SU450359A1 - Optoelectronic analog key - Google Patents

Description

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The invention relates to the field of semiconductor automation, measuring and computing equipment and can be used, for example, in analog signal commutators in cases when it is necessary to ensure a high value of current transfer coefficient and small residual voltage at the switch output in the presence of a control signal and no output current.

Analogue electronic switches are known for switching analog signals in which phototransistors are turned on anti-parallel or counter-corresponding to compensate for residual voltage.

A disadvantage of the known optoelectronic switches is incomplete compensation of the residual voltage due to the significant variation in the values of the parameters of each of the photo detectors.

In order to reduce the magnitude of the residual voltage and increase the current transfer coefficient in the temperature range, in the proposed device temporary resistors are included in the bases of two anti-serially connected phototransistors connected to the emitters.

The drawing shows a schematic diagram of the proposed device.

The input circuit of the optoelectronic switch circuit contains a light source, such as light diode 1, phototransistors 2 and 3, which are in series with each other, the bases of which include variable resistors 4 and 5. Resistors of resistors 4 and 5 are selected so that the minimum residual voltage is ensured.

During the irradiation of the phototransistors, the currents of their collector circuits are distributed by resistors in such a way that the additional voltage drop across the collector resistances of the phototransistors (due to this non-rectification) fully compensates for the residual voltage. The inclusion of a variable resistor in the base of each phototransistor makes it possible to compensate for the residual voltage in the entire range of variations in the input currents applied to the LED.

The non-current coefficient for the known opto-electronic key scheme for switching analog signals on anti-successively connected phototransformers always, regardless of the polarity of the switched analog signal, is determined by the reverse current transfer ratio of the inversely included phototransistor. The inclusion of a variable resistor 5 in the emitter circuit of the inversely switched on phototransistor (if,

For example, a minus analog signal source is applied to a phototransistor collector 2) increases the output current of an optoelectronic switch by flowing a current through a resistor 5, the voltage drop on which is applied to the emitter junction of the phototransistor 3, increases the current passing through it, and accordingly the output key current.

Thus, the inclusion of variable resistors in the phototransistor base circuit increases the current transfer ratio of the optoelectronic compensating key when switching a bipolar analog signal compared to the optoelectronic key on

photo-series-enabled transistors with broken bases.

Subject invention

An optoelectronic analog switch containing two consecutive phototransistors optically coupled to a light source, such as a LED, characterized in that, in order to reduce residual voltage and increase the current transfer coefficient, the phototransistor bases are connected to the emitters via variable resistors.

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