KR101099044B1 - Control method optical joystick of portable terminal and portable terminal using the same - Google Patents

Abstract

The present invention relates to a control method of an optical pointing device included in a portable terminal for receiving a shutter value and setting a driving current of a light source unit, and a portable terminal using the same.

According to an embodiment of the present invention, a light joystick of a mobile terminal generates a cursor on a display screen by calculating a change in light emitted from a light source unit as a displacement value in a light receiving unit, and transmitting the calculated displacement value to a controller of the mobile terminal. A control method comprising: detecting a motion of a subject by a light receiving unit of the light joystick; Receiving a shutter value from the light receiving unit after the motion is detected by the light receiving unit and before the next motion is detected; Comparing, by the controller, the received shutter value with a preset reference shutter value; And setting, by the controller, a driving current of the light source unit according to the comparison result; It includes.

Motion, shutter value, drive current

Description

CONTROL METHOD OPTICAL JOYSTICK OF PORTABLE TERMINAL AND PORTABLE TERMINAL USING THE SAME}

The present invention relates to a control method of an optical pointing device included in a portable terminal for receiving a shutter value and setting a driving current of a light source unit, and a portable terminal using the same.

In general, an optical joystick is installed in a portable terminal so that a desired icon and menu can be selected by controlling a cursor generated on a display screen.

As shown in FIG. 1, the light joystick 10 includes a light source unit 11, an image sensor 12 that senses an optical signal, and a housing 15 that accommodates them. In this case, the light joystick 10 may further include a light guide 13 for guiding light to the image sensor 12 and a holder for supporting the light guide 13.

In this case, the upper surface of the housing 15 has a flat plate shape, and a contact surface 16 is formed to contact a subject P such as a finger to operate the mobile terminal. The image sensor 12 is a printed circuit for processing an input signal. It is provided on a substrate (not shown).

Accordingly, when the finger that is the subject P is brought into contact with the contact surface 16, the optical signal input to the image sensor 12 is changed according to the movement of the finger so that the portable terminal can be operated.

In more detail, when the subject P, such as a finger, contacts the contact surface 16, the light emitted from the light source unit 11 hits the subject P, is reflected, and then passes through the light guide 13 to the image sensor 12. Is captured.

On the contrary, in a state where the subject P is not in contact with the contact surface 16, the light emitted from the light source unit 11 passes through the housing 15 and is irradiated to the outside of the housing 15.

Here, when the subject P in contact with the contact surface 16 moves, the object P is reflected by the subject P and is converted into an optical signal detected by the image sensor 12.

At this time, the optical signal sensed by the image sensor 12 is processed by a microcomputer (not shown) having an image processing unit, so that the contents of the cursor movement or the input information according to the movement of the subject are displayed on the display screen of the portable terminal.

However, such an optical pointing device has a problem that may cause a malfunction when exposed to external light.

That is, external light, such as sunlight, is introduced into the optical pointing device through the housing in contact with the subject and scatters the light irradiated from the internal light source to the housing, thereby causing a malfunction such as no operation or self operation.

For example, the optical pointing device can be driven with a default driving current because it is not affected by external illumination in a place such as a midnight or a dark room, but it is always supplied higher than the default driving current, thereby consuming unnecessary power. Therefore, the use time of the portable terminal is shortened, so that it is not possible to give sufficient satisfaction to the user who wants to use the portable terminal for a long time.

The present invention has been made in view of the above problems, and an object thereof is to receive a shutter value and to set a driving current according to a received threshold value.

Another object of the present invention is to enable long-term use of the mobile terminal through the reduction of unnecessary power consumption by adjusting the drive current.

The present invention has the effect of preventing the malfunction of the optical pointing device or reducing unnecessary power consumption by setting the driving current of the optical pointing device light source unit according to the received shutter value by receiving the shutter value.

