KR19990054522A - Device for controlling light emission of camera and control method thereof - Google Patents

Abstract

The present invention relates to an apparatus for controlling the amount of light emitted from a camera and a method of controlling the same. When the luminance sensor 1 detects a luminance state and outputs a corresponding current signal to the signal processor 2, the signal processor 2 generates a current signal. Is converted into a corresponding voltage signal and output to the operation control unit 4, and the focus control motor 3 operates to automatically adjust the focal length with the subject. It is determined whether the operation is for the near focus adjustment, and when the luminance state is the low luminance state and the operation of the focus control motor 3 for the near focus adjustment is performed, the sensor reference voltage adjusting unit 5 for controlling the light emission amount of the flash is performed. The reference voltage value is controlled in accordance with the operation amount of the focus control motor 3. The AND gate 6 controls an operation of the flash controller 7 by varying an output signal according to signals output from the sensor reference voltage adjuster 5 and the operation controller 4, and outputs a signal from the flash controller 7. The operation of the flash 8 is controlled in accordance with the state. Therefore, when the distance from the subject is close, the value of the reference voltage controlling the amount of light emitted by the flash can be adjusted according to the distance from the subject, so that accurate light quantity control can be performed according to the distance from the subject, thereby improving the picture quality. In addition, there is no need to add a separate device, thereby reducing the manufacturing cost.

Description

Device for controlling light emission of camera and control method thereof

The present invention relates to an apparatus for controlling light emission of a camera and a method thereof, and more particularly, to an apparatus and method for controlling light emission of a flash when the distance to a subject is near.

With the development of digital technology, a new type of camera using a digital signal, i.e., the image of the subject is stored in memory as a digital signal represented by 0 and 1 so that the stored image can be directly connected to the computer without developing, printing, or scanning. Portable still cameras (Digital Still Cameras, hereinafter referred to as DSC) have been developed and are rapidly spreading.

A digital still camera converts an electric image signal of a subject into a digital signal by using an image pickup device such as a charge coupled device (CCD), and the digital signal of a subject photographed by a compression / restore operation of the digital signal. In the memory or output the data through the output device.

According to this principle, a digital still camera that performs a photographing operation of a subject stores image data of a photographed subject, such as a floppy disk or a memory card, which stores data without using a separate film like a conventional camera.

Electronic cameras or automatic cameras, such as digital still cameras, use an auxiliary device to adjust the luminance to match the shooting conditions when the luminance of the surrounding environment is not suitable for performing the shooting operation.

Therefore, if the luminance of the surrounding environment is insufficient for taking pictures, the photographer may attach a separate strobe device to the camera to compensate for the lack of brightness, or operate an additional lighting device. Or use the sun's rays to prevent poor photography due to lack of brightness.

Also, even in the case of an automatic camera, since the strobe device is almost attached, if the brightness state of the surrounding environment is determined to be insufficient by the control operation of the control device built in the camera, the shooting operation is performed on the attached strobe device. Run on time.

Therefore, the camera user can operate the strobe device as needed without a separate strobe device operation to compensate for the insufficient brightness state to obtain a high-quality picture, thereby improving the user's convenience.

However, when the light amount control is automatically executed according to the luminance state of the surrounding environment as described above, when the distance to the subject is close, accurate light amount control according to the light amount saturation is not performed.

That is, the delay operation of the sensor itself for the luminance processing occurs at a short distance within about 1m, and the correct amount of light correction is not performed according to the insufficient amount of light.

Therefore, when the distance to the subject is less than a predetermined distance, a light quantity saturation phenomenon occurs, causing a problem of deteriorating the image quality of the photographed subject.

The technical problem to be solved by the present invention is to perform appropriate light amount control even when the distance from the subject is close in a high-sensitivity DSC camera.

1A is a block diagram of a light emission control apparatus of a camera according to a first embodiment of the present invention,

1B is an operation flowchart of a light emission control method of a camera according to a first embodiment of the present invention;

2A is a block diagram of a light emission control apparatus of a camera according to a second embodiment of the present invention;

2B is a flowchart illustrating a method of controlling a light emission amount of a camera according to a second embodiment of the present invention.

