KR0176761B1 - Back light compensating apparatus for electronic viewfinder - Google Patents

Abstract

The present invention relates to a technique of adjusting the backlight of the camcorder viewfinder using sunlight, and to compensate for the brightness of an internal light source using sunlight in a bright environment, and conversely, by using a light blocking device when the surroundings are dark. The backlight compensation device 111 is implemented to prevent internal light from leaking out to provide a clear image in the viewfinder regardless of the brightness of the external environment.

Description

Backlight Compensator in Electronic Viewfinder

1 is a schematic diagram of a backlight compensation device in the viewfinder of the present invention.

2 is a partial perspective view of the backlight compensation device of the present invention.

3 is a plan view of the backlight compensation device of the present invention.

4 is an exemplary block diagram of a backlight compensation device of a viewfinder using sunlight according to the present invention.

Figure 5 is a block diagram of another embodiment of the illuminance detection unit applied to the present invention.

* Explanation of symbols for main parts of the drawings

10: Viewfinder barrel 11: Backlight generator

12: LCD 13, 14: Eye lens

15: solar window 16: photo switchgear

17: link 18: motor

19: hinge axis 100A: video signal processing unit

101: lens assembly 102: CD

103: camera signal processing unit 104: A / D converter

105: Y / C processing unit 106: D / A converter

107: illuminance detection unit 108: microcomputer

109: aperture control unit 110: motor drive unit

111: backlight compensation device

The present invention relates to a technology for adjusting the backlight of a camcorder viewfinder using sunlight, and particularly, in a bright environment, the brightness of the light source by the backlight device is relatively dark to compensate for the color viewfinder being difficult to see. For example, the present invention relates to a backlight compensation device of an electronic viewfinder, which is suitable for preventing leakage of light from outside in a dark environment.

In general camcorders, it is difficult to observe a photographed image because the brightness of the light source by the backlight device is relatively dark when the environment is bright, and a device for compensating the backlight by receiving light from the outside has been proposed. They cause new problems such as internal light leaking out through its external light input path when it is dark, and adversely affecting it.

Accordingly, an object of the present invention is to compensate for the brightness of the internal light source using sunlight in a bright environment, and conversely, the backlight compensation that can prevent the light from leaking out by using a light shielding device when the environment is dark. In providing a device.

1 is a schematic view of a backlight compensator in the viewfinder of the present invention for achieving the above object, as shown here, the backlight generating device 11 of emitting a predetermined brightness and the scanning in the backlight generating device 11 LCD (12) for displaying the image taken by using the backlight, the eye lens (13), (14) for viewing the image displayed on the LCD 12 with the eyes from the outside, Serrated solar window 15 fixedly installed on the upper side of the viewfinder barrel 10 so that the solar light scanned in a predetermined direction is supplied to the rear surface of the LCD 12, and when the surrounding environment is bright. To allow sunlight to enter through the solar window 15, and to prevent light reflected from the backlight generator 11 from leaking to the outside when the surrounding environment is dark. Opening and closing device 16, and the motor 18 to control the opening and closing operation of the photovoltaic opening and closing device 16 through the link 17 while being driven under external control.

FIG. 4 is a block diagram of an embodiment of a backlight compensation device of a viewfinder using sunlight according to the present invention. As shown therein, a lens assembly 101 which receives an image of a photographed subject and a lens assembly 101 are provided. The luminance signal (Y) and the color signal (C) are separated from the composite image signal output from the CD 102 and the composite image signal output from the CD 102 and the gain thereof is obtained. A camera signal processor 103 for automatically adjusting to a level suitable for processing, and an analog (A) / digital (D) converter for converting analog luminance and color signals output from the camera signal processor 103 into digital signals ( 104 and a Y / C processing unit 105 for converting the digital luminance signal and the color signal output from the A / D converter 104 into a form suitable for outputting to the outside under the control of the microcomputer 108; Y / C minutes Detects the degree of brightness of external light based on the D / A converter 106 for converting the digital luminance and color signals output from the device 105 into analog signals and the luminance signal output from the 4 / D converter 104. Outputs a control signal for controlling the opening and closing degree of the aperture based on the illuminance detection unit 107 and the output information of the illuminance detection unit 107, and uses an external light source (for example, sunlight) as a backlight or an internal light source The microcomputer 108 outputs a control signal in multiple stages to prevent light emitted from the outside from leaking out, and the driving of the motor M under the control of the microcomputer 108 to control the lens assembly 101. Aperture control unit 109 for adjusting the opening and closing degree of the aperture disposed in the), the motor drive unit 110 for supplying a driving force to the backlight compensation device 111 under the control of the microcomputer 108, and under a bright environment The solar switchgear 16 is opened to allow sunlight to be supplied to the backlight of the LCD 12 through the solar window 15. In a dark environment, the solar switchgear 16 is closed to be scanned from an internal light source. It is composed of a backlight compensation device 111 to prevent light from leaking to the outside, and will be described in detail with reference to FIGS. 2, 3, and 5 attached to the operation and effect of the present invention configured as described above. .

