover, you may make it arrange | position LED in the lower part of a housing | casing. Each LED is lit (flashes) in accordance with the valid / invalid range set for the touch pad 16. Thereby, the same function as the invalidation range indicator 19 is achieved.

FIG. 5 is a configuration diagram related to input control of the touch pad 16 in the personal computer 10 of the present embodiment.
The EC / KBC 160 controls input from the keyboard 13 and the touch pad 16. The driver 113c performs valid / invalid control on the coordinate data input from the touchpad 16 through the EC / KBC 160 according to the touchpad control data 113d set in advance by the utility 113b. The driver 113c outputs coordinate data within a range not set as the invalidation range on the touch pad 16 to the OS 113a as valid input coordinate data. In addition, the driver 113c is notified from the EC / KBC 160 that there has been a key input to the keyboard 13, and can execute input control to the touch pad 16 in conjunction with the key input.

  In the personal computer 10 according to the present embodiment, it is assumed that the following input control to the touch pad 16 is possible by setting the touch pad control data 113d by the utility 113b.

(A) First method (when touchpad control is performed in conjunction with key input)
(A1) Invalidate entire touchpad (A2) Invalidate some small areas by equally dividing the touchpad into small areas (A3) Invalidate only the touched part other than the input operation (B) Second Method (when touchpad control is performed without interlocking with key input)
(B1) Disabling the entire touch pad (B2) Disabling some of the small areas by equally dividing the touch pad into small areas (B3) Disabling only the touched area Next, the personal computer of this embodiment 10 will be described.
First, the setting operation of the touch pad control data 113d by the utility 113b will be described with reference to the flowchart shown in FIG.

  When the touch pad setting process is requested by the user operation, the utility 113b activates the tablet setting process (Step A1) and displays the touch pad setting screen on the LCD 17 (Step A2).

  FIG. 7 shows an example of the touch pad setting screen. On the touch pad setting screen, it is possible to arbitrarily select “Yes” or “No” for the key input interlocking control. FIG. 7 shows a state where “NO” is selected for the key input interlocking control.

  In the touch pad setting screen, any one of “entire touch pad”, “part of touch pad”, and “touching part other than input operation” can be selected as the touch pad invalidation range. Further, when “part of the touchpad” or “touching part other than the input operation” is selected as the touchpad invalidation range, a range to be invalidated can be set according to an instruction from the user. .

  The utility 113b receives input from the user through the touch pad setting screen shown in FIG. 7, and sets key input interlocking control or a touch pad invalidation range (step A3).

  When “part of the touch pad” or “part touching other than input operation” is selected as the touch pad invalidation range, and further, execution of “range setting” is requested (step A4, Yes), the utility 113b Then, the invalidation range setting process is executed (step A5). When the “OK” button is selected after each setting including the invalidation range setting process is completed, the utility 113b creates the touch pad control data 113d according to the setting content set on the setting screen.

Hereinafter, a specific example of the invalidation range setting process will be described.
First, the invalidation range setting process when “part of the touchpad” is selected as the touchpad invalidation range will be described.
The utility 113b activates an invalidation range setting process for setting “part of the touchpad” as the invalidation range, and displays a setting screen as shown in FIG. In the setting screen shown in FIG. 8, a graphic corresponding to the touch pad 16 is displayed and a message “Please specify a range to invalidate the touch pad” is displayed. The figure corresponding to the touch pad 16 displays small area classifications preset for the touch pad 16. In the example shown in FIG. 8, the area (coordinate input surface) of the touch pad 16 is divided into eight equal parts. For this graphic, any small area can be arbitrarily selected as the invalidation range by an operation on the keyboard 13 or the touch pad 16, for example. FIG. 8 shows that four small areas at both ends are selected as invalidation ranges. For example, when the user does not perform an input operation at both ends of the touch pad 16 or when the user often operates with both hands placed on the both ends of the touch pad 16 at the time of key input, as shown in FIG. The range can be set. Thereby, the user can prevent the input of unintended coordinate data from the touch pad 16.

  Here, when the “OK” button is selected, the utility 113b sets the small area selected in the setting screen as the invalidation range in the touch pad control data 113d.

