JPH06119113A - Cursor operating device - Google Patents

Abstract

PURPOSE:To efficiently save the electric power of a battery-driven computer equipment which uses the cursor operating device by stopping supplying electric power to a ball rotation information detection part when the non-operation state of the cursor operating device is detected, and restarting the power supply when the in-operation state is detected in the stand-by mode. CONSTITUTION:A control part 5 monitors the signal from an operation state detection part 4 and stops supplying the electric power to the ball rotation information detection part 3 unless an operator operates a mouse 1 to places the control part 5 itself in the stand-by mode. The control part 5 in the stand-by mode monitors the detecting operation of the operation state detection part 4 under timer interruption control. When the operator presses a button or uses the mouse 1 by rotating the ball 2, the control part 5 inputs the detection signal of the use state of the mouse 1 from the operation state detection part 4 by the timer-interruption control. Then the stand-by mode is reset and the electric power supply is restarted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cursor operating device such as a mouse or a trackball used as an input device for computer equipment, and more particularly to a battery-driven device requiring power saving, such as a portable personal computer or word processor. The present invention relates to a cursor operation device suitable for use in computer equipment.

[0002]

2. Description of the Related Art At present, in personal computers, workstations and the like, icon operation using a pointing device such as a mouse or a trackball is mainly used for the purpose of improving operability in input.

A technique relating to the operation of the mouse is disclosed in, for example, Japanese Patent Laid-Open No. 64-72225. With this technology, when the mouse is not being operated, the cursor on the screen that is moved by the mouse can be erased, eliminating the need to move the cursor out of the screen, which was required to make the screen easier to see in the past. Therefore, the operability can be improved.

In recent years, computer equipment has become smaller and smaller,
Portable personal computers, workstations, word processors, etc. have been developed. Since these portable devices are battery-powered and are used continuously for a long time, it is essential to reduce the power consumption of each component. However, in the prior art,
No consideration has been given to power saving of a cursor operating device such as a mouse or a trackball. For example, with a conventional mouse, even when the mouse is not moving, the power of the coordinate detection unit and the control unit (controller) inside the mouse is not controlled, and it is necessary to supply power from the main body side, and unnecessary power is generated. Has been consumed.

[0005]

The problem to be solved is that the conventional technique cannot efficiently save power of a cursor operating device such as a mouse or a trackball. An object of the present invention is to solve the problems of the prior art, and to provide a cursor operating device that enables efficient power saving of battery-powered computer equipment using a cursor operating device such as a mouse or a trackball. Is to provide.

[0006]

In order to achieve the above object, the cursor operating device of the present invention comprises (1) a rotatable ball, and a ball rotation information detecting section for detecting the rotation direction and the rotation amount of the ball. Based on the rotation of the ball,
In a cursor operation device such as a mouse for inputting the position of the cursor on the screen, an operation state detection unit that detects whether or not this cursor operation device is in operation, and whether this operation state detection unit is a cursor operation device If the operating state is detected, the power supply to the ball rotation information detecting section is stopped, and the standby mode is set in which the detection operation of the operating state detecting section is simply monitored by the timer interrupt control. A control unit that releases the standby mode and restarts the power supply to the ball rotation information detection unit when the operation state detection unit detects the in-operation state of the cursor operation device is provided. (2) In the cursor operating device according to (1) above, a ball rotation detection unit that detects a rotation state of the ball is provided as the operation state detection unit, and the control unit controls the rotation of the ball by the ball rotation detection unit. It is characterized in that the standby mode is controlled based on the detection result of the state. (3) In the cursor operating device according to (1), as an operation state detecting unit, an operator detecting unit for detecting a state of whether or not an operator's hand is touching the cursor operating device is provided and controlled. The unit controls the standby mode based on the detection result of the operator detecting unit. (4) In the cursor operating device according to (1), the ball rotation information detecting unit and the operation state detecting unit include an x-coordinate detecting unit that detects the amount of rotation of the ball in the x-axis direction, and a y-axis of the ball. A y-coordinate detection unit that detects the amount of rotation in the direction is provided, and the control unit stops the power supply to the x-coordinate detection unit based on the detection result of the rotation stop of the ball by the x-coordinate detection unit and the y-coordinate detection unit. At the same time, a standby mode control for monitoring the detection operation of the y-coordinate detection unit is performed.

