JPH09288536A - Coordinate detector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a voltage detection type coordinate detector, with which signals are continuously outputted even after an input pen is separated from an input panel, concerning a coordinate detector for successively inputting the coordinate values of input points to be changed with the move of the input pen to an information processor such as a personal computer. SOLUTION: A control part 4 has two kinds of output modes of an ordinary signal output mode for outputting the signals by successively detecting the coordinate values to be changed with the move of an input pen 5 and a pseudo inertia mode for continuously outputting the signals corresponding to the change quantity of coordinate values even after the separation of a conductor film. Then, when the input pen 5 is moved more slowly than the speed set in advance while contacting conductor films 11 and 12, the ordinary signal output mode is selected and when the conductor films are separated after the input pen is moved more quickly than the speed set in advance while contacting the conductor films 11 and 12, the pseudo inertia mode is selected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coordinate detection device for sequentially inputting coordinate values of an input point, which change with a movement of an input pen, to an information processing device such as a personal computer, and particularly to a moved input pen from an input panel. The present invention relates to a voltage detection type coordinate detection device that continues to output a signal even after being separated.

In recent years, an operation system has been improved so that anyone can easily operate it in an information processing apparatus such as a personal computer. With such improvement, a means for inputting information can be easily operated from a keyboard which has been a mainstream in the past. It has changed to a nice mouse.

However, it is difficult to secure a mouse operation area in a portable device which is often used outdoors or in a place where there is no table, and other pointing devices which do not require an operation area as an input means in place of a mouse. And coordinate detection devices are used.

Among them, the coordinate detecting device using the coordinate input panel can be easily adapted to a graphical user interface, and is excellent in operability and has a long life. Therefore, information is currently input to a portable personal computer or the like. It is becoming mainstream as a means.

Conventionally, a coordinate detecting device of an electromagnetic induction type or an electrostatic coupling type has been mainly used as a means for inputting coordinate information to such an information processing device, but it is possible to input with a cordless pen or a finger and the structure is simple and inexpensive. Therefore, it is changing to a voltage detection type coordinate detection device.

However, in order to move a mouse cursor or the like displayed on a large screen by using a relatively small voltage detection type coordinate detecting device, the input pen is repeated many times on the input panel of the coordinate detecting device. It is necessary to operate it by hand and the input of position information becomes complicated.

Therefore, it is desired to develop a voltage detection type coordinate detection device which continues to output a signal even after the input pen is separated from the input panel.

[0008]

2. Description of the Related Art FIG. 3 is a diagram showing a configuration of a conventional coordinate detecting device, and FIG. 4 is a flow chart showing a conventional signal transmitting method.

A conventional coordinate detecting device has a coordinate input panel 1 having two conductor films 11 and 12 which are opposed to each other with a gap as shown in FIG. It is provided with a pair of electrodes 14 and 15 which are formed along with each other and which face each other across the input range 13 in the central portion.

Two conductor films 11 and 12 facing each other with a gap in between.
Are arranged so that the electrodes 14 and the electrodes 15 formed on them are orthogonal to each other. For example, the electrode 14 on the conductor film 11 parallel to the Y axis is the X coordinate, and the electrode 15 on the conductor film 12 parallel to the X axis. Is used to detect the Y coordinate.

The driving circuit 2 for applying a voltage to the coordinate input panel 1 applies a voltage between the transistors 21 and 22 for applying a voltage between the electrodes 14 on the conductor film 11 and the electrode 15 on the conductor film 12. The control unit 3 controls the application of voltage to the electrodes including the transistors 23 and 24.

When a point on the coordinate input panel 1 is depressed in such a coordinate detecting device, the two conductor films 11 and 12 are brought into contact with each other at the depressed input point, and if a voltage is applied to the electrode 14 at that time, the voltage is changed. A voltage that is divided at the input point and indicates the X coordinate is output via the electrode 15.

