DE1932963C - Circuit arrangement for temporary storage and for converting information into an analog electrical signal - Google Patents

Description

The invention relates to a circuit arrangement storage condenser with the adjustable resistor

: Only temporary storage and the LJmstand is realized by the fact that the adjustable

, heating of an information in an analog electrical resistance as a charging opposition for the conversion

iignal, in particular, is used to condenser the object light intensity.

The dependent time control of a KaniL-raver- 5 exemplary embodiments of the invention are explained in the drawing, with one of the information by means of drawings. Therein iinen informationsabhilngigen resistor 1 shows bewiikte Fig. Is a circuit diagram of a basic charge receiving storage capacitor, the switching to the embodiment of the inventive ^f kn Verum reduction reaction to a capacitor circuit,

bar and this with one of the respectively stored io F i g. 2 shows a circuit diagram of an embodiment

th information corresponding signal controls. an electrically controlled shutter according to FIG

With soundings of this kind, a defective invention for a single-lens reflex camera

Operation by leakage currents in the condensate and

U) ICi). finite insulation resistance, in particular FIG. 3 shows a circuit diagram of another embodiment Circuits, humidity and other information about the electrically controlled shutter harmful influences occur. This makes the according to the invention for a one-eyed mirror area The information to be implemented limits what reflex camera.

is in particular in the application of the In the beam path of the lens is located

Object light intensity dependent time control a photoresistor 1, which is controlled by a switch 3

a camera shutter has a disadvantageous effect, 20 with the collector of a Stroinsteuerungs-Transi-

because with such controls, stors 2 is connected as long as possible. The emitter of transistor 2

Shutter times are to be realized. The other one is used with the negative pole as a power source

on the other hand, in the case of a larger implementation area, high deten battery 4 are veibunden,> o that an electrical one

Working voltages and capacities required to pass current through the photoresistor I and the with it

the incorrect changes described in percentage terms

tual to be kept as low as possible. However, this causes transistor 2 to flow. If you press the switch 3

an increased effort is also required. kills, wildly the photoresistor 1 by one

The object of the invention is to replace a timing capacitor 5 and to provide a

To create a circuit arrangement that forms a largely DC circuit 7 in which the voltage on

outgoing compensation such. electrical change 30 connection point A with the voltage at the

rungcMi enables the dim :! ', the above gcnann- handle /? of a variable derivative resistance 6

ten shield: chen influences are generated to which the battery 4 is compared. Between the

Use of low operating voltages and space comparison circuit 7 and the gate electrode of a for

borrowed to enable small power sources and store information serving field effect

increased circuit effort for keeping constant 35 transistor 0 is a simple amplifier circuit H

the electrical properties of components to be switched. Between the Gatt: - and the SourceElek-

avoid. trode of the field effect transistor ^ is a storage con-

line circuit arrangement of the aforementioned capacitor 10 switched on. Wed! the base of the electricity type is to solve this problem in accordance with the invention. control traiisist <rs 2 is a tap C of a designed in such a way that the light-sensitive resistor 40 source resistor 11 of the field effect transistor 9 stood and a controllable transistor connected as a partially resistive. Between the amplifier circuit 8 and the a gate hectrotle of the field effect transistor 9 fed with a predetermined voltage is a Bridge circuit connected in series with one another on-off switch 12 switched on, which is connected to a the two additional partial resistances of the appropriate camera mechanism, e.g. B. with a Me Bridge circuit, given resistance values 45 mechanism / to open the shutter, in Wirhahen. and that the charge of the storage unit is available for measurement. As a result of this action capacitor The switch 12 is just before the start due to the fact that the bridge connection is in the zero branch kenschaltiing occurring voltage is controlled, the oiltnens the shutter is opened. After During the time control, the charge of the l'msct application of the output tie amplifier circuit 8 on Zungskondensers done via the transistor, the 50 a circuit 13 controls this one Elektrovon a field effect transistor is controlled, on magnets 14 such that the closing of the Verdes'-cn Gate-Sourcc-Streckc which is initiated by a switch circuit. At 15 there is a current low separated storage capacitor is located. qiicllenschalter and at 16 a time control unit

By using a bridge capacitor 5 parallelpeschaltctvr short circuit

the information to be converted can be continuously designated with 55 ter

to one by the supply voltage of the bridge.

