CZ303282B6 - Method of regulation of the photographic camera shutter release and apparatus for making the same - Google Patents

Abstract

The present invention relates to a method of regulation of the photographic camera shutter release where the photographed object is illuminated with artificial light powered from an alternate current source, especially for assurance of equal illumination of each picture of a series, and apparatus for execution of this method. The essence of the invented solution is measurement of the photographed object illumination intensity progress and transformation of the measured values to electrical signal of a size proportional at every moment to the value of the momentary intensity of illumination of the photographed object. The method needs specification of the phase of the oscillating electrical signal at which the camera shutter will be released and unblocking of the shutter as soon as the electrical signal reaches the specified phase. The apparatus includes a photographed object illumination intensity sensor (1) whose output is connected to an oscillating luminous wave phase detector (3). The output of the detector (3) is connected to one of the pair of inputs of a logical circuit (5) whose second input is connected to the output of a manual camera release (4). The output of the logical circuit (5) is connected to the camera shutter activator (6). The logical circuit (5) is designed for transmission of the trigger signal to the photographic camera shutter activator (6) at the moment of simultaneous triggering of the photographic camera manual release (4) and detection of achievement of the specified phase of the electrical signal for the camera shutter release by its leading edge.

Description

A method of controlling shutter release time and apparatus for performing the method

Technical field

The present invention relates to a method for controlling the shutter release time when an object is illuminated by an artificial light powered by an AC power source. In particular, the method is intended to provide the same illumination for each sequence of images. The invention further relates to an apparatus for carrying out this method.

BACKGROUND OF THE INVENTION

When the subject is illuminated by an artificial light powered by an AC source, typically 50 Hz or 60 Hz, the human eye perceives this as continuous. In reality, however, the intensity of such illumination varies with twice the frequency of the supply voltage.

If the exposure time is comparable to the time period of the supply voltage oscillation or if it is significantly longer, the variation of the light intensity does not have a significant effect on the resulting photograph. However, if the exposure time is much shorter than the vibration period of the supply voltage, it will depend on which stage of the lighting intensity the camera shutter opens. If the shutter opens when the illumination intensity of the subject is maximum, the image may be brightened, while if the shutter opens when the illumination intensity of the photograph 25 is minimal, the resulting image may be underexposed.

This does not play such a role in normal shooting, as the image can usually be edited and corrected for exposure error when editing. The problem arises when shooting a series of images, such as technical shots, where the authors try to avoid editing individual shots, so that the whole series, even about everything that may occur during shooting. In this case, editing individual images could obscure some of the information that caused continuous shooting.

Virtually all classic and digital cameras use a hand-held exposure shutter, either on the camera or remotely. This trigger does not provide any interaction with the video signal, i.e. does not set automatic synchronization with the light waveform.

As a result, a series of multiple photos of the same scene illuminated by fluctuating light will show different results while maintaining constant exposure conditions due to different light energy integration depending on the moment of opening and closing the shutter. The phenomenon disappears only at longer exposures, when the average exposure value is practically independent of the shutter release phase. This phenomenon does not occur in daylight or when lighting from sources powered by high frequency (inverter) or direct current. Another possible but practically inappropriate method is to use a large number of images and obtain the resulting image by averaging. This, however, places great demands on time and does not guarantee constant and high-quality results.

SUMMARY OF THE INVENTION

The aforementioned drawbacks of the prior art are largely eliminated by the method of regulating the shutter release time, useful only when the subject is illuminated by artificial light with AC power, in particular to provide the same illumination for each sequence of images. The object of the invention is to measure the illumination intensity of the photographed object, the measured values of the illumination intensity of the photographed object are transformed into an electric signal, the magnitude of which is proportional to the instantaneous illumination intensity of the photographed object.

- 1 GB 303282 B6 the camera shutter is released and the camera shutter is released when the electrical signal reaches the selected phase.

In a preferred embodiment of the method according to the invention, the magnitude of the electrical signal corresponding to the illumination intensity of the photographed object is directly proportional to the illumination intensity of the photographed object.

