DE19804312C1 - Image recording unit, especially a photographic or semiconductor detector camera, has electronically controlled light exposure - Google Patents

Abstract

A camera is equipped with an electrochromic cell of electrically controlled light permeability and low deviation from color neutrality. An image recording unit is equipped, between its light entry opening and the recording medium, with an electrochromic cell which has an electrically controlled light permeability and which exhibits a light attenuation with a deviation from color neutrality of less than 0.5, preferably less than 0.2. An Independent claim is also included for a method of controlling the light quantity incident on a recording medium in the above image recording unit during recording.

Description

The invention relates to an image recording device that a device for electri contains control of the exposure amount and a method for controlling the Exposure amount in the image recorder.

It is known that in a photographic still or motion picture camera, the Be amount of light that falls on the image-recording medium during a recording, by the opening time of the camera shutter (exposure time) and / or the photographically effective opening of the imaging lens (aperture) set can be. Both setting options are usually mechanical Components enabled. Mechanical components are complex, expensive in the Manufacturing and prone to failure, especially under difficult operating conditions like extreme temperatures or dust pollution. A waiver of control the exposure amount due to exposure time and / or aperture restricts the use area of a camera due to the limited exposure latitude of the exposure drawing medium clearly.

A non-mechanical exposure control is known from DE 26 30 593 Using a ferroelectric unit to make a ferroelectric Crystal, a transparent pair of electrodes and a polarizer on one and an analyzer on the other hand. Will a short on the electrodes Voltage is applied, so the ferroelectric crystal for striking light permeable or impermeable, depending on the polarity of the pulse.  

An electro-optical light control device is also known from DE 25 41 678 to be used in combination with a light interruption device. The electro-optical light control device can be a core as an electro-optical substance cell, a single crystal, a liquid crystal, a dipole molecule with light absorption suspension, dielectric ceramic or a contain electrochromic substance.

The invention is based on the object of the exposure quantity in one image to control the drawing device electronically while maintaining color neutrality true. There is no reference in the state of the art for a solution to this problem Technology.

The object of the invention is achieved in that in an image recording device between the light entry opening and the image-recording medium Flat cell is provided, the light transmission is electrically controllable and which has a deviation from the color neutrality, which is smaller in amount than 0.5.

Preferred flat, electrically controllable cells are electrochromic cells (EC cells). These contain an electrochromic medium, which is a liquid Can be gel or a solid. Liquids and gels are preferred. she contain one or more electrochromic substances, optionally at least a solvent, optionally at least one UV absorber, optionally at least one salt to increase the conductivity and optionally at least one a thickener.  

Suitable electrochromic substances are pairs of redox substances, one of which can be reduced and the other can be oxidized. Both are particularly colorless or only slightly colored. After a voltage is applied to the EC cell, one substance is reduced, the other is oxidized, at least one becoming colored, that is to say that its light attenuation increases in the range of the visible spectrum. After switching off the voltage, the two original redox substances re-form and the EC cell becomes colorless again.

Suitable pairs of redox substances, of which the reducible substance has at least two chemically reversible reduction waves in the cyclic voltammogram and the oxidizable substance correspondingly have at least two chemically reversible oxidation waves are known from US Pat. No. 4,902,108. Such redox systems are known from WO 97/30134 in which RED ₁ and OX ₂ or OX ₁ and RED _{2 are} covalently bonded to one another via a bridge B. Such substances are also suitable. Also suitable are those redox systems in which the reversible transition between RED and OX or vice versa is associated with the loosening or closing of a σ bond. Such substances are known for example from WO 97/30135. Metal salts or metal complexes of metals which exist in at least two oxidation states are also suitable for the purposes of the invention. The two oxidation levels advantageously differ by one oxidation level. Also suitable are oligomers and polymers which contain at least one of the redox systems mentioned, but also pairs of such redox systems as defined above. Mixtures of the substances just described are also suitable, provided these mixtures contain at least one reducible and at least one oxidizable redox system. Suitable solvents, salts, UV absorbers and thickers are known.

