DD157736A1 - EXPOSURE CONTROL SYSTEM - Google Patents

Abstract

The invention relates to an exposure control system for photographic cameras with computer flash technology. The invention has for its object and object to simplify photographic images at all occurring Objektleuchtdichten with an exposure control system, which extends the work area provided with a computer and control seal camera significantly. According to the invention, the arithmetic and control circuit connected in a known manner on the one hand with a shutter and shutter control u.andererseits with a Computerblitzgeraet at the same time as selbsttaetiger flash program selector for exclusive flash control, common flash and iris control and shutter and shutter speed control without flash operation is formed ,

Description

VEB PENTACOH DRESDEN Dresden, 20.03.1981

Komera and Klnowerko

) Title of the Invention · Exposure Control System Application of the Invention

The invention relates to an exposure control system for photographic cameras with computer flash technology.

Characteristic of the known technical solutions

Photographs are taken at a wide range of object luminance densities. Thus, it is known to illuminate very dark objects with attachable or built into the camera flash units of variable flash duration (s.B.DE ~ OS 2824904 ·). For objects with a large luminance difference between foreground and background, daylight shots with flash brightening take place (e.g., DE-AS 2123004). With uniformly high levels of object luminance, one finally takes place. 15 usual daylight shot. '

The device for carrying out the first-mentioned recording technology requires additional manual settings on the flash unit and the invention for carrying out mixed-light shots requires a special lens whose diaphragm setting ring

equipped with a voltage divider for transmitting the preset aperture in the computer flash device is β

Aim of the invention .

With the invention, photographic recordings are to be simplified or improved at all object luminance levels both by the operator as well as by the device-side effort. " ·. ,

The invention has for its object to provide an automated exposure control system with a computing and control circuit, which extends the working range of the camera significantly and simultaneously the. B3; end adjustment error of an objective compensated.

According to the invention this object is achieved in _that} in a known manner on the one hand with an aperture and comparison

, On the other hand, with the computer flashgun connected computing and control circuit at the same time as an automatic flash program selector for exclusive Bl it ζ control, for Blit.z ~ and iris control and Blenden ™ and shutter speed control without flash operation is formed

The invention will be explained in more detail with reference to an embodiment example.

• ·. Fig. 1 block diagram.

Pig «2 Graphical representation of the flash program setting. Fig. 3 underexposure adjustment as a function of shooting distance

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According to FIG. 1, a lens diaphragm 1 is followed by a photoreceiver 2, which is connected in known manner to a logarithmic amplifier 3. The output of the latter is connected, on the one hand, to a computing and control circuit, in which electrical signals from a film sensitivity controller $ 5 to a D / A converter 6 for the identification of the lens aperture range and one, manually or automatically at speed Camera actuable flash time adjuster 7 be fed. The control circuit 4 is connected to a shutter control magnet 8, a shutter control magnet 9 »visible in the camera viewfinder display device 10 and a computer flash device 11 and provided with a detection circuit for output from the amplifier 3 signal quantities. The outputs of the detection circuit are in communication with the control circuits for the -described magnets. At the output of the amplifier 3, on the other hand, a diaphragm detection circuit 12, consisting of a switch 13 and a capacitor 14, and a summing circuit 15, consisting of resistors 16, 17 and an operational amplifier 18 whose output is guided to the computer flash unit 11 , Filmempfindlichkeit ssteller 5 j D / A converter 6 and a distance adjuster 19 are connected to the non-inverting input of the operational amplifier 18.

The mode of action is the following

Depending on the luminance of the object and the aperture of the objective, an illuminance is applied to the photoreceiver 2 which generates at the output of the logarithm amplifier 3 a voltage .UA 1 which is proportional to the subthreshold e 'BV minus the aperture value AVo.