given fixed value can be compared. In the zeroing according to the invention before the oil η of the Ver

branch of the bridge circuit then arises a differential which is generated by the switch 3 with dcrr

reference voltage. the control of the storage Koiiektor of serving for Stromstcucrung Transi

capacitor is used. This 60 stors 2 connected photoresistor 1 changes to the voi

Differential voltage as a result of changing electrical light exposed to a subject

trical properties of the components, so is and the power source switch 15, the on-off

this change by the connection of the memory switch 12 and the Kur / .schhißschalter 16 closed

The capacitor that is present in the bridge circuit reduces the brightness of the object

seen adjustable resistor to change 63 speaking resistance value of the Photowidcrstan

des, Bridge comparison is used, whereby one des 1, that at the connection point A a part of de

Compensation for the change is within the bridge voltage of the battery 4. That of the Difleren

<u: h; iltiini> can be realized. The connection of the between the voltage at the tap B of the vei

i 932 963

Underlicheii derleiiungsreverslandes 6 and the spun In this embodiment is a circuit viii-

llung at the connection point A dependent appearance, which has transistors 113, 113 ', and client

The output of the comparison circuit 7 is entered via ilen detention to initiate the closing * of the shutter

circuit 8 to the gate electrode of the field effect electromagnetic magnet, which depends on the radio

transisiors9 created. Thereby the characteristic curve 5 tion of the camera is controlled. An on-off switch

of the transistor 2 verter 112 serving for Sironi control with an empty contact 112 'is in series

pushed and the flowing through the transistor a circuit for charging the capacitor 1II »

Current controlled in such a way that the voltage between the capacitor 105 is a short-circuit sounder 116

points A and 0 is reduced. The drain connected in parallel, the one when the cap is oiled

Current of the field effect transistor 9 is dependent on ic is open. Between the Souree contradiction 111 of the

the output of the comparison circuit and the span transistor 109 and your lying at the Frdpotential

Voltage at the tap of a source resistor 11 of the pole tier power source is a voltage constant

Field effect transistor 9. There is therefore momentarily a diode 117. With 104 is a current source and with 118

Voltage equalization between points A and ß denotes a diaphragm, which is located in front of the light-sensitive

produced and one of the momentary output of the 15 borrowed element 101 is arranged. The aperture 118

VergL'icliskreises 7 corresponding electrical L.a- is set up in such a way that its final value depends on

tlung stored in the storage capacitor 10. If speed is of any condition other than brightness

tier storage process is set under these conditions Jes recording object, z. B. from the

carried out and then the opening of the shutter sensitivity of the film «, on the existing one

is initiated, takes place just before the beginning of the 20 aperture value of the camera.

Opening the closure an opening of the on-off In the arrangement shown in FIG

Switch 12, so that the storage capacitor 10 light-sensitive element 101 during the Auf-

can no longer be loaded. After starting taking preparation, e.g. B. while aiming

The opening of the shutter can result in the memory of an object coming from this object

capacitor 10 no longer exerted influence, 15 exposed to light. The one that differs from the object brightness

even if the light passing through the lens is dependent on the resistance value of the photoresistor

no longer falls on the photoresistor 1. correct the output at the output terminals A, B

Before starting to open the shutter of the bridge circuit. This output is switched to the switch 3, so that ¹ } is applied to transistor 107, from the transistor 108 ver-Stclle of the photoresistor 1 strengthens the timing control 30 and then applied to the capacitor 110, capacitor S to the collector of the Stromsteue- As in the Ausfühiungsform of Fig. 1, the approximately transistor 2 is connected. Thereafter, the voltage lying at the output terminals A, Ii of the bridge switch and with it the short-circuit switch 16 device is opened to one of the brightness of the. The current control transistor 2 controls the object's corresponding value because it controls the current flowing through it as well as the feedback current before opening the shutter under the influence of the field effect transistor 9 in the bridge circuit Gate-source fincüichen transistor 2 flows. During the first stretch di <; on the electrical charge of the storage part of the pressing of the shutter release button cherkondensators 10 dependent terminal voltage, the on-off switch 112 and the switch is applied. The current controlled by the transistor 2 40 ter 103 into the position shown in phantom in FIG. 2 flows in the timing condensers. As a result, the electromagnet 114 sator 5 and i <t is switched on depending on the function of the timer, which now prevents the closure of the control circuit, ie the control current of the tran- from closing. In the last part of pressing the versistor 2 and the capacitance of the capacitor 5. The circuit release button is the opening of the controlled current then flows through the comparison circuit initiated and at the same time the circuit 7 and the amplifier circuit 8 and controls the capacitor 105 parallel-connected short-circuit switch function of the circuit 13 and therefore the electronics 116 open. Now the charging of the condenser 14 begins to initiate the closing of the sator 105 under the effect of the current controlled by the tran-closure, sistor 102. This transistor 102