In another preferred embodiment of the method according to the invention, the phase of the electrical signal for triggering the camera shutter is determined to achieve the opening of the camera shutter around the peak value of the electrical signal directly proportional to the illumination intensity of the subject.

The above-mentioned drawbacks of the prior art are also largely eliminated by an apparatus for carrying out the above method comprising a light intensity sensor of the photographed object, the output of which is connected to a phase light wave detector, the output of which is connected to the first input of the logic circuit to the output from the camera's manual shutter is connected and the output is connected to the camera shutter activator, wherein a logic circuit is provided to send a trigger signal to the camera shutter activator while the manual shutter release is triggered and detects the selected phase of the electrical shutter release signal.

In a preferred embodiment of the present invention, an amplifier and / or an output signal sensor of the light object of the subject, the first output of which is connected to the input of the wavelength phase detector, and whose the second output is connected to the second input of the logic circuit. The light intensity sensor of the object to be photographed is preferably designed as a directionally selective photodiode, and in a further preferred embodiment is provided with an inlet orifice for regulating the viewing angle of the light intensity sensor of the object to be photographed.

In another preferred embodiment of the device according to the invention, the amplifier and / or the output signal former of the light intensity sensor of the photographed object comprises a fast trans impedance amplifier.

In a further preferred embodiment of the invention, the amplifier and / or the output signal shaper of the light intensity sensor of the photographed object further comprises a peak rectifier whose input is connected to the output of a fast transimpedance amplifier and whose output is connected to the filter input. the light sensor of the subject is the output of a fast transimpedance amplifier and is connected to the first input of the logic circuit, and the second output of the light sensor of the light sensor of the object to be photographed is connected to the input of the phase detector.

In further preferred embodiments of the invention, the phase detector comprises a voltage divider and the logic circuit comprises a comparator to which a monostable flip-flop circuit is connected.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of an exemplary embodiment of an apparatus for performing a shutter release time control method of the present invention; and FIG. of the camera of FIG.

-2GB 303282 B6

DETAILED DESCRIPTION OF THE INVENTION

An exemplary embodiment of a method of controlling the shutter release time, in particular to provide the same illumination for each sequence of images when the subject is illuminated by artificial AC power and the exposure time is less than about twice the AC source frequency, will be described below . In this exemplary embodiment, the illumination intensity of the subject is measured, and the measured illumination intensity values of the subject are converted to an electrical signal, the magnitude of which is proportional to the instantaneous illumination intensity of the subject. Souio is determined early or in advance. at what stage of this fluctuating electrical signal will the camera shutter release. The camera shutter will then unlock when the electrical signal reaches the selected phase. The magnitude of the electrical signal corresponding to the illumination intensity of the subject is generally proportional to the illumination intensity of the subject, but the electrical signal may also be coded or indirect. What is important, however, is that each electrical signal value must be assigned an illumination phase value for the subject.

Generally, it is preferable to determine the phase of the electrical signal for triggering the camera shutter to achieve the opening of the camera shutter around the peak of the electrical signal directly proportional to the illumination intensity of the subject.

FIG. 1 schematically illustrates a general embodiment of a device for performing a method of controlling the shutter release time of a camera according to the invention. This device comprises a light intensity sensor 1, the output of which is connected to the light-wave phase detector 3 via an amplifier and / or a shape 2 of the light output sensor and the light intensity of the photographed object. The output of the waveband phase detector 3 is connected to the first input of the logic circuit 5, to which the second input is connected the output from the camera's manual release 4. The output of the logic circuit 5 is connected to the camera shutter activator 6. The logic circuit 5 is designed to send a trigger signal to the camera shutter activator 6 based on evaluating the activity of the camera shutter 4 and the phase detector 3, i.e., at the same time the camera shutter 4 is closed and detecting the selected phase of the electrical signal to trigger the shutter.

