DE102017010567A1 - FILTER SYSTEM FOR ONE CAMERA - Google Patents

Abstract

The present invention relates to a filter system for a camera comprising a filter adapted to attenuate a light passing through the filter and characterized by an interface for accepting a control signal, the filter being adapted to to attenuate the light passing through the filter on the basis of the control signal only in at least one specific area of a filter area. Furthermore, the invention comprises a camera with such a filter system and a camera which is suitable to be operated with such a filter system.

Description

The present invention relates to a filter system for a camera, a camera with such a filter system and a camera which is adapted to cooperate with such a filter system.

In video and photography, the success of a good recording essentially depends on three different parameters. Namely, the correct settings in terms of the shutter speed, the aperture and the exposure sensitivity (ISO value). Balanced light conditions in a picture are obtained by a coordinated adaptation of these three parameters to one another.

Essentially, two different approaches have prevailed in the market. On the one hand, a large number of the pictures and videos recorded today are processed with the aid of an automatic setting made by the camera. On the other hand, it is often possible to set the parameters for image or video recording manually, especially for professional users in the medium and high-price segment.

The automatic setting is very popular because in many cases it easily and quickly leads to acceptable images or videos and so also cameras by less experienced users can be satisfactorily operated.

Manually adjusting the parameters that are important to the image is relatively difficult and often remains withheld only from experienced users. Cheap cameras sometimes have no manual adjustability. Using the manual settings, the quality of the recorded pictures or videos is usually better than similar pictures taken with settings made automatically by a camera.

In unfavorable lighting conditions, it may happen that the camera underexposes a portion of the image or overexposes a portion of the image. A typical example of this is a so-called backlit shot, in which the measuring point for the exposure in the picture or video is directed directly to a very bright area, such as light source (sun, lamp, etc.).

In an automatic mode, this typically causes the exposure intensity to be lowered. However, if the actual focus of the photograph is not on the light source but on, for example, persons positioned next to it, these are likewise recorded with the reduced exposure intensity. This causes the relevant part of the image to be rendered too dark. Therefore, the relevant area is underexposed and the very bright area exposed normally.

Alternatively, in such a situation, one can manually adjust the exposure intensity so that the relevant areas of the image are reasonably exposed. Disadvantage of this is that then the originally already very bright areas are displayed very bright and lead to a total overexposed image. A subsequent processing of the overexposed image areas can not be used for a subsequent exposure adjustment, since in the overexposed areas the image information is generally not available. Another problem is that the exposure intensity controllable ISO value is limited by an upper and a lower value and the exposure sensitivity depends strongly on the quality of the sensor used.

For a high-quality recording, therefore, an appropriate exposure scene has to be created, which leads to a balanced exposure of the scene. For spontaneous shots a uniformly lit scene is often not available.

It is the object of the present invention to provide a filter system for a camera which overcomes the above-mentioned problem and allows a reasonable recording quality even in low light conditions.

This is achieved with a filter system according to claim 1. Advantageous embodiments can be found in the dependent claims again.

According to the invention, the filter system for a camera comprises a filter designed to weaken a light passing through the filter, the system being characterized by an interface for receiving a control signal. Further, the filter is adapted to attenuate light passing or propagated through the filter based on the control signal only in at least a certain area of a filter area.

This filter can therefore be a range-selective filter in which different areas of its filter surface behave differently. Thus, it is provided in the present case that a specific region of the filter surface weakens light transmitted or transmitted with intensity of a different intensity than light that passes through another region of the filter surface.

The realm and the different weakening of passing or forwarded ones Light is given to the filter based on the control signal.

Preferably, the filter surface is designed so that it connects the several differently treated areas throughout.

It is also advantageous if the filter surface of the filter system can be integrated into a beam path of a camera or integrated in it.

In this way, an excessively illuminated area can now be darkened and, at the same time, a less exposed area can be reduced less or not at all in its light intensity.

According to a preferred modification of the invention, the filter is designed to attenuate light passing through the other to the at least one particular area different portions of the filter surface or is forwarded or attenuated with less intensity than in the at least one specific area.

This makes it possible to create an optimal exposure with the filter system for a camera even in an unfavorably exposed scene, since the overexposed areas can be matched with the filter to the less exposed areas in their light intensity.

In this case, it can be provided that the filter comprises an adaptive voltage controllable layer which changes its light transmission when the voltage varies, and wherein preferably the light transmission or light transmission via the filter surface based on the received from the interface control signal is area selective.