In order to solve this problem, the present invention controls the reference voltage for controlling the amount of light emitted by the flash according to the operation amount of the focus control unit when the focus control unit operates for the near focus control.

In addition, in order to solve the problem, the present invention is to control the magnitude of the reference voltage for controlling the amount of flash output according to the distance to the subject.

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

1 is a block diagram of an apparatus for controlling light emission amount of a camera according to an embodiment of the present invention, and FIG. 2 is an operation flowchart of a method for controlling light emission amount of a camera according to an embodiment of the present invention.

As shown in FIG. 1, in the structure of the first embodiment of the present invention, when the luminance sensor 1 detects a luminance state of a surrounding environment and outputs a corresponding current signal to the signal processor 2, the signal processor 2 ) Converts a current signal into a corresponding voltage signal and outputs it to the operation controller 4, and the focusing motor 3 moves by a set amount according to a control signal applied to automatically adjust a focal length with a subject. In addition, the reference voltage for controlling the replenishment amount of light for luminance correction may be adjusted according to the movement amount data.

The operation control unit 4 outputs a control signal for controlling the operation of the focus control motor 3, and the light amount of the subject is insufficient according to the luminance state output from the signal processing unit 2 and the operation state of the focus control motor 3. In order to compensate for this, the reference voltage value of the sensor reference voltage adjusting unit 5 for controlling the amount of light emitted is controlled. The AND gate 6 controls an operation of the flash controller 7 by varying an output signal according to signals output from the sensor reference voltage adjuster 5 and the operation controller 4, and outputs a signal from the flash controller 7. The light emission state of the flash 8 is controlled in accordance with the state.

In addition, the operation control unit 4 includes a central processing unit 41 for executing a control operation, a memory 42 for storing data, programs, temporary data, and the like necessary for the control operation.

Next, the operation of the apparatus for controlling the light emission amount of the camera according to the first embodiment of the present invention will be described with reference to FIG. 1B.

First, when power required for the operation of each device is supplied and operation starts (S10), the central processing unit 41 of the operation control unit 4 detects the luminance detection unit 1 applied through the signal processing unit 2 The signal is read (S11) to determine whether the current luminance state is a low luminance state requiring auxiliary light emission lower than the set luminance state (S12).

When the determined luminance state is a low luminance state, the CPU 41 determines whether a movement operation for adjusting the near focus with the subject is performed using the signal output from the focus control motor 3 (S13). ). For the near focus control, when the focus control motor 3 is moved, the central processing unit 41 of the operation controller 4 outputs a flash drive signal for correcting the low luminance state to one terminal of the AND gate 6. do.

In addition, the sensor reference voltage of the sensor reference voltage adjuster 5 is adjusted to control the light emission amount of the flash 8 according to the movement amount of the focus control motor 3 for the near focus adjustment. That is, when the distance from the subject is close, the focus control motor 3 moves to adjust the near focus, and thus the movement amount of the focus control motor 3 changes according to the distance from the subject. The distance to the subject can be known according to the amount of movement.

Therefore, the central processing unit 41 of the operation control unit 4 reads the movement amount of the focus control motor 3 for short-range control stored in the memory 42 to determine the distance to the current subject, and then adjusts the focus. The reference voltage of the luminance sensing unit 1 for controlling the light emission amount of the sensor reference voltage adjusting unit 5 is readjusted using the data set according to the movement amount of the motor 3 and stored in the memory 42 (S15). .

At this time, the signal state output from the sensor reference voltage adjusting unit 5 is sensed by the luminance detecting unit 1 and is low level when the luminance amount of the luminance detecting unit 1 applied through the signal processing unit 2 reaches the set reference voltage. Outputs an "L" signal, but if it does not reach the set reference voltage, it outputs a high level "H".

Therefore, when the value of the reference voltage is adjusted in accordance with the movement amount for the short-range control of the focus control motor 3, the operation of the flash control unit 7 is controlled according to the output value of the AND gate 6, thereby Since the light emission operation time is determined, the light emission amount is determined according to the distance from the subject (S16).

