KR890002700Y1 - An automatic exposing controller of the camera - Google Patents

Abstract

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Description

Camera Auto Exposure Control

1 is a block diagram of a device according to the present invention.

2 is a schematic view showing the phototransistor arrangement of the photosensor applied to the present invention.

* Explanation of symbols for main parts of the drawings

3: beam splitter 7: detection lens

8: Photosensor 13,18: ROM

14: operational amplifier 15: analog / digital converter

16: logical logic unit 17: comparator

19: error display unit 20: exposure processing unit

The present invention relates to an automatic exposure control device of a camera. In particular, the opening diameter of the aperture and the opening time of the shutter are antagonistically adjusted to one function selected first, so that the automatic exposure of the camera is always maintained. An exposure control device.

Conventionally, when photographing a subject using a camera, if the aperture diameter of the aperture and the shutter opening time are incorrectly adjusted according to the illuminance of a given subject, the photograph may be black or white, and thus a good photograph may not be obtained.

In other words, by adjusting the aperture diameter of the aperture and the shutter opening time manually by considering the illuminance of the subject under a given situation according to the user's mastery, a certain amount of light reaches the film to obtain an optimal picture. If you take a picture with the cover closed or if you adjust the opening diameter of the aperture and the opening time of the shutter incorrectly due to inadequate operation, you may not get a good picture due to the excessive or excessive amount of light.

In view of the above disadvantages, the present invention detects the illuminance of a subject under a given situation through an aperture, and calculates the amount of actual light to be actually given to the film based on the amount of light detected and the opening time of the shutter, and compares it with a preset optimal amount of light. By changing the opening diameter of the aperture according to the difference or by changing the opening time of the shutter is automatically designed to maintain the optimal exposure state as described in detail by the accompanying drawings as follows.

1 is a block diagram of a device according to the present invention, as shown therein, allowing the subject to form an image on the film 6 through the focus lens 1, the aperture 2, and the master lens 4, and the aperture 2 and In taking a picture by adjusting the shutter 5, a beam splitter 3 is provided between the aperture 2 and the master lens 4 so that the light reflected by the beam splitter 3 is reflected. A photoelectric sensor 8 composed of phototransistors PT ₁ -PT _N is reached via a sensing lens 7, and the output side of the photoelectric sensor 8 is an operational amplifier 14 and an analog / digital converter 15. Of the ROM 13 connected to an input terminal of one side of the operational logic unit 16 and each terminal S ₁ -S _N of the shutter speed switch 10 connected to the address terminals AD ₁ -AD _N. The output side is connected to the other input terminal of the operation logic unit 16, and the output side of the operation logic unit 16 is the reference signal terminal (V) of the optimal exposure amount to the non-inverting input terminal (+). ref ₁ ) is connected to the inverting input terminal (-) of the comparator 17 to which the comparator 17 is connected, and the output side of the comparator 17 _first operates the input of the switch SW _{1 to} which the selection signal terminal PR ₁ is connected to the control terminal. An aperture sensor terminal Ir connected to one input terminal of the terminal a and the AND gate AND ₁ and configured to input a high potential at the maximum opening of the aperture is a switch terminal for specifying the maximum opening time of the shutter speed switch 10. the output side of the Iowa gate (OR ₁₎ connected to the input side with the (Si) is the output side, first select signal terminal (PRi) of the aND gate (aND ₁₎ and connected to the other input terminal of the aND gate (aND ₁₎ The exposure terminal 21 is connected to the enable terminal EN of the room 19 connected to the input side, and the output fixing terminals b and c of the switch SW ₁ are the aperture drive motor 11. And a shutter speed switch drive motor 12, wherein reference numeral 9 denotes a shutter driver. From each terminal S ₁ -S _N of the feed switch 10, the high potential is output when the corresponding terminal is selected, and the switch SW ₁ has its one fixed terminal C when the high potential is applied to the control terminal. ).

FIG. 2 illustrates the arrangement of the phototransistors PT ₁ -PT _N of the photosensors 8 applied to FIG. 1 so that the phototransistors PT are concentrated at the center thereof, and thus the light quantity at the center of the screen composition is particularly important. It gave a lot of weight.

Referring to the operation and effects of the present invention configured in this way as follows.

In general, the light energy reaching the unit area of the camera film when taking a picture is given as follows. Optical energy / unit area P × I ² × T (where P is the subject's illuminance, I is the aperture diameter of the aperture, and T is the shutter release time). Here, the P value is a fixed value given from the subject in a state to be photographed, and the opening diameter I and the shutter opening time T of the aperture are values that are arbitrarily adjustable by the user.

Therefore, the user adjusts the opening diameter (I) of the aperture and the shutter opening time (T) in consideration of the illuminance of the subject according to the optimum amount of light required to obtain a good picture. If the opening time (T) is reduced, the depth of focus will be shallow and the focus should be accurately focused. On the contrary, if the aperture diameter (I) is reduced and the shutter opening time (T) is increased, As the depth of focus becomes deeper, the overall focus is achieved regardless of the perspective of the subject, while the moving subject cannot be captured as a still image. In such a relationship, the commercial user first selects one of the aperture and the shutter according to the shooting purpose and adjusts the other to the selected function so as to adjust the optimum amount of light.