  FIGS. 9A and 9B show an example of a range in which input of coordinate data to the touch pad 16 is effective. When the invalidation range is not set, coordinate data can be input in the entire area of the touch pad 16 as shown in FIG. On the other hand, as shown in FIG. 8, when the invalidation range is set, as shown in FIG. 9B, both ends of the touch pad 16 are controlled as the invalidation range. Therefore, for example, even if a key is input by placing a hand at both ends of the touch pad 16, unintended coordinate data is not input from the touch pad 16.

  The setting of the invalidation range in FIG. 8 and FIG. 9 is an example, depending on the usage method of the user on the touch pad 16 and the position of placing the hand on the palm rest when performing key input on the keyboard 13. Arbitrary positions and numbers of small areas can be set as invalidation ranges.

  Further, in the setting screen shown in FIG. 8, it is assumed that a small area divided in advance is selected, but it is also possible to specify the position of the invalidation range continuously without dividing the small area. In FIG. 8, the area of the horizontally long touch pad 16 is equally divided in the horizontal direction. However, a small area may be divided in the vertical direction. May be different.

Next, the invalidation range setting process when “touching part other than input operation” is selected as the touchpad invalidation range will be described. FIG. 10 shows a flowchart of the invalidation range setting process.
In this invalidation range setting process, the reference data for determining whether the coordinate data input from the touch pad 1 is input by a normal input operation or input by the user unintentionally, that is, This is a process for recording a contact pattern. The contact pattern is data serving as a reference for determination as coordinate data input by an input operation on a normal touch pad 16. In this embodiment, when coordinate data is input in an area having a size exceeding the contact pattern, the area where the coordinate data is input is invalidated as not being coordinate data input by a normal input operation. It shall be set as a range.

  First, the utility 113b activates an invalidation range setting process for setting “a part touched other than an input operation” as an invalidation range, and displays a guide message as shown in FIG. 11 (step B1). In the guide message, the message “Registration of contact pattern during input operation. Please perform input operation on the touchpad” is displayed. Then, the user causes the touch pad 16 to perform a normal input operation, for example, an input operation for moving a pointer (mouse cursor) displayed on the screen.

  When the “OK” button is selected on the guide message screen (step B2, Yes), the utility 113b waits for input from the touch pad 16.

  Here, when an input operation is performed on the touch pad 16 by the user, the coordinate data of the first contact range input from the touch pad 16 is input via the EC / KBC 160 and the driver 113c. The coordinate data input here does not indicate one point, but is a coordinate data group representing a range in which the finger is in contact. The utility 113b temporarily stores the input coordinate data group in the main memory 113 (step B3). The utility 113b first calculates a contact pattern based on the data of the coordinate data group of the contact range (step B4), and stores data indicating the contact pattern as the touch pad control data 113d (step B5).

FIGS. 12A and 12B show an example of a coordinate data group (contact range) input to register a contact pattern.
For example, in the input operation for moving the pointer, the fingertip is moved on the touchpad 16 according to the direction in which the pointer is moved after the fingertip is brought into contact with the touchpad 16. In this case, as shown in FIG. 12A, after the coordinate data group of the first contact range when the fingertip is brought into contact with the touch pad 16 is input, as shown in FIG. A coordinate data group corresponding to the movement is input.

  FIG. 13 is a diagram showing the first contact range shown in FIG. The utility 113b calculates, for example, a horizontal size X and a vertical size Y based on the first contact range. Then, a size obtained by multiplying the size XY of the contact range by a predetermined predetermined magnification is calculated as a contact pattern. For example, the contact pattern is calculated by multiplying the size XY of the contact range by 1.2. By slightly enlarging the size XY of the contact range, even if the initial contact range varies slightly for each input operation, the coordinate data input from the touch pad 16 by the actual input operation can be prevented from being determined as invalid.

  FIG. 14 is a diagram showing the position of the hand when performing key input on the keyboard 13. Normally, when performing key input on the keyboard 13, the user often places his / her hand on the front side of the keyboard 13 according to the home position. In the personal computer 10 according to the present embodiment, the touch pad 16 is provided over the entire width direction, so that a hand is placed on the touch pad 16.

