SU1401571A1 - Timer - Google Patents

Abstract

The invention relates to a pulse technique and can be used in automation devices, telemechanics as a time relay of a one-shot pulse generator. The aim of the invention is to increase the reliability of the time relay. This is achieved by introducing a fifth direct-conducting transistor connected in accordance with the proposed scheme. The time relay contains transistors 1 and 2, 3 and 4, respectively, of reverse and direct conduction, diode 5, resistors 6, 7, 10, 11, 12, 14 and 16, power supply bus 8, fifth transistor 9, output 13 and the time relay input 17, the capacitor 15. The reduction in the relay recovery time is achieved by discharging the time of the supply capacitor 15 through the saturated transistors 3 and 4. This ensures the stability of the time intervals. The technical and economic effect of the proposed time relay consists in expanding the range of the duration of the formed time intervals, increasing the reliability and reducing the recovery time. 1 il. S b

Description

ate

The invention relates to a pulse technique and can be used in automation devices, telemechanics as a time relay of a one-shot pulse generator.

The purpose of the invention is to increase reliability.

The drawing is a schematic diagram of a time relay.

The time relay contains the first and second I and 2, third and fourth 3 and 4 transistors, respectively, of the reverse and direct conduction, the collector and the base of transistors 1 and 3 are connected respectively to the base and collector of transistors 2 and 4, the base of transistor 1 is connected to the cathode of the diode 5 and through the first resistor 6 with

.15 becomes less than the voltage at the base of the transistor 3, which is determined by the voltage divider across the resistors.

11 and 12, the transistors 3 and 4 are opened and are avalanche-switched to the “on” mode; The open transistor 4 shunts the current through the resistor 11, the transistor 9 closes, which causes the transistors 1 and 2 to turn off, the potential at the output 13 increases to the voltage of the power supply, and the capacitor 15 discharges through the open transistors 3 and 4, after which

the latter are closed and the circuit returns to its original state.

Later on, when positive triggering pulses arrive at the input 17, the processes in the described relay

The common bus dinene and emitter of the tran-20 time are repeated.

and the collector through the third resistor 7 is connected to the power supply bus 8, which is connected to the emitters of the fourth and fifth transistors 4 and 9 and through the fourth resistor 10 is connected to the base of the transistor 9, which is connected to the collector of the transistor 4 which, via the second resistor 12, is connected to the output 13 of the time relay and the collector of transistor 1 connected via the sixth resistor 14 to the emitter of transistor 3, which through the capacitor 15 is connected to the power bus 8, the collector of transistor 9 via the fifth resistor 16 nen to the emitter of transistor 2, the input time switch 17 is connected to the anode of the diode 5.

The time relay works as follows.

In the initial state, all transistors are closed, on the bus 13 a high potential, almost equal to the supply voltage, the capacitor 15 is discharged.

When a positive trigger pulse arrives at the input 17, the transistor 1 opens, the potential on the output bus 13 drops almost to zero, and transistor 9 turns on through resistors 12 and. 11, which leads to the emergence of a current through the resistor 16, which causes the opening of transistor 2 and keeps transistors 1 and 2 in the on state. From the moment the transistor is turned on, the capacitor 15 is charged with current from the power bus, the value of which is determined by the resistor 14. condenser life

In the proposed time relay, the value of the resistor 14 can be significantly (10-100 times) larger than the time value of a known known resistor, since it is not limited to the value of the load current on the time relay. (The hold in the on state of the main switching transistor I is current through the resistor 16, and not the time of the setting resistor 14). This makes it possible to achieve a wide range of time intervals with a relatively small capacitance of the capacitor 15 by increasing the resistance of the resistor 14

The reliability of the time relay is increased due to the fact that in case of output current overloads, such as short circuit load 7, transistors 1 and 2 are turned off and the time relay returns to its original state. Breakdown of transistors 1 and 2 due to overload current load is impossible.

Reducing the recovery time in the time relay is achieved due to the fact that the time specifying the capacitor 15 is discharged through the full {3 transistors 3 and 4, i.e. the discharge time is 1-10 MKS, and the time relay is again ready to start. This has a positive effect on increasing the stability of time intervals.

The technical and economic effect of the proposed time relay consists in extending the range of the duration of the formation of time intervals, ensuring reliability and reducing the recovery time.

Claims (1)

Invention Formula A time relay containing the first and second transistors of direct conduction, the third and fourth transistors of reverse conduction, the emitters of the first and second transistors are connected respectively to the collector and base of the third transistor, the emitter of which is connected via a capacitor to the power bus, and through the first resistor is connected to the output bus and the collector of the fourth transistor, the emitter of which is connected to the common bus, its base is connected via a diode to the time relay input, and through the second resistor is connected to the common bus, the collector second transistor jf connected to the first output of the third resistor, its base is connected via the fourth resistor to the power bus, A fifth resistor is connected to the collector of the first transistor, which through the sixth resistor is connected to the collector of the fourth transistor, characterized in that In order to increase reliability by increasing the efficiency of overload protection over the output current, a fifth direct current transistor is inserted into it, the base and the collector of which they are connected respectively to the collector and the base of the fourth transistor, and the load is connected between the collector of the fourth transistor and the power supply bus.