SU1125755A1 - Device for light control of objects - Google Patents

Abstract

LIGHT DEVICE USHAV DENIA object containing tranzis op forward and feedback transistor provotsealost capacitor, four p iHCTopa, photodiode, the control object key and power source, wherein the base of the transistor is connected to obratyoy prOvod1tosti to ollekTorom straight gfovodinos- transistor and via a first resistor and - with a minivan bus power source, the collector of the reverse niib transistor, -. connected to the base of the direct conduction transistor; and through the second resistor - to the minus bus of the power supply; the emitter of the reverse conduction transistor is connected to the first pin of the third resistor; the zMitter of the direct conduction transistor is connected via a capacitor to the minus pin of the Electroshtani branch, the second output of the third resistor is connected to the control inputs of the key, the first output of the key is connected to the negative bus of the power supply source, and the second output is connected to the first output of the fourth cut Storey and via a control object - to the positive supply rail zlektropitani of m and l and w h e o f the fact that, in order to im- povsheni sensitivity. pulsed light effects and: reducing the influence of a constant wavelength; lights, an additional direct conduction transistor; and an additional capacitor, with; In this case, the zmitter of the additional transistor Direct conduction is connected to the second output of the fourth resistor and, through an additional capacitor, to the emitter of the transistor pr -: lm: ii: l my conductor, which is connected to the shnusov4 output of the photodiode, the positive output of which is connected to the base of the additional transistor direct conduction, and the base of the transistor. direct conduction is connected to the count / lecturer of the additional direct conduction transistor.

Description

eleven . The invention relates to systems for remote light control of objects and can be used by S photographic equipment for remote control of cameras as well as pulsed light sources. A light control device is known for a pulsed light source comprising a photodetector, a capacitor switch, a control object and three resistors lj. A disadvantage of the known device is the effect of the constant component of the luminous flux on the characteristics of the circuit, the large current consumption and the adjustment complexity. The closest to the invention to the technical essence is a device for controlling light of an object, comprising a direct conduction transistor, a reverse conduction transistor, a capacitor, four resistors, a photodiode, a control object, a switch and a power source 2j. The drawback of the device is the dependence of the characteristics of the circuit on the magnitude of the constant component of the luminous flux, the sensitivity of the circuit to pulsed light effects and the high current consumption are low. The aim of the invention is to increase the sensitivity to pulsed light effects and reduce the effect of continuous illumination. The objective is achieved in that a device for controlling light objects comprising a direct current transistor and a reverse conduction transistor, a capacitor, four resistors, a photodiode, a control object, a switch and a non-power supply source, and the base of the reverse transistor transistor and through the first resistor - to the minus bus of the power supply, the collector of the reverse conduction transistor is connected to the base of the direct conduction transistor and through the second resistor with the negative bus The power supply source, the emitter of the transistor back conduction is connected to the first output of the third resistor, the emitter of the forward conduction transistor is connected via a condenser to the negative power supply bus, the second output of the third resistor is connected to the control input of the key, the first output of the key is connected to the negative source power bus power supply, and the second one is connected to the first one of the fourth resistor and, through the control object, to the positive one. An additional direct-transistor transistor and an additional capacitor are added to the power supply bus, while the emitter of the additional direct-transistor is connected to the second end of the fourth resistor and through an additional capacitor to the emitter of the direct transistor, which is connected to the negative terminal of the photodiode, the positive terminal of which connected to the base of the additional transistor direct conduction, and the base of the transistor direct conduction connected to the collector of the additional tr direct conduction anisistor. The drawing shows the electrical circuit of the device. The device contains the first 1, second 2, third 3, quarter 4 resistors, direct conduction transistor 5, reverse conduction transistor 6, capacitor 7, additional direct conductive transistor 8, photodiode 9, additional capacitor 10, key 11, control object 42, power supply 13. The device works as follows. When exposed to a light pulse, the voltage increment on the photodiode 9 operating in the photovoltaic mode closes the additional direct conduction transistor 8, while its collector current decreases. A decrease in the collector current of the additional transistor 8 causes an increase in the base current of the transistor 5 of direct conduction, and consequently, an increase in its collector current. In the static mode, the current flowing through the first resistor 1 causes a voltage drop that is insufficient to open the reverse conduction transistor 6. When the photodiode 9 pulses with light, an increase in the collector current of transistor 5 creates a voltage drop on resistor 1, sufficient to open the reverse transistor 6 of the transistor 6, which is connected to the transistor 5 according to the analog structure of the pnpp structure, which causes an avalanche-like opening transistors. Avalanche opening of trazistor 5 and 6 leads to an increase in the current through the resistor 3, and, consequently, to the activation of the key 11, which connects the control object to the power source. In the drawing, blocks with specific examples of their execution are circled in a dotted line. A transistor can also be used as a key 1 1. In this example, a pulsed lamp transformer 554 is used as a control object due to the introduction of an additional capacitor 10 and an additional transistor 8 of direct conductivity the sensitivity of the circuit to the light pulse is now increased, the influence of the constant component of the light flux on the operation of the circuit in a static state and The current consumption, which is determined by the values of resistors 2 and 3 and is 5-10 µA, is reduced. This makes it possible to use the device as a stand-alone device for connecting it to any commercially available flash lamp or remotely controlling the release of the camera shutter.

Claims (1)

LIGHT CONTROL DEVICE FOR OBJECTS, comprising a direct transistor and a reverse conductivity transistor, a capacitor, four resistors, a photodiode, a control object, a key and a power supply, the base of the reverse conductivity transistor connected to the collector ι of the direct conductivity transistor and through the first resistor to the min bus the power supply collector of the reverse transistor — output terminal — which is connected to the base of the conductivity is connected to the base of the transistor of direct conductivity and through the second resistor - with a min owl ^ power supply, the emitter of the reverse conductivity transistor of the additional direct transistor ⁷ conductivity, and the base of the direct conductivity transistor <connected to the number I of the additional direct conductivity transistor. > 1 1125755