  In this case, the hand contacts the touch pad 16 in a wider range than the input operation using a normal fingertip on the touch pad 16. The contact pattern is calculated based on input data during a normal input operation. Therefore, as shown in FIG. 14, the data of the region input by placing the hand on the touch pad 16 can be determined as invalid data by comparison with the contact pattern.

  FIG. 15 shows an example of the invalidation range that is set when a hand is placed as shown in FIG.

  In the above description, the contact pattern is registered based on the data input by one input operation. However, the contact pattern is calculated based on the data input by a plurality of input operations. Anyway. For example, an average value of data input by a plurality of input operations may be calculated, and a contact pattern may be calculated based on the average value data.

  Thus, since the contact pattern is actually calculated based on the coordinate data input when the user performs an input operation on the touch pad 16, an appropriate contact pattern can be registered for each user. . Therefore, valid input and invalid input to the touch pad 16 can be reliably discriminated using the contact pattern as a criterion.

  Next, touch pad control processing by the driver 113c will be described with reference to the flowchart shown in FIG. The driver 113c performs input control from the touch pad 16 in accordance with the touch pad control data 113d set by the utility 113b.

First, a case where key input interlocking control “none” is set in the touch pad control data 113d will be described.
If the driver 113c is not linked to the key input (No at Step C1), the driver 113c receives an input from the touch pad 16 through the EC / KBC 160 (Yes at Step C6). It is determined whether the coordinate data is invalid or valid.

  If the setting is made such that “whole touchpad” is set as the invalidation range (step C7, Yes), the driver 113c invalidates the input coordinate data. That is, input data from the touch pad 16 is not output to the OS 113a.

  The driver 113c controls the display by the invalidation range indicator 19 according to the invalidation range set in the touch pad control data 113d (step C14). The driver 113c causes the LED controller 180 to light up the LEDs 19b and 19c of the tubular member 19a corresponding to the range not set as the invalidation range, that is, the valid range. Here, since all the areas are invalid, display on the invalidation range indicator 19 is not performed.

  When the touch pad 16 is not used, the user can prevent unintended input to the touch pad 16 by setting the entire touch pad 16 as an invalidation range without key input interlocking.

  Next, when “part of the touchpad” is set as the invalidation range (step C8, Yes), the driver 113c determines whether or not the input coordinate data is included in the invalidation range. Is determined. If the input coordinate data is included in the invalidation range, the input coordinate data is invalidated and is not output to the OS 113a. The driver 113c displays the tubular member 19a corresponding to a range that is not set as the invalidation range in the touchpad control data 113d, that is, an effective range (step C14).

  On the other hand, if the input coordinate data is not included in the invalidation range, the driver 113c validates the input coordinate data and outputs it to the OS 113a (step C10). That is, since the coordinate data is input at a position that is not set as the invalidation range, the coordinate data input intentionally by the user is output to the OS 113a. The OS 113a executes processing according to the input coordinate data. For example, a process for moving the position of the pointer on the screen or a process corresponding to the input coordinate data is executed in the application program.

  Next, when the invalidation range is set to “the part touched other than the input operation” (step C8, No), the driver 113c determines the contact range indicated by the input data (coordinate data group) Then, a comparison is made with the contact pattern set in the touch pad control data 113d (step C11). Here, if the size of the contact range is wider than the contact pattern, the driver 113c determines that the input data is invalid (No in Step C12). For example, as shown in FIG. 14, when there is a contact in a region wider than the contact surface input during a normal input operation, the input in this region is invalidated.

  On the other hand, if the size of the contact range is not wider than the contact pattern, the driver 113c determines that the input data is valid (step C12, Yes). That is, it is determined that the coordinate data is input by a normal input operation, and the input coordinate data is output to the OS 113a (step C13).

  Note that if there is an input in which the size of the contact range is not wider than the contact pattern and a wide input at the same time, the driver 113c determines whether the contact range is valid or invalid for each contact range. For example, while one hand is placed on the touch pad 16, a normal input operation is performed using the other hand with the vacant area of the touch pad 16. In this case, it is determined that the data input in the portion where the hand is placed is invalid, and the data input by the normal input operation is determined to be valid.

