KR100571481B1 - Low power optical pointing device using natural light - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low power optical pointing device using natural light, and more particularly, to a device for reducing power consumption of a pointing device by maximally suppressing its use even when not using or using a light source in a device used as a conventional light source.

The low-power optical pointing device using natural light of the present invention is a pointing device mounted on a portable information device to acquire an image of a direction of a subject's movement and serves as a cursor of a display device, wherein a light path through which external light as a light source enters ; A brightness sensor for sensing the brightness of the external light; A reflection mirror reflecting the external light to irradiate the subject; An objective surface receiving light emitted from the reflection mirror and reflecting an image of a movement of a subject; Technical features include an imaging lens for collecting an image from the objective surface and an image sensor for receiving an image from the imaging lens and converting the image into an electrical signal.

Therefore, the low-power optical pointing device using natural light of the present invention uses an external light as a light source when using a mobile device in a bright place, and uses a light source in the device as a light source when using it in a dark place. The power consumption of the light source in the device can be reduced.

Pointing Device, Low Power, Natural Light

Description

Low power optical pointing device using natural light             

1 is a basic structural diagram of a pointing device conventionally used.

2 is a schematic diagram showing a pointing device using external light according to the present invention.

3 is a schematic diagram showing a pointing device using a light source in the device and light from the outside according to the present invention.

Figure 4 is a schematic diagram showing a pointing device for the optimal imaging ability using the external light according to the present invention.

5 is a schematic diagram showing a pointing device using the external light efficiently according to the present invention.

     <Description of Symbols for Main Parts of Drawings>

    100: LED 110: lens

    120: image sensor 130: reflection mirror

    140: brightness sensor 150: control unit

    160: operation unit 170: condensing lens

    180: aspherical mirror 190: concave mirror

    200: light guide

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low power optical pointing device using natural light, and more particularly, to a device for reducing power consumption of a pointing device by suppressing its use as much as possible even when the light source is not used or used in a device used as a light source.

Recently used optical mouse has a two-dimensional optical sensor array composed of CMOS (Complementary Metal Oxide Semiconductor, CMOS) image sensor, and adds an optical device to acquire an image of the surface of the mouse moving . If the mouse does not move, the acquired image does not change, but if the mouse moves, the acquired image changes. In order to calculate the amount of movement of the mouse by using the acquired change of the image, a motion estimation method for grasping the degree of movement from the image is used. LED is mainly used as a light source for illuminating the surface where the mouse moves, and convex lens or aspherical lens having similar properties is used as an optical system for imaging.

2. Description of the Related Art A two-dimensional pointing device incorporating the principle of an optical mouse has been proposed as a means for driving a graphical user interface (GUI) in portable information terminal devices such as mobile phones and PDAs. Fundamentally, the development of miniaturization method and thinning method for applying similar technology to mobile devices is a major element of practical use.

1 is a basic structural diagram of a pointing device conventionally used. Referring to FIG. 1, light generated from a light-emitting diode (LED) 10 illuminates the surface of an object and light reflected from the object is formed on the image sensor 30 by the imaging lens 20. The image sensor 30 converts the formed image into an electric signal and passes the image to the data processor. The data processor analyzes an image that is temporally changed by the movement of an object and converts the direction and the amount of movement of the object into two-dimensional data. However, the conventional pointing device as described above has a problem in that the LED consumes power and wastes unnecessary power, even when used in a dark place, even when used in a bright place.

Korean Utility Model Registration No. 20-0319462 also introduces a pointing device that detects and outputs moving direction and distance data by comparing and analyzing the difference between the previous image and the current image using an optical image sensor. There has been a problem that a device for preventing consumption and a method of operating the same have not been presented.

Accordingly, the present invention is to solve the above disadvantages and problems of the prior art, by using the external natural light without using a light source when the pointing device of the present invention is mounted on a portable information terminal device such as a mobile phone SUMMARY OF THE INVENTION An object of the present invention is to provide a low power optical pointing device using natural light which reduces power consumption.

