KR970011118B1 - Brightness measurement device and method for a camera - Google Patents

Abstract

Apparatus for measuring a brightness of a camera and a method therefor count a capacitor charge time of a light quantity of subject to be photographed, and measure a brightness quantity of the subject according to the charged time. The apparatus includes: a switch having a release 1-step switch and a release 2-step switch; a brightness measuring part having a light measuring part to measure a subject brightness if the release 1-step switch is operated, and a comparator for generating a corresponding brightness signal by comparing an output signal of the light measuring part and a setting signal; and a controller. The controller includes the steps of: counting a time until a level of a brightness signal generated from the brightness measuring part is changed when the release 1-step switch is operated; determining an exposure quantity and a shutter speed according to a measured count value; determining a low brightness if the counted value is higher than a first setting value, making the shutter speed slower, and setting the slowed shutter speed as a photographing shutter speed; determining a high brightness if the counted value is lower than a second setting value, making the shutter speed faster, and setting the fast shutter speed as a photographing shutter speed; and determining the set shutter speed as a photographing shutter speed if the counted value is between the first setting value and the second setting value.

Description

Camera luminance measuring device and control method

1 is a block diagram of a camera having a luminance measuring device according to an embodiment of the present invention,

2 is a detailed circuit diagram of a luminance metering unit of a luminance measuring device of a camera according to an embodiment of the present invention,

3 is an operation flowchart of a control method of a luminance measuring device of a camera according to an embodiment of the present invention,

4 is an operation timing diagram of a luminance measuring apparatus of a camera according to an embodiment of the present invention,

5 is a charging graph of a capacitor of a luminance measuring device of a camera according to an embodiment of the present invention.

The present invention relates to a luminance measuring apparatus of a camera and a control method thereof. More specifically, the luminance of a camera measuring a luminance amount of a subject according to the charged time by counting a time during which the amount of light of the subject to be shot is charged in the capacitor. The present invention relates to a measuring apparatus and a control method thereof.

In the conventional luminance measuring device for determining the appropriate exposure amount by measuring the luminance around the subject, the voltage output from the device for measuring the luminance is converted into a digital signal through an A / D converter and input to the microcomputer, and the microcomputer input voltage According to the level, the appropriate exposure amount according to the brightness around the subject was determined.

The conventional luminance measuring device uses a plurality of voltage comparators, and the microcomputer compares each voltage level output through the plurality of comparators to measure the luminance of the surroundings to determine an appropriate exposure amount accordingly.

However, the above-described conventional luminance measuring device has a disadvantage in that the cost is increased by increasing the cost by measuring the luminance using a microcomputer or a plurality of comparators with an A / D converter.

Therefore, an object of the present invention is to solve the disadvantages of the prior art, and instead of using a plurality of comparators, by measuring the luminance of the subject by counting the signal measured using one comparator as the time to charge the capacitor, The purpose of the present invention is to provide a luminance measuring apparatus and a control method of a camera, which reduces the shared area of the product, reduces the cost, and increases the reliability of the product.

The configuration of the present invention to achieve the above object, the switch unit consisting of a release 1 stage switch and a release 2 stage switch for outputting the user's selective input as an electrical signal; A luminance metering unit including a metering unit measuring a subject luminance to output a corresponding signal when the release first stage switch is operated, and a comparing unit comparing a signal output from the metering unit with a setting signal and outputting a corresponding luminance signal; ; Counting the time until the level of the luminance signal outputted to the luminance photometry unit starts changing while driving the luminance photometry unit when the release first stage switch is operated; and according to the measured count value Determining the exposure amount and the shutter speed, and if the count value is greater than the first set value, determining the low brightness and setting the calculated shutter speed to a shooting shutter speed by slowing the calculated shutter speed by a predetermined speed; Determining that the count value is smaller than the second set value, and setting the shutter speed by increasing the calculated shutter speed by a predetermined speed; When the count value is smaller than the first set value and larger than the second set value, the controller is configured to set the shutter speed set as the photographing shutter speed.