[0007]

In the present invention, the control unit is assumed not to be operated, for example, when the ball is not rotating,
The power supply to the x-coordinate detection unit is stopped, and the control unit itself is placed in a standby state. In this standby mode, the control unit can detect an interrupt from the y-coordinate detection unit, and the operation signal is monitored by the interrupt signal. By doing so, it is possible to save the power of the cursor operating device itself such as a mouse and avoid unnecessary power consumption of the main device. Further, it detects whether or not a hand is placed on the mouse or the like, and when the hand is not placed, the control unit stops the power supply to the x coordinate detection unit and the y coordinate detection unit,
Enter standby mode. As a result, not only the power saving but also the cursor position does not change even when the document collides with a mouse or the like, and it is possible to avoid an unintended cursor movement.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a block diagram showing a first embodiment of a configuration relating to the present invention of a cursor operating device of the present invention.
The mouse 1 of the first embodiment includes a rotatable ball 2 and
The ball rotation information detecting unit 3 for detecting the rotation direction and the rotation amount of the ball 2, the operation state detecting unit 4 for detecting the operation state of the ball 2 by the operator, and the connection control with the main body side are performed to obtain the ball rotation information. The control unit 5 is configured to control the transfer of the detection information from the detection unit 3 to the main body and the power saving control according to the present invention. The mouse 1 is provided with a button (not shown), and the operator can input an instruction such as an icon operation on the main body by operating this button.

In the mouse 1 of the first embodiment, the control unit 5 monitors the signal from the operation state detection unit 4, and when the operator does not operate the mouse 1, the control unit 5 sends the information to the ball rotation information detection unit 3. Power supply is stopped and the control unit 5 itself is set to the standby mode. In this standby mode, the control unit 5 performs an operation of only monitoring the detection operation of the operation state detection unit 4 by timer interrupt control. As a result, when the mouse 1 is not used, it is not necessary to supply electric power from the main body side, and power saving can be achieved. When the operator presses a button (not shown) or rotates the ball 2 and uses the mouse 1, the control unit 5 controls the use of the mouse 1 from the operation state detection unit 4 by timer interrupt control. Input the detection signal of. Then, the standby mode is released, and the power supply to the ball rotation information detection unit 3 is restarted.

FIG. 2 is a block diagram showing a second embodiment of the structure relating to the present invention of the cursor operating device of the present invention. In the figure, 1a is a mouse as a cursor operating device of the second embodiment, 2 is a rotatable ball, and 3 is a rotatable ball.
Is a ball rotation information detection unit that detects the rotation direction and the amount of rotation of the ball 2, 4a is a ball rotation detection unit that detects the rotation state of the ball 2, and 5a is this ball rotation detection unit 4a.
Based on the detection result of the rotation state of the ball 2 by a, FIG.
This is a control unit that performs the standby mode control described in. The mouse 1a includes a button (not shown), and the operator can input an instruction such as an icon operation on the main body by operating this button.

In the mouse 1a of the second embodiment,
The control unit 5a monitors the signal from the ball rotation detection unit 4a and supplies power to the ball rotation information detection unit 3 when the operator does not operate the ball 2, that is, when the mouse 1a is not used. Stop and control unit 5a
Put itself in standby mode. In this standby mode, the control unit 5a performs only the operation of detecting the rotation state of the ball 2 by the ball rotation detection unit 4a by the timer interrupt control, so that the power supply from the main body side becomes unnecessary, Power saving can be achieved. When the operator uses the mouse 1a, the ball 2 rotates and the controller 5a
Inputs the detection signal of the rotation state of the ball 2 of the ball rotation detection unit 4a by timer interrupt control. Then, the standby mode is released, and the power supply to the ball rotation information detection unit 3 is restarted.

