KR200170180Y1 - Automatic exposure control device for camera - Google Patents

Abstract

Photometric means for measuring the amount of ambient brightness, information storage means for storing the information of the shutter exposure time according to the brightness amount, and a signal output from the light metering means to determine the sector movement speed according to the brightness and brightness of the light and A control means for outputting a driving signal, comparing the sector moving speed with the reference sector moving speed stored in the information storage means, and outputting an operation control signal corresponding to the comparison value, according to the driving signal outputted from the control means; A shutter driving means for outputting a corresponding signal, a sector moving means for moving a sector by receiving a signal output from the shutter driving means, and a sector detecting means for detecting a movement of the sector moving means. The sector movement speed at the time point is detected and the comparison value is compared with the reference sector movement speed. By compensating the time, it provides automatic exposure control apparatus for a camera to be exposed into a variation in the tolerances caused by the drive source, and mechanical characteristic changes according to the exposure time of shooting.

Description

AUTOMATIC EXPOSURE CONTROL DEVICE FOR CAMERA}

The present invention relates to an automatic exposure control apparatus for a camera. More specifically, the automatic exposure of a camera that controls the speed of movement of a sector so that the exposure deviation caused by the characteristics of a mechanical component that operates during shooting is within an allowable value. It relates to a control device.

Automatic exposure control is a method of automatically controlling the incident time of light incident on a camera. The conventional automatic exposure control method of a camera includes an automatic exposure control method using a simple device control method and an automatic exposure control method using a pulse control method.

The automatic exposure control method according to the simple device control method will be described with reference to FIG. 1.

1A and 1B are timing diagrams of an automatic exposure control apparatus of a camera using a conventional apparatus control method.

As shown in FIG. 1, for automatic exposure, a sector open and delay time t1 corresponding to the input luminance is applied to control an incident time of light incident to the shutter, and then a sector close time is applied. By blocking the incident of light, the control of the automatic exposure is completed.

In such a method, the sector drive source and the mechanical components are subject to exposure variations due to temperature changes and mechanical differences.

Therefore, in order to correct the exposure deviation, the automatic exposure control method using a simple control method detects a specific point in time (a) which is a point in time when a certain portion of the sector is detected by the sensor after applying a sector open pulse. ) The exposure deviation is corrected by controlling the time t2 from the detection time to the application time of the sector close time t3 and the sector close time t3.

That is, the exposure control method using the simple control method applies a time t2 + t3 from the reference point to the time t3 when the sector is closed by the reference time according to the luminance value determined by the myriad experiments. , Exposure.

In addition, the automatic exposure control method using the pulse control method with reference to FIG. 2 includes a sector open and delay time t1 corresponding to the incident luminance in the same manner as the automatic exposure control method using the simple device control method. The sector close time t3 is controlled as a pulse in order to ensure the straightness of the exposure such that there is no difference in exposure variation due to the change in luminance.

As described above, there is no exposure deviation correction method for the difference in the photographing posture and the temperature change, and thus the exposure deviation is greatly generated.

The exposure deviation is shown in the accompanying Figure 2, the waveform as shown in Figure 2 (x) is located on the "-" side compared to the (y) of the permissible punctuation graph, so the underexposure occurs, resulting in a dark picture.

In addition, since the waveform as shown in FIG.

This invention aims to provide an automatic exposure control device of a camera that corrects temperature variations and mechanical deviations so that exposure deviations are within acceptable deviations so that overexposure and underexposure do not occur.

1A and 1B are timing diagrams of an automatic exposure control device of a camera using a conventional device control method.

2 is a waveform comparison chart comparing waveforms of exposure deviations in the conventional method of automatic exposure control of a camera.

3 is a block diagram of an automatic exposure control apparatus of a camera according to an embodiment of the present invention,

4 is a detailed view showing a sector portion and a sector sensing portion of the automatic exposure control apparatus of the camera according to the embodiment of the present invention,

5 is a timing diagram of an automatic exposure control apparatus of a camera according to an embodiment of the present invention,

6A and 6B are waveform diagrams showing exposure deviation correction of the automatic exposure control apparatus of the camera according to the embodiment of the present invention.

This invention as a means for achieving the above object,

A light metering unit measuring an amount of ambient luminance;

Y pyrom storing exposure time information for sector movement according to the luminance amount;

The brightness of the light is determined by the output signal of the light metering means, the exposure time information on the determined brightness is obtained from the ypyrom, and the sector shift is performed. The sector shift speed read from the ypyrom is compared. A control unit for calculating a comparison value and performing exposure correction as the calculated comparison value;

A shutter driver for outputting a corresponding signal according to the driving signal output from the controller;

A sector moving unit which receives a signal output from the shutter driver and moves a sector; And

And a sector detecting unit which drives according to a control signal of the controller and detects a sector movement at a specific time.

By the above-described configuration, a person with ordinary skill in the art to which the present invention belongs will be described in detail with reference to the accompanying drawings the most preferred embodiment that can easily implement the present invention.