The color of the pair of redox substances to be optimized for the object according to the invention is adjusted by selecting suitable dye systems in such a way that the absorption is as uniform as possible over the wavelength range from 380 nm to 750 nm. This color neutrality is preferably quantified using a photometer whose spectral sensitivity is matched to that of the image recording medium used. When using conventional silver halide films, these are the so-called Status A densitometers (DIN standard 4512, part 9, January 1993). These are logarithmic scaling filter photometers with a maximum sensitivity at 440 nm (blue), 530 nm (green) and 620 nm (red). The difference values | D _blue - D _green | and | D _red - D _green | are a measure of the deviation of an EC cell according to the invention from the color neutrality. For the inventive design of an EC cell, preference is given to pairs of redox substances which, when the cell is actuated for maximum light attenuation, result in measured values | D _blue -D _green | and | D _red - D _green | lead, which are less than 0.5, particularly preferably less than 0.2.

Cells with liquid crystals can also be used as flat, electrically controllable cells can be used as z. B. in Ullmann's Encyclopedia of Industrial Chemistry, 5. Edition, Vol. A 15, p. 372 ff.

The electrical signal for controlling the light-attenuating cell is used with its Adjusted amplitude to the cell used so that the entire range between minimum and maximum light attenuation can be swept. The maximal Transmission of the EC cell can preferably be achieved by an anti-reflective coating both cell surfaces can be enlarged.

The amplitude of the electrical signal can be specified by a light sensor be that corresponding to the incident on the light entry opening of the camera Light intensity is the signal amplitude and thus the translucency of the cell changed, preferably in such a way that with each shot on the Image recording medium falling exposure amount remains approximately constant.  

The advantages of electrical control of the amount of exposure in an image Drawing device are the simple structure compared to the mechanical panels and, as a result, less susceptibility to failure and reduced manufacturing costs. In addition, the exposure amount in the entire range between continuously regulate minimum and maximum light attenuation.

The inventive method for electrical control of the exposure amount in an image recording device is suitable for so-called still cameras, that is, cameras, each of which is an individual opening that is not time-coupled create, as well as for motion picture cameras, the pictures in predetermined, in general record my fixed repetition rate. The method according to the invention takes place its use especially in cameras that use silver as an image recording medium Use halide-based negative or slide films, both in those in which the film is removed from the camera after exposure and in is developed photographically in separate devices, but also in so-called Instant cameras, i.e. cameras that use recording media in which the Process of imaging development already in the camera and immediately in the beginning conclusion of the image acquisition. Likewise, as use of the fiction method called the use of electrically switchable cells in cameras, the Use semiconductor detectors as the recording medium, preferably those with a flat array of detectors whose signals are read out electrically and stored in another storage medium in analog or digital form become. The most important representative of such cameras today are usually as CCD cameras designated devices.

Show it

Fig. 1 relationship between the electrical control signal and the optical density of the cell.

Fig. 2 image recording device with electrical exposure control by an EC cell.

Fig. 3 experimental setup for electrical control of the exposure amount with an EC cell and for measuring the color neutrality of the exposure.

A typical EC cell optimized for the task according to the invention has the course of the relationship between the electrical control signal and the optical density of the cell, as outlined in FIG. 1: after a certain threshold voltage U _S has been exceeded, the light attenuation increases continuously. This means that the light attenuation of the EC cell can be adjusted continuously and uniformly using the electrical control signal.

An example of an image recording device according to the invention is outlined in FIG. 2:

The motif ( 1 ) selected by the user is to be recorded by the still camera ( 2 ) on the recording medium ( 8 ). The mechanical shutter ( 3 ) is closed when the camera is at rest. It not only prevents the light-sensitive material ( 8 ) from being pre-exposed, but also protects the electrochromic cell ( 5 ) from the constant exposure to light. The photosensitive exposure sensor ( 6 ) generates an electrical signal that controls the light attenuation of the electrochromic cell ( 5 ) after suitable conditioning in the electrical amplifier ( 7 ). As soon as the mechanical trigger ( 9 ) is actuated, the mechanical shutter opens for a fixed, well-defined time and clears the way for the object to be imaged through the objective ( 4 ) onto the recording medium ( 8 ). Then the closure is closed again light-tight. The signal amplification of the exposure circuit / amplifier / EC cell is selected so that in the working area of the system the amount of light incident on the recording medium is independent of the brightness of the selected object.