When a voltage is applied to the electrode 15, the voltage is divided at the input point, a voltage indicating the Y coordinate is output via the electrode 14, and a voltage V ₁ indicating the X coordinate and a Y coordinate are converted. The indicated voltage V ₂ is converted into a digital signal by the A / D converter 31 and input to the control unit 3.

The drive circuit 2 further includes a resistor R and a transistor 25.
And a circuit for detecting contact / non-contact between the conductor film 11 and the conductor film 12, the transistor 25, the transistor 22,
And a voltage is applied between the conductor films 11 and 12 via the electrodes 14 and 15.

Upon detection of contact or non-contact, the control unit 3
When the transistor 25 activates the transistor 25 and a voltage is applied between the conductor films 11 and 12, the driving voltage Vcc is divided by the contact resistance between the resistor R and the conductor film. Voltage.

In such a voltage detection type coordinate detection device, a coordinate signal is input when the input panel is touched even if there is no intention of inputting the signal. Therefore, when the input panel surface is pressed to input the coordinate signal, the signal is not output. It is necessary to distinguish it from the case where the user touches it without any intention to input it.

Therefore, the conventional coordinate detecting apparatus detects the coordinates of the depressed position by the method shown in the flowchart of FIG. 4 and sends the coordinate signal. That is, even if the contact / non-contact between the conductor films is detected after the start, the contact is not made until the input surface is pressed, and the process returns to the start point.

If the contact of the conductor film is confirmed by the contact / non-contact detection circuit, the coordinate value at the input point is detected by the coordinate detection circuit, and the contact / non-contact between the conductor films is detected again. If the touch of the input panel is invalidated, the previous coordinate value is sent out if touching.

In the coordinate detecting device, when the input pen in contact with the conductor films 11 and 12 moves while the coordinate input panel 1 is pressed down, the coordinate values at the respective input points which change with the movement of the input pen are respectively calculated. It is possible to sequentially output through the control unit 3.

Therefore, like a pointing device typified by a mouse or a trackball, a coordinate detecting device is connected to a personal computer or the like and used as a position input device for moving the mouse cursor displayed on the screen of the display device to an arbitrary position. Has been done.

[0021]

For example, the trackball itself has inertia, and if the ball rolls quickly, the signal output is continued even after the ball is released. However, in the case of the coordinate detection device, the number of signals output with the movement of the input pen or the like corresponds to the movement distance of the input pen or the like.

As a result, in order to move a mouse cursor or the like displayed on a large screen using a relatively small voltage detection type coordinate detecting device, the input pen is repeatedly repeated on the input panel of the coordinate detecting device. There was a problem that I had to make a round trip.

An object of the present invention is to provide a voltage detection type coordinate detection device in which signal output is continued even after the input pen is separated from the input panel.

[0024]

FIG. 1 is a diagram showing a coordinate detecting device according to the present invention. Note that the same object is denoted by the same symbol throughout the drawings.

The above-mentioned problem is that when the coordinate input panel 1 having two conductor films 11 and 12 facing each other with a gap therebetween and the coordinate input panel 1 are pressed to bring the conductor films 11 and 12 into contact with each other, the conductor film 1
When the input pen 5 is moved while the coordinate input panel 1 is pressed down, it has a control unit 4 that detects and outputs the coordinate value of the input point with which 1 and 12 are in contact. A coordinate detection device that sequentially outputs a signal corresponding to a coordinate value that changes, and the control unit 4 sequentially detects a coordinate value that changes as the input pen 5 moves and outputs a corresponding signal. The input pen 5 has two kinds of output modes, a signal output mode and a pseudo inertia mode in which the output of the signal corresponding to the change amount of the coordinate value is continued even after the conductor films 11 and 12 are separated from each other. When moving slower than the preset speed with 12 in contact, the normal signal output mode is used, and the input pen 5 moves faster than the preset speed with the conductor films 11 and 12 in contact. Then, when the conductor films are separated from each other, the pseudo inertia mode It is accomplished by a coordinate detection device of the present invention to be selected.