  In this way, in the case where the key input interlocking control is not performed, the validity / invalidity of the coordinate data input from the touch pad 16 is determined according to the invalidation range set in advance using the utility 113b, and the validity is determined. Only when it is output to the OS 113a. Therefore, if the user makes a setting corresponding to the method of use for his / her touchpad 16 in advance, the user can only make an intended input to the touchpad 16 regardless of the key input to the keyboard 13. Accordingly, it is possible to improve the operability by effectively using the touch pad 16.

Next, a case where the key input interlocking control “present” is set in the touch pad control data 113d will be described.
When the driver 113c interlocks with the key input (step C1, Yes), when receiving an input from the touch pad 16 through the EC / KBC 160 (step C2, Yes), the driver 113c outputs the input coordinate data to the OS 113a (step C3). . That is, when no key input is performed on the keyboard 13, the invalidation range is not set for the touch pad 16, so that coordinate data input in any range of the touch pad 16 is valid. The user can execute processing with good operability by effectively using the touch pad 16 having a large area.

  On the other hand, when there is a key input to the keyboard 13, the driver 113c is notified that there has been a key input through the EC / KBC 160 (step C4, Yes). Here, the driver 113c starts measuring the time after the key input operation. That is, an invalidation range is set for the touch pad 16 in response to a key input, but this invalidation range is valid only for a preset time. Here, for example, the invalidation range is validated for one second after the key input. When key input operations are continuously performed, the time from the last key input is targeted.

  If the predetermined time has not elapsed (step C5, No), the driver 113c performs the same processing as the above-described steps C7 to C14 on the input to the touch pad 16. That is, the input from the touch pad 16 is controlled in accordance with the contents set in the touch pad control data 113d.

  When a certain time has elapsed from the key input (step C5, Yes), the driver 113c cancels the invalidation range for the touch pad 16, and the coordinate data input in any range of the touch pad 16 is valid. (Steps C1 to C4).

  In the above description, the time for maintaining the invalidation range is set to, for example, 1 second which is determined in advance. However, in the touch pad setting process by the utility 113b, the user may arbitrarily set the time. Thereby, the input control interlocked with the key input with respect to the touch pad 16 according to each user's operation method is attained.

  Further, it is possible to change the time for maintaining the invalidation range according to the position of the touch pad 16. For example, in the vicinity of the home position of the keyboard 13, the hand is frequently placed by the user, and the time for placing the hand is long. Therefore, the time for maintaining the invalidation range from the key input is made longer than the other areas. . Conversely, for an area where the user's hand is placed less frequently, the time for maintaining the invalidation range can be shortened so that it can be input immediately after key input. For example, an operation frequently performed in combination with a key input operation, for example, an operation of scrolling the screen can be performed using the touch pad 16.

  Note that the time for maintaining the invalidation range for each area may also be set in the touch pad setting process by the utility 113b.

  Furthermore, according to the passage of time after the key input, the display color of the LEDs 19b and 19c on the invalidation range indicator 19 is changed, the display form (lighting, blinking, etc.) of the LEDs 19b and 19c is changed, etc. It is possible to make the user recognize the time until the input to the range set as the invalidation range of the pad 16 becomes possible, or to notify the user that the input has become possible.

  In this way, in the case of the key input interlocking control, the key data is input to the keyboard 13 so that the coordinate data input from the touch pad 16 is enabled / disabled according to the invalidation range set in advance using the utility 113b. Disable can be controlled. That is, the user can selectively use key input to the keyboard 13 and coordinate data input to the touch pad 16. Accordingly, it is possible to improve the operability by effectively using the touch pad 16.

  In the above description, the valid / invalid range set for the touch pad 16 is described as being visually notified to the user by the invalid range display 19. It is also possible to notify.

  For example, the driver 113c causes the sound controller 150 to output a predetermined sound when there is an input to the touch pad 16 in the invalidation range. That is, the driver 113c outputs a predetermined sound when the input coordinate data is determined to be invalid, Yes in Step C7, No in Step C12, Yes in Step C9.

  Different sounds may be output depending on whether the input coordinate data is included in the invalidation range and the valid range. In addition, a predetermined sound may be output only when coordinate data is input in the effective range.

