DE1797238B1

DE1797238B1 - Exposure control device

Info

Publication number: DE1797238B1
Application number: DE19681797238
Authority: DE
Inventors: Powell Frederick Wallace
Original assignee: Eastman Kodak Co
Current assignee: Eastman Kodak Co
Priority date: 1967-09-05
Filing date: 1968-09-03
Publication date: 1971-02-04
Also published as: GB1236257A; FR1580599A

Claims

1 21 2

The invention relates to a device for Beiich- The single figure shows a circuit diagram of a device control with a photoelectric component, device for exposure control according to the invention, an electronic control stage and a shutter release. The exposure is determined by the choice of time, direction for a shutter. while the shutter is open, regulated. In a device which has a photographic shutter itself, the coil ₁ controls it. Medium works with very high contrast, if the coil is energized, then the shutter is open; if the exposure latitude is significantly less than when the coil is switched off, then the shutter is closed. Device that works with a low-contrast medium. An exposure cycle is started by the fact that this property is dependent on the medium itself - a switch S _{4 is moved} from its upper position, which is in the pending position, ie, the more contrasting the medium is, the lower the figure shown, to a lower position is the exposure latitude. A typical one, whereby a capacitor C _{4 works} via a counter device that works with a high-contrast photographic stand R ₁₁ connected to a positive potential, is a copier for line is. As a result, the capacitor C _{4 is} approximately on the templates. A typical device that is charged with a contrasting magnitude of positive potential. If the poor photographic medium is working, on the other hand, 15 switch S _{4 is moved} to its upper rest position, a camera in which a scene is _{displayed on a negative - then the capacitor C 4} discharges via counter material. stands R ₄ and R ₅ . This creates a potential-to-known devices of the type mentioned grow on the gate electrode of a thyristor SCR ₁ , which when it becomes conductive in a device for copying thereby and the coil L _{1 is} excited. To be used for line art, a negative impulse over the thyristor is necessary and therefore expensive. This is because the disturbance SCR ₁ and a capacitor C _{5 passed} on to the anode clearance of the photographic medium of a thyristor SCR ₂ , which makes it very small and therefore precise control of the is switched off when it is required by a previous exposure . Exposure cycle should still be conductive. Since the invention is based on the object of creating a voltage at the anode of the thyristor SCR _{1 which is} now a device for exposure control which is small, this low voltage is applied to the base of a resistor R _{7 via a resistor R 7, even with a very small exposure latitude} On the other hand, transistor Q ₁ works precisely and does not couple it in a complicated manner. As a result, the transistor Q _{1 is built} because of it is still expensive. of resistors R ₉ and i? ₁₀ formed emitter-This task is switched off in a device of the 30 voltage. In the case of the resistor R _{9 mentioned in the} annex, solved according to the invention, it is a resistor in the order of magnitude of a first capacitor and a second capacitor connected to the photometric value of 1.5 Ω, while it is R connected to the counter-electrical component ₁₀ is a resistance in the order of magnitude of a first and a second, each electrically controllable of 100 Ω.

Switch, one between the control terminal of the second 35 While the transistor Q _{1 is} conductive, is on one

Switch and the second, it controlling condenser capacitor C ₆ a small voltage. Once the

sator lying control element and a switch to the transistor Q ₁ is turned off, however, the

optionally connecting the first capacitor to capacitor C ₆ via a resistor R ₂₅ , which via

a voltage source or the control terminal of a resistor R _{3 is} connected to ground and as

first switch are provided that serves in the control current 40 voltage divider, and via a photoelectrical

circle of the photoresistor PC ₁ formed in an excited and an unexcited additional component

stand controllable release device of the first scarf-charging. When the voltage on the capacitor reaches the

ter is connected to the second switch in such a way. Ignition voltage of a unijunction transistor UJT ₁ ,

den is that it de-energizes the triggering device, if then this transistor becomes conductive, whereby a

the second switch is switched on, and that the 45 positive potential across a resistor R ₁₂ , which the

The voltage of the second capacitor in the switched-off current via the unijunction transistor UJT ₁ is

State of the triggering device on a substantially bordered, and a resistor R ₂₃ on the gate electrode

Lent constant value holding voltage limiter of the thyristor SCR ₂ arrives. The connection point

as well as a voltage source are provided, which between the unijunction transistor and the resistor

the second capacitor via the photoelectric building stand R ₂₃ is connected to ground via a resistor R ₁₃

part charges when the release mechanism turns on. If the potential of the gate electrode of the thyrial

is. This ensures that the photoelec- trator SCR _{Z is} raised, then this becomes conductive and

The amount of light falling on the tric component reduces the duration of the potential at the capacitor C ₅ , which

excited state of the triggering device determines a negative pulse at the anode of the thyristor

Structure of the device is particularly useful and 55 SCR ₁ is created. This is how the thyristor becomes

the device is not expensive, a precise control SCR _{1 is} switched off and the coil L _{1 is} switched off,

treatment of the exposure and thus, in particular, whereby the exposure cycle is ended, to regulate the exposure in a device for

Copying line art is suitable. Patent claims:

The precise regulation of the exposure is at a 60

particularly advantageous embodiment thereby! .Device for exposure control with a

achieves that the release device as a Ver photoelectric component, an electronic

Final moving electromagnet, the first and the control stage and a trigger device for one

second switch as thyristors and the control element shutter, characterized in

are designed as a unijunction transistor. 65 that a first capacitor (C ₄ ) and one with the

The invention is described below with reference to a two- connected _{in the photoelectric component (.PC 1} )

Drawing illustrated embodiment after the capacitor (C ₆ ), a first and a second,

the invention explained in detail. each electrically controllable switch (SCR ₁ and SCR _Z ),

a control element (UJT ₁ ) located between the control connection of the second switch (SCR ₂ ) and the second capacitor (C ₆ ) that controls it, and a switch (S ₄ ) for optionally connecting the first capacitor (C ₄ ) to a voltage source (R ₁₁ ) or the control connection of the first switch (SCR ₁ ) are provided that the first switch (SCR ₁ ) connected to the second switch (SCR ₂ ) is located in the control circuit of the triggering device (L _{1) that can be controlled in an excited and an unexcited state} is connected in such a way that it de-energizes the release device (L ₁ ) when the second switch (SCR ₂ ) is switched on, and that a voltage limiter keeps the voltage of the second capacitor (C ₆ ) at a substantially constant value when the release device is switched off (Q ₁ ) and a voltage source (R ₂₅ ) are provided which charges the second capacitor (C ₆ ) via the photoelectric component (PC ₁ ) when the release device is switched on et is.

2. Device according to claim 1, characterized in that the triggering device as an electromagnet (L ₁ ) moving the shutter, the first and the second switch as thyristors (SCR ₁ or SCR ₂ ) and the control element as a unijunction transistor (UJT ₁ ) are trained.

3. Apparatus according to claim 1 or 2, characterized in that a photo resistor (PC ₁ ) is provided as the photoelectric component.

1 sheet of drawings COP) T