DE2630593A1 - Photographic camera light control system - has ferroelectric unit of variable transmissivity to control light flow - Google Patents

Abstract

A device for light control in a photographic camera uses a material which can have its light transmissivity controlled by means of an electrical field, and a ferroelectric unit (1-4) inset into the exposure measurement or viewfinder light path. The light transmissivity of the ferroelectric unit (1-4) can be controlled in a remanent manner in relation to the object illumination level by means of a determined electrical signal produced by an illumination control device. A further input signal is used to reduce the transmissivity of the unit (1-4).

Description

Device for luminous flux control The invention relates to a device for luminous flux control in photographic cameras.

Around apertures or exposure indicators without mechanically moving parts to be able to realize, it is known to use photochromic media or liquid crystal elements, which under the influence of the incident light resp.

change their transparency when a voltage is applied.

These known media, however, show some aspects of photography too much inertia and too little contrast.

The purpose of the invention is to provide luminous flux controls without the aforementioned Drawbacks to carry out.

The object of the invention is to create a non-mechanical Device for luminous flux control in photographic cameras, one for all Functions has a sufficiently short switching time, is temperature-independent and represents only a very low load on the camera battery.

According to the invention this object is achieved in that in the exposure, Measuring or viewfinder beam path, at least one ferroelectric unit known per se (1,2,3,4) is arranged, their light transmission depending on a through the object brightness and / or at least one of the exposure adjusters certain electrical signal can be controlled remanently and by a further signal input can be deleted again.

The invention is further developed in accordance with the subclaims.

Because ferroelectric crystals have their once acquired light.

Maintain permeability even when there is no control signal, the energy requirement is particularly low.

The invention is explained in more detail below with the aid of exemplary embodiments explained.

1 shows a known ferroelectric unit. FIG. 2 is a block diagram an exposure indicator Fig. 3 designed as a line raster ferroelectric Element Fig. 4 Exposure control device Fig. 5 as an electro-optical shutter Usable light control element A ferroelectric unit consists according to Fig.1 known from a ferroelectric crystal 1, which is covered with a transparent, optically imperceptible pair of electrodes 2 occupied and between a polarizer 3 and an analyzer 4 is arranged. A short voltage pulse is sent to the electroder placed, the ferroelectric crystal becomes transparent to incident light or impermeable, depending on the polarity of the pulse. This state is in the dead State saved.

The use of ferroelectric units to represent information in photographic cameras is shown in Figure 2 as a block diagram. In a Level of the viewfinder that appears sharp when looking at the viewfinder image a ferroelectric exposure indicator consisting of one with several pairs of electrodes occupied ferroelectric crystal consists. The electrodes are constantly with one Control and decoding circuit 6, 7 connected, in turn with a control unit 8 is connected, in which the exposure factors - such as scene brightness, exposure time, Aperture, film speed as well as other factors - can be entered.

The control unit 8 converts the input factors into electrical signals and gives them to the corresponding electrodes of the ferroelectric unit. The electrodes can be designed according to the generally known display principles e.g. as a symbol display, segment display or matrix display. Since the ferroelectric Store items information as long as you like, the exposure indicator becomes 5 only electrically activated if at least one display information has been changed , i.e. the changing elements of the display are deleted and rewritten.

According to FIG. 3, the electrode pairs can also be designed as a line grid be.

Such a designed ferroelectric element 9 can according to 4 find application for aperture simulation in an exposure control device. It is arranged in front of a photoresistor 10, which is in the entrance of a not shown Wear time formation south attitude lies. The ferroelectric element 9 is with a Control circuit 11 connected, in which the preselected value of an aperture 12 of a Taking lens 13 is electrically input.

With 14 is a in the recording beam path and with 15 a in the measuring and Viewfinder beam path permanently arranged semi-permeable mirror and with 16 the film plane designated. Corresponding to the one with an open aperture Kessung in the The aperture value input to the control circuit 11 becomes a more or less large number of the electrode pairs of the ferroelectric element 9 is controlled, so that this ird translucent to a certain extent and a corresponding one on the photoresistor 10 Amount of light falls. When the camera release is pressed, the shutter 12 closes abruptly to the preselected value. At the same time, all electrode pairs are now controlled so that the light transmission of the ferroelectric element 9 increases to the same extent as that of the lens aperture decreases. buf this In spite of the closing lens diaphragm 12, it remains on the photoresistor 10 falling amount of light constant, so that an exact exposure time formation takes place can, since the relatively large inertia of the photoresistor is not effective.

According to Figure 5 is a ferroelectric crystal with as a concentric Rings formed electrode pairs occupied.

) jird such a device in the recording beam path of a photographic Arranged camera, it can be effective as a lens aperture. To this end the electrodes from a circuit 18 when the trigger is actuated accordingly the preselected aperture controlled so that a more or less large inner Circular surface of the ferroelectric crystal is translucent. Such a one non-optical aperture is due to the high resolution of the ferroelectric Crystal with a sufficiently large number of electrodes almost continuously variable. Such a diaphragm can easily be expanded as a shutter if after Expiry of the exposure time a new voltage is applied to the electrodes, which cancels the light transmission again.

With these means is an automatic aperture and time control realizable in photographic cameras with little effort.

Claims (5)

Expectations: Ij Device for luminous flux control in photographic cameras by means of an electric field which can be influenced in its light permeability Materials, drawn in that in the exposure, measuring or viewfinder beam path at least one ferroelectric unit (1, 2, 3, 4) known per se is arranged, their light permeability depending on the brightness of the object and / or at least one of the exposure setting members determined electrical Signal can be controlled remanently and can be deleted again by another signal input. 2. Device according to claim 1, characterized in that the ferroelectric Unit is designed as an exposure indicator (5) by placing it in the plane of focus of the camera viewfinder arranged ferroelectric material with a plurality of electrode pairs is occupied, which depends on the exposure factor combination set in each case can be controlled from a decoding circuit and an under, over or correct Display exposure or exposure values. 3. Device according to claim 1, characterized in that the ferroelectric Unit in front of a photoresistor (10) of a switching stage for exposure time formation is arranged and in the form of a line grid (9) formed electrode pairs having, with a control circuit in which the respectively preselected value the lens hood is connected. 4. Device according to claim 1, characterized in that the as Lens diaphragm arranged ferroelectric unit with as concentric rings (17) formed electrode pairs is provided, one of which is an actuator for aperture simulation having circuit (18) a more or less large Number are controllable. 5. Device according to claim 1, characterized in that the ferroelectric Unit is arranged as a shutter and designed by one more or fewer large numbers of electrode pairs arranged as concentric rings each according to the preselected aperture value for the duration of the respective exposure time on transparency potential are placeable.