An example of a test setup for demonstrating the electrical control of the light attenuation of an EC cell and for measuring its deviation from the color neutrality is sketched in FIG. 3:

The EC cell ( 3.1 ) consists of two 1 mm thick glass plates with a transparent, electrically conductive coating made of indium / tin oxide (ITO). The plates are 200 µm apart. The cavity between the plates is connected to the electrochromic medium methyl viologen with 5,10-dihydro-5,10-dimethylphenazine, which is dissolved in a concentration of 0.02 mol / liter in propylene carbonate, and sealed to the outside. The EC cell has no anti-reflective coating. The EC cell is located on the measuring table of an X-Rite 310 ( 3.3 ) densitometer. The connection contacts of the EC cell ( 3.1 ) are connected to an adjustable DC voltage supply device ( 3.2 ). The status A measuring filter set of the densitometer is used to measure the optical densities of the EC cell for the filters blue, green and red for different voltages on the EC cell. The color density differences | D _blue - D _green | and | D _red -D _green | to quantify the deviation from the color neutrality of the light attenuation.

The following values were measured:

That means the averaged light attenuation over the wavelength range of the view visible light is approximately 0.7. This corresponds to about 2 stops. The deviation the color neutrality is less than 0.2.

Claims (11)

1. Image recording device, characterized in that there is an electrochromic cell between the light inlet opening and the recording medium, the light transmission is electrically controllable and that the light attenuation has a deviation from the color neutrality, which is less than 0.5. 2. Image recorder according to claim 1, characterized in that the electro chrome medium contains at least one pair of redox substances, one of which is right can be induced and the other can be oxidized, with at least one becoming colored. 3. Image recorder according to claim 2, characterized in that

• 1. a.) The reducible substance has at least two chemically reversible reduction waves in the cyclic voltammogram and the oxidizable substance accordingly has at least two chemically reversible oxidation waves, or
• 2. b.) The reducible substance and the oxidizable substance are covalently bonded to one another via a bridge B, or
• 3. c.) Those are selected as reducible and / or oxidizable substance in which the reversible transition between the oxidizable form and the reducible form is associated with the breaking or the formation of a σ bond, or
• 4. d.) The reducible substance and the oxidizable substance are metal salts or metal complexes of those metals which exist in at least two oxidation states, or
• 5. e.) The reducible and / or oxidizable substance are oligomers and polymers which contain at least one of the redox systems mentioned, but also pairs of such redox systems as defined under a) to d), or
• 6. f.) Mixtures of the substances described in a) to e) are used as the reducible and / or oxidizable substance, provided that these mixtures contain at least one reducible and at least one oxidizable redox system.

4. Image recorder according to one of claims 1 to 3, characterized by a Anti-reflective coating on at least one of the two cell surfaces of the EC Cell. 5. Image recorder according to one of claims 1 to 4, characterized in that the electrical signal to control the electrochromic cell from one Exposure sensor is generated. 6. Image recording device according to one of claims 1 to 5, characterized in that as a recording medium a silver halide based photographi shear film is used. 7. Image recording device according to one of claims 1 to 6, characterized in that as a recording medium a one or two-dimensional array of semiconductors detectors is used.   8. Image recording device according to one of claims 1 to 7, characterized in that to set the exposure time a shutter with a fixed effective opening time is used. 9. Image recording device according to one of claims 1 to 8, characterized in that that a camera is used as the image recording device in which an exchange film is not possible. 10. Image recording device according to one of claims 1 to 9, characterized in that the light attenuation has a deviation from the color neutrality that the Amounts less than 0.2. 11. Method of controlling in an image recorder when taking a picture exposure quantity incident on the recording medium, characterized in that that between the light entry opening of the image recorder and the on drawing medium an electrochromic cell is attached, the light through is electrically controllable and that the light attenuation is a deviation from the color neutrality, the amount of which is less than 0.5.