KR100257325B1 - Flash light control device using pickup tube - Google Patents

Abstract

PURPOSE: A device for controlling radiation intensity of a flash automatically by using a charge coupled device is provided to control radiation of the flash according to the signal of brightness detected from charge coupled devices. CONSTITUTION: A device for controlling radiation intensity of a flash automatically by using a charge coupled device includes a flash portion(1), a charge coupled portion(2), an integral portion(3), a trigger portion(4) and a micom(5). The flash portion(1) supplies light to a subject. The charge coupled portion(2) measures brightness of light supplied to the subject in the flash portion(1). The integral portion(3) integrates the signal of brightness output in the charge coupled portion(2). The trigger portion(4) compares the signal of brightness output in the integral portion(3) with the reference voltage and outputs the trigger signal. The micom(5) inputs the signal output in the trigger portion(4) and controls radiation of the flash portion(1).

Description

Automatic Flash Light Control Device Using Imaging Device

1 is a block diagram illustrating a configuration of an automatic flash light amount adjusting device using an imaging device according to an embodiment of the present invention.

2 is a detailed circuit diagram of an integrator and a trigger unit according to an embodiment of the present invention.

3 is a block diagram of an image pickup unit according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1 flash unit 2 imaging unit

3,20: Integrator 4,26: Trigger

5: microcomputer 21: first resistor

22: capacitor 23: comparator

24: variable resistor 25: second resistor

31: charge coupled device 32: sampling unit

The present invention relates to an apparatus for automatically adjusting the amount of flash light using an imaging device, and more particularly, to control the light emission of a flash according to a luminance signal measured by an imaging device at the same time as flash emission, and to supply an appropriate reference light amount to a subject. A flash light quantity automatic adjustment system using an imaging device.

Conventionally, there are many methods for adjusting the amount of flash light in a camera using a charge coupled device as an imaging device and a camera using a separate light receiving sensor without using a charge coupled device. The light quantity value according to the distance and the light quantity data according to the ambient light quantity are stored in the memory of the camera obtained through many experiments.

And when the user shoots with the conventional camera, the light quantity data according to the distance from the subject and the surrounding situation outputs the closest light quantity data among the many experimental data stored in the memory of the camera to emit the flash.

Therefore, the above-described prior art has a problem in that there is a problem that exposure error occurs when there is a large amount of experimental data, precise light quantity control is possible, and an unexpected situation occurs.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-described problems, and the amount of flash light using an image pickup device for supplying an appropriate amount of light to a subject by controlling the light emission of the flash according to the luminance signal extracted from the image pickup device at the same time as flash emission. It is to provide an automatic control device.

As a means for achieving the above object, a configuration of the present invention includes: imaging means for measuring a luminance signal during flash emission; Integrating means for integrating the luminance signal output from the image pickup means; Triggering means for comparing the integral value of the luminance signal output from the integrating means with a reference voltage and generating a trigger signal corresponding thereto; Control means for controlling the flash light emitting operation in accordance with the trigger signal output from the trigger means.

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.

1 is a block diagram of a device for automatically adjusting a flash light amount using an imaging device according to an embodiment of the present invention;

2 is a detailed circuit diagram of an integrator and a trigger unit according to an embodiment of the present invention;

3 is a block diagram of an image pickup unit according to an embodiment of the present invention.

According to the present invention, the brightness of the light of the flash input to the image pickup device is used while supplying the light of the flash to the subject.

As shown in FIG. 1, a configuration of an automatic flash light amount adjusting device using an image pickup device according to an embodiment of the present invention includes a flash unit 1 and a flash unit 1 that supply light to a subject. An imaging unit 2 for measuring the luminance of light supplied to the subject; An integrator unit 4 for integrating the luminance signal output from the imaging unit 3; A trigger unit 5 for comparing a luminance signal output from the integrator unit 4 with a reference voltage and outputting a corresponding trigger signal; The microcomputer 6 receives the signal output from the trigger unit 5 and controls the light emission of the flash unit.

The imaging unit 2 may include a charge coupling device (CCD) 21 for outputting an electrical signal corresponding to the applied light and a sampling unit 22 for removing noise of a signal output from the charge coupling device 21. Is made of.

As shown in FIG. 2, the integrator 3 includes: a resistor R1 connected to an output terminal of the sampling unit 32; One terminal is formed of a capacitor C1 connected to the other terminal of the first resistor R1 and the other terminal is grounded.

The trigger unit 4 includes a second resistor R2 having one terminal connected to the power supply Vcc, a variable resistor VR1 having one terminal connected to the second resistor R2 and the other terminal grounded; A non-inverting terminal is connected to the output terminal of the integrator 4 and an inverting terminal is connected to the connection terminal of the second resistor R2 and the variable resistor VR1 to apply the applied integral voltage and the second resistor R2 and the Comparator 41 for comparing the divided voltage by the variable resistor VR2.