FIG. 2 schematically illustrates an exemplary embodiment of a device for performing a method of controlling the shutter release time of the present invention. This device comprises a sensor 1 of the illumination of the photographed object, the output of which is connected via the amplifier and / or the shaper 2 of the output signal of the sensor of the illumination of the photographed object 1 to the phase light detector 3. The output of the wavelength phase detector 3 is connected to the first input of the logic circuit 5, to the second input of which the output of the amplifier and / or of the output signal sensor 2 of the light intensity sensor I of the subject is connected. The output of the logic circuit 5 is connected to the manual shutter 4 of the camera, the output of which is connected to the camera shutter activator 6. The logic circuit 5 is designed to send a trigger signal to the camera shutter activator 6 via the camera's manual shutter 4, that is, at the same time the camera's manual shutter 4 is closed and detects the selected phase of the electrical signal to trigger the camera shutter.

In FIG. 3, this exemplary embodiment of an apparatus for performing a method of controlling the shutter release time of the camera of the invention is shown in more detail. The amplifier and / or shaper 2 of the light output sensor I of the photographed object comprises a rapid transimpedaneous amplifier 7, the output of which is connected to the input of the peak rectifier 8, the output of which is in turn connected to the input of the filter. The logic circuit 5 comprises a comparator 11, the output of which is connected to the monostable flip-flop 12 input. A fast transimpedance amplifier 7 output is connected to the first comparator input U and a voltage divider output 10 is connected to the second comparator input. The output of the monostable flip-flop 12 is brought to the control input of the shutter actuator 6 via the hand trigger 4.

-3GB 303282 B6

The illumination intensity sensor 1 of the object to be photographed is preferably designed as a directionally selective photodiode or other sensing element which responds to the instantaneous illumination value. brightness in a given direction, preferably in the direction of the photographic scene. The free aperture for the directional selective filter can be used to select the viewing angle that defines the sensor's acceptance area and thus the size of the sensed area.

The current signal from the illumination intensity sensor 1 of the photographed object, which corresponds to the instantaneous value of the sensed luminous quantity, which is luminance, is amplified and transformed into a voltage in the transimpedance amplifier 7. After this transimpedance amplifier 7, the signal splits. One branch is routed to the peak rectifier 8 to obtain a DC voltage output corresponding to the maximum value of the input signal. Filtering of the rectified signal is provided by the filter circuit 9. At its output a DC voltage corresponding to the peak value of the signal behind the transimpedance amplifier 7. This signal is further reduced by the voltage divider 10 to the desired level to determine the comparator level of the signal for comparator 11. It is driven directly by the signal from the trans-impedance amplifier 7. After the comparator 11, a rectangular signal is obtained, where the leading edge of the signal means exceeding the decision level and identifies the selected phase of the originally optical signal. This edge triggers a fast monostable flip-flop 12 which generates a short pulse that is at least one order shorter than the actual signal period. This short pulse is already a synchronization pulse for the shutter. The pulses are fed to the automatic shutter via the manual release 4, i.e. they pass on only if the manual release 4 is manually activated. The first pulse then triggers the camera's own shutter mechanism.

The device for performing the method of controlling the shutter release time according to the invention ensures unequivocal synchronization of fluctuating light with its own exposure mechanism and thus ensures constant conditions for exposing a series of the same images. By selecting the phase, the exposure ratio of the input signal can be changed depending on the camera shutter delay itself.

The essence of the solution is to detect fluctuating illumination in the plane of the camera lens and based on the selected time delay, generating a synchronization pulse for the camera shutter or shutter. This system can thus ensure practically constant exposure conditions even under varying light, which otherwise show or may show significant differences in a series of pictures with the same exposure mode. Light sources supplied with mains power supply with 50 Hz alternating voltage generate changes in luminous flux and thus with 100 Hz illumination. Therefore, at shutter speeds of less than 10 milliseconds, it is critical at what stage of the light wave the image is taken. The device for performing the shutter release time control method of the present invention eliminates exposure error caused by light fluctuations, thus providing better quality conditions for taking photos with artificial light sources. The effect is more pronounced, the greater the fluctuation in the luminous flux and consequently the brightness of the source, and the shorter the exposure time. The device for performing the method of controlling the shutter release time according to the invention ensures the same result in the form of equally exposed photographs for a series of images with the same exposure parameters of the apparatus. Thanks to this circuit, it is then possible to take high-dynamic images by changing the exposure modes without the risk of misinterpreting individual images, since all images can use the same average illumination value as the comparison level. Both the method and the device ensure that pictures taken with the manual shutter are reproduced under constant scene and lighting conditions, even under fluctuating light from sources powered by normal AC power, ie 50 or 60 Hz.