FIG. 3 is a block diagram showing a third embodiment of the structure relating to the present invention of the cursor operating device of the present invention. In the figure, 1b is a mouse as a cursor operating device of the third embodiment, 2 is a rotatable ball, and 3 is a rotatable ball.
a is an x-coordinate detection unit that detects the amount of rotation of the ball 2 in the x-axis direction, 3b is a y-coordinate detection unit that detects the amount of rotation of the ball 2 in the y-axis direction, and 5b is an x-coordinate detection unit 3a. Based on the detection result of the rotation stop of the ball 2 by the y-coordinate detection unit 3b, the power supply to the x-coordinate detection unit 3a is stopped, and y
It is a control unit that performs standby mode control based on the monitoring of the detection operation of the coordinate detection unit 3b. The mouse 1b is
A button (not shown) is provided, and the operator can input an instruction such as an icon operation on the main body by operating this button.

In the mouse 1b of the third embodiment,
The control unit 5b monitors signals from the x coordinate detection unit 3a and the y coordinate detection unit 3b. If the result of this monitoring indicates that the operator is not using the mouse 1b, the power supply to the x-coordinate detection unit 3a is stopped and the control unit 5b is stopped.
Put itself in standby mode. As a result, power saving can be achieved. In this standby mode, the controller 5b
Does not need to supply electric power from the main body side because the operation of detecting the rotational movement of the ball 2 by the y-coordinate detection unit 3b is simply monitored by timer interrupt control.
When the operator uses the mouse 1b, the y-coordinate detection unit 3
b detects the rotation of the ball 2, and the controller 5b
The timer interrupt control inputs the detection signal of the y-coordinate detection unit 3b to release the standby mode, and x
The power supply to the coordinate detection unit 3a is restarted.

FIG. 4 is a flow chart showing an embodiment of the processing operation of the mouse in FIG. 3 according to the present invention.
The control unit 5b of FIG. 3 determines whether or not the mouse is moving based on the coordinate signals from the x-coordinate detection unit 3a and the y-coordinate detection unit 3b of FIG. 3 (step 401). If the mouse is not moving, the power supply to the x-coordinate detection unit 3a in FIG. 3 is stopped (step 402). Then, the control unit 5b itself in FIG. 3 is set to the standby mode (step 40).
3). When the mouse movement is detected in step 401, the coordinate signals from the x-coordinate detection unit 3a and the y-coordinate detection unit 3b in FIG. 3 are sent to the main body (step 404).

FIG. 5 is a block diagram showing a fourth embodiment of the configuration relating to the present invention of the cursor operating device of the present invention. In the figure, 1c is a mouse as a cursor operating device of the fourth embodiment, 2 is a rotatable ball, 3
The ball rotation information detector 4b for detecting the rotation direction and the amount of rotation of the ball 2 detects whether or not the operator's hand is placed to rotate the ball 2 with a photo sensor or the like. The operator detection units 5c to be operated are control units that perform standby mode control based on the detection result of the state of whether or not the operator's hand is placed by the operator detection unit 4b. The mouse 1c includes a button (not shown), and the operator can input an instruction such as an icon operation on the main body by operating this button.

In the mouse 1c of the fourth embodiment,
When the signal from the operator detection unit 4b indicates that the operator is not using the mouse 1c, the control unit 5c stops the power supply to the ball rotation information detection unit 3, and
The control unit 5c itself is placed in the standby mode. In this standby mode, the control unit 5c performs an operation of monitoring the operation of detecting whether or not the operator's hand is touching the mouse 1c by the operator detection unit 4b by merely monitoring by timer interrupt control, so that from the main body side. It is not necessary to supply electric power, and power can be saved. If the operator uses the mouse 1c,
The operator detection unit 4b detects the operator's hand or the like. Then, the control unit 5c inputs the detection signal of the operator detection unit 4b by the timer interrupt control, releases the standby mode, and restarts the power supply to the ball rotation information detection unit 3.

FIG. 6 is a flow chart showing an embodiment of the processing operation of the mouse of FIG. 5 according to the present invention.
The control unit 5c in FIG. 5 determines whether the operator's hand is placed on the mouse based on the signal from the operator detection unit 4b in FIG. 5 (step 601). If the operator's hand is not placed on the mouse, the power supply to the ball rotation information detection unit 3 in FIG. 5 is stopped (step 602). Then, the control unit 5c of FIG. 5 itself is set to the standby mode (step 603). If the operator's hand is placed on the mouse in step 501, the information from the ball rotation information detecting unit 3 in FIG. 5 is sent to the main body (step 604).

