DE3436943A1 - Exposure measuring circuit - Google Patents

Abstract

The aim and object of the invention is to improve the yield of correctly exposed photographs despite periodic changes in subject brightness during the exposure measurement phase and despite the application of a non-lagging photoreceiver by means of a circuit which is provided with an integrating unit and which makes said changes in brightness known on a warning display or automatically takes them into account when calculating the exposure parameters. The existing object is achieved when the time constant of the integrating unit can be varied in proportion to an exposure time formed in the exposure control circuit and a non-integrated alternating signal component is fed to a warning display in the case of automatic cameras or to a shutter control unit in the case of programmed cameras. <IMAGE>

Description

Beliohtunsmeßschaltun

The invention relates to an exposure metering circuit for photographic Cameras.

There are circuit arrangements for measuring exposure in photographic cameras used with photo receivers that respond to periodic object luminance changes react almost inertially. Accordingly, one would with exposure conditions of this type also a rapidly changing exposure display and exposure time formation obtain.

About the annoying character that occurs particularly with digit advertisements To fix such displays, circuit arrangements were known in which the digital light measurement information only at certain time intervals or only in Dependence on the achievement of certain limit values of the object luminance change is shown again in the display unit. (DS-OS 24 35 903, 25 39 428, DD-PS 139 039).

The disadvantage of the known circuit arrangements is the mismatch between Xeß and exposure process as well as in the missing information about it.

The invention aims to improve the yield of properly exposed photographic images Recordings despite periodic object luminance changes during the exposure measurement phase, as they occur, for example, in the photography of television images, are increased.

The object of the invention is to design a light metering circuit, in which an integrating unit is used, which is in the signal path between an input amplifier connected to an inertia-free potentiometer and an exposure control circuit is inserted and which incorrect exposure possibilities, the through during the Periodic obåect luminance changes occurring in the measurement phase can occur, indicates in a warning display or when calculating the Exposure parameters taken into account automatically.

According to the invention, this object is achieved in that the time constant of the integrating unit in proportion to one formed in the exposure control circuit Exposure time is variable and a non-integrated alternating signal component with automatic cameras a warning display or with program cameras a shutter eu unit supplied winch The invention is based on the illustrated embodiments explained below. They show: FIG. 1 an analog measuring circuit with an adjustable low-pass filter as integrating unit Fig. 2 measuring circuit with digital integrating unit Fig. 3 display with luminous effects to identify correct or incorrect exposure to be expected.

According to Fig. 1 is an amplifier 1 with a photodiode 2 and a Logarithmic diode 3 wired in a known manner. In the signal path from the amplifier 1 to an exposure control circuit containing a computing and storage circuit 4 is designed as a low-pass filter integration unit 5 with a variable cutoff frequency or time constant switched, which consists of a capacitor 6 and a field effect transistor 7 consists. The exposure control circuit is on the integrating unit 5 via a Digital / analog converter 8 fed back. With 9 an exposure display is in the form of an LED display denotes q In the circuit according to FIG. 2, an analog / digital converter, consisting of an amplifier 10, a frequency generator 11 a gate circuit 12 and a feedback circuit 13, a prescaler 14 and a Counter 15 with an exposure control circuit 16 including the exposure display 9 downstream. The exposure control circuit 16 is on the one hand on the distributor 14 and on the other hand fed back to the counter 15 via a clock generator 17.

The mode of operation of the exposure circuit according to Fig. 1 is as follows: Light falling on the photo receiver 2 is processed in the logarithmic circuit 1, 3. With periodic change in luminance, as it is, for. B. in photography one TV picture takes place at 50 Hz, a signal occurs at the output of amplifier 1, which consists of a constant light component and an alternating light component. The output signal passes into the integrating unit 5, which is designed as a low-pass filter, and then into the exposure control circuit 16, in which the exposure time is determined. Depending on this exposure time is via the D / A converter 8 of the effective as a variable resistance field transistor 7 controlled and thus the cut-off frequency or

the integration time of the integrating unit 5 is set.

Provided that the measurement is repeated over and over again and the exposure time is calculated, the first reading is in interest a short settling time of the circuit always with a high cut-off frequency of the Low pass determined. Was by the exposure control circuit at a 50 Hz luminance change z. If, for example, an exposure time of t3 = 1/125 sec is calculated, this corresponds to this time a fraction of the period of the alternating light component. Depending on the random measurement time and the amplitude of the alternating light component determines the exposure control circuit constantly changing exposure time. The occurrence of different exposure times in the display 9 in the form of several active fourth lighting elements, See Fig. 3b, signals the presence of interfering light and thus the operator the risk of incorrect exposure. The shutter of the camera must then be closed so that a longer exposure time is formed. Depending on it, will be due the feedback between the exposure control circuit and the integration unit the cutoff frequency of the low-pass filter changed and now as a result of the at its output static measuring signal in the display 9 only one of the LEDs is activated, see Fig. 3a.

In the circuit according to FIG. 2, a digital output occurs at the output of gate 12 The measurement signal is fed to the exposure control circuit 16 via the counter 15 will. With the same result as described above, the division ratio becomes of the prescaler as well as the clock time of the counter 15 via the clock generator 17 changed by the exposure time determined in the exposure control circuit.

Find the two circuits in a program camera application, then the signal resulting from the alternating light component is preferred for adjustment large aperture values used.

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Claims (3)

Claims 1. Exposure measuring circuit for photographic cameras, in which for the evaluation of object luminance changes during the measurement phase between an input amplifier connected to an inertia 5-free photo receiver and an exposure control circuit is connected to an integrating unit, thereby characterized in that the time constant of the integrating unit is proportional to an in the exposure control circuit (16) formed exposure time is variable and a non-integrated alternating signal component of a warning display in automatic cameras or, in the case of program cameras, is fed to an aperture control unit. 2. Exposure metering circuit according to claim 1, characterized in that that the integrating unit is a low-pass filter (6.7), the variable resistance of which is preferably formed by a field effect transistor (7). 3. Exposure measuring circuit according to claim 1, characterized in that that in the signal path leading to a digital measurement signal to the exposure control circuit a prescaler (14) and a counter (15) is connected, the divider ratio of which or its cycle time from the computing circuit corresponding to that formed in the latter Exposure time is changed.