As described above, in addition to the normal signal output mode in which the coordinate value of each input point that changes with the movement of the input pen is sequentially detected and output, the coordinate value is output even after the conductor films are separated from each other. By adding a function having a continuous pseudo inertia mode to the control unit, it becomes possible to realize a voltage detection type coordinate detection device in which signal output is continued even after the input pen is separated from the input panel. As a result, when moving the mouse cursor etc. displayed on the big screen,
The number of times the input pen is reciprocated on the input panel is reduced, and the operability can be improved.

[0027]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the accompanying drawings. 2 is a flow chart showing an embodiment of the signal transmission method.

The coordinate detecting apparatus according to the present invention has a coordinate input panel 1 having conductor films 11 and 12 which are opposed to each other with a gap as shown in FIG. And a pair of electrodes 14 and 15 that are opposed to each other with the input range 13 in the central portion interposed therebetween.

Two conductor films 11 and 12 facing each other with a gap in between.
Are arranged so that the electrodes 14 and the electrodes 15 formed on them are orthogonal to each other. For example, the electrode 14 on the conductor film 11 parallel to the Y axis is the X coordinate, and the electrode 15 on the conductor film 12 parallel to the X axis. Is used to detect the Y coordinate.

The drive circuit 2 for applying a voltage to the coordinate input panel 1 applies a voltage between the transistors 21 and 22 for applying a voltage between the electrodes 14 on the conductor film 11 and the electrode 15 on the conductor film 12. The control unit 4 controls the application of voltage to the electrodes having the transistors 23 and 24.

When one point of the coordinate input panel 1 is depressed in the coordinate detecting device, the two conductor films 11 and 12 come into contact with each other at the depressed input point, and if a voltage is applied to the electrode 14 at that time, the voltage is changed. A voltage that is divided at the input point and indicates the X coordinate is output via the electrode 15.

When a voltage is applied to the electrode 15, the voltage is divided at the input point, a voltage indicating the Y coordinate is output via the electrode 14, and a voltage V ₁ indicating the X coordinate and a Y coordinate are converted. The indicated voltage V ₂ is converted into a digital signal by the A / D converter 31 and input to the control unit 4.

The drive circuit 2 further includes a resistor R and a transistor 25.
And a circuit for detecting contact / non-contact between the conductor film 11 and the conductor film 12, the transistor 25, the transistor 22,
And a voltage is applied between the conductor films 11 and 12 via the electrodes 14 and 15.

In such a coordinate detecting device, when the input pen 5 in contact with the conductor films 11 and 12 moves while the coordinate input panel 1 is pressed, the coordinate value at each input point which changes with the movement of the input pen 5 Can be sequentially output through the control unit 4.

In the case of the voltage detection type coordinate detection device, unlike the electromagnetic induction type or electrostatic coupling type coordinate detection device, anything having a narrow tip can be used as the input pen 5 and is suitable. If no object is found, the fingertip can be replaced with the input pen 5.

The difference from the conventional device is that the control unit 4 has two kinds of output modes, that is, a normal signal output mode and a pseudo inertia mode, and the moving speed of the input pen 5 is a preset reference. It is configured to compare with a value and select one of the modes.

That is, in the memory device 41, the moving speed of the input point set in advance for distinguishing the normal signal output mode and the pseudo inertia mode, for example, the regulation from the contact between the conductor films 11 and 12 to the separation is defined. The time and the specified change range of the coordinate value during that time are stored.

When the input pen 5 moves slower than a preset speed while keeping the conductor films 11 and 12 in contact with each other, the normal signal output mode, on the contrary, moves faster than the preset speed, and then the conductor. The pseudo-inertial mode is selected when the membranes 11 and 12 are separated.