3 is a block diagram of an automatic exposure control apparatus of a camera according to an embodiment of the present invention. As shown in Figure 3, the automatic exposure control apparatus of the camera according to the embodiment of the present invention,

A first release switch S1 and a second release switch S2;

A light metering unit (1) for measuring luminance around the camera;

An electrically erasable and programmable read only memory (EEPROM) 2 in which reference sector movement velocity data at a specific time A according to the luminance amount is stored;

Receiving the signal output from the light metering unit 1 measures the exposure time suitable for the ambient luminance amount and the ambient luminance amount, and outputs a drive signal corresponding to the measured exposure time when the release switch 2 stage (S2), An operation controller (3) for comparing the sector movement time detected at a specific time point with the reference sector movement time received from the EPI (2) and outputting an operation signal corresponding to the comparison value;

A shutter driver (4) for outputting a corresponding pulse signal to block or open light incident to the shutter according to the drive signal output from the operation control unit (3);

A shutter unit 5 for controlling the incidence of light by receiving and driving a pulse signal output from the shutter driver 4;

And a sector detector 6 for detecting movement of a sector driven by the driving of the shutter unit 5 and outputting a detection signal to the operation controller 3.

Here, the shutter unit 5 has a configuration as shown in FIG.

4 is a detailed view illustrating a sector part and a sector detector of an automatic exposure control apparatus of a camera according to an embodiment of the present invention. As shown in Fig. 4, the sector portion 5 comprises a sector A 51 and a sector B 52 which drive to block or open incident light.

Referring to the operation of the automatic exposure control device of the camera by the above configuration is as follows.

When the first release switch S1 is turned on, the on signal is input to the operation control unit 3, and the operation control unit 3 transmits an operation signal to the photometry unit 1 according to the release switch first stage S1. Outputs

The light metering unit 1 receives an operation signal output from the operation control unit 3, measures an ambient luminance amount, and outputs a signal for the measured luminance amount to the operation control unit 3.

The operation control unit 3 receives the luminance signal output from the light metering unit 1 to determine an ambient luminance amount, and the exposure time according to the determined luminance amount (t0, t1 ', t2', t3 of FIG. 5 attached). ') Is read from Epyrom (2). Here, the Y pyrom 2 stores exposure time information according to the luminance amount, t0 is time for initializing the position of the sector, t1 'is time for detecting the speed at which the sector moves, and t2' is actually Exposure control time, and t3 'is the sector close time.

The operation control unit 3 outputs an operation signal for the reference exposure time obtained from the information storage unit 2 to the shutter driver 4.

The shutter driver 4 receives an operation signal output from the operation controller 3 and outputs corresponding pulse signals t0, t1 ′, t2 ′, and t3 to the shutter unit 5.

The shutter unit 5 receives a pulse signal output from the shutter driver 4 and drives a sector corresponding to the input pulse signal.

The shutter of the shutter unit 5 is composed of a sector A 51 and a sector B 52, and the sector A 51 and sector B are pulse signals outputted from the shutter driver 4 by superimposing and spreading. According to the speed.

The sector A 51 has a predetermined portion protruding below the tip, and the protruding portion is moved and sensed by the sector detecting unit 6.

The point in time at which the movement of the sector A 51 is detected indicates a point (P) shown in FIG.

The sector detection unit 6 outputs a sector detection signal to the operation control unit 3, and the operation control unit 3 receives a sector detection signal output from the sector detection unit 6 to apply a sector movement time. The sector movement speed from the time point to the time point (P) is detected is calculated. Here, the operation control unit 3 is driving a timer (not shown) from time t0, that is, the time for initializing the position of the sector, and when the sector movement detection signal is input from the sector detection unit 6, After stopping the drive, the timer measures the time measured. At this time, since the point where the sector is detected is already set, the operation control section 3 calculates the sector movement time as the sector movement time and the sector movement distance.

In addition, the operation controller 3 compares and determines the calculated sector movement speed and an initial application speed, that is, the reference sector movement speed t1 ′, and transmits a control signal corresponding to the comparison value ta to the shutter driver 4. )

Then, the shutter driver 4 changes the actual exposure time by applying a pulse signal corresponding to the comparison value ta to the pulse signal for the initial exposure actual exposure time as shown in FIG.

As described above, the pulse signal output from the shutter composition unit 4 controls the moving speed of the sector, thereby correcting mechanical exposure deviation and exposure deviation due to temperature.

By detecting the sector movement speed at a specific point in time and compensating the comparison value in the sector open time compared with the reference sector movement speed, the exposure deviation caused by the change in the driving source and the mechanical characteristics related to the exposure during shooting can be included within the allowable deviation. It provides a camera automatic exposure control device.

Claims (4)

A light metering unit measuring an amount of ambient luminance; Y pyrom storing exposure time information for sector movement according to the luminance amount; After determining the brightness of the light by the output signal of the photometric unit, and controlling the sector movement to obtain the exposure time information on the determined luminance from Ypyrom, and to determine the sector movement speed by measuring the sector movement time to a specific time after the sector movement A control unit which compares the sector moving speeds read from the ypyrom, calculates a comparison value, and performs exposure correction as the calculated comparison value; A shutter driver for outputting a corresponding signal according to the driving signal output from the controller; A sector moving unit which receives a signal output from the shutter driver and moves a sector; And, And a sector sensing unit for driving the sector moving unit in response to a control signal of the control unit. (delete) The method of claim 1, wherein the control unit, An automatic exposure control apparatus of a camera for outputting an operation signal corresponding to a time for initializing a position of a sector, a time for detecting a sector movement speed, an actual exposure control time, and a sector close time to the shutter driver. (delete)