F i g. 2 shows the circuit diagram of a practical 50 is in turn caused by the feedback current gc-

Embodiment of the invention in a one-eyed controls that of the storing field effect trun

Mirror camera. is controlled in the beam path of a sistor 109. If dvr capacitor 105

Lens there is a light-sensitive EIe on a predetermined terminal voltage-

ment 101, e.g. B. a photoresistor. The light cmp- has been charged, the transistors 107, l'indliche element 101. a transistor 102 and fixed 55 1OR in / .stands reversed, which to the states

Resistances 106, 106 'together form a bridge in the opening front panel are opposite,

circuit with whose output terminals A and B the transistors 103 ', 103 "w <.rden also

a comparison circuit 107 is connected, which controls the Vcr-, so that the electromagnet 114 is

Gleichskreis7 in Fig. 1 corresponds. With the Transchallet is. Now the closing of the Versistor 107 a transistor 108 is connected, which initiates the 60 conclusion.

Amplifier circuit 8 corresponds. Via a changeover switch Line voltage constant diode 117, a drain circuit of the field effect transistor 11 can be connected in parallel in a 103 to the highly sensitive element 101 in a series capacitor 105. As in Fig. 1, which is otherwise strongly dependent on the voltage, a storage device is provided which is dependent on a change in the current source for the arrangement from a field effect transistor 109, a capacitor 65. By this measure, a 110 and a source resistor 111 can be used. A voltage change of the current source back-feedback circuit connects a tap C with leading errors in the operation of the arrangement practically ilpr the base of the transistor 102. can be avoided.

5 6

In such a sequence of operations to control circuit 8 neither a high gain factor nor

the exposure time, a capacitor 5 or 105 will require a complicated design. The inven-

as a memory output device for determining the arrangement according to the invention can therefore be small and

an electrical quantity is used. Those in the store run easily and especially in a small one

Information stored in the storage facility will be built in 5 camera.

Dependence on the brightness of the object in a according to FIG. 3 is located as converted into the two resistance value. The memory output-preceding embodiments, a light-sensing process takes place as a function of a charging-time-sensitive element 201 in the beam path of the constant of the capacitor 5 or 105. As a result, objective. A current control transistor 202 can control the exposure time as a function of io via a changeover switch 203 in series with the lightly temporarily stored information automatically sensitive element 201 in a circuit, which supplies a battery 204 as a power source Invention thus creates a bridge circuit sits. By means of the changeover switch 203, a resistor which is suitable, a stored image element 201 a timing capacitor information in a corresponding resistor 205 is connected in parallel to the light emitter. The terminal control device, which works depending on the voltage of the pholo resistor element 201 or resistor, and a storage device of the time control capacitor 205 are applied to the gate electrode and the value of the current eiucc field effect transistor 221. With device that has a field effect transistor and capacitor the source electrode of the field effect transistor 221 gates. These two parts are so arranged, ao is a constant current control transistor 202 'in that each of them a negative feedback of the other series is connected. Caused between a sliding contact, so that the two parts are dependent in their state of a variable bleeding resistor and one of the stored data and the device on the source side of the field effect transistor 221 works very reliably, without a lying point A is a voltage control train operating characteristic or a non-linear control identifier 207 switched on, the output of which is dependent on a line of elements such as the current amplification transistor 208 to the base of a modulation device and the field effect transistor 213 and to a storage capacitor. Furthermore, a sator 210 is applied to the resistor. Another field-effect trans-1 electrical variable for the memory output determi- sistor 209 is provided for storage. Connected in parallel between 1 mender part, which can optionally be used by changing the gate-source path of this transistor and 1 switching process. With the storage device connected to its source electrode there is a storage output storage capacitor 210 is a voltage constant 1 output part, ie a bridge circuit, one-sided such a diode 217 connected in series, so that the source-1 in operative connection that the memory output potential is kept constant . A discharge resistor 220 parallel to the storage device is influenced and, in particular, connected to the storage contact (can be repeated without the capacitor 210 thereby being affected. The device according to the invention is applied to the field effect transistor 209 voltage at L therefore not only for the automatic control of the base electrode of the transistor 202, s exposure time in a single-lens reflex 40 This feedback voltage is provided by a verse camera, but also for numerous others Purposes binding of a connection point between the E can be used, for example as a short-term memory for the source resistors 21Γ, 211 "and the diode 217 s calculation result of an analog computer or for comparison with the base of the transistor 202 'produced Values which are amplified with a relatively low frequency ransistor 208 and the Speih change frequency and predetermined phase position. 45 cherkondensator 210 is in series an on and c If in the above-described arrangement off switch 212, which is in operative connection with the mecharsmus of the k according to the invention of the field effect _{transi- camera in such a way that it w} disturb 9 or 109 controlled Feedback current is taken at just before the start of opening of the shutter ₇ or in the vicinity of the point at is opened. With 219 is an output terminal for ν the Kollckiorslrom characteristic compared to the 50 control of the closing of the shutter loading (j base-emitter voltage of the true DIE for current control. An indicator lamp 222 is provided with a koi _n nendcn transistor 2 or 102, a reflector resistance 223 of the output transistor 213 causes a relatively small change in the feedback current connected in series or connected in parallel to the resistor 223 ^ a relatively large change in the input impedance. The timing capacitor 205 is _e j of the controlled current of the transistor 2 or 102. 55 a short-circuit switch 216 connected in parallel, the _ei As a result, the current control transistor 2 or 102 can be caused to open synchronously with the opening of the shutter, which can be changed.

f _e Resistance value of photosensitive member 1 The operation of the before

k ₍ or 101 in a relatively larger area of the arrangement ρ object brightness described with reference to FIG. 3, without explaining any explanation. As in the previous two

. Change in feedback current occurs. This happens during the first part!

.; indicates that a relatively small change in the amount of pressing the trigger button toggled

. "Voltage for the operation of the capacitor 10 or 203 in such a position that the collector d <

110 for storing the object brightness information transistor 202 with the light-sensitive element ζ and the field effect transistor 9 or 109 is sufficient, so 65 201 is connected and part of the voltage di

rf that the battery 4 or battery 204 used as a power source to the gate electrode of the field cffek

^K '104 a relatively low voltage and a small transistor 221 is applied so that the Diffcrci

^sc volume may have. Furthermore, for the amplifier between the point A at rkm is on the source side

lying voltage, which corresponds to the voltage applied to the gate electrode, and the voltage at the point B of the variable deflection resistance 206 at the output of the voltage-controlled transistor 207 appears. At this point, the transistor 202 'serves as a power control device. This output is applied via the amplification transistor 208 to the field effect transistor 209 serving for storage and, under the control of the transistor 20 *), is unset to the base of the transistor 202 '. The state of the transistor 202 'is therefore changed as a function of its output in such a way that the liansisior 202' changes the stiom through which it can pass in the sense that "the voltage / between the points A and Ii is reduced and momentarily a potential equalization between The storage capacitor 210 receives an electrical charge which corresponds to the output of the voltage-controlling transistor 207 at the above-mentioned moment of potential equalization its complete implementation is controlled in the same way as in the previous form of operation. During the control of the inner deep closure, the linearity with respect to the dependence of the elapsed time on the charging current and the dependence of the terminal voltage on the DOM Slii-usirom in to a considerable extent, while the terminal voltage of the storage capacitor 210 gradually decreases as a result of the effect of the discharge resistance 220. This SpaniHingsablall on the storage condenser 210 leads there /. tl · · ¹¹ 'if the negative gate voltage of the field effect transistor 209 serving for storage becomes positive, the point C lying on the Sourcc-Scile of the transistor 209 is kept constant by the voltage-constant diode 217. As a result, the diary sitome of the field transistor 209 gradually increases in the course of the course and the feedback current associated with the transistor 202 causes a further shift to the negative side. As a result, increases of 205 wu current flowing through the transistor 202 '\ the Zcilstcuerungskiindensator gradually increases.

This Speielierkoniiensalor 210 serves to hold the (iate voltage of the field effect transistor 209, so that the capacitance of the capacitor can be selected in a relatively small range. As a result, one can read the capacitance of the Spekhcrkondensators 210 and the charge resistor 22f) so root that the time-dependent changing Diain-Stioin of the field reading transistor 209 ucn current of the timing capacitor 205 compensates.

Although the step is compensated in the above-mentioned manner, it is not possible to achieve automatic control of the exposure time with the aid of the individual shutter for an object which has such a brightness that the resistance value of the light-sensitive element 201 has the greatest width value of the stronis control elements . /. B. of transistor 202. Exceeds. With such an object, it is not possible to take a picture with automatic exposure control. If an indicator lamp 222 is provided on tier Kollc'klorseile ties Ausiiarmslransislors213 in the embodiment according to FIG. 3, the voltage at the connection point A is essentially equal to the voltage at the tap D, while the gate voltage of the field effect transistor 209 is positive and slightly higher is than the Gatc-Spcrrspannimg, provided that the pressure sound is balanced. The voltage at the Vei connection point C on the source side tics storage capacitor 210, which is used to hold the gate voltage of the field effect transistor 209, is selected so that in the above-mentioned equilibrium state, the output transistor 213 connected to the output of the Vcrstäikertransislors 208 is conductive . As a result, the indicator lamp 222 lights up. This display indicates that the subject has a brightness in the area. in which the exposure can be automatically controlled and that the storage process has been completed.

However, when the subject is so dark. that the opponent country value of the photosensitive Flements 201 is many megohms and the transistor 202 may not respond despite ties caused by the feedback compensation as a result of the dark current of the transistor 202 on these Widerstandswcrl, wild positive voltage at the Vcrbindungspimkl A long held as the voltage at the tap Ii. so that the gate voltage of the field defect transistor 209 is negative and, viewed in absolute terms, higher than in the balanced state and a negative voltage is present at the base of the output transistor 213. Therefore, the indicator lamp 222 does not light up arf.

! In the embodiment according to FIG. 3 shows the Indicator lamp 222 therefore indicates that the brightness of an object is in the range at which an automatic Exposure control is possible. Instead of the indicator lamp 222 in FIG. 3, a magnetic magnet can be used provide that effects display or color display in a viewfinder.

Claims (4)

Patent claims: 1. Circuit arrangement for the temporary storage and implementation of information into an analog electrical signal, especially one that depends on the object light intensity timing of a camera shutter, With one, the information is recorded by a light-sensitive resistor Storage capacitor that can be sounded to convert to a conversion capacitor and anstciieit signal corresponding to an information stored in each animal. characterized in that the light-sensitive resistor (1) and a controllable transistor (2) as Tcilvvideristors a bridge sound fed with a predetermined voltage (4) are connected in series, wherein the two other Tcilviderstäntle (6) of the bridge sound system predetermined resistance values have, and that for the measurement the charge of the Speichererkoiidcnsalors (10) by the in the zero branch (7) The voltage occurring in the bridge is controlled while for timing control the lathing of the relocating condenser (5) via ilen transistor (2), which is controlled by a field effect transistor (9), on whose 209 613/301 2 * 64 Gate-source path of the storage capacitor now separated by a switch (12) (10) lies. 2. Circuit arrangement according to claim 1, characterized in that the control voltage, which is applied to the controllable transistor (2) is approximately equal to its base voltage, see above let the input impedance of the base-emitter-I-section under the emitter-earth change strongly % ird. 3. Circuit arrangement according to claim 1 l) dcr 2, characterized in that the source 10 Electrode of the field effect transistor (109, 209) with a constant clamping diode (117, 217) is connected and the storage capacitor (210) has a discharge resistor (220) connected in parallel is. 4. Circuit arrangement according to claim 3, characterized in that dali in the working circuit an output transistor (223), at the control electrode of which the output voltage, the Bridge circuit is applied, a display element (222). /. B. a lamp, directly or is switched on indirectly. For this purpose I sheet drawings 2164