The image captured by the subject and input through the lens assembly 101 is converted into an electrical signal through the CD 102, and is outputted. The luminance signal Y and the color signal C are output through the camera signal processor 103. Are separated and their gain is automatically adjusted to an appropriate level for processing.

In addition, the analog luminance signal and the color signal output from the camera signal processing unit 103 are processed into a digital signal through the A / D converter 104 and supplied to the Y / C processing unit 105 corresponding to the digital signal processing unit The digital luminance signal and color signal are converted into a form suitable for output to the outside, and the converted signal is converted into an analog signal through a D / A converter and supplied to an external display device.

At this time, the illuminance detection unit 107 detects the degree of brightness of the incident image signal based on the luminance signal output from the A / D converter 104 and supplies the detection result to the microcomputer 108. Accordingly, the microcomputer 108 outputs a control signal for controlling the brightness of the incident image signal to the aperture control unit 109.

Therefore, the aperture control unit 109 controls the driving of the motor M according to the input control signal, and if the incident image signal is too bright, the aperture disposed in the lens assembly 101 is further closed as much as the brightness. On the contrary, if it is too dark, the aperture is opened as much as the darkness, so that the brightness of the input video signal is appropriate.

On the other hand, the microcomputer 108 determines the brightness of the external light through the path and outputs a control signal accordingly, and the motor driving unit 110 according to the control signal, that is, if the ambient brightness is above a certain illuminance, that is, low To control the backlight of the backlight compensation device 111 configured as shown in FIG. 1 in order to receive sunlight and compensate for the backlight, and when it is below a certain level of illumination, that is, the internal light scanned by the backlight generator 11 at night is moved to the outside. The backlight opening and closing device 16 is closed by controlling the driving of the backlight compensator 111 so as not to leak.

That is, the microcomputer 108 controls the driving of the motor 18, the link 17, and the photovoltaic switch 16 corresponding to the backlight compensator 111 so as to receive external light in a bright environment and back light the backlight. By compensating for the light scanned from the generator 11 to the LCD 12 side, the brightness of the light source by the backlight generator 11 is relatively dark in a bright environment, and the color viewfinder is hardly visible. At this time, the power consumption can be reduced by reducing the brightness of the backlight generator 11 as necessary. In a dark environment, the brightness of the backlight generator 11 is enhanced, and the solar switch 16 is closed.

Hereinafter, the driving control process of the backlight compensator 111 will be described in more detail with reference to FIGS. 1 to 3.

The video signal output from the D / A converter 106 of FIG. 4 is supplied to the LCD 12 installed in the viewfinder barrel 10 to display an image, and at this time, the backlight generator 11 The light scanned by the NX is supplied to the rear surface of the LCD 12 so that the photographer can observe an image currently being photographed through the eye lenses 13 and 14.

However, when the ambient light is bright, such as in bright daylight, the brightness of the light scanned by the backlight generator 11 is relatively dark, and the sharpness of the image displayed on the LCD 12 is reduced.

Therefore, the external solar light is used as a means to solve the problem. To this end, the LCD of the backlight generator 11 is installed by installing the serrated solar window 15 above the viewfinder barrel 10. Apart from the internal light source supplied to the rear surface of (12), sunlight incident through the solar window 15 is scanned to the rear side of the LCD 12, so that the sharpness of the image does not deteriorate even under too bright environment.

