DE1622193C3 - Device for electronic exposure time control - Google Patents

Description

3 4

light-sensitive input of the control circuit, exposure time is decisive factors. The influencing of large exposure time range is achieved. Influence of the timing electronics now happens. The invention is explained in more detail below on the basis of an in contrast to known devices in which the exemplary embodiment is explained in more detail. the photoresistor of the natural object-A balanced alternating voltage source 1 5 brightness is illuminated in such a way that the photo feed on the one hand one of two photoresistors 2.3 resistor 12 is illuminated by the incandescent lamp 11 and a resistance attenuator 4 with loga. If the photoresistor 12 has a slope of 1, rithmic damping curve, existing bridges - its resistance value is reduced when it is connected. The tapping of the resistance attenuation doubling of the lamp brightness not only by the link 4 is a factor of 0.7 with the adjustment handles of the camera, but by a factor of 0.5. This is used to couple the aperture and film sensitivity. The condenser photoresistor 2 located in the timing electronics is charged twice as quickly via a generator 14 (not shown). The exposure mirror of the camera is illuminated by the light of the recording time in the desired form precisely around the beam path. On the other hand, it feeds inversely proportional to the object light. AC voltage source 1 works as a discriminator. 15 In cameras with a spring shutter and / or a rotating diodes 5, 6. Between the interconnection of the photoresistor 2 illuminating swivel of the latter and the photoresistors 3, 4, a mirror occurs when the shutter is activated by the AC amplifier 7. A known setting movement of the aperture or the switch 8 pivoting movement of the mirror, which can be actuated by the camera release, results in a strong reduction in a capacitor 9 with a large capacity and a change in the lighting of the photoresistor 2 DC amplifier 10 with a high input resistance. As a result of the existing rule with the previously described circuit in a circle, this would immediately affect the lamp brightness and thus be linked. The output voltage of the amplifier 10 affect the exposure time formation. In order to avoid this as a supply voltage for one in its brightness, must be stored for the duration of the exposure-controllable incandescent lamp 11, whose luminous flux on the one hand 25 phase the before actuation of the shutter 3 lamp brightness regulated by the reaction on the photoresistor. For this purpose the control loop for the brightness control is closed for example by the initial movement light bulb. At the same time, the glow of the lamp 11 swiveled out in front of the shutter opening is open as a source of illumination for a photo mirror of the switch 8 and thus the resistor 12 of an electronic timer 13 is separated into the control circuit. The control of a shutter (not shown) from the mirror when swiveling out is formed as a result of a reduction in the lighting. A capacitor is denoted by 14, which detuning setting the photoresistor 2 is charged via the photoresistor 12. the bridge equilibrium cannot change. The mode of operation is as follows: have more of an effect on the brightness of the incandescent lamp. After the control circuit was put into operation, the control circuit has settled in about 80 ms despite the disconnection of the one that feeds the incandescent lamp. If one proceeds from the control loop, the brightness of the control loop can change from the beginning of this steady state of the control loop of the mirror movement to the end of the exposure, in which the switch 8 is closed, and cannot change, since the high input resistance now increases the object luminance, for example of the DC amplifier 10 with the condensation, the photoresistor 2 becomes lower. As a result, an RC element with a large capacity is detuned and it is created at the on-time constant. Due to the slow output of the amplifier 7, an alternating voltage, the discharging capacitor 9, the supply voltage remains amplified and the incandescent lamp 11 is rectified by the diodes 5, 6 in a phase-related manner for the designated time period. At the input of the direct current constant and thus the lamp brightness is saved. Amplifier thus occurs a z. B. positive voltage 45 The photoresistor of the timing electronics remains on, which causes the brightness of the incandescent so from the pivoting movement of the camera lamp 11 increases. As a result of the optical rear-view mirror, unaffected, so that the incandescent lamps are coupled to the photoresistor corresponding to the object brightness, the latter is also illuminated more intensely.

and therefore decreased in its resistance value. 50 Provided that a

This reduction in resistance is dependent on the optical coupling between the incandescent lamp 11 and

Degree of change in object luminance. If the photo resistance 2 is possible, the photo

this z. B. doubled, the value of the photo resistor 3 drops. In place of the latter will be

Resistance 2 by a factor of 0.7. Since the photo- a fixed resistor is used, and its value is so

resistors 2, 3 have the same steepness 0.5, 55 selects that with correctly set reference values

the exposure values acting on the photoresistor 3 and exposure values must increase an incorrect exposure by plus

Also double the illuminance so that one step would take place when the bridge is adjusted

Bridge equilibrium except for the rule that prevails. The exposure time would be in this case

The residual error caused by the circuit gain is restored by a factor of 2 too long. If the photoresist

is. From this it follows that with a 60, 2 stood in addition to the object light from

Doubling the object luminance inevitably irradiates the lamp 11 so that the lighting

a doubling of the brightness of the glowing strength doubles on it, so there is openly

lamp 11 occurs and thus an exact replica visibly again bridge equilibrium and the control

the object brightness is available. Since the circuit swings in. So there is also at

Resistance attenuator 4 also the setting 65 of this variant strict proportionality between the

the working aperture as well as the film sensitivity in object luminance and the lamp luminous flux. the the lamp brightness is received, the lamp is also stored in the lamp brightness

brightness a replica of all for the correct this case as described above.