This represents a preferred embodiment of the present invention. Due to the range-selective change of the filter layer, the different areas to be attenuated can be adapted to each other.

It can further be provided according to a development of the invention that the filter is constructed of a plurality of small-sized sensors or a sensor with a range-selectively controllable photosensitive layer, which are adapted to assume one of several different exposure sensitivities in response to the received from the interface control signal ,

Further, it can be provided according to a development of the invention that the filter consists of a surface light modulator in the form of a digital micromirror devices (DMD), the area depending on the control signal received from the light beam and selectively with a dynamically adjusted modulation in the form of a temporal amplitude variation to the sensor.

Due to the matrix-like structure of the filter, the individual segments can be adjusted according to the areas to be attenuated or the areas not to be attenuated.

Thus, according to a further embodiment, it can also be provided that the filter is an LC glass with or without an additional polarization layer, which changes its light transmission by applying a voltage, preferably is opaque when a specific voltage is applied. It can also be provided that more than one polarization layer is present.

Furthermore, it can be provided that the filter is an electrochromic glass, which changes its light transmission at an applied voltage, preferably has a blue coloration upon application of a certain voltage.

The invention can also be developed in such a way that the filter has at least three regions which are designed to attenuate the light passing through their respective region or propagating to different extents.

As a result, an even better alignment of the light intensity of an image or video recording can be achieved.

The invention further comprises a camera having a filter system according to one of the previously indicated variations and an image sensor for capturing an image.

It is advantageous if the filter surface is arranged in the beam path of the camera, that in a recording, the light of the imaged scene passes through the filter surface and is forwarded and only then hits the image sensor. Thus, with a proper filter setting, light matched by the exposure intensity can reach the image sensor.

Furthermore, it can be provided that the filter surface of the present invention is much larger than the area of the image sensor. For this purpose, the beam path of the light of the recording is expanded and projected onto the filter surface and then reduced again and thrown onto the image sensor.

It is advantageous if the exposure information of the image sensor as a control signal for the Serving interface of the filter to attenuate light only in at least a certain area of a filter surface, wherein preferably the at least one specific area corresponds to a highly exposed sector on the image sensor.

By the feedback of the exposure information from the image sensor on the filter, an adjustment of the light intensity of the image can be carried out in a particularly simple manner. Namely, no separate sensor is necessary, which detects the light intensity of the scene to be recorded and on the basis of which transmits a control signal to the filter system.

According to the invention, it may further be provided that the intensity of the light attenuation by the filter in a certain area of the filter surface is directly proportional to the exposure intensity on a corresponding sector of the image sensor.

According to a further optional development of the invention, the camera further has an input unit via which the control signal for the filter can be generated by means of a user input, the input unit preferably being a touch-sensitive display unit.

This can be set manually via an input unit, the different in their light intensity strongly attenuatable areas. Especially for professional or semi-professional users of cameras, this option is an advantage, as artistic accents with manual adjustability can be implemented.

The invention further relates to a camera which is designed to provide information about the exposure intensity of the image sensor via an interface to the outside.

In this case, the interface can be designed to cooperate with a clip-on filter or an attachable lens, preferably via a wired connection.

Further preferably, the attachable filter or the attachable lens comprises a filter system according to one of the variants discussed above.

• 1a-b: den typischen Aufbau einer DSLR aus dem Stand der Technik,
• 2a-f: verschiedene Ausführungsformen der Erfindung, und
• 3a-c: eine überbelichtete, eine unterbelichtete und eine Fotografie mit Hilfe der vorliegenden Erfindung.

Further advantages, features and features of the invention will become apparent from the following description of the figures. Showing:

• 1a-b : the typical construction of a DSLR of the prior art,
• 2a-f Various embodiments of the invention, and
• 3a-c an overexposed, an underexposed and a photograph using the present invention.

1a and 1b show a schematic structure of a DSLR. In this case, a shutter, a diaphragm and the lens / lens is arranged in the beam path in front of the image sensor. In addition, an implementation for deflecting the beam path to the viewfinder via a hinged deflection mirror and a pentaprism is shown.

The structure of this arrangement is known from the prior art, so that can be dispensed with a detailed description of the operation.

2a shows a first embodiment of the invention. The dashed line represents the interface from the image sensor to the filter system, via which information for controlling the filter surface is given to the filter (gray).

According to this embodiment, it can therefore be provided that the filter system can be arranged directly between lenses or adjacent thereto or directly in the beam path.

