KR100244951B1 - Passive auto-focus control apparatus and method having variableness to area of distance measuring - Google Patents

Abstract

Luminance metering means for measuring an amount of luminance of the subject; Ranging means for measuring a subject distance; Photographing control means for varying the driving range of the ranging means according to the measured luminance of the subject and driving the distance, and calculating a subject distance according to a signal detected only through the driven range of the ranging means; A passive focusing device having a variable range of focusing area including lens driving means for moving the lens to a corresponding position to perform focusing adjustment is a camera using a passive autofocusing device. By detecting only the subject light incident to the center of the camera and measuring the subject distance accordingly, when the amount of luminance of the subject is dark, the detection error is prevented according to the weak subject light incident to the periphery of the ranging sensor, thereby improving the accuracy of the ranging to obtain a clear picture. You can shoot.

Description

Passive Auto Focusing Device with Variable Range

1 is a state diagram showing a measurement range in a conventional passive auto focusing apparatus,

2 is a block diagram illustrating a passive auto focusing device in which a range of measurement area is variable according to an embodiment of the present invention.

3 is a flowchart illustrating an operation of a passive auto focusing method in which a range of measurement area is variable according to an exemplary embodiment of the present invention.

The present invention relates to a passive auto focusing device and a method of varying the ranging area, and more specifically, to vary the ranging area of the ranging sensor according to the measured luminance of the subject, and to determine the subject according to the ranging data incident to the area. The present invention relates to a passive auto focusing device and a method of varying the range for calculating a distance.

The camera's auto pocusing method focuses on the subject to be shot and then automatically releases the focus by simply activating the release button.

The auto focusing apparatus is largely divided into an active method and a passive method. The active method detects light or waves incident on the subject by the camera itself emitting infrared rays or ultrasonic waves, and accordingly the distance from the subject. It is a way to measure.

The passive method is a method of passively receiving light from an object in a natural state and measuring a distance.

In the conventional passive type auto focusing device, when the object luminance is dark and cannot be measured, it is possible to measure by supplementing the insufficient luminance by emitting additional auxiliary light.

When the object luminance is dark as described above, when performing the ranging, the light emitted from the auxiliary light spreads as shown in the attached FIG. 1, and the brightness of the peripheral part becomes darker toward the subject. The farther the signal is from the center, the weaker the signal output.

Therefore, when the luminance of the subject is dark, a signal output from the periphery of the range sensor is minute, which causes a disadvantage in that an accurate subject distance cannot be measured.

An object of the present invention is to solve the above-mentioned disadvantages, in the case of a camera using a passive auto focusing device, when the amount of subject brightness is dark, only the subject light incident to the center of the range sensor is detected and the subject distance accordingly. Passive auto-focusing device for varying the measurement area for taking clear pictures by improving the accuracy of the detection by preventing the measurement error due to the weak subject light incident to the periphery of the ranging sensor when the subject luminance is dark It is to provide a method.

A configuration of the present invention for achieving the above object comprises: luminance metering means for measuring an amount of luminance of a subject; Ranging means for measuring a subject distance; Photographing control means for varying the driving range of the ranging means according to the measured luminance of the subject and driving the distance, and calculating a subject distance according to a signal detected only through the driven range of the ranging means; And lens driving means for moving the lens to a corresponding position to perform focus adjustment.

Another aspect of the present invention for achieving the above object comprises the steps of measuring the subject luminance amount; Driving the ranging area of the ranging means in accordance with the measured luminance of the subject, and measuring the ranging data through the driven ranging area; Calculating a subject distance according to the measurement data measured in the above, and performing focus adjustment by moving the lens to the AF zone according to the calculated subject distance.

By the above configuration, the most preferred embodiment that can be easily carried out by those skilled in the art with reference to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a passive auto focusing apparatus in which a ranging area is variable according to an embodiment of the present invention, and FIG. 3 is a flowchart of an operation of the passive autofocus adjusting method in which a ranging area is changed according to an embodiment of the present invention.

As shown in FIG. 2, the configuration of the focus control apparatus of the passive camera in which the range of measurement according to the embodiment of the present invention is variable includes a release switch S1 and a luminance meter 10 for measuring an amount of luminance of a subject. And a photographing control unit 30 for detecting a light emitted from the subject, and a photographing control unit 30 for controlling a focus adjustment operation according to a signal applied to an output terminal of the luminance metering unit 10 and the metering unit 20. And an auxiliary light emitter 40 for emitting a predetermined amount of light when the subject luminance is low, and a lens driver for moving the lens to a corresponding position according to a signal applied to an output terminal of the photographing controller 30. 50 and the shutter driver 60.

The ranger 20 according to the embodiment of the present invention is not a sensor that emits a predetermined amount of light to a subject and then receives the reflected light, as in an active method, and is composed of a charge coupled device (CCD) device. The device is composed of a plurality of range sensors that are driven according to the light corresponding to the object to output a corresponding electrical signal.