When the pseudo inertia mode is selected, the control unit 4 sets the point, which rises upward for a predetermined time from the end point where the conductor films 11 and 12 are separated from each other, as the origin, and on the extension line of the moving direction of the input point from the origin point to the end point. The coordinate values are sequentially calculated and the coordinate value output is continued even after the conductor film is separated.

In addition, the change amount of the coordinate value per unit time output after the conductor films are separated according to the rule set in advance and stored in the storage device 41 is the coordinate per unit time output immediately before reaching the end point. Change amount is 0 based on the change amount of value
Taper until it reaches.

The coordinate detecting apparatus according to the present invention detects the coordinates of the depressed position by the method shown in the flowchart of FIG. 2 and sends the coordinate signal. That is, since the conductor films are not in contact with each other before the input surface is pressed and the amount of change in the coordinate value is also within the specified range, the process returns to the start point.

The contact / non-contact discrimination is determined by an A / D converter.
The threshold value to be compared with the signal input through 31 is a storage device.
It is stored in 41, and when the voltage at the electrode 15 is larger than the threshold value when a voltage is applied between the conductor films, it is determined to be non-contact, and if the voltage is small, it is determined to be contact.

When the contact of the conductor film is confirmed by the contact / non-contact detection circuit, the coordinate value at the input point is detected by the coordinate detection circuit, the contact / non-contact between the conductor films is detected again, and the conductor films are contacted. If so, the previous coordinate value is sent in the normal signal output mode.

As a means for checking the moving speed of the input point when one data is output, parameters such as the elapsed time from the time of contact between the conductor films and the number of data sent up to that time are set. It is integrated and ready for the next data transmission and returns immediately after the start.

Every time a coordinate value is sent as a parameter for checking the moving speed of the input pen 5 before returning to the next coordinate value and immediately after the start, the progress from the point of contact between the conductor films to that time is sent. The time and the amount of change in the coordinate value sent during that time are integrated.

As shown in the figure, the detection of contact / non-contact between the conductor films in the normal signal output mode is performed twice with the detection of the coordinate value, and the conductor film 1 is moved after the input pen 5 moves.
When 1 and 12 are separated from each other, non-contact between the conductor films is confirmed by detection of either one.

When non-contact between the conductor films is confirmed, the moving speed of the input pen 5 is checked based on the parameters accumulated so far, and when the change amount of the coordinate value is within the specified range or between the conductor films. If the time until separation is longer than the specified time, the process returns to the start point.

If the amount of change in the coordinate value immediately before separating the conductor films is not less than the specified range and the integration time is not more than the specified time, the distance between the conductor films is calculated based on the previously integrated parameters. Pseudo-inertial mode, in which the output of the coordinate values is continued even after the separation, is selected.

When the pseudo inertia mode is selected, it is confirmed that the non-contact state between the conductor films is continued through the contact / non-contact detection circuit, and the conductor films are in contact at that time. Immediately, the pseudo inertia mode is interrupted and the normal signal output mode is resumed.

On the other hand, when the preset execution rule of the pseudo inertia mode is already stored in the storage device 41 and the continuation of the non-contact state is confirmed, the control unit 4 determines the execution rule and the parameter of the pseudo inertia mode. Then, the coordinate value output after the separation between the conductor films is calculated.

That is, the coordinate value output after the separation between the conductor films is the extension in the moving direction of the input pen from the origin to the end point, with the point that is the point that is upward from the end point where the conductor films are separated ascended for a predetermined time. Based on the coordinate value on the line, and the change amount of the coordinate value output immediately before reaching the end point per unit time, as a reference, per unit time based on the rule stored in the storage device 41. The coordinate values are obtained by gradually reducing the amount of change in.

When the continuation of the non-contact state between the conductor films is confirmed, the control unit 4 is on the extension line in the moving direction of the input pen from the origin to the end point, and the coordinates per unit time immediately before reaching the end point. The coordinate value obtained by subtracting a predetermined value from the change amount of the value is set and transmitted.

