DE1522094C - Photosensitive resistor for a camera with automatic exposure control and with a shutter - Google Patents

Description

1 2

The invention relates to a photosensitive element according to Frg. 2 on a camera

borrowed resistance for a camera with automatic of the invention,

Exposure control and with shutter, at F i g. 4 the characteristics of the course of the opening

which with decreasing brightness in a first of the shutter in a camera after the

Area both the aperture and the exposure 5 invention,

time can be extended and in a second Fig. 5 a circuit diagram of the control circuit of an area only extended the exposure time camera equipped with the invention.
will. In the case of a shutter, special pre-In photographic cameras are exposed to the exposure, since it only contains a lamellar layer carrier due to the aperture and exposure time, which determines the first area. It is known. Aperture and exposure time can be set separately from each other through only partial opening and immediate. A coupling allows closure of the slats, whereby the Bevon aperture and time setting, z. B. under consideration control by simultaneous change of the view of a selected exposure value, the opening and the exposure time is done, while also already known. Furthermore, in particular a possibly subsequent second one, in connection with an automatic area, the slats completely release the opening exposure control; Constructions known, with and only after the controlled exposure time which aperture and exposure time in association to close again.

For the first area, there is no spring mechanism that can be set in motion either by means of scanning and tracking mechanisms of brightness and resistance value, or by an automatic release corresponding to the shutter-related characteristic, shown by the curve α in Fig. 2. For the second evaluation. In all of these cases, in addition to the range, the slats are now in each case a screen, z. B. an iris diaphragm, fully open in the beam, a different characteristic is required depending on the gear of the lens. 25 curve b required. In this case, from

Also known is a photographic aperture combination, a photo resistor, which corresponds to the curve a-

at which the opening and closing speaks are switched to a photoresist

serving sectors at the same time the function of the stand corresponding to the curve b, so in the two-

Take over aperture blades. The right exposure is only available in the middle front area

in terms of functional mutual interference, the reason for the change in the slat opening time is

flow of aperture and exposure time in such a way that it will hold. '

with increasing exposure values, both the open- If, according to the invention, such a photo

width of the locking sectors as well as their public resistance, which consists of two in series

exposure time as a function of each other reduced switched photosensitive elements with such

will. If there is a functional connection between different characteristics, so will

see opening width and opening time effect the resulting overall characteristics according to the

Means are lever or adjustable crank mechanisms, drawn parts of curves c and d according to

a shutter setting running at each exposure value. The resistances are on

treatment is assigned, d. H. to select a certain opening base of its characteristic curves in such a way that

wide and one through which the functional 40 that the transition from one curve to the other with

related means associated with the change from one area to the other.

opening time. - coincides, d. H. where at the first area

In order to have a camera with a much simpler approach, the full aperture is reached (value A on the

Structure in which there is in particular not the abscissa).

is required in the camera housing mechanical 45 In Fig. 5, the circuit diagram of a means, such as lever or crank mechanism, is shown accommodating control circuit of a camera that is equipped with gene, used according to the invention as a fotoemp- the invention. With E , a resistor that can be identified is one that consists of two power sources, the positive pole of which is connected to the series-connected photosensitive EIe- one end of a photosensitive resistor B with different characteristics, where- 5 ° is connected. Furthermore, this positive pole is chosen so that the characteristics of the direct current source E to the emitter of a Tranerste photosensitive element corresponding to the transistor T ₃ via a resistor A ₁ to the collector requirements of the first area (simultaneous gate of a transistor T ₂ and via a change in aperture and exposure time) a level R _{t connected} to the base of transistor T _{3 has} flatter characteristics than the requirements. The negative pole of the direct current source E is nissen of the second range (change only the loading via a switch S and a capacitor C at light time) corresponding second photosensitive the other end of the photosensitive resistor element, both photosensitive elements. of the ß and to the base of a transistor T ₁ closed together the opening time of the shutter. About the switch S and a redefinition. ■ 60 stand R ₃ is the negative pole of the direct current source E.

The invention is described below with reference to the emitters of the transistors T ₁ and T ₂ and

Drawing described in more detail. It points via an electromagnetic coil M to the collector

F i g. 1 the characteristic of a photosensitive gate of the transistor T _{3 is} connected. The collector

Resistance in a camera of previously known construction of the transistor T ₁ is across a resistor R ₁

art, 65 to the base of transistor T ₂ and via a

F i g. 2 the Ciiarakteristik two different resistors R. with the base of the transistor T ₃ in

photosensitive resistors, connection. If the switch S is closed, then

Fig. 3 shows the interaction of two photosensitive flows from the direct current source E via the photo

sensitive resistor B a current to the capacitor C, wherein the transistors T ₁ and T _{2 form} a Schmitt circuit, so that the transistor T _{1 is} interrupted and the transistor T. is in conduction. If a voltage is now built up in capacitor C as a function of time, and the voltage in the base of transistor T _{1 is} higher than the voltage in its emitter, transistor T ₁ is also on. At the same time, transistor T is on _3, so that in line in the electro magnet - coil M flows see a stream, creating a so coupled movable part is moved, it is also taken precautions to ensure that when you press the release button switch S closed and at the same time because of the relationship between a!. Regulator member, a cam and a locking pin, the iris diaphragm is opened, with a passage of time as it is recorded in Fig. 4. The effective diaphragm opening then becomes large, and the iris diaphragm is closed immediately after the part coupled to the electromagnetic coil M is moved .

The circuit diagram according to FIG. 5 therefore makes it possible to create a delay time which is proportional to the product of the power of the capacitor C and the resistor R after switching on. If the photosensitive resistor has now been designed according to the invention, ie if it has been built up from two photosensitive elements of different characteristics, then after switching on the shutter is opened in an electrical or mechanical manner. After a certain time, namely the delay time, which is dependent on the product of C and R, the magnetic coil M is excited by the electrical pulse output, thereby closing the shutter. In this way, the exposure time is determined as a function of the brightness.

During the opening time of the shutter, the aperture is also determined, i. i.e., it takes a certain time during which the lock has to be open (see Fig. 4). But this means that with a short exposure time the diameter of the diaphragm is small and that with a long exposure time the diameter of the aperture is large. Depending on the brightness of the object, both the exposure time as well as the aperture are selected and determined, it is therefore possible to use the Exposure time and the aperture to couple, so that each exposure time a certain aperture assigned.

Claims (2)

Patent claims: 1. Photosensitive resistor for a camera with automatic exposure control and with shutter, in which with decreasing brightness in a first area both the aperture and the exposure time are extended and in a second area only the exposure time is extended, characterized in that the photosensitive Resistor (S) consists of two series-connected photosensitive elements of different characteristics (c, d) , the characteristics being chosen so that the first photosensitive element has a flatter characteristic than that according to the requirements of the first area (simultaneous change of aperture and exposure time) the requirements of the second area (change only the exposure time) corresponding second photosensitive element and that both photosensitive elements together determine the opening time of the shutter. 2. Photosensitive resistor according to claim 1, characterized in that the transition from one characteristic curve to the other with the change from one to the other Area coincides. 1 sheet of drawings