However, in a dark environment, since the internal light scanned by the backlight generator 11 is leaked to the outside through the solar window 15, the adverse effect appears, so as to solve this problem, Scissor-shaped solar switchgear 16 as shown in FIG. 3 is installed at the lower part, and the brightness of the surroundings is checked to open the solar switchgear 16 at a predetermined illuminance or higher, so that external sunlight is turned into a backlight as described above. Under the predetermined illuminance, the photovoltaic switch 16 was closed to prevent internal light from leaking.

In order to achieve this, in a certain illuminance or more, the motor 18 rotates clockwise by the motor driving unit 110 for a predetermined time, and thus the link 17 is moved forward, and thus the long hole 20 formed on one side of the photovoltaic opening and closing device 16. ), The photovoltaic switch 16 is opened as shown in (b) of FIG. 3, and on the contrary, under the constant illuminance, the motor 18 is rotated counterclockwise, that is, in the home position direction for a predetermined time. It rotates for a while so that the photovoltaic switch 16 is closed as shown in FIG.

On the other hand, Figure 5 shows another embodiment of the optical signal detector of the present invention, the operation thereof will be described as follows.

The camera signal processor 203 processes the output signal of the CD 202 for converting the input image into an electrical signal to detect the luminance signal, and the smoother 204 smoothes the luminance signal to a voltage of a DC component. The comparator 205 compares the smoothed DC voltage with the reference voltage Vref and outputs a corresponding comparison voltage, and the aperture control motor 206 is rotated by a distance corresponding to the comparison voltage. That is, the aperture 201 is automatically adjusted according to the brightness of the external light source.

Apart from this, the number of pulses corresponding to the rotational distance of the diaphragm 201 is output through the Hall element 207 provided around the diaphragm 201, and the pulse is output to an appropriate level through the amplifier 208. In this case, the microcomputer 108 determines the opening degree of the diaphragm 201 based on the amplified pulse.

Based on the signal output from the control path of the diaphragm 201, that is, based on any one of the output signal of the smoothing unit 204, the output signal of the comparator 205, the output signal of the amplifier 208. The microcomputer 108 determines the brightness of the current external environment, and as described above, through the motor driving unit 110, the scissors-shaped solar switchgear.

(16) can be closed or opened.

As described in detail above, the present invention compensates the brightness of the internal light source using sunlight in a bright environment and, on the contrary, prevents the internal light from leaking out by using a light blocking device when the environment is dark. Irrespective of the brightness, the viewfinder can provide clear images, and power consumption can be reduced.

Claims (7)

An electronic viewfinder integrated camcorder, comprising: display means for displaying an image signal photographed by the camcorder; In order to reduce the current consumption by the backlight of the display means and to reproduce a clear image in the viewfinder irrespective of the external environment, the light-receiving means for receiving external light from the rear end of the display means and projecting to the display means side; ; A light receiving opening and closing means for opening and closing the light receiving means; Illuminance detecting means for discriminating illuminance using an image signal photographed by the CD of the camcorder; And a control means for changing the drive current of the light receiving switch according to the illuminance detected by the illuminance detecting means and controlling the light receiving switch in multiple stages. The backlight compensation device of an electronic viewfinder according to claim 1, wherein the control means is configured to control the brightness of the backlight generator (11) installed in the viewfinder in accordance with the illuminance detected by the illuminance detection means. The backlight compensation device of an electronic viewfinder according to claim 1, wherein the light receiving opening and closing means is configured to open and close the light receiving means by a rotational force of a motor. The backlight compensation device of an electronic viewfinder according to claim 1, wherein the illuminance detection means detects illuminance based on a signal on a control loop for controlling the opening and closing of the aperture installed in the lens assembly. The backlight compensation device of an electronic viewfinder according to claim 1, wherein the illuminance detecting means shares an aperture control illuminance detecting means which is a component of the camcorder. The backlight compensation device of an electronic viewfinder according to claim 1, wherein the illuminance detecting means detects illuminance based on an output signal of a hall element for detecting an opening degree of an aperture installed in the lens assembly. 2. The apparatus of claim 1, wherein the illuminance detecting means comprises: smoothing means for smoothing the signal of the video signal photographed by the camcorder and outputting a voltage of a DC component; And a comparison means for outputting a comparison voltage by comparing the DC voltage output by the smoothing means with a reference voltage.