DE1572665C - Circuit arrangement for electronic light meters or controllers - Google Patents

Description

The invention relates to a circuit arrangement for electronic light meters or -controller that uses an input circuit such as that used for an electronically controlled one Camera shutter already 'in the German patent 522 084.

The hallmark of this arrangement is that one voltage source has two from an internal light source illuminated photoresistors are in series, is that one of the photoresistors in addition for pre-exposure by the internal light source applied to light of the subject will.

The advantages of such an input circuit consist of dal? the actual measurement photoresist works at a height of 1 ichiegel, whereby its indolence dependent on tier BeleudiUiiitissiüike considerably \ erininik-it vviid. There is also another, that through the · / iis; it / l'L-U-iichtuii !; ilas Veiliältnis der Illuminance caused by two objects of different brightness on the photoresistor will be reduced in size. This also reduces the influence of the photoresistors "Light memory" greatly reduced. Furthermore, by using two photoresistors ensures that changes in the brightness of the photoresistors continuously illuminate The lamp or changes in the voltage applied to this lamp do not affect the measurement result.

The present additional application is based on the object to provide a circuit arrangement according to German patent 1 522 084 so that it can also be used in an electronic light meter or with an exposure regulator that regulates not the exposure time but the aperture can be used. This object is characterized in that of claims 1 or 2 Way solved.

An exemplary embodiment of an electronic balancing exposure meter is shown in FIG. 1 shown. A series circuit is connected to the battery 1 and the switch 2 in series with it, which consists of the two photoresistors 3 and 4. The lamp is still in the battery circuit 5, which continuously illuminates the two photoresistors 3 and 4 when switch 2 is closed. the Photo resistor 3 is also exposed to the light emanating from the subject, after this has passed a variable light attenuation means, for example a diaphragm 6.

The two photoresistors 3 and 4 are followed by a preamplifier that consists of the resistor 7, the transistor 8 and the resistors 9 and 10 consists. At the collector of transistor 8 are Connected via the resistors 11 and 12, the transistors 13 and 14, the transistor 14 opposite the transistor 13 has a reverse conductivity. In the collector circuits of these transistors are the indicator lights 15 and 16. Each of these lights is to limit the voltage of a voltage-dependent resistor 17 or 18 bridged. The resistors 19 and 20 are used for Matching the lights to one another. The two resistors are parallel to the photoresistor 4 21 and 22, one of which is connected by means of switch 23.

This arrangement now works as follows: After pressing switch 2, it burns Light 5 and continuously illuminates the two photoresistors 3 and 4. The photoresistor 3 is also illuminated through the diaphragm 6 by the light coming from the subject. The potential between the two photoresistors 3 and 4, which depends on the Strength of the lighting of the photoresistor 3 originating from the subject fluctuates, controls the transistor 8, which in turn controls the transistors 13 and 14. As these two transistors have an inverse conductivity to each other, when the illuminance changes the photoresistor 3, one of the two lamps 15 or 16 light up brighter, the other on the other hand get darker. Only burn with a very specific illuminance on the photo resistor 3 both lamps are equally bright. This state is regulated with the aid of the light attenuating means 6.

The actuator of this light attenuation device is in the case of a light meter coupled with an evaluation means, for example a computing ring, in the case of an exposure regulator on the other hand with the setting means of the camera.

The transition to a second measuring range can be made by using the switch 23 of the Resistor 21 is turned off and resistor 22 is turned on. Simultaneously with this, the filter also becomes 24 pushed in front of the photoresistor 4. This shifts the operating point of the arrangement; the indicator lamps 15 and 16 now burn at a different illuminance on the photoresistor 3 equally bright.

An embodiment corresponding to claim 2 is shown in FIG. 2 shown. Here, too, exists the input circuit in turn from the battery 1, the switch 2, the two photoresistors 3 and 4, the illumination lamp 5 and the variable light attenuating means 6. In this case, the The voltage divider formed from the photoresistors 3 and 4 is followed by a differential amplifier. For this purpose, the voltage divider is at the base of the transistor 25, while a second transistor 26 with its Base is connected to a voltage divider formed from the resistors 27 and 28, the in turn is due to the battery 1. The two emitters of transistors 25 and 26 are across the resistor 29 connected to the negative pole of the battery, while the collectors each have a resistor 30 or 31 are connected to the positive terminal of the battery. Between the collector of transistor 25 and the associated resistor 30 on the one hand and between the collector of the transistor 26 and the associated resistor 31, on the other hand, is a zero instrument 32. The resistor 33 is used for adjustment the characteristic of the photoresistor 4 to that of the photoresistor 3.

The input circuit already described in its mode of operation controls the transistor 25 while the transistor 26 is controlled by the voltage divider formed from the resistors 27 and 28. Ever according to the illuminance influenced by the exposure light on the photoresistor 3 a current flowing through the null instrument 32 in one direction or the other. Set or is adjusted to zero current flow by changing the light attenuator 6 changes the illuminance on the photoresistor 3. In this case too, the light attenuating agent is used coupled with the evaluation and / or setting means for the camera.

1 sheet of drawings

Claims (3)

Patent claims: 1. Circuit arrangement for electronic exposure meters or controllers, with an input circuit according to the German patent 1 522 084, characterized in that that the voltage divider (3, 4) is followed by a two-stage transistor amplifier, in which One indicator lamp each (15, ίο 16) is that in front of the light inlet opening of the photoresistor exposed to the receiving light (3) a variable light attenuation device (6) is attached and that the actuating means for this light attenuation device (6) in the case of a light meter with an evaluation means, for example a computing ring, is coupled, in the case of an exposure regulator on the other hand with the setting means of the camera. 2. Circuit arrangement for electronic light meters or controllers, with an input circuit according to the German patent 1 522 084, characterized in that the Voltage divider (3,4) a transistor differential amplifier (25, 26) is connected downstream between whose collector outputs a zero instrument (32) is that in front of the light inlet opening of the the photoresistor (3) exposed to the recording light a variable light attenuation device (6) is attached and that the actuating means for this light attenuation device (6) in the case of a light meter with an evaluation means, for example a computing ring, is coupled, in the case of a Beiichtung controller, however, with the setting means of Camera. 3. Circuit arrangement according to claim 1 or 2, characterized in that to change the Two resistors (21, 22) lying parallel to the photoresistor (4) are provided in the measuring range are, of which one is coupled with a light attenuation filter (24) to the photoresistor (4) is connected in parallel. 45