  Thus, the user can recognize the invalidation range set for the touch pad 16 by the sound output in response to the input from the touch pad 16.

  In this way, even if the touch pad 16 is arranged at an arbitrary position regardless of the position of the hand placed at the home position of the keyboard 13, the invalidation range can be set by the user's designation. In addition to preventing unintentional input, the coordinate data can be input in other areas of the touch pad 16. Accordingly, the user can intentionally perform an input operation on the touch pad 16, for example, a click, a double click, a drag and drop, etc. within an effective range even while performing a key input on the keyboard 13. Become. In the personal computer 10 in the present embodiment, the operability using the touch pad 16 can be used effectively.

  In the above description, the invalidation range indicator 19 is provided so that the user can recognize the invalidation range set for the touch pad 16. However, instead of the invalidation range indicator 19, the LCD 17 The invalidation range may be recognized by the user by the display in. For example, when the invalidation range is set for the touch pad 16, the utility 113b displays a graphic corresponding to the width size of the touch pad 16. In the figure, the portions corresponding to the invalidation range set for the touch pad 16 and other effective ranges are displayed in different colors. Thereby, even if the configuration of the invalidation range indicator 19 is omitted, the valid / invalid range on the touch pad 16 can be easily recognized.

  In the above description, a configuration example realized in the personal computer 10 has been described. However, the present invention can also be realized in another electronic device provided with a touch pad (coordinate input device).

  Further, the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine a component suitably in different embodiment.

  Further, the processing described in the above-described embodiment is a recording medium such as a magnetic disk (flexible disk, hard disk, etc.), optical disk (CD-ROM, DVD, etc.), semiconductor memory, etc., as a program that can be executed by a computer. And can be provided to various devices. It is also possible to transmit to a variety of devices by transmitting via a communication medium. The computer reads the program recorded on the recording medium or receives the program via the communication medium, and the operation is controlled by this program, thereby executing the above-described processing.

  DESCRIPTION OF SYMBOLS 10 ... Personal computer, 11 ... Computer main body, 12 ... Display unit (LCD), 13 ... Keyboard, 16 ... Touch pad, 17 ... LCD, 19 ... Invalidation range indicator, 19a ... Tubular member, 19b, 19c ... LED, 113a ... OS, 113b ... utility, 113c ... driver, 113d ... touch pad control data, 120 ... BIOS, 160 ... EC / KBC.

Claims (6)

A coordinate input device for inputting coordinate data;
Range detecting means for detecting a second contact range wider than the first contact range set in advance based on the coordinate data input by the coordinate input device;
Setting means for setting an invalidation range that invalidates the coordinate data input by the coordinate input device based on the second contact range detected by the range detection means;
Processing means for executing processing for invalidating the coordinate data when the coordinate data input by the coordinate input device is within the invalidation range;
A setting cancellation unit for canceling the setting of the invalidation range when a predetermined time has elapsed since the invalidation range was set by the invalidation range setting unit;
An electronic apparatus comprising: The invalidation range setting means sets the invalidation range in conjunction with key input,
2. The electronic apparatus according to claim 1, wherein the setting canceling unit cancels the setting of the invalidation range after a predetermined time has elapsed since the key input.   The electronic device according to claim 1, wherein the elapsed time determining unit determines an elapse of a fixed time according to a difference in position of the invalidation range on a coordinate input surface.   2. The electronic apparatus according to claim 1, further comprising display means for performing display for clearly indicating the invalidation range set by the invalidation range setting means.   2. The electronic apparatus according to claim 1, further comprising sound output means for outputting a sound in accordance with the coordinate data input by the coordinate input device in accordance with a determination result by the determination means. A coordinate input method for an information device including a coordinate input device for inputting coordinate data,
Based on the coordinate data input by the coordinate input device, a second contact range wider than the first contact range set in advance is detected,
Based on the second contact range, an invalidation range that invalidates the coordinate data input by the coordinate input device is set, and the coordinate data input by the coordinate input device falls within the invalidation range. If there is, execute processing to invalidate the coordinate data,
A coordinate input method for canceling the invalidation range setting when a predetermined time has elapsed since the invalidation range was set.

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