1 sheet of drawings

Claims (5)

ι 2 current is applied. In order to achieve proper exposure, the 1. Device for electronic exposure photoresistor within the short period of time control for cameras with internal measurement and between reaching the working aperture and the association of a photoresistor and a 5 closing opening on the now existing light capacitor set existing ÄC member for Beiich- fluß. A photoresistor is, however, due to its inherent inertia, not in the net that a means of a light-sensitive layer. Similar difficulties arise with cameras and before the start of exposure to the light of the recording, in which the photoresistor is illuminated via a control circuit exposed to the recording beam path io mirror, which is used to carry out the light bulb (11), which is adjustable in its brightness, exposure from the recording beam path on the one hand as a lighting swivel so that the photoresistor is suddenly the source of the photoresistor (12) is completely darkened. Without the special dimension of the aforementioned AC element and, on the other hand, as an option, there would therefore in any case be a positive feedback on the input of the falsification of the exposure times.
Control loop is formed and during the US Pat. No. 3,324,779 it is known exposure phase by means of a memory circuit that is kept constant in brightness on the light-sensitive element, the voltage occurring as the initiation of the exposure in part of the control loop of one of the incandescent lamp to store a capacitor, which is switched to a capacitor (9) of high capacitance at its input and for controlling a timing electronics, which is connected to a capacitor (9) with a high capacity before the amplifier (10) high input start upstream from its charging circuit. forms and which is about a. immediately before This type of storage only allows time control Start of exposure through a moving camera in a too low for high quality cameras link to open switch (8) from the remaining 25 area. Part of the control loop is separable. The object of the invention is to provide a 2. Device according to claim 1, characterized in device for electronic exposure time, that the remaining part of the regulating control for cameras with. Inside measurement too create a circle of one through the object brightness at which the before the shutter release detunable and set by the luminous flux of 30 value of the photoresistor of the time incandescent lamp tunable, alternating voltage generation electronics is stored without it controlled bridge circuit as well as a special mechanideren to be arranged in the camera Diagonal tension increasing amplifiers require / and without ker (7) with inadmissible diodes switched as phase discriminator, especially for short exposure times (5, 6) is formed. 35 time spreads occur. 3. Device according to claim 1, according to the invention this object is achieved characterized in that the input of the control loop is solved that one by means of a light-sensitive and except for actuators for inputting the working light before the exposure begins and film speed of two control loops exposed in the beam path Series connected photoresistors (2, 3) found 40, which on the one hand as a source of illumination for the is formed, one of which is photoresistor of said /? C element and before exposure begins the light of the recording beam path and on the other hand as optical feedback on the the other of which is designed and selected from the light of the incandescent lamp input of the control circuit is. end of the exposure phase by means of a storage 4. Device according to claim 1, characterized in that 45 circuit is kept constant in its brightness, characterized in that the input of the control loop is used as part of the control loop of one of the glowing vents a series connection of a fixed resistor lamp upstream amplifier high input with a photoresistor is formed, with resistor and one lying at its input the latter is formed both by the light of the recording capacitor and the high capacitance beam path as well as the light of the incandescent lamp 5 ° through a directly before the start of exposure is exposed. a moving camera member to open switch from 5. Device according to claims 3 and 4, · the remaining part of the control loop can be separated. characterized in that the photoresistors (2, 3) located in the input of the designated remaining part of the control loop have a slope γ = 0.5 and the photoresist 55 and the luminous flux of the lamp can be adjusted by the brightness of the object (12) has the steepness of the bridge circuit as well as one whose diagonal y = 1 for time formation. voltage-increasing amplifier formed with diodes connected as a phase discriminator. The input of the control loop is preferred ⁶⁰ of two photoresistors connected in series The invention relates to a device for formed, one of which before the start of exposure Electronic exposure time control in for interior light of the exposure beam path and its measurement suitable photographic cameras. which is exposed to the light of the incandescent lamp. · This In cameras of the type mentioned result that extent photoresistors preferably of the ball remote difficulties, γ than the light of the up γ ⁶ 5 standardized = 0.5 during the photoresist to the acquisition beam path illuminated photoresistor time formation of the slope = 1 comprises,
when using a spring diaphragm with the aid of the optical feedback of the light source, which is suddenly controlled by the closing process, with a lower light - the memory signal is directed to the