The operation of the flash photon pore control device using the charge coupling device according to the embodiment of the present invention by the above configuration is as follows.

In the case where a subject is to be photographed, the present invention uses the brightness of the light of the flash input to the image pickup device while supplying the light of the flash to the subject.

The microcomputer 5 determines whether the flash unit 1 emits light according to the object distance and the amount of the luminance of the object, and when the microcomputer 5 determines that the flash light is emitted, the microcomputer 5 drives the flash unit 1 to emit the flash.

The flash unit 1 emits a certain amount of light under the control of the microcomputer 5, and the charge coupling device 31 of the imaging unit 2 is an electrical signal corresponding to the light output by driving the flash. Outputs

The signal output from the charge coupling element 21 is output to the integrator 4 after the noise is removed through the sampling unit 22.

The integrator 3 is included as a capacitor C1 having an impedance that is much smaller than the first resistance R1. The integrator 3 integrates the luminance signal voltage output from the sampling unit 22 and calculates a corresponding voltage. Output to reject (4).

The comparator 41 of the trigger unit 4 compares the integral value of the luminance voltage output from the integrator 3 with a reference voltage, which is the divided voltage by the resistor R2 and the variable resistor VR1, and generates a corresponding trigger signal. Output to the microcomputer (5).

The comparator 41 outputs a trigger signal in a high state when the integral value of the luminance voltage output from the integrator 3 is greater than a reference voltage when flash is emitted, and is output from the integrator 3 when flash is emitted. When the integral value of the luminance voltage becomes smaller than the reference voltage, the trigger signal in the low state is output.

As described above, the comparator 41 compares an integral value of the luminance voltage output from the integrator 3 with a reference voltage by the divided voltage of the variable resistor VR1 and outputs a corresponding trigger signal when the flash is emitted. The microcomputer 5 receiving the trigger signal determines whether the appropriate amount of light is supplied to the subject and stops the light emission operation of the flash unit 1.

In other words, when the trigger signal in the low state is applied, the microcomputer 5 determines that a proper amount of light is not supplied to the subject, and continuously drives the flash unit 1 to emit a predetermined amount of light. When the trigger signal in the high state is applied, it is determined that the appropriate amount of light is supplied to the subject to stop the driving of the flash unit 1 to stop the light emission.

The reference voltage output from the variable resistor 24 has a constant integral value which is a suitable light amount in a general situation, and an integral value that is a suitable light amount is determined experimentally, and the reference voltage value is determined by the variable resistor 24. In order to be able to change, it is possible to compensate for the difference in the reference value of the appropriate amount of light according to the sample.

As described above, in the embodiment of the present invention, by controlling the light emission of the flash unit by integrating and comparing the luminance signal voltage measured at the charge coupling element according to the flash light emission, the microcomputer does not have to hold a large amount of light quantity data. Therefore, the memory usage of the microcomputer can be greatly reduced, and in the case of an external flash, the flash light amount automatic control device using the charge coupling device can be provided with the effect of effectively controlling the light amount when the reference voltage of the comparator is properly specified. have.

This effect of this invention can be used in the field of flash of the camera and the field having the effect of light emission.

Claims (4)

Imaging means for converting an incident optical signal into an electrical signal and outputting the converted optical signal; Integrating means for integrating a luminance signal which is an electrical signal output from said image pickup means and outputting an integrated luminance signal for the result; A first resistor having a voltage for an integrated luminance signal output from the integrating means as an input, a capacitor having one end connected to the other end of the first resistor and the other end grounded, and a second resistor having one end of the power supply voltage being input A variable resistor connected to the other end of the second resistor and grounded at the other end thereof, and a non-inverting terminal comparator connected to the contact point of the first resistor and the capacitor and an inverting terminal connected to the contact point of the second resistor and the variable resistor. Triggering means for comparing the integral value of the luminance signal output from the integrating means with a reference voltage and generating a corresponding trigger signal; Determining whether or not the flash is emitted according to the output of the image pickup device, and when the flash is emitted, the control unit is configured to control to stop the flash emission operation when the trigger signal output from the trigger means is input. An automatic flash light amount adjusting device using an imaging device. The image pickup device according to claim 1, wherein the image pickup unit comprises a charge coupling device for outputting an electrical signal corresponding to the applied light and a sampling unit for removing noise of the signal output from the charge coupling device. Flash light automatic control device. The trigger signal of claim 1, wherein the comparator outputs a trigger signal in a high state when the luminance voltage output from the integrating means is higher than or equal to the reference voltage, and a trigger signal in a low state when the luminance voltage output from the integrating means is lower than or equal to the reference voltage. Automatically adjusting the amount of flash light using an imaging device, characterized in that for outputting. The method of claim 3, wherein the control unit determines that the proper light amount is not supplied to the subject when the trigger signal of the low state is output from the trigger unit, and continuously drives the flash unit, and the trigger trigger signal of the high state is output. And automatically determining the amount of light supplied to the subject to stop the light emission operation of the flash unit.