DE2942889C2 - Circuit arrangement for photographic cameras - Google Patents

Description

The invention relates to a circuit arrangement for photographic cameras according to the preamble of the patent claim, see DE-OS 27 07 430.

From this it is known for exposure control and display functions to use a common photo receiver, which is classified in a current mirror circuit is, which is connected to several switching stages for light control and display. at The input of the film sensitivity as well as the compensation of larger tolerances takes place in these facilities of the photo receiver by including further transistors in the measuring circuit.

The invention aims to improve devices of this type.

The object of the invention is to create a circuit arrangement with one for control and display functions common, not toggled photo receiver, which on the one hand a higher accuracy, especially in the area of low object luminance, lower voltage and temperature dependency as well a simple input of film speeds and correction values to compensate for photoreceiver tolerances guaranteed.

In a circuit arrangement with a photo receiver in the input of a current mirror circuit, the existing object is achieved according to the invention in that an operational amplifier is provided on which non-inverting input the connection point of a series connection of the photo receiver with the input transistor the current mirror circuit and at its inverting input the tap of one with one Film speed controller coupled adjustment regulator is connected, which is connected to the operating voltage is, and that the output of the operational amplifier is fed back to the base of the input transistor, wherein the feedback current into said switching stages electrical signal to be mirrored forms. h5

The invention is based on an exemplary embodiment explained below.

According to the circuit diagram shown are in parallel with

an operating voltage source 1, a setting regulator 2 and the series connection of a photoresistor 3 with connected to a transistor 4 The tap of the setting regulator 2 is connected to the inverting input (-) Differential amplifier 5 connected, at its non-inverting input (+) the connection point is the The output of the differential amplifier 5 is connected to the base of the transistor 4 is fed back 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 a threshold switch 9 for exposure time control and threshold switches 10 and U with light-emitting diodes 12, 13 for displaying exposure limit values. With 14 is a time-forming capacitor, with 15 a switch that can be operated with a lock and with 16 a holding magnet designated

The mode of action is as follows:

According to the sensitivity of the film in the camera lie! at the tap of the setting regulator 2 and thus at the input of the differential amplifier 5 a fraction of the operating voltage LJ ₈

W = a, - U ₈

The differential amplifier 5 controls the transistor 4, which acts as a current source for the photoresistor, so that the voltage U ₂ at the photoresistor 3 is equal to the partial voltage U \ . The current through the photo resistor thus has the value

The current occurring at the output of the differential amplifier is fed to the bases of all transistors 4, 6, 7, 8 imprinted. Via the common base-emitter voltage of all transistors, their collector currents are intentionally controlled in equal proportion to one another. The ratio of the individual collector currents is determined by the technological structure of the transistors and the requirements of the Circuit adapted.

After opening the switch 15, the timing capacitor 14 until the switching voltage is reached (at the threshold switch 9 charged:

■■ H

■ df.

If the threshold voltage Us is a multiple of the operating voltage Ub

Us ^ a ₂ - Ub,
so the exposure time follows the relationship

(with constant object luminance)

The exposure time is therefore independent of the operating voltage U / 1.

As described above, the threshold switches IO and 11 are controlled by means of the same Photo resistor 5. To indicate whether the exposure time to be expected is above or below a certain

Limit value is, the light emitting diodes 12,13 over «, 'Ie the threshold switch is switched on

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

Instead of the in the example! photoresistor used, a photo element can also be used, which must then be connected between the two inputs of the differential amplifier 5.

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Claims (1)

Claim: Circuit arrangement for photographic cameras with a photo receiver in the input of a current mirror circuit, whose input transistor has a feedback between base and collector and their output is formed by a plurality of transistors with the same electrical data each with a switching stage for exposure control and exposure display is arranged downstream, characterized in that an operational amplifier (5) is provided, at whose non-inverting input the connection point of a Series connection of the photo receiver (3) with the input transistor (4) of the current mirror circuit and at its inverting input the tap of a coupled to a film sensitivity divider Adjustment regulator (2), which is connected to the operating voltage, and that the output of the operational amplifier is fed back to the base of the input transistor. where the Feedback current forms a signal to be mirrored electrically in said switching stages (9, 10, U) 25th