The present invention for achieving the above object, the present invention calculates the change in the light irradiated from the light source according to the motion of the subject as a displacement value in the light receiving unit, and transmits the calculated displacement value to the controller of the mobile terminal display screen An optical joystick control method of a portable terminal for generating a cursor on a light source, the method comprising: detecting a motion of a subject of a light receiving unit of the optical joystick; Receiving a shutter value from the light receiving unit after the motion is detected by the light receiving unit and before the next motion is detected; Comparing, by the controller, the received shutter value with a preset reference shutter value; And setting, by the controller, a driving current of the light source unit according to the comparison result; It includes.

According to an embodiment of the present invention, a light joystick of a mobile terminal generates a cursor on a display screen by calculating a change in light emitted from a light source unit as a displacement value in a light receiving unit, and transmitting the calculated displacement value to a controller of the mobile terminal. A control method comprising: detecting a motion of a subject by a light receiving unit of the light joystick; Receiving a shutter value from the light receiving unit at the first interrupt of the detected motion when the motion is detected at the light receiving unit; Comparing, by the controller, the received shutter value with a preset reference shutter value; And setting, by the controller, a driving current of the light source unit according to the comparison result; It includes.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart of a control method of an optical pointing device included in a portable terminal according to an embodiment of the present invention.

When the user drives the optical pointing device in the process of using the portable terminal, the light receiving unit of the optical pointing device included in the portable terminal detects the motion 10 of the subject (S200). At this time, the motion 10 is composed of each interrupt 20 of a predetermined interval, the time interval of each interrupt 20 may be from about 0.8ms to 1.0ms.

When the motion of the subject is detected by the light receiving unit, the controller of the portable terminal recognizes that the motion is generated. For example, the object of the optical pointing device repeatedly moves the subject left or right, or moves the subject clockwise. When it is rotated, the controller recognizes that motion has occurred.

On the other hand, if there is no motion while the subject is in contact with the part where the subject is in contact, the controller recognizes that the motion is not generated.

After the motion is detected by the light receiver, the controller receives the shutter value 30 from the light receiver until the next motion is detected (S210). Here, the light receiving unit refers to an image sensor, and the shutter value 30 refers to a time when the pixel region of the image sensor is exposed to light to receive light.
For example, if the shutter value 30 is 1000, light is recognized for 1000 clock cycles. Here, the period of receiving the shutter value 30 can be arbitrarily adjusted according to the use environment.
In addition, the shutter value is relatively low under natural light, that is, sunlight, and is relatively high in a dark place, for example, in a dark room or at night, and is generally larger when the subject is not in contact with the subject.

The controller compares the received shutter value 30 with a preset reference shutter value (S220). The control unit sets the light source unit to a preset driving current according to the comparison result (S230).

For example, when the reference shutter value is 500 and the received shutter values 30 are 300 and 800, respectively, when the shutter value 30 is 300, the driving current of the light source unit is set to 13 mA, which is the default driving current, and the shutter value 30 is In case of 800, set the driving current of the light source part to 40mA.

That is, when the shutter value 30 is larger than the reference shutter value, a large amount of light is introduced from the outside, and the optical pointing device may malfunction. In this case, when the driving current value of the light source unit is set to 40 mA higher than the default driving current, the strong light is generated in the light source unit. It can emit light to block the interference of light from the outside.

On the other hand, when the shutter value 30 is equal to or lower than the reference shutter value, the optical pointing device does not malfunction because a large amount of light does not flow from the outside. Accordingly, when the driving current of the light source unit is set to 13 mA, which is the default driving current, unnecessary battery power consumption can be reduced.

3 is an exemplary diagram according to an exemplary embodiment of the present invention, which shows motion along a time axis, and measures a shutter value between the motion and the motion.

4 is a flowchart illustrating a control method of an optical pointing device included in a portable terminal according to another embodiment of the present invention.

Another embodiment of the present invention is characterized in that the shutter value is received at the first interrupt of the motion every time the motion is detected, not after the motion is detected until the next motion is detected.

2 will be omitted or briefly described.

When the user drives the optical pointing device in the process of using the portable terminal, the light receiving unit of the optical pointing device included in the portable terminal detects the motion 10 of the subject (S400).