U _A1 ~ BV - AVo

87

At very low levels of object luminance, E ^ -E ^, a shutter control of the camera by measuring the luminous flux through the lens is not possible or associated with too large errors. This brightness state is analyzed by the detection circuit in the computing and control circuit in such a way that the .'lichtabhängige. Shutter and shutter speed control circuit is deactivated and the lens aperture value to the computer flash device i1 ^; With open aperture OB or, a manually preset aperture 1 and a shutter speed specified by flash timer 7, z "Be '/ 125ss, the illumination duration of the flash unit is adjusted by means of a second photoreceiver (not shown in FIG ) controlled. Up to the object luminance E2 the film exposure thus takes place only by a flash duration control «

In the area of medium object luminous en, eliminates the deactivation of the aperture control circuit by said detection circuit. Depending on AEE * ¹ voltage Uj ^ i ₅ the aperture area and the PiImempfindlichkeit is the required value of the shutter 1 calculated at still deactivated, exposure time automatic and predetermined by the flash times adjuster 7 shutter speed so _$ that without computer Republic underexposure of one to two exposure levels would occur. At the same time, the capacitor 14 is charged to the voltage .U 1 via the switch 13. This capacitor forms the reference voltage of the operational amplifier 18. Depending on the film sensitivity and the open diaphragm, currents are generated

Ji - SV

fed to the operational amplifier 18 * at the output of the first arises · a corresponding voltage

ÜA2 ~ R!

2870

When Eamera tripping the switch 13 is opened and formed as a result of the coincidence of the lens aperture 1, a differential voltage U ₀ , which is a measure of the closed aperture stages. This'differential voltagewifd' is converted into the current Jo via the resistor and supplied to the operational amplifier 18 together with the currents j'i and J2.

₌ BV - AVo - (BV - AVo - AV) = AM

a a

_T ; - = AM

? a R ₀ j a. ~ Constant

The now occurring output voltage U ^ 'follows the relationship

f - R. (SV + AVo) + R_ .AAV - a. R2 aR ₂

= c (SV + AVo + AAV). = c (SV + AV)

and is a measure of pirk sensitivity, open aperture and controlled iris levels. This voltage, taking into account any aperture setting error, is reported to the computer flash 11 ", possibly together with the signal emitted by the second photoreceiver, due to the reflected flash, allowing flash exposure control which sets the underexposure set via the lens shutter In the aforementioned brightness range, therefore, a control of flash duration and aperture takes place.

The described underexposure adjustment A AV is controlled as a function of the set distance so that the flash energy is sufficiently high, the imagining

to compensate for underexposure, that is, the under exposure setting decreases with distance, s. Figure 3.

In the case of object luminance, E> B / t, where even "over-exposure is to be expected for a small diaphragm KB5, the recognition circuit switches · the flash mode off" Instead, after the automatic diaphragm setting on the smallest diaphragm, activation of the exposure time auto-logic and thus shortening of the until An overall overview of the flash program setting according to the invention is given by Pig, 2,

Deviations from the illustrated embodiment are possible5 without departing from the scope of the invention. So z; B. instead of the electromagnetically controlled mechanical diaphragm 1, a liquid crystal diaphragm can be used ».

Claims (2)

Inventions addressed 1. Exposure control system for photographic cameras with a computing and control circuit for determining the necessary values of the aperture size and exposure time and a computer flash device whose flash duration as a function of the reflected light of the receiving object so, ie ⁷ er.an adjusted to the camera exposure parameters, characterized in that the computing and control circuit connected in known manner on the one hand with an aperture and shutter control device and on the other hand with the computer flash device simultaneously as an automatic flash program selector for exclusive flash control, for common flash and iris control and for shutter and shutter speed control without flash operation is trained. 2. Exposure control system according to item 1, characterized in that the arithmetic and control circuit includes a Erkeiinungsschaltung for signal quantities dissipated by the Lichtmeßkreis whose outputs are connected to the only activated from certain signal levels control circuits for lens aperture and exposure time. For this purpose, drawings are if IV? *