Another configuration of the present invention for achieving the above object, the step of checking the state of charge of the battery and the strobe of the camera when the switch release stage switch is operated; Driving the luminance metering unit to count the time until the voltage charged according to the brightness of the light amount of the subject reaches the reference voltage, and calculating the exposure amount and the exposure time of the shutter according to the measured count value; When the measured count value is larger than the first set value by determining the relationship between the measured count value and the first set value, the low shutter speed is determined and the calculated shutter speed is lowered to a predetermined shutter speed. Set the value, and determine the relationship between the measured count value and the second set value, and when the measured count value is smaller than the second set value, determine the high brightness to increase the shutter speed calculated above by a constant speed to obtain the shooting shutter speed. If the measured count value is larger than the first set value and smaller than the second set value, the shutter speed determined as the photographing shutter speed is set as the photographing shutter speed, and photographing is performed according to the set photographing shutter speed.

When described with reference to the accompanying drawings the most preferred embodiment which can easily implement this invention by the above configuration as follows.

1 is a block diagram of a camera having a luminance measuring device according to an embodiment of the present invention, and FIG. 2 is a detailed circuit diagram of a luminance metering unit of the luminance measuring device of a camera according to an embodiment of the present invention, and FIG. 4 is an operation timing diagram of a brightness measuring apparatus of a camera according to an embodiment of the present invention, and FIG. 5 is an operation timing chart of the brightness measuring apparatus of a camera according to an embodiment of the present invention. It is a charge graph of the capacitor of a luminance measuring device.

As shown in FIG. 1, the configuration of a camera having a luminance measuring device according to an embodiment of the present invention includes a switch unit 10 including a first release switch S1 and a second release switch S2; The control unit 20 connected to the output terminal of the switch unit 10, the motor driving unit 30 connected to the output terminal of the control unit 20, the warning unit 40, the shutter driver 50, the automatic rejection unit ( 60, the luminance metering unit 70, the film sensitivity detecting unit 80, and the strobe unit 90.

As shown in FIG. 2, the configuration of the luminance photometer 70 according to the embodiment of the present invention is a driver 71 for applying power by inputting a signal from the controller 20 for measuring the luminance of the subject. ), And when the driving unit 71 is operated, a luminance measuring unit 73 measuring a luminance of a subject and outputting a voltage corresponding thereto, and signals from the driving unit 71 and the luminance measuring unit 73 are input. And a signal generator 75 for outputting a luminance signal.

The driving unit 71 includes a capacitor C1 having one terminal connected to a power supply terminal and the other terminal grounded, a transistor T1 having an emitter terminal connected to a power supply terminal, and one terminal of the transistor T1. A resistor R1 connected to the emitter terminal and the other terminal connected to the base terminal of the transistor T1, a resistor R2 connected at one side to the base terminal of the transistor T1, and one terminal connected to the control unit ( Resistor R3 connected to the output terminal of 20, a base terminal connected to the other terminal of the resistor R3, a collector terminal connected to the other terminal of the resistor R2, and an emitter terminal grounded transistor T2. ) And a resistor R4 having one terminal connected to the base terminal of the transistor T2 and the other terminal grounded.

The luminance measuring unit 73 has a light receiving receiver cds having one terminal connected to the collector terminal of the transistor T1 of the driving unit 71, and one terminal connected to one terminal of the light receiving element cds. The other terminal includes a variable resistor VR1 connected to the other terminal of the light receiving element cds, and one terminal of the resistor R7 connected to the other terminal of the light receiving element cds.

The signal generator 75 includes a resistor R5 having one terminal connected to the collector terminal of the transistor T1, and a resistor R6 having one terminal connected to the other terminal of the resistor R5 and the other terminal grounded. And a non-inverting terminal connected to the other terminal of the resistor R7, an inverting terminal connected to one terminal of the resistor R6, and an output terminal connected to the input terminal of the controller 20, A capacitor C2 having one terminal connected to the other terminal of the resistor R7 and the other terminal grounded, and a transistor T3 having the collector terminal connected to the non-inverting terminal of the comparator I1 and the emitter terminal grounded And a resistor R8 having one terminal connected to the base terminal of the transistor T3 and the other terminal grounded, one terminal connected to the base terminal of the transistor T3, and the other terminal connected to the base terminal of the transistor T2. Resistor R9 connected to the collector terminal and one terminal of the A resistor R10 is connected to the other terminal of the variable resistor VR1 and the other terminal is connected to the output terminal of the comparator I1.