The function of the passive auto focusing device in which the range of measurement according to the embodiment of the present invention by the above configuration is variable is as follows.

When power is applied to the camera, the capturing controller 30 initializes all variables used (S110), and performs a corresponding capturing operation according to the operation of the release switch S1.

When the first stage of the release switch S1 is operated, the photographing controller 30 measures the subject luminance according to the signal output from the luminance metering unit 10 (S120 ˜ S130), and the measured subject luminance amount is impossible to measure the subject. It is determined whether or not the low luminance is less than the set value (S140).

If the object luminance measured as described above cannot be measured, the auxiliary light emitting unit 40 is driven to supplement a predetermined amount of light (S150).

A certain amount of light emitted from the auxiliary light emitter 40 is emitted to the subject as shown in FIG. 1, but since the emitted light spreads, the signal is gradually moved around the subject image formed by the ranger 20. It becomes weak.

In the embodiment of the present invention, since the ranging unit 20 is composed of a plurality of ranging sensors, the ranging area is classified into five areas. Instead of driving the corresponding range sensor, only the range sensor corresponding to the three areas corresponding to the center is driven to measure the range data on the subject.

In the above, the photographing control unit 30 emits an auxiliary light when the subject luminance is low, and then drives the ranging sensor corresponding to the center except for the left and right peripheral regions of the ranging unit 20 to display the ranging data corresponding to the subject. In operation S150 to S160, the subject distance is calculated according to the measured measurement data in operation S180.

However, when the amount of luminance measured by the subject is not low, it is determined that the subject can be measured, and the ranging sensor corresponding to all the ranging areas of the ranging unit 20 is driven to measure the ranging data on the subject. The object distance is calculated according to the measured range data (S170, S180).

After calculating the subject distance by varying the measurement area according to the measured luminance of the subject as described above, the photographing controller 30 drives the lens driving unit 50 when the second stage of the release switch S1 is operated. The lens is moved to the corresponding AF zone, and the shutter driver 60 is operated to perform photographing (S200 to S220).

As described above, according to the embodiment of the present invention, in the camera using the passive auto focusing device, when the amount of subject luminance is dark, only the subject light incident on the center of the range sensor is detected and the subject distance is measured accordingly. Passive autofocus control device having a variable range of ranging area having the effect of taking a clear picture by preventing the ranging error due to the weak subject light incident to the periphery of the ranging sensor when the brightness of the subject is dark It may provide a method.

Claims (8)

Luminance metering means for measuring an amount of subject rotation; Ranging means for measuring a distance of a subject, the sensor comprising: a plurality of range sensors for driving according to light incident from a subject and outputting a corresponding electrical signal; Selectively driving a sensor of the ranging means according to the measured luminance of the subject, calculating a subject distance according to a signal output from the driven ranging sensor, and performing a control signal for performing focus adjustment according to the calculated subject distance Photographing control means for outputting; And a focus adjusting means for shifting a lens to a corresponding position according to the control signal to perform focus adjustment. The method according to claim 1, wherein the photographing control means corresponds to a central portion without driving the range sensor corresponding to the left and right peripheral regions of the ranging means of the ranging means when the measured object luminance amount is low luminance that cannot be measured. A passive auto focusing device with a variable range of range, characterized in that for measuring the range data on the subject by driving only the range sensor. The method according to claim 1, wherein the photographing control means drives all of the range sensors corresponding to the range of the range of the range means to measure the range of data on the subject when the amount of luminance measured is high brightness. Passive auto focusing device is characterized in that the ranging area is variable. 2. The passive autofocus according to claim 1, further comprising auxiliary light emitting means for emitting a predetermined amount of light to the subject to supplement the luminance when the luminance of the subject is low in luminance. Regulator. Measuring a subject brightness amount; Driving the ranging area of the ranging means in accordance with the measured luminance of the subject, and measuring the ranging data through the driven ranging area; Calculating a subject distance according to the measurement data measured in the above, and performing focus adjustment by moving a lens to an AF zone according to the calculated subject distance. Way. The method of claim 5, wherein in the step of measuring the ranging data according to the amount of luminance of the subject, when the measured amount of luminance of the subject is low luminance that is impossible to measure, the ranging sensor corresponding to the left and right peripheral regions of the ranging region of the ranging means is driven. Passive auto-focus control method in which the ranging area is variable, characterized in that to measure the ranging data on the subject by driving only the ranging sensor corresponding to the center. The method according to claim 5, wherein in the step of measuring the ranging data according to the amount of luminance of the subject, when the measured amount of the luminance of the subject is high luminance capable of measuring, driving all the ranging sensors corresponding to the range of the ranging means on the subject. Passive auto-focus control method of varying the measurement area, characterized in that for measuring the corresponding measurement data. 6. The method of claim 5, further comprising the step of firing a predetermined amount of light to the subject to compensate for the luminance amount when the luminance amount of the subject is low. .