After the coordinate values are sent, it is confirmed again via the contact / non-contact detection circuit that the non-contact state between the conductor films is continued. The coordinate value is set by subtracting a predetermined value from the change amount of the coordinate value per time.

In the pseudo-inertial mode, the work from the continuous confirmation of non-contact to the sending of the coordinate value is repeated, and the numerical value repeatedly specified is subtracted from the previously calculated change amount of the coordinate value per unit time, and the remaining When the amount of change becomes 0, the normal signal output mode is resumed.

In the pseudo inertia mode, the numerical value that is repeatedly subtracted from the change amount of the coordinate value per unit time may be a constant, and the number of times the coordinate value is set in a preset function is It may be a numerical value calculated by substituting.

As described above, in addition to the normal signal output mode in which the coordinate value of each input point that changes with the movement of the input pen is sequentially detected and output, the coordinate value is output even after the conductor films are separated from each other. By adding a function having a continuous pseudo inertia mode to the control unit, it becomes possible to realize a voltage detection type coordinate detection device in which signal output is continued even after the input pen is separated from the input panel. As a result, when moving the mouse cursor etc. displayed on the big screen,
The number of times the input pen is reciprocated on the input panel is reduced, and the operability can be improved.

[0057]

As described above, according to the present invention, it is possible to provide a voltage detection type coordinate detection device in which signal output is continued even after the input pen is separated from the input panel.

[Brief description of drawings]

FIG. 1 is a diagram showing a coordinate detection device according to the present invention.

FIG. 2 is a flowchart showing an embodiment of a signal transmission method.

FIG. 3 is a diagram showing a configuration of a conventional coordinate detection device.

FIG. 4 is a flowchart showing a conventional signal transmission method.

[Explanation of symbols]

1 coordinate input panel 2 drive circuit 4 control unit 5 input pen 11, 12 conductor film 13 input range 14, 15 electrode 21, 22, 23, 24, 25 transistor 31 A / D converter 41 storage device

Claims (3)

[Claims] 1. A coordinate input panel comprising two conductor films facing each other with a gap, and an input point of contact between the conductor films when the conductor film is brought into contact with the coordinate input panel by pressing the coordinate input panel. And a control unit that detects and outputs coordinate values, and when the input pen is moved while the coordinate input panel is pressed down, a signal corresponding to the coordinate values that changes with the movement of the input pen is sequentially output. In the coordinate detection apparatus, the control unit sequentially detects coordinate values that change with the movement of the input pen and outputs a corresponding signal, and a coordinate output device after the conductor film is separated. When the input pen moves slower than a preset speed while keeping the conductor film in contact, it has two kinds of output modes, that is, a pseudo inertia mode in which the output of the signal corresponding to the amount of change in the value is continued. Is the normal signal output mode, but also the input After the emission is moved faster than the speed that is set in advance while in contact with conductor film, when is separated between conductor film coordinate detecting apparatus characterized by 該疑 similar inertial mode is selected. 2. The control unit in the pseudo inertia mode,
When the input pen in contact with the conductor film moves faster than a preset speed and then separates the conductor films from each other, the point where the conductor film moves upward from the end point where the conductor film is separated by a predetermined time is set as an origin, Coordinate values on the extension line of the moving direction of the input pen from the origin to the end point are sequentially calculated, and the calculated coordinate values are continued to be output even after the conductor film is separated, and are output immediately before reaching the end point. Based on the calculated change amount of the coordinate value per unit time, the change amount of the coordinate value per unit time output after the conductor films are separated is based on a preset rule until reaching 0. Claim 1 which reduces gradually.
The coordinate detection device described. 3. A storage device that stores a moving speed of an input pen for distinguishing between the normal signal output mode and the pseudo inertia mode, and a rule for reducing a change amount of a coordinate value per unit time in the pseudo inertia mode. 3. The coordinate detection device according to claim 1, further comprising a rule for reducing the moving speed of the input pen and the amount of change in the coordinate value, which is rewritable from the outside via a control unit.