When the motion 10 is detected at the light receiving unit, the control unit receives a shutter value 30 from the light receiving unit at the first interrupt 20 of the detected motion 10 (S410). In this case, the controller receives a shutter value every time the motion 10 occurs. In addition, the controller sets the default driving current during the time when the motion 10 is not detected.

In operation S420, the controller compares the received shutter value 30 with a preset reference shutter value. The control unit sets the light source unit to a preset driving current according to the comparison result (S430).

For example, when the reference shutter value is 500 and the received shutter values are 300 and 800, respectively, when the shutter value is 300, the driving current of the light source unit is set to 13 mA, which is the default driving current, and when the shutter value is 800, the driving current of the light source unit is 40 mA. Set to.

That is, as the shutter value 30 is higher and lower than the reference shutter value, the driving current value of the light source unit may be set to 40 mA or 13 mA.

FIG. 5 is an exemplary diagram according to another embodiment of the present invention, showing a motion 10 along a time axis, and receiving a shutter value 30 at the first interrupt 20 of the motion 10.

As described above, the present invention sets the driving current of the optical pointing device light source unit according to the received shutter value by receiving the shutter value, thereby preventing malfunction of the optical pointing device or reducing unnecessary power consumption.

In the above description, the control method of the optical pointing device included in the portable terminal and the portable terminal using the same have been described above. However, the present invention is not limited thereto, and the application and modification can be made by those skilled in the art.

Figure 2 is a flow chart of the optical joystick control method of a mobile terminal according to an embodiment of the present invention.

3 is an exemplary view according to an embodiment of the present invention.

Figure 4 is a flow chart of the optical joystick control method of a portable terminal according to another embodiment of the present invention.

5 is an exemplary view according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: motion 20: interrupt

30: Shutter value

Claims (10)

In the light joystick control method of the mobile terminal to calculate the change of the light irradiated from the light source unit as a displacement value in the light receiving unit according to the motion of the subject, and transmits the calculated displacement value to the controller of the mobile terminal to generate a cursor on the display screen In Detecting a motion of a subject by a light receiver of the light joystick; Receiving a shutter value from the light receiving unit after the motion is detected by the light receiving unit and before the next motion is detected; Comparing, by the controller, the received shutter value with a preset reference shutter value; And Setting, by the control unit, a driving current according to the comparison result; Optical joystick control method of a portable terminal comprising a. The method of claim 1, And if the received shutter value is equal to or lower than a reference shutter value, the controller sets the driving current of the light source unit as the default driving current. The method of claim 1, And if the received shutter value is larger than a reference value of the shutter value, the controller sets the driving current of the light source unit to be higher than the default driving current. The method of claim 1, After the motion is detected by the light receiving unit, the time until the next motion is detected is a variable time, the time of the interval for receiving a shutter value during the variable time is a predetermined time of the joystick control method of a mobile terminal. The method of claim 4, wherein The controller compares the variable time with a predetermined time and recognizes that the motion is continuous when the variable time is less than the predetermined time. In the light joystick control method of the mobile terminal to calculate the change of the light irradiated from the light source unit as a displacement value in the light receiving unit according to the motion of the subject, and transmits the calculated displacement value to the controller of the mobile terminal to generate a cursor on the display screen In Detecting a motion of a subject by a light receiver of the light joystick; Receiving a shutter value from the light receiving unit at the first interrupt of the detected motion when the motion is detected at the light receiving unit; Comparing, by the controller, the received shutter value with a preset reference shutter value; And Setting, by the control unit, a driving current according to the comparison result; Optical joystick control method of a portable terminal comprising a. The method of claim 6, And setting, by the controller, a light source unit to a preset default driving current during the time when the motion is not detected. The method of claim 6, And if the received shutter value is equal to or lower than a reference shutter value, the controller sets the driving current of the light source unit as the default driving current. The method of claim 6, And if the received shutter value is larger than a reference value of the shutter value, the controller sets the driving current of the light source unit to be higher than the default driving current. 10. The method according to any one of claims 1 to 9, A portable terminal using the control method of the optical pointing device included in the portable terminal.

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