That is, first, when the surrounding luminance degree is low luminance in step S14, the AND gate 6 is caused by the flash drive signal of the high level " H " state output from the operation control section 4 to the AND gate 6. The output state of " H " becomes a high level " H " to operate the flash control unit 7 to perform the light emitting operation of the flash 8.

The light emission operation of the flash 8 is performed by the operation of the flash control unit 7 so that the amount of brightness detected by the brightness detecting unit 1 reaches the reference voltage of the sensor reference voltage adjusting unit 5 or the operation control unit 4 When the output of the flash drive signal is stopped, the signal state output from the sensor reference voltage adjusting section 5 or the operation control section 4 to the AND gate 6 becomes "L", which is a low level. The operation is stopped. For this reason, the light emission operation of the flash 8 is also stopped.

Therefore, the amount of light emitted by the flash 8 is determined in accordance with the magnitude of the reference voltage of the sensor reference voltage adjuster 5 that varies in accordance with the distance to the subject or in accordance with the flash drive signal applied by the operation controller 4. Even when the distance to the subject is close, it is possible to accurately and variably control the amount of flash output according to the distance.

However, when the operation state of the focus control motor 3 determined in step S13 is not a movement operation for adjusting the near focus, that is, when the distance to the subject is not set near, the operation control unit ( The central processing unit 41 of 4) outputs the flash drive signal to the flash control unit 7 (S17), and performs luminance correction according to the low luminance.

When the amount of brightness detected by the brightness detecting unit 1 reaches the set reference voltage by the light emission operation of the flash 8 according to the reference voltage of the sensor reference voltage adjusting unit 5 already set, the sensor reference voltage adjusting unit The output of (5) is converted to "L" which is a low level, and converts the output signal of the AND gate 6 applied to the flash control part 7 to "L" which is low level (S18). Therefore, the operation of the flash control unit 7 is stopped and the light emission operation of the flash 8 is also stopped.

Next, a structure and an operation according to the second embodiment of the present invention will be described with reference to FIGS. 2A and 2B, which illustrate a block diagram of the apparatus for controlling the amount of light emitted from the camera according to the second embodiment of the present invention. do.

As shown in Fig. 2A, the structure according to the second embodiment of the present invention determines whether the distance from the subject is near, and instead of the focusing motor 3 for determining the movement amount for the near control, Except for using the subject distance detecting unit 30 for performing the focus control with the subject by directly measuring the distance of the object, since the structure of the first embodiment of the present invention is the same, detailed description of the structure is omitted.

The object distance detecting unit 30 includes a light receiving element for emitting and receiving infrared light, a light emitting element, and the like.

2B, the operation according to the second embodiment of the present invention will be described.

First, when the power required for the operation of each device is applied, the operation is started (S20), the operation control unit 40 reads the output signal of the luminance sensor 1 applied through the signal processing unit 2 (S21) In step S22, it is determined whether the current luminance state is a low luminance state. When the determined luminance state of the subject is a low luminance state, the central processing unit 401 of the operation controller 40 reads a signal from the distance data applied from the subject distance detection unit 30 to determine a distance from the current subject. It determines (S23).

When the distance to the subject is determined using the subject distance detecting unit 30, the central processing unit 401 of the operation control unit 40 uses data already set in the memory 402 according to the determined distance, The reference voltage of the sensor reference voltage adjusting unit 5 is converted (S25).

Therefore, the reference voltage of the sensor reference voltage adjuster 5 changes according to the distance to the subject.

When the reference voltage of the sensor reference voltage adjusting unit 5 is adjusted to the corresponding voltage according to the distance to the subject, the operation of the flash controller 7 is performed by the central processing unit 401 of the operation controller 40 in step S24. After the light emitting operation of the flash 8 is performed by the high level " H " output from the AND gate 6 by the flash drive signal output from When the reference voltage of the sensor reference voltage adjuster 5 is reached, the output of the sensor reference voltage adjuster 5 is converted to low level "L" and is applied to the AND gate 6.

Therefore, the flash drive signal applied to the flash control unit 7 is converted to "L" which is a low level, and the operation of the flash 8 is stopped. At this time, since the reference voltage of the sensor reference voltage adjusting unit 5 is adjusted according to the distance from the subject, it can be seen that the amount of light emitted by the flash 8 is adjusted according to the distance from the subject.

