SU466569A1 - Time relay - Google Patents

Description

The invention relates to automation and radio engineering, can be used in various software devices to obtain adjustable time exposures.

A time relay is known which uses the inertia of heat transfer in a solid body for a time delay. It consists of a thermo-dependent indirect heating element on a transistor having a thermal connection with a resistor-heater, which is part of a power supply voltage divider and a threshold stage on a tunnel diode connected in parallel with the emitter-base junction of the second transistor, switching current in the load.

However, different relative changes in the output parameters of the transistor and the tunnel diode from destabilizing factors due to the difference in the principles of operation of these devices do not ensure the stability of the time delay in a wide range of operating temperatures without manual adjustment of the device, since it is necessary to simultaneously maintain a constant ratio of the three parameters of elements time relay circuit components (by changing the collector current of the first transistor, by changing the current of the top of the tunnel diode a, by changing the base current of the second transistor).

The purpose of the invention is to improve the accuracy of time delay. This is achieved by the fact that in the proposed relay the thermo-dependent element of cosine heating and the threshold cascade are performed on two-base diodes. The diode of the threshold cascade is connected by one base to the pole of the power source, the other to the first base and emitter of the diode of the thermo-dependent indirect heating element, the second base of which is connected to the other pole of the power source.

The electrical circuit of the time relay is shown in the drawing.

The threshold stage is made on a two-base diode 1. A thermo-dependent indirect heating element is connected in series with it on a two-base diode 2 having a thermal connection with a heater-resistor 3 included in the voltage divider of the power supply. A switching load 4 is connected between the emitter of diode 1 and the negative pole of the power supply.

The device works as follows. When the power source is turned on, the current through

the resistance of the load 4 does not leak, since the switching voltage of diode 1 is set below a threshold value. When a resistor 3 is heated, the resistance of diode 2 increases, the voltage drop across it increases, and the threshold value of the switching voltage is emitter. - the first base of diode 1 decreases. After a predetermined time has elapsed, the voltage drop across the emitter-first junction base reaches a threshold value, and diode 1 opens. The time stability of the proposed time relay does not depend on the ambient temperature, since diode 1 of the threshold stage has a positive temperature coefficient of switching voltage, since it is powered by a current generator (through the second diode connected as a resistor). The increment of the switching voltage due to the positive temperature coefficient of the voltage of diode 1 when the temperature of both diodes changes is compensated by the opposite directional change of this increment due to the positive temperature coefficient of resistance of diode 2. Consequently, a change in the absolute temperature of the diodes does not cause a change in the switching threshold, and the time delay of the device The working temperature range is always the same.

The time delay of the time relay can be varied within wide limits by varying the power dissipated by the resistor-heater and the trigger voltage of diode 1.

Subject invention

A time relay containing a thermodependent indirect heating element, the heater of which is a power supply voltage divider resistor, a threshold stage, characterized in that, in order to increase the time delay accuracy, the thermally dependent indirect heating element and the threshold stage are implemented on two base diodes, and the diode the threshold stage is connected by one base to the pole of the power source, the other to the first base and the emitter of the diode of the thermo-dependent indirect heating element, the second base of which is connected to each other m pole of the power supply.

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