Furthermore, it can be provided that the filter surface of the present invention is much larger than the area of the image sensor. For this purpose, the beam path of the light of the recording is expanded and projected onto the filter surface and then reduced again and thrown onto the image sensor. The proportions in the 2a to 2f therefore do not necessarily correspond in the implementation of the invention.

2 B shows an arrangement of the filter system between the lens / lens and the aperture.

2c shows, however, another embodiment of the invention, according to which the filter system, or the filter surface in the beam path in front of the lens / lens is arranged. The filter surface is located on the side facing away from the image sensor of the lens / lens.

2d shows a further embodiment in which the filter surface of the filter system between the shutter and aperture is arranged.

2e shows a further embodiment in which the filter surface of the filter system is arranged directly between the closure and sensor.

2f shows a further embodiment in which the beam path is first deflected via a hinged deflection mirror to the surface light modulator in the form of a digital micromirror device (DMD). By a dynamic modulation of the light, the beam path is then forwarded to the sensor with a range-selective variable exposure time.

3a to 3c show three photographs, by means of which the operation of the present invention can be illustrated.

3a shows a scene in which the background is very bright and the persons arranged in the foreground are rendered relatively dark due to the setting used by the camera with respect to ISO, aperture and exposure time.

Alternatively, the exposure intensity may be changed so that the subjects in the foreground are rendered sufficiently bright, but then the background is overly bright again. This is in 3b shown.

3c now shows the result, which is possible with the help of the filter system according to the invention, since the different areas (light background and less bright people in the foreground) are influenced to varying degrees in their light intensity. Thus, the people in the foreground are not or only slightly attenuated in the light intensity, whereas the light background is reduced more in its light intensity.

Claims (15)

A filter system for a camera, comprising: a filter configured to attenuate a light passing through the filter, characterized by an interface for receiving a control signal, the filter being configured to pass through the filter Attenuate light based on the control signal only in at least a certain area of a filter area. Filter system after Claim 1 wherein the filter is configured to attenuate light transmitted through the others to different portions of the filter surface than the at least one particular region, or to attenuate with less intensity than in the at least one particular region. Filter system according to one of the preceding claims, wherein the filter comprises an adaptive voltage controllable layer which changes their light transmittance upon variation of the voltage, and wherein preferably the light transmission or light transmission via the filter surface based on the received from the interface control signal is area selective. Filter system according to one of the preceding claims, wherein the filter is constructed of a plurality of small-sized sensors or a sensor with a range-selectively controllable photosensitive layer which are adapted to assume one of a plurality of different exposure sensitivities depending on the control signal received from the interface. Filter system according to one of the preceding claims, wherein the filter consists of a surface light modulator in the form of a Digital Micromirror Devices (DMD), the light beam region selective and with a dynamically adjusted modulation in the form of a temporal amplitude variation to the sensor depending on the control signal received from the interface forwards. Filter system according to one of the preceding claims, wherein the filter is an LC glass with or without additional polarization layers, which changes its light transmittance by applying a voltage, preferably is opaque when applying a certain voltage. Filter system according to one of the preceding claims, wherein the filter is an electrochromic glass, which changes its light transmittance at an applied voltage, preferably has a blue coloration upon application of a certain voltage. Filter system according to one of the preceding claims, wherein the filter has a plurality, but at least three areas, which are adapted to attenuate by their respective area passing or forwarded light to different degrees. A camera having a filter system according to any one of the preceding claims and an image sensor for capturing an image. Camera after Claim 9 , wherein exposure information of the image sensor serve as a control signal for the interface of the filter to attenuate light only in at least a certain area of a filter surface, wherein preferably at least a certain area corresponds to a highly exposed sector on the image sensor. Camera after Claim 10 wherein the intensity of the light attenuation by the filter in a certain area of the filter surface is directly proportional to the exposure intensity on a corresponding sector of the image sensor. Camera after one of the previous ones Claims 9 to 11 wherein the camera further comprises an input unit via which the control signal for the filter can be generated by means of a user input, wherein the input unit is preferably a touch-sensitive display unit. Camera with an image sensor, wherein the camera is designed to provide information about the exposure intensity of the image sensor via an interface to the outside. Camera after Claim 13 wherein the interface is adapted to cooperate with a clip-on filter, preferably via a wired connection. Camera after Claim 14 wherein the clip-on filter is a filter system according to any one of the preceding Claims 1 to 8th is.

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