As described above with reference to FIGS. 1 to 6, in the mouse of this embodiment, for example, when the ball does not rotate, it is assumed that the mouse is not used.
Standby in a state where the power supply to the ball rotation information detection unit that detects the direction and amount of rotation of the ball, such as the coordinate detection unit, is stopped, and the control unit itself detects the start of the mouse operation of the operator by a timer interrupt. Set to mode. By doing so, the power of the mouse itself can be saved. Further, by controlling the power supply to the ball rotation information detecting section depending on whether or not the hand is placed on the mouse, not only the power saving but also the unintentional cursor movement due to the collision of a document or the like can be avoided.

The present invention is not limited to the embodiments described with reference to FIGS. 1 to 6, and various modifications can be made without departing from the scope of the invention. For example, in the present embodiment, a mouse has been used as the cursor operating device, but the present invention is also applicable to the case of using a trackball, for example.

[0020]

According to the present invention, it is possible to efficiently save power in a cursor operating device such as a mouse or a trackball, and to extend the operating time of a computer device such as a battery-operated personal computer, workstation or word processor. It is possible to

[0021]

[Brief description of drawings]

FIG. 1 is a block diagram showing a first embodiment of a configuration relating to the present invention of a cursor operating device of the present invention.

FIG. 2 is a block diagram showing a second embodiment of the configuration related to the present invention of the cursor operating device of the present invention.

FIG. 3 is a block diagram showing a third embodiment of the configuration of the cursor operating device of the present invention according to the present invention.

FIG. 4 is a flowchart showing an embodiment of the processing operation of the mouse of FIG. 3 according to the present invention.

FIG. 5 is a block diagram showing a fourth embodiment of the configuration of the cursor operating device of the present invention according to the present invention.

FIG. 6 is a flowchart showing an embodiment of the processing operation of the mouse of FIG. 5 according to the present invention.

[Explanation of symbols]

 1, 1a to 1c mouse 2 ball 3 ball rotation information detection unit 3a x coordinate detection unit 3b y coordinate detection unit 4 operation state detection unit 4a ball rotation detection unit 4b operator detection unit 5, 5a to 5c control unit

Claims (4)

[Claims] 1. A mouse or the like having a rotatable ball and a ball rotation information detecting means for detecting a rotation direction and a rotation amount of the ball, and a mouse for inputting a position of a cursor on a screen based on the rotation of the ball. In the cursor operating device, the operation state detecting means for detecting whether or not the cursor operating device is being operated, and if the operation state detecting means detects an in-operation state of the cursor operating device, In addition to stopping the power supply to the rotation information detecting means, a standby mode is set in which the operation of detecting the operation state detecting means is simply monitored by timer interrupt control. During the standby mode, the operation state detecting means operates as described above. When the operating state of the cursor operating device is detected, the standby mode is released and the power supply to the ball rotation information detecting means is restarted. A cursor operation device comprising: a control unit. 2. The cursor operating device according to claim 1, wherein the operation state detecting means includes a ball rotation detecting means for detecting a rotating state of the ball, and the control means uses the ball rotation detecting means. A cursor operating device, characterized in that the standby mode is controlled based on a detection result of a rotating state of a ball. 3. The cursor operating device according to claim 1, wherein the operating state detecting means is provided with an operator detecting means for detecting a state of whether or not an operator's hand is touching the cursor operating device. The cursor operating device, wherein the control means controls the standby mode based on a detection result of the operator detecting means. 4. The cursor operating device according to claim 1, wherein the ball rotation information detecting means and the operation state detecting means are x-coordinate detecting means for detecting a rotation amount of the ball in the x-axis direction, and y-coordinate detection means for detecting the amount of rotation in the y-axis direction is provided, and the control means controls the x-coordinate detection means based on the detection result of the rotation stop of the ball by the x-coordinate detection means and the y-coordinate detection means. Of the cursor operation device for controlling the standby mode for monitoring the detection operation of the y-coordinate detection means while stopping the power supply of the cursor.