KR0124975Y1 - Inverted light control device of optical view finder - Google Patents

Abstract

The present invention relates to an optical viewfinder, and in particular, it is possible to prevent the deterioration of image quality caused when the amount of light input through the eye cup of the optical viewfinder is larger than the light amount of the subject input through the zoom lens. A backlight control apparatus for an optical viewfinder.

The backlight control apparatus of the optical viewfinder of the present invention transfers a part of the light of the subject introduced through the zoom lens unit and the light control unit to the solid-state image pickup device, and transmits a part of the remaining light to the optical viewfinder lens to form the same image, respectively. An optical viewfinder, comprising: a backlight detecting means for detecting a magnitude of backlight flowing into an optical viewfinder lens, and a controller for controlling an amount of light and a light receiving time of a subject according to the amount of backlight detected by the backlight detecting means. .

Description

Backlight control in the optical viewfinder

1 is a view showing the configuration of a general optical viewfinder.

2 is a view showing the configuration of an optical viewfinder to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

11: zoom lens unit 12: light control unit

13: solid-state image sensor part 13a: electronic shutter

14 viewfinder section 15 image signal processing section

16: backlight detection unit 61: backlight mirror

62: light receiving sensor 17: control signal generator

The present invention relates to an optical viewfinder, and in particular, it is possible to prevent the deterioration of image quality caused when the amount of light input through the eye cup of the optical viewfinder is larger than the light amount of the subject input through the zoom lens. A backlight control apparatus for an optical viewfinder.

As shown in FIG. 1, a general optical viewfinder includes a light adjusting unit 2 for adjusting an amount of light of a subject input through a zoom lens unit 11 composed of a plurality of lenses, and a solid to which light of the subject is formed. The same image formed by the imaging device unit 3, the prism P, the optical mirror OVFM, the plurality of lenses OVFL, and the eye cup and formed on the solid-state imaging device unit 3 And a viewfinder section 4 for forming an image on the retina of the eye, and an image signal processing section 5 for converting an imaged object of the solid-state imaging device section 3 into an electrical video signal and displaying the image on the screen.

In the general optical viewfinder configured as described above, first, the light emitted from the subject is controlled by the light adjusting unit 2, and the light of the subject controlled by the light adjusting unit 20 is the solid-state image sensor unit. It is delivered to (3) and formed.

A part of the subject light adjusted by the light adjusting unit 2 is reflected through the prism P and then reflected again by the optical mirror OVFM, and the light of the subject reflected by the optical mirror OVFM is an optical lens. (OVFL) is imaged on the retina of the user's eyes.

On the other hand, the light of the imaged subject of the solid-state image pickup unit 3 is transmitted to the image signal processing unit 4, is converted into an electric video signal, processed to be displayed on the screen and displayed on the monitor.

In the general optical viewfinder having the above-described structure, when the light input through the eye cup from the user's observation eye is larger than the light of the subject controlled by the light control unit, a deterioration of image quality occurs in which a round white pattern appears in the center of the monitor. There was a problem that the image quality is reduced.

Therefore, the present invention is to solve such a problem, an object of the present invention is to adjust the light control unit according to the size of the light input back from the user's eye through the eye cup to prevent deterioration of image quality due to the backlight. An object of the present invention is to provide a backlight control apparatus of an optical viewfinder.

The backlight control apparatus of the optical viewfinder of the present invention for achieving the above object is that a portion of the subject light incident on the zoom lens portion passes through the prism to form an image on the solid-state image sensor and reflects a portion of the light of the subject by the prism And an optical viewfinder that forms an image identical to that of a solid-state image pickup device to a user's retina by an optical viewfinder lens, the optical viewfinder comprising: backlight detection means for detecting a magnitude of backlight that is input backward from the user's eye; And a control signal generating means for controlling the light control unit according to the size of the backlight detected by the backlight detecting means to adjust the light receiving time by adjusting the size of the subject light and controlling the electronic shutter of the solid state image pickup device. There is this.

Hereinafter, an embodiment of a backlight control apparatus of an optical viewfinder according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view illustrating a configuration of a backlight control apparatus of an optical viewfinder to which the present invention is applied. As shown in FIG. 2, light for adjusting an amount of light of a subject input through a zoom lens unit 11 including a plurality of lenses is illustrated. The adjusting unit 12, the solid-state imaging device unit 13 which forms an image of light of the subject controlled by the light control unit 12, and outputs the electrical signal, and the solid-state imaging device unit 13 is connected to the object. Electronic shutter (13a) for adjusting the time to receive the light, prism (P) for reflecting a part of the light of the subject incident on the solid-state imaging element unit 13 toward the optical viewfinder, optical mirror (OVFM), many A viewfinder section 14 composed of two lenses OVFL and Eye Cup to form the same image formed on the solid-state imaging device section 13 on the retina of the user's eye, and the solid-state imaging device section ( 13) the imaged subject is an electric video signal. Backlight detection to detect the size of the image signal processing unit 15, which is converted and displayed on the monitor, and the light input to the inflow from the eye side through the eye cup of the viewfinder unit 14, i.e. The light control unit 12 controls the light control unit 12 so that a large amount of light of the subject is incident when the amount of back light is large according to the amount of back light detected by the backlight detection unit 16 and the light control unit 12. The control signal generator 17 controls the electronic shutter 13a so that the time for the solid-state image pickup device 13 to receive the light of the subject is reduced when the light of the subject is incident by adjusting the.