The proposed circuit could also be used in cameras and other optical recording devices for more accurate shutter synchronization, where the difference between the frame rate and the frequency of light fluctuations creates an interference flicker of the image. Using the proposed circuit, it would be possible to synchronize the shutter to achieve a constant mean value.

-4 CZ 303282 B6

Industrial applicability

The method of regulating the shutter release time and the apparatus for performing the method can be used in the manufacture of cameras, particularly those used to capture a series of industrial photographs, e.g.

Claims (11)

1. A method of controlling the shutter release time where the subject is illuminated 15, to provide the same illumination for each sequence of images, characterized in that the illumination intensity of the photographed object is measured, the measured values of the illumination intensity of the photographed object are converted into an electric signal, the magnitude of which is instantaneous to the instantaneous illumination intensity of the subject, the phase of this fluctuating electric current is determined 20 of the signal suitable for triggering the camera shutter and the camera shutter is released when the electrical signal reaches the selected phase. Method for controlling the shutter release time according to claim 1, characterized in that the magnitude of the electrical signal corresponding to the illumination intensity of the subject 25 is proportional to the illumination intensity of the subject. The method of controlling the shutter release time of claim 2, wherein the phase of the electric shutter release signal is determined to achieve the opening of the camera shutter around the peak value of the electric signal directly proportional to the intensity 30 lighting the subject. Device for carrying out the method according to claims 1 to 3, characterized in that it comprises a light intensity sensor (1) of the photographed object, the output of which is connected to a phase light wave detector (3), the output of which is connected to the first input of the logic circuit. 35 (5), the output of which is connected to the camera's manual shutter input (4), the camera's manual shutter output (4) connected to the camera shutter activator (6), the logic circuit (5) being configured to send a trigger signal to the activator (6) the camera shutter when the manual shutter release (4) is closed and the selected phase of the electrical signal for the camera shutter release is reached. Device according to claim 4, characterized in that the output of the light sensor (1) of the object to be photographed is connected to an amplifier and / or an shaping device (2) of the output light sensor (1) of the object to be photographed. a phase light wave detector (3) and a second output of which is connected to a second input 45 of the logic circuit (5). Apparatus according to claim 5, characterized in that the amplifier and / or the shaper (2) of the output signal of the light intensity sensor (1) of the photographed object comprises a fast transimpedance amplifier (7). Device according to claim 6, characterized in that the amplifier and / or former (2) of the output signal of the light intensity sensor (1) of the photographed object further comprises a peak rectifier (2). 8), the input of which is connected to the output of a fast transimpedance amplifier (7) and whose output is connected to the input of the filter (9), the first output of the amplifier and / or the former 55 (2) the light output sensor (1) of the subject's illumination intensity is a fast output of the transimpedaneous amplifier (7) and is connected to the first input of the logic circuit (5) and the second output of the amplifier and / or fuser (2) the light intensity sensor (1) of the photographed object is output by the filter (9) and is connected to the input of the phase detector (3). Device according to claim 4, characterized in that the phase detector (3) comprises a voltage divider (10). Apparatus according to claim 4, characterized in that the logic circuit (5) comprises a comparator (11) to which a monostable flip-flop (12) is connected. io Device according to claim 4, characterized in that the illumination intensity sensor (1) of the photographed object is designed as a directionally selective photodiode. Apparatus according to claim 4, characterized in that the illumination intensity sensor (1) of the object to be photographed 15 is provided with an inlet orifice for controlling the viewing angle of the illumination intensity sensor (1) of the object to be photographed.