The operation of the luminance measuring device of the camera according to the embodiment of the present invention by the above configuration is as follows.

When the user presses the first release switch S1 in the ready state to perform photographing after power is applied to the camera, the switch unit 10 outputs a corresponding signal to the control unit 20 (S110).

The control unit 20 checks the battery of the camera by inputting a signal corresponding to the operation of the first release switch (S120), checks the charging state of the strobe unit 90 (S130), and the film sensitivity detecting unit 80 Detects the sensitivity of the film currently mounted on the camera through (S140).

The controller 20 senses the sensitivity of the mounted film and then measures the luminance of the surroundings of the subject, and then activates and outputs the output signal OUT in the high state to the luminance photometer 70 at step S150.

As the output signal OUT of the high state is output in the above, as shown in FIG. 2, the high signal is inputted to the base terminal of the transistor T2 of the driving unit 71 of the luminance photometer 70 and the transistor T2. ) Is conducted.

As the transistor T2 conducts, the collector terminal level of the transistor T2 becomes low, and as shown in FIG. 4, a low signal is applied to the base terminal of the transistor T1 and the base terminal of the transistor T3. The transistor T1 is turned on, and the transistor T3 of the signal generator 75 is turned off.

As the transistor T1 of the driving unit 71 is turned on, power is applied to the light receiving element cds of the luminance measuring unit 73 so that the charge according to the intensity of the received light starts to be charged in the capacitor C2.

The light receiving device (cds) is a device whose resistance value changes according to the light intensity. When the light intensity is strong, the resistance value decreases so that the charging speed of the capacitor C2 is increased, and when the light intensity is low, the resistance value is used. As a result, the charging speed of the capacitor C2 becomes slow.

In addition, since the transistor T1 is turned on and the power is supplied to the signal generation unit 75, the divided voltages of the resistors R5 and R6 are input to the inverting terminals of the comparator I1 and the reference of the comparator I1. Set to voltage.

When the capacitor C1 starts to be charged, the control unit 20 starts to count the charging time of the capacitor C1 by operating an internal counter (not shown).

In this case, the charge amount of the capacitor C2 is increased so that the charging voltage becomes larger than the reference voltage of the non-inverting terminal of the comparator I1. As shown in FIG. 4, the output of the comparator I1 is changed from a low state to a high state. The output is converted and input to the control unit 20.

The control unit 20 starts the counter after the capacitor C2 starts to charge until the time until the charging voltage of the capacitor C2 reaches the reference voltage of the comparator I1, that is, the high signal is input. Time is counted, and the luminance amount of the subject is determined according to the measured count value.

By reading the count value, the controller 20 determines whether the measured luminance value is low luminance or high luminance (S160 to S170).

As shown in FIG. 5, when the charging time is spent for T1 (a), it is determined to be high brightness, and the control unit 20 is determined to be low brightness when the charging time of the capacitor C2 is required for T3 (c). In the case where the charging time is T2, (b), the brightness is determined as the appropriate exposure amount.

That is, the controller 20 determines the relationship between the count value according to the charging time of the capacitor of the luminance meter 70 and a setting value for determining the amount of luminance, and determines whether the current subject luminance is low luminance or high luminance. do.

The controller 20 counts the charging time of the capacitor measured by the luminance meter 70, and determines the relationship between the counted value and the first set value corresponding to the low luminance (S170). If the value is smaller than the first set value, the relationship between the count value and the second set value corresponding to the high luminance is determined (S180).

According to an embodiment of the present invention, the first preset value is 80, and the second preset value is 8. However, the technical scope of the present invention is not limited thereto, and the first set value and the second set value can be adjusted according to the design conditions.

When the count value measured above is greater than the first set value, the controller 20 determines the low luminance and drives the warning unit 40 to indicate to the user that the current luminance is low (S180).