That is, the control signal generator 17 controls the amount of the subject light to be inversely proportional to the amount of back light flowing into the viewfinder 14 from the user's eyes and adjusts the light receiving time of the solid state image pickup device to be inversely proportional to the back light amount. To control.

Here, the backlight detecting unit 16 includes a backlight mirror 61 for reflecting a part of the backlight that flows back from the user's eye through the eye cup EC of the viewfinder unit 14, and the backlight mirror 61. It consists of a light receiving sensor 62 for detecting the size of the back light reflected by the), the backlight mirror 61 is installed in a position outside the path of the subject light that is normally formed through the barrel of the optical viewfinder to form an image to the user's eyes The reflective surface of the backlight mirror surface is inclined at an angle of about 45 degrees in the direction in which the backlight is introduced, and is installed at an intermediate portion of the viewfinder barrel.

In addition, the light receiving sensor 62 is composed of a photo transistor in which the backlight reflected by the backlight mirror 61 is received.

In the backlight control apparatus of the optical viewfinder according to the present invention configured as described above, first, the light emitted from the subject is controlled by the light adjusting unit 12 of the zoom lens unit 11 to adjust the size of the light and adjust the light. The light of the subject adjusted in the unit 12 is appropriately adjusted by the electronic shutter 13a to form an image as a bright image signal in the solid-state imaging element unit 13.

The light of the subject imaged on the solid-state imaging element unit 13 is partially reflected by the prism P and then reflected again by the optical mirror OVFM, and the optical of the subject reflected by the optical mirror OVFM. The lens OVFL forms an image on the retina of the user's eyes.

At this time, when the backlight is introduced through the eye cup from the eye side of the user who uses the viewfinder, the introduced backlight is reflected by the backlight mirror 61 of the backlight detector 16 and the backlight mirror 61 The reflected back light is sensed through the light receiving sensor 62.

The backlight detected by the light receiving sensor 62 is applied to the backlight control signal generator 17 to output a control signal proportional to the magnitude of the backlight, and to increase the diameter of the light amount aperture in proportion to the control signal. The size of the imaging light from the subject is relatively large compared to the size of the backlight so that a round white pattern caused by backlight is not observed on the monitor screen.

At this time, when the solid state image pickup device is saturated by the subject light, the speed of the electronic shutter is increased to obtain an appropriate image brightness.

That is, since the brightness of the subject is high on a sunny summer day, the diameter of the light control unit 12 is adjusted to a small diameter in a normal state, but when the backlight is introduced, the light is controlled by the adjustment value of the light control unit 12 proportional to the backlight. The diameter of the part 12 is increased so that the size of the light of the subject is larger than that of the backlight, and the electronic shutter is opened only for a shorter time.

On the other hand, the light of the object formed in the solid-state image pickup unit 13 is applied to the image signal processing unit 15 is converted into an electrical image signal, processed to be displayed on the screen and displayed on the monitor.

As described above, the backlight control apparatus of the optical viewfinder according to the present invention detects the backlight and adjusts the light control unit so that the size of the light of the subject is larger than the size of the backlight, thereby removing the deterioration of the image quality and improving the image quality. It can be effected.

Claims (3)

A part of the light of the subject introduced through the zoom lens unit and the light control unit is a solid state image pickup device, and a part of the remaining light is transferred to the optical viewfinder lens to form the same image, respectively. And a control unit for controlling the amount of light and the light receiving time of the subject according to the amount of backlight detected by the backlight detection unit. The optical backlight sensor of claim 1, wherein the backlight detecting means comprises a backlight mirror reflecting light flowing into the optical viewfinder lens, and a light receiving sensor sensing a magnitude of backlight reflected by the backlight mirror. Backlight control in the viewfinder. The method of claim 1, wherein the control unit comprises a control signal generating means for controlling the light adjusting unit for adjusting the light amount of the subject in proportion to the amount of backlight detected by the backlight detecting means, and an electronic shutter for adjusting the light receiving time of the subject. Backlight control device of optical viewfinder.