If the distance from the subject is less than 1m, adjust the value of the reference voltage that controls the amount of light emitted by the flash according to the distance from the subject, so that the amount of light can be precisely controlled according to the distance from the subject. Can be.

The manufacturing cost can be reduced by using a focusing motor for adjusting the focus with the subject or a subject distance detecting unit for measuring the distance to the subject without an additional device.

Claims (9)

A luminance sensor for sensing a luminance state of the subject and outputting a corresponding electric signal; A focus adjusting unit for converting an operating state according to an applied control signal to adjust a focal length with respect to a subject; Signals output from the luminance detector and the focus controller are input, and whether the luminance detected by the luminance detector is in a low luminance state, and in a low luminance state, outputs a driving signal for driving a flash and outputs a focus controller. When the operation determines whether the operation for the near focus adjustment is performed, and when the operation for the near focus adjustment is performed, a reference voltage for controlling the amount of light emitted by the flash by using data already set according to the operation degree of the focus control unit. An operation control unit for outputting a signal for adjusting the power supply; Connected to the operation control unit and the luminance detection unit, and adjusts the reference voltage by a control signal applied from the operation control unit according to the operating state of the focus control unit, and outputs when the signal state output from the luminance detection unit reaches the set reference voltage A sensor reference voltage adjusting unit for converting a signal; A signal combination unit which receives a signal output from the sensor reference voltage adjusting unit and an operation control unit, and multiplies the input signal to output a signal having a corresponding state; And a flash controller configured to control the light emission operation of the flash by changing the operation state according to the state of the signal output from the signal combination unit. The method of claim 1, wherein the signal combination unit, An apparatus for controlling light emission of a camera, comprising: an AND gate. The method of claim 1, wherein the flash control unit, And a control operation for emitting the flash when the state of the signal output from the signal combination unit is high level "H". Reading a signal output from the luminance sensing unit to determine whether the luminance state is low; When the determined luminance state is a low luminance state, determining whether an operation of the focus controller for short-range focus adjustment is performed; When the focus control unit for the near-focus control is made, outputting a flash drive signal to the flash control unit, and adjusting the reference voltage of the sensor reference voltage adjuster according to the amount of operation of the focus adjuster How to control the amount of light emitted by the camera. The method of claim 4, wherein If the focus control unit for the near-focus control is not performed, the method of controlling the light emission amount of the camera, characterized in that further comprising the step of outputting a flash drive signal to the flash control unit. A luminance sensor for sensing a luminance state of the subject and outputting a corresponding electric signal; A subject distance detecting unit measuring a distance from the subject and outputting a corresponding signal; The signal output from the brightness sensor and the object distance sensor is input, and it is determined whether the brightness state is detected by the brightness sensor, and in a low brightness state, a drive signal for driving the flash is output and the distance from the subject is determined. An operation control unit for outputting a signal for adjusting a reference voltage for controlling the light emission amount of the flash by using the data already set; Connected to the operation control unit and the brightness detection unit, and adjusts the reference voltage by a control signal applied from the operation control unit according to the operation state of the focus control unit, and outputs when the signal state output from the brightness detection unit reaches the set reference voltage A sensor reference voltage adjusting unit for converting a signal; A signal combination unit which receives a signal output from the sensor reference voltage adjusting unit and an operation control unit, and multiplies the input signal to output a signal having a corresponding state; And a flash controller configured to control the light emission operation of the flash by changing the operation state according to the state of the signal output from the signal combination unit. The method of claim 6, wherein the signal combination unit, An apparatus for controlling light emission of a camera, comprising: an AND gate. The method of claim 6, wherein the flash control unit, And a control operation for emitting the flash when the state of the signal output from the signal combination unit is high level "H". Reading a signal output from the luminance sensing unit to determine whether the luminance state is low; When the determined luminance state is a low luminance state, determining a distance to the subject by reading data applied by the subject distance detecting unit; And outputting a flash driving signal to a flash control unit and adjusting a reference voltage of the sensor reference voltage adjusting unit according to a distance from the subject.