In addition, by reducing the shutter speed according to the appropriate luminance amount, that is, by increasing the exposure time by slowing the opening / closing speed of the shutter, the amount of incident light is increased to obtain an appropriate exposure picture (S190).

If the count value measured above is smaller than the second set value, the controller 20 determines the high brightness to reduce the exposure time by increasing the shutter speed, thereby reducing the amount of incident light and obtaining a photograph of proper exposure. (S210).

When the count value is smaller than the first set value and larger than the second set value, it is determined that the amount of luminance of the subject is appropriate, and the controller 20 operates the shutter when the release two-stage switch is operated according to the set shutter speed.

After setting the exposure amount of the appropriate exposure according to the measured luminance of the subject (S210), the controller 20 drives the auto-measuring unit 60 to measure the distance to the subject (S220) and according to the measured value. AF (Auto Focusing) operation is performed (S230).

After the AF operation is performed, it is determined whether the release two-stage switch S2 of the switch unit 10 is operated (S240), and when the release two-stage switch S2 is turned on, the controller 20 controls the motor driving unit 30. ) To operate the barrel motor M1 to perform focus adjustment (S250), and then drive the shutter driver 50 according to the appropriate shutter opening and closing speed according to the luminance value calculated above (S260). ).

After performing the photographing, the control unit 20 determines whether to end photographing (S270), and when the photographing is finished, operates the motor driving unit 30 to drive the film motor M1 to wind up the photographed film. It ends (S280) (S290).

As described above, in the embodiment of the present invention, by measuring the luminance around the subject through the luminance measuring device composed of one comparator, the cost of the product is reduced, and the shared area of the circuit is reduced.

In addition, it is possible to provide a brightness measuring apparatus and a control method of the camera having the effect of adjusting the exposure time of the shutter and the exposure amount of the aperture before the release two-stage switch is activated.

Claims (3)

A switch unit comprising a release first stage switch and a release second stage switch for outputting an optional input of a user as an electrical signal; A luminance metering unit including a metering unit measuring a subject luminance to output a corresponding signal when the release first stage switch is operated, and a comparing unit comparing a signal output from the metering unit with a set signal and outputting a corresponding luminance signal; ; Counting the time until the level of the luminance signal output from the luminance metering unit starts to change and starts counting while driving the luminance metering unit when the release first stage switch is operated; and according to the measured count value Determining the exposure amount and the shutter speed, and if the count value is greater than the first set value, determining the low brightness and setting the calculated shutter speed to a shooting shutter speed by slowing the calculated shutter speed by a predetermined speed; Determining that the count value is smaller than the second set value, and setting the shutter speed by increasing the calculated shutter speed by a predetermined speed; And a control unit comprising the step of setting the shutter speed set as the photographing shutter speed when the count value is smaller than the first set value and larger than the second set value. The display device of claim 1, wherein the luminance photometer is turned on when the first transistor is turned on when a signal for measuring the luminance of the subject is input by the controller, and is connected when the first transistor is driven. A driving unit including a second transistor to output the power, a luminance measuring unit for outputting a voltage corresponding to a resistance value of the subject when the power output from the driving unit is applied, and a voltage output from the luminance measuring unit; And a signal generator comprising a comparator for charging the capacitor and comparing the detected voltage with a reference voltage divided by a resistor outputted from the driver to output a corresponding signal. Checking the state of charge of the battery and the strobe of the camera when the first stage switch of the switch unit is operated; Driving the luminance metering unit to count the time until the voltage charged according to the brightness of the light amount of the subject reaches the reference voltage, and calculating the exposure amount and the exposure time of the shutter according to the measured count value; When the measured count value is larger than the first set value by determining the relationship between the measured count value and the first set value, the low shutter speed is determined and the calculated shutter speed is lowered to a predetermined shutter speed. Set the value, and determine the relationship between the measured count value and the second set value, and when the measured count value is smaller than the second set value, determine the high brightness to increase the shutter speed calculated above by a constant speed to obtain the shooting shutter speed. And setting the shutter speed determined as the photographing shutter speed if the measured count value is larger than the first set value and smaller than the second set value, and performing photographing according to the set shutter speed. The luminance measuring device of the camera.