According to an aspect of the present invention, there is provided a pointing device which is mounted on a portable information device and acquires an image of a direction of a movement of a subject to serve as a cursor of a display device, the pointing device comprising: a light path through which external light as a light source enters; A brightness sensor for sensing the brightness of the external light; A reflection mirror reflecting the external light to irradiate the subject; An objective surface receiving light emitted from the reflection mirror and reflecting an image of a movement of a subject; It is achieved by a low-power optical pointing device using natural light including an imaging lens for collecting an image from the objective surface and an image sensor for receiving an image from the imaging lens and converting the image into an electrical signal.

Component materials in portable information terminal equipment should be based on low power design. Therefore, in the present invention, when the pointing device of the present invention is mounted on a portable information terminal device such as a mobile phone, the pointing device is operated by using external natural light without using a light source by itself. Using external light instead of LEDs for lighting can reduce the power consumed by the LEDs.

However, we do not always use portable information devices in bright places. Therefore, when using the lighting means for the internal lighting, the external light is used as the light source when used in a bright place, and the light source in the device when used in a dark place, for example, when the LED is used as a light source, the light source in the device Can reduce power consumption. That is, in the case of using external light, unnecessary power consumption can be reduced by not using the light source in the device as the light source.

Details of the above objects and technical configurations of the present invention and the effects thereof will be described in detail with reference to the drawings showing the preferred embodiments of the present invention.

2 is a schematic diagram showing a pointing device using external light according to the present invention. Referring to Figure 2, using the external light as a light source is reflected to the reflection mirror 130 to illuminate the surface of the object and irradiate the objective surface that the subject touches. The image is formed on the image sensor 120 by the lens 110 according to the movement of the subject on the objective surface, and the image sensor 120 converts the image formed image into an electrical signal and passes it to the controller 150.

The controller 150 performs amplification, filtration and photoelectric conversion according to the electrical signal converted by the image sensor 120, and provides the amplification, filtration and photoelectric conversion to the calculator 160. The controller 150 also plays a role of determining the validity of the image acquired by the image sensor 120. When the acquired bright and dark images are frequently repeated within a short time and are recognized in the order of valid images-invalid images-valid images, the operation is determined as a click of a general mouse and transferred to the operation unit 160. The calculator 160 calculates a coordinate value of a cursor displayed on the monitor based on the optical signal and the converted value detected by the controller 150.

The image sensor 120 is configured of a CMOS image sensor or a charge-coupled device (CCD) image sensor to obtain an image from an object on an objective surface.

3 is a schematic diagram showing a pointing device using a light source in the device and light from the outside according to the present invention. Referring to Figure 3, using the light of the LED 100 and the portable information terminal outside as a light source and connected to the controller 150, the brightness sensor 140 for detecting the brightness of the external light to the LED 100 and the portable It shows a pointing device that operates by selecting a light source from the light outside the information terminal device.

The brightness sensor 140 detects the brightness of the external light, and the controller 150 performs a command for selecting one light source from the LED 100 and the external light.

First, when the LED 100 is selected, the light generated from the LED 100 illuminates the surface of the object and the light reflected from the object is imaged on the image sensor 120 by the lens 110 for the imaging and the image sensor 120 ) Converts the image formed into an electrical signal and passes it to the controller 150.

If the external light is selected, the selected external light is reflected by the reflection mirror 130 to illuminate the surface of the object and irradiate the object surface that the subject touches. The image is formed on the image sensor 120 by the lens 110 according to the movement of the subject on the objective surface, and the image sensor 120 converts the image formed image into an electrical signal and passes it to the controller 150.

The light source selection process is a process of selecting a light source in the device when the intensity of external light is less than a predetermined value, and selecting the external light when the light intensity is greater than the predetermined value. When the predetermined value is set to the brightness of the light source in the device, a lighter which is brighter among the light source in the device and the external light may be used as the light source for image acquisition.