In the configuration of the present invention, light from the subject to be photographed is partially reflected by the beam splitter 3 through the focus lens 1 and then through the aperture 2, and then through the sensing lens 7 to the photo sensor 8. The photo transistors PT ₁ -PT _N constituting the photo sensor 8 are turned on according to the distribution of incident light, and thus the non-inverting input terminals (+) of the operational amplifier 14 are connected to each other. A power supply proportional to the amount of incident light is applied and amplified, and then converted into a digital signal by the analog / digital converter 15 and input to one input terminal of the operational logic unit 16 (this value is represented by (P × I²)). At this time, when a high potential signal is input from the corresponding terminal of the switch selected and controlled by the shutter speed switch 10 to the corresponding address terminal of the ROM 13, the size of the exposure time from the ROM 13 (for example, 1/16). A signal corresponding to seconds, 1/125 seconds, etc.) is output and applied to the other input terminal of the operational logic unit 16 (this value corresponds to T above). In this way, the actual amount of optical energy P x I ² x T, which is comprehensively calculated through the operation logic unit 16, is compared in the comparator 17 together with the optimum reference light energy amount Vref ₁ . At this time, the actual light reached per unit area of the film calculated according to the given conditions, that is, the illuminance (P) from the subject to be photographed, the size (I) of the opening diameter of the current aperture, and the current shutter speed (T). When the energy P × I ² × T is greater than the optimal amount of light energy for obtaining a good picture, a negative potential signal is output from the comparator 17, and when the actual light energy is smaller than the optimal reference light energy, the comparator 17 The positive potential signal is outputted from), and when the voltages are the same, zero potential is output and applied to one input terminal of the switch SW ₁ and the AND gate AND ₁ .

At this time, when the actual optical energy is greater than the reference signal value and the negative potential signal is output from the comparator 17, the high priority aperture priority signal for the aperture priority selection is switched through the priority selection signal terminal PRi. ₁ ) is applied to the control terminal of ₁ ), the switch (SW ₁ ) is short-circuited to one side fixed terminal (c) thereof, the negative potential signal output from the comparator 17 is applied to the shutter speed switch drive motor 12 to shutter Adjust the speed switch 10 in a direction in which the exposure time is shortened, and accordingly, the signal value output from the ROM 13 is applied to the calculation logic section 16 with a low value, so that the actual output from the direct section 16 is performed. The signal value of the light energy amount is reduced so that the signal value input to both input terminals of the comparator 17 at a predetermined position is coincident. Thus, zero potential is output from the comparator 17 to drive the shutter speed switch. The driving of the emitter (12) is stopped is to be optimal amount of light energy Check.

If the actual amount of light energy is less than the reference value, the potential signal is output from the comparator 17 so that the motor 22 adjusts the shutter speed switch 12 in the direction in which the exposure time is extended to compensate for the insufficient light amount. It automatically adjusts the amount of light energy.

At this time, if the low potential signal for the shutter speed switch priority selection is made through the priority selection signal terminal PRi, the switch SW ₁ is connected to the other fixed terminal b thereof so that the shutter speed switch 10 is in the current adjustment state. The aperture driving motor 11 is driven while being fixed so that the optimum amount of light is automatically adjusted by adjusting the opening diameter of the aperture.

In the above, if the shutter speed switch 10 is fixed at the maximum exposure time designation position (S ₁ ), the exposure time can no longer be increased, or the aperture is in the maximum open state. In the adjustment state, as described above, the high potential is output from the OR gate OR ₁ and applied to the other input terminal of the AND gate AND ₁ , and the high potential is output from the comparator 17 to release the shutter speed switch. When the drive motor 12 or the aperture drive motor 11 is driven to drive the shutter speed switch 10 or the aperture 2 in the direction of increasing the exposure amount, the aperture 2 or the shutter speed switch 10 has already reached the maximum value. Since it is in the state of being adjusted, the error state is indicated, and the ROM 18 is enabled by the output high potential signal from the AND gate AND ₁ to the priority selection signal terminal PRi. The position of the aperture 2 or the shutter speed switch 10 is transmitted by transmitting a corresponding signal from the tom 18 to the error display unit 19 by the aperture priority high potential signal or the shutter speed switch priority low potential signal applied from the tom 18. Will inform the user that it cannot rebalance.

In addition, by cutting off the power of the exposure processing unit 20, the exposure of the camera may be manually designated and used by the user.

As described above, the present invention calculates the actual amount of light energy to reach the film from the illuminance from the subject and the state of the currently set camera aperture and the shutter speed switch. Compared to the amount of light, according to the result of the comparison, the aperture or shutter exposure time adjustment switch that you specify is automatically adjusted in the corresponding direction to adjust the optimal light energy to obtain a good picture that meets the user's shooting purpose. Will be.

Claims (1)

The image of the subject is imaged on the film 6 through the focus lens 1, the aperture 2 and the master lens 4, and the aperture 2 and the shutter 4 are photographed by adjusting the aperture 2 Light reflected by the beam splitter 3 is reflected by the beam splitter 3 so that the phototransistors PT ₁ -PT _N reach the photosensor 8 which is densely arranged in the center, and the output value of the photo sensor 8 and the shutter speed. The amount of light energy to reach the film at the time of shooting is calculated by the value given from the designated position S ₁ -S _N of the switch 10 and compared with the reference value by the comparator 17, and the priority of the selection signal terminal PRi According to the signal, the output of the comparator 17 is applied to the aperture driving motor 11 or the shutter speed switch driving motor 12 to adjust the aperture 2 or the shutter speed switch 10, and the aperture 2 or If the calculated amount of light energy is smaller than the reference value when the shutter switch 10 is opened, the error is displayed through the error display unit 19. Automatic exposure control of the camera, which is characterized by structured to exhibit the condition.