DE2942889A1 - Automatic exposure control for camera - achieves constant response by operational or differential amplifier - Google Patents

Abstract

An automatic exposure control for a camera has a differential or operational amplifier with one input from the film speed sensor and the other from the photocell. The output is fed back to a transistorised control with switching circuits for the exposure settings. The system uses switching circuits with constant threshold voltages so that a constant response is obtained over a wide range of conditions. The exposure settings are also independent of the supply voltage for the switching circuits. An adjustable control (2) and a series connection of a photo-resistor (3) and transistor (4) are switched in parallel to the power source (1). The tap of the control (2) is connected to the inverted input of a differential amplifier (5). The latter's output is fed back to the transistor's (4) base.

Description

Circuit arrangement for photographic cameras

The invention relates to a circuit arrangement for photographic Cameras for exposure control and display of exposure limit values or of Expected exposure values, It is known for exposure control and display functions to use a common photo receiver, which is in a current mirror circuit is classified, the one with several switching stages for exposure control and display communicates.

The film speed is entered for these devices as well as the compensation of larger tolerances of the photo recipient through inclusion further transistors in the measuring circuit (WP 128 142).

The invention aims to improve devices of this type The object of the invention is to create a circuit arrangement with a for Control and display functions common, non-switchable photo receiver, which on the one hand a higher accuracy, especially in the area of low object luminance, less voltage and temperature dependency and easy entry of Film sensitivities and correction values to compensate for photoreceiver tolerances guaranteed According to the invention, this object is achieved by that a differential or operational amplifier is used at its inverting Input the tap of a setting regulator coupled to the film speed controller and at its non-inverting input the connection point of the series circuit of the photo receiver is connected to a transistor that the output of the amplifier is fed back to the base of said transistor and the base and emitter of the the latter in a manner known per se with the same electrodes of other transistors, those in inputs of switching stages for exposure control and exposure display lie, are connected. Said switching stages have constant Schwellspazwilngen on> so that the exposure time to be controlled and the display values are independent of the operating voltage.

The invention is explained below using an exemplary embodiment explained0 According to the circuit diagram shown, there are parallel to an operating voltage source 1 a setting regulator 2 as well as the series connection of a photoresistor 3 with a Transistor 4 switched. The tap of the setting controller 2 is with the inverting Input (-) of a differential amplifier 5 connected to its non-inverting Input (+) is the connection point of the designated series circuit. Of the The output of the differential amplifier 5 is fed back to the base of the transistor 4 and the base and emitter of the latter are connected to the same electrodes of other transistors 6, 7, and 8 connected. The latter are in the input of each threshold switch 9 for exposure time control and threshold switches 10 and 11 with light emitting diodes 12, 13 for displaying exposure limit values.

With 14 is a timing capacitor, with 15 a shutter-actuatable Switch and 16 denotes a holding magnet.

The mode of operation is as follows: According to the sensitivity of the film in the camera, a fraction of the operating voltage UB U1 = a1 U3 is applied to the tap of the setting regulator 2 and thus to the input of the differential amplifier 5 eo that the voltage U2 at the photoresistor 3 is equal to the partial voltage U1. The current through the photo resistor has the value The current occurring at the output of the differential amplifier is impressed on the bases of all transistors 4, 6, 7, 8. Using the common base-emitter voltage of all transistors, their collector currents can be controlled in an intended manner in the same ratio to one another. The ratio of the individual collector currents is determined by the technological structure of the transistors and adapted to the requirements of the circuit.

After opening the switch 15, the timing capacitor 14 is charged until the switching voltage U5 of the threshold switch 9 is reached: If the threshold voltage U5 is a multiple of the operating voltage UB U5 = a2 UB, the exposure time follows the relationship t = a2. C. RPh. (with constant object luminance) The exposure time is therefore independent of the operating voltage UB.

As described above, the threshold value switches are activated 10 and 11 by means of the same photoresistor 5. To indicate whether the expected Exposure time is above or below a certain limit value, the light emitting diodes 12, 13 switched on via the threshold value switch.

The setting regulator 2 can also be used to correct tolerances of the photo receiver 3 can be used.

Instead of the photo resistor used in the exemplary embodiment is a photo element can also be used, which is then placed between the two inputs of the differential amplifier 5 must be switched.

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Claims (4)

Claims switching arrangement for photographic cameras with a Common photo receiver for exposure control and display of exposure limit values or of expected exposure values, characterized in that a difference or operational amplifier (5) is used at its inverting input the tap of a setting regulator coupled with the film speed controller (2) and at its non-inverting input the connection point of the series circuit of the photo receiver (3) is connected to a transistor (4) that the output of the amplifier is fed back to the base of said transistor and base and emitter of the latter in a manner known per se with the same electrodes further tranaistors (6, 7, 8), which are in inputs of switching stages (9, 10, 11) for Exposure control and exposure display lie, are connected. 2. Circuit arrangement according to claim 1, characterized in that the switching stages have constant threshold voltages. 30 circuit arrangement according to claim 1, characterized in that the photo receiver is formed by a photo resistor with a slope of 1. 4. Circuit arrangement according to claim 1, characterized in that the photoreceiver of a closed between the inputs of the amplifier Photo element is formed.