SU748558A1 - Electronic timer - Google Patents

Description

The invention relates to a pulse technique. Known electronic relays containing time RC circuit, threshold cascade, key transistor, zhrody, output thyristor, executive relay fj. . The specified device forms a time delay of one duration and has insufficient stability. The aim of the invention is to obtain two time exposures and increase the stability of formed time intervals. To achieve; specified ueim in the time relay containing the time setting the RC circuit, a threshold stage consisting of a transistor equivalent of a two-base diode and a resistive divider of the voltage source, a key transistor connected by an emitter through a semiconductor diode to the negative pole of the power source, the output trisisgor with with an executive relay in the anode circuit and a diode in the cathode depot, the output thyristor is connected by a cathode to the output of the threshold stage through a capacitor and a control electrode to the junction point of two successively on li ne resistors constituting the lower arm of the voltage divider of the power supply and to the output of RC-connected additional Depi similar threshold stage, the output Ko, torogo through the capacitor connected to the emitter of the transistor, a collector connected to the anode of the thyristor output of Nogo. In order to obtain the duration of the second time delay, which is less for the first time delay, the upper arm of the voltage divider of the additional threshold cascade can be formed by two series-connected resistors, to the junction point of which the output thyristor anode is connected via a diode. In order to increase the reliability of turning on the output thyristor, its control

The electrode is connected to the cathode of a diode connected by an anode to the negative pole of the power source.

The drawing shows a schematic diagram of a time relay.

It contains the RC driver circuit on resistor 1 and capacitor 2, the first threshold cascade on transistors 3, 4 of different types of conductivity, the second analogous threshold cascade on transistors 5, 6, output thyristor 7 with diode 8 in the cathode circuit, resistive voltage dividers resistors 9, 10, 11 and 12, 13, 14. The composition of the relay also includes the executive relay 15, capacitor 16, diode 17, negative pole 18 of the power supply, capacitor 19, contacts 20 of the executive relay, diode. 21, the transistor 22, the diode 23, the positive pole 24 of the power supply.

Each threshold cascade input is connected to the capacitor 2 time the master RC-circuit. The output of the first threshold stage (the connection point of the resistors 9, .1C divider) is connected through a capacitor 16 to the cathode of the thyristor 7, the control electrode of which is connected to the point. connecting resistors 10, 11, forming the lower arm of this divider. The cathodes of diodes 8 and 17 are also connected here, the anodes of which are respectively connected to the cathode of thyristor 7 and the negative pole 18 of the power supply. The output of the second threshold stage (connection point - resistors 13, 14) is connected via a capacitor 19 and a diode 21 to the negative pole of the power source and the base of the transistor 22, the collector of which is connected to the thyristor 7 and through the diode 23 (included in reverse) to the point connecting resistors 12, 13 of the upper arm of the second divider.

The relay works as follows.

When the relay is connected to the poles 18, 24 of the source, the supply starts charging for the time of the driving capacitor 2. As soon as the voltage on the capacitor reaches a value equal to the voltage drop on the resistors 10, 11 of the first resistive divider (this voltage is a reference) transistor 3. Since the collector current of this transistor is at the same time the base current of transistor 4, the latter also opens, and an additional voltage drop is generated at the collector current of resistor 9. As a result, the reference) voltage on the resistors 10, 11 decreases and the transistors 3, 4 avalanche turn into a saturated state.

The state of the transistors 5, 6 of the second threshold stage does not change at this time, since the voltage drop

on the resistor 11, the current flowing through the open thyristor increases so much that the reference voltage of the first divider becomes greater than the voltage drop across the resistor .14. Simultaneously with the actuation of the exe actuating relay 15, Contacts 20 close the external circuit and remain in this state until the second threshold stage is activated.

After the capacitor 2 is discharged through the emitter - collector - base - emitter of transistors 3, 4 and these transistors are closed, the formation of the second time interval begins. Now the reference voltage of the first threshold of the cascade is higher than the second (due to the voltage drop of the resistor 11 ). Therefore, after the time required to charge the capacitor 2 to a voltage equal to the voltage across the resistor 14, the transistors 5, 6 of the second threshold stage transition to a saturated state. This leads to the fact that the capacitor 19, previously charged, is discharged through the collector-emitter of transistor 6 and the base-emitter of transistor 22. As a result of this discharge of capacitor 19, transistor 22 opens and shunts the collector-emitter 7, which closes.

Claims (1)

By discharging the capacitor 19, the transistor 22 is closed, the relay 15 is disconnected from the power source, and its contacts open the external circuit. If the time relay is not disconnected from the power source, then the described cycle of operation is repeated. The difference in the level of the reference voltage that occurs after switching on the thyristor can be increased if the upper arm of the second threshold stage divider is made of two resistors 12, 13, and the connection point of these resistors is connected via diode (23) to the thyristor anode 7. In this case at the same time as the thyristor 7 is turned on, the voltage drop not only on resistor 11 but also on resistor 12 increases. Consequently, the support voltage of the first threshold stage increases, and the second voltage goes up. The introduction of such a circuit allows the user to additionally select the duration of the time interval formed by the second threshold cascade, the proposed time relay makes it possible to form two time intervals and adjust their duration using a single control. The relay can be used to turn on various pro- grammes of various electromagnetic mechanisms, predominantly electromagnetic, on a specific progamme. The time intervals generated by the relays can be summarized in order to increase (double) the time delay. