SU873199A2 - Electronic exposure measuring device - Google Patents

Description

(54) ELECTRONIC EXPONOMETRIC DEVICE

The invention relates to photographic equipment, mainly to exposure meters for determining exposure parameters according to light conditions. According to the main auth. 657388, a device used to determine exposure meter pairs & meters depending on the illumination of an object, comprising a positive generator, a photoresistor, a regulating resistor, a current amplifier, and display elements in the form of incandescent signal lamps. The output of the generator set is connected to the base of the switching transistors, the collectors / which are connected through the positive resistors. They are connected to the positive power supply bus, and RC chains, one of which is formed by a series-connected capacitor and a variable resistor, are connected in parallel to the charging resistors, and another - series-connected capacitance and photoresistor, moreover, the bases of threshold current amplifiers are connected to the middle points of these chains, the collectors of which are connected to the positive source bus through resistors power supply and with the bases of the output transistors of the limit switches, whose collectors are also connected via resistors to the positive power supply bus and to the collectors of transistor switches, whose bases are connected to the collectors of opposite output transistors of threshold current amplifiers through resistors; and the emitters are connected to the bases of the above-mentioned transistors of threshold amplifiers, the collectors of which are connected to the positive power supply busbar through the indicator lamp {(However, when the object is intensely illuminated, the resistance of the photoresistor is small and, passing a large current through it, the passage through the input part of the threshold amplifier causes a large voltage drop in the base-emitter circuit of the input transistors of the threshold current amplifiers, which, in turn, changes the value of the charging voltage of the integrating capacitors and dit to povy eniyu error of the measured parameters of the exposure object of the invention -. povyienie measuring accuracy of the exposure parameters at large osvadennosti Said object is achieved in that the device is provided with a pulse.

a current amplifier of two series-connected transistors and a commuting emitter follower, where the base of the first transistor of an impulse current amplifier is connected to a current organizer, the resistor is connected to the output of the generator, the emitter is connected to the negative bus of the power supply, and the collector is connected to the negative through power supply to the quadrant. power supply and to the base of the second transistor of a pulsed current amplifier emitter associated with a negative other power source, and the collector is tokoogranichivakzhtsy resistor with a positive power supply bus and directly to the base of transistor zmitternogo follower having its collector connected to the positive power supply bus, emi1gt6r connected to the common connecting point of the photoresistor and peremennogog resistor, and the base is further connected to a negative power supply bus.

The drawing shows a schematic diagram of an electronic exposure device.

The output of the master oscillator 1 through the current limiting resistor -2, is connected to the input of a pulse current amplifier consisting of two series-connected transistors 3 and 4 and operating in key mode according to a common emitter circuit. - The base of the switched emitter follower 5 is connected to the collector of the transistor 4, which simultaneously through a resistor 6 is connected to the negative bus of the power source 7. The collector resistor 8 of transistor 4

and the base resistor is a voltage divider. The switching emitter follower collector 5 is connected to the positive power supply source, and the emitter connects to the resistors of the integrated RC circuits consisting of a photoresistor 9, a resistor 10, a capacitor 11 and a temporal resistor 12, a resistor 10, capacitance 13. The middle points of the integrating RC circuits are connected to the inputs of the threshold current amplifiers 14 and 15, which are interconnected by blocking connections. To the outputs of these amplifiers. Incandescent warning lamps 16 and 17 are connected, which are an indicator of this device. Parallel to the inputs of threshold amplifiers, capacitors 11 and 13 of AC circuits are connected and in series with them the collector-emitter junction of switching transistors 18 and 19, whose bases are connected to the output of master oscillator 1 through current-limiting resistors 20 and 21.

After the soshed switch 22 and supplying the supply voltage from the source 7, pulses having a different duration appear at the output of the master oscillator 1. As a result, at the end of the small half cycle, when a low potential is formed at the output of the driving oscillator 1, the transistors 4, 18 and 19 are closed. The resulting high potential at the collector of transistor 4 opens the transistor 3 and the emitter follower 5 is locked. Closed switching transistors 18 and 19 contribute to the charging of capacitors 11 and 13 along two circuits:

1) positive bus of power supply 7, resistor 23, capacitance 11, input circuit of threshold amplifier 14, negative bus of power supply 7

2) the positive bus of the power supply source 7, the resistor 10, the capacitance 13, the input circuit of the threshold amplifier 15, the negative bus of the power supply source 7.

In the absence of a switching emitter follower 5, when the connected resistors 9 and 12 are connected directly to the positive bus of the power supply 7 at the moment at low values of their resistances, a large current passes through the variable resistors 9 and 12, which causes the voltage drop across the transitions ba a-emitter input transistors threshold current amplifiers 14 and 15. This voltage pitch on the input circuits of the threshold amplifier changes the value of the charging voltage of the integrating capacitors 11 and 13, which directly reflects on the accuracy of measurement of the exposure parameters.

After the charge ends, the time of the setting capacitors 11 and 13 and the end of the low half-cycle at the output of the driving oscillator 1 appears high potential, which facilitates the passage of current through the current-limiting resistors 20, 2, 21 connected to the bases of transistors 18,4,19 and opens them. After opening the transistor 4, the base of the transistor 3 is shunted to the negative bus of the power supply 7 and the SI is closed by opening the emitter follower 5. Opening the switching transistors 18 and 19 shunt the capacitors 11 and 13 of the integrating PS circuits to the negative bus of the power supply 7. Since the capacitances cannot be recharged instantaneously, after the opening of transistors 18 and 1 they are actually charged with a negative voltage relative to the inputs of the threshold current amplifiers. The recharging of the integrated tanks in the other direction, i.e. open switched emitter follower 5, photoresistor 9 and variable resistor 12, capacitors 11 and 13 open commutating transistors - to the negative

Claims (1)

Claim Electronic exposure meter according to ed. St. No. 657388, characterized in that, in order to improve the accuracy of measuring exposure parameters in high light conditions, it is equipped with a pulse current amplifier of two series-connected transistors and a switching emitter follower, while the base of the first transistor of the pulse current amplifier is connected to the output via a current-limiting resistor "* Of the master oscillator, the emitter is connected to the negative bus of the power source, and the collector. Through a current-limiting resistor is connected to the positive bus of the source and to the base of the second transistor of the pulse current amplifier, the emitter connected to the negative 15 bus of the power source, and the collector through a current-limiting resistor with a positive bus of the power source and directly to the base of the transistor of the emitter repeater, the collector of which is connected to the positive bus of the power source, emitter connected to a common connection point of the photoreistor and a variable resistor, and the base is additionally connected to the negative bus of the power source.