Figure 4 is a schematic diagram showing a pointing device for the optimal imaging ability using the external light according to the present invention. First, when an external light is used as a light source, distortion may occur when an image is formed because the optical path is not constant. However, in order to have an optimal image forming ability, the external light is reflected by a reflective mirror, that is, an aspheric mirror 180, to collect external light. At 170), it collects at the focal length and creates parallel rays to illuminate the surface of the object and to investigate the object surface that the subject touches. The condensing lens is a convex lens or an aspheric lens. The image is formed on the image sensor 120 by the lens 110 according to the movement of the subject on the objective surface, and the image sensor 120 converts the image formed image into an electrical signal and passes it to the controller 150.

5 is a schematic diagram showing a pointing device using the external light efficiently according to the present invention. First, when the external light is used as a light source and mounted on a portable information terminal device, the light must be totally internally reflected in order to avoid the limitation of size or position and to use the light more efficiently. It should be able to transmit the external light by using a material that can be molded in the shape of the light passage as desired, for this purpose, the light guide 200 was used as the material.

However, when mounted and used in a portable information terminal device, the amount of light on the surface of the portable information terminal device is not constant. Therefore, when the passageway of light is made into N (where N is a natural number), a constraint of position or size can be avoided when constructing a passageway that draws in light using a material such as the light guide 200.

Although the present invention has been shown and described with reference to preferred embodiments as described above, it is not limited to the above-described embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

Therefore, the low-power optical pointing device using natural light of the present invention uses an external light as a light source when using a mobile device in a bright place, and uses a light source in the device as a light source when using it in a dark place. The power consumption of the light source in the device can be reduced.

Claims (14)

A pointing device mounted on a portable information device and acquiring an image of a direction of a movement of a subject to serve as a cursor of a display device, A light path through which external light as a light source enters; A brightness sensor for sensing the brightness of the external light; A reflection mirror reflecting the external light to irradiate the subject; An objective surface receiving light emitted from the reflection mirror and reflecting an image of a movement of a subject; An imaging lens for collecting an image from the objective surface; And An image sensor that receives an image from the imaging lens and converts it into an electrical signal Low power optical pointing device using natural light comprising a. The method of claim 1, Low power optical pointing device using natural light, characterized in that it further comprises a condenser lens for irradiating a subject by making the light input from the reflection mirror in parallel light. The method of claim 2, The condenser lens is a low power optical pointing device using natural light, characterized in that consisting of a convex lens or an aspheric lens. The method of claim 2, The light collecting lens, the objective surface and the reflection mirror is a low-power optical pointing device using natural light, characterized in that the integral structure. The method of claim 1, Low power optical pointing device using natural light, characterized in that further comprising a control unit for performing amplification, filtration and photoelectric conversion according to the electrical signal converted by the image sensor. The method of claim 5, And a calculator configured to calculate a signal from the controller as a coordinate value of a cursor displayed on the monitor. The method of claim 5, Low power optical pointing device using natural light, characterized in that it further comprises a light source in the device for irradiating light to the objective surface. The method of claim 7, wherein The control unit is a low-power optical pointing device using natural light, characterized in that for selecting one of the light source in the device and the external light. The method of claim 8, The controller selects a light source in the device when the brightness of the external light is less than a predetermined value, and selects the external light when the external light is greater than or equal to the predetermined value, wherein the low power optical pointing device using natural light. The method of claim 9, The predetermined value is a low power optical pointing device using natural light, characterized in that the light intensity of the light source in the device. The method of claim 1, The light path is a low power optical pointing device using natural light, characterized in that the light guide. The method of claim 11, The light guide is a low-power optical pointing device using natural light, characterized in that for creating a passage for a predetermined number of light. The method of claim 1, The reflective mirror is a low power optical pointing device using natural light, characterized in that consisting of aspherical mirror or concave mirror. The method of claim 1, The image sensor is a low power optical pointing device using natural light, characterized in that consisting of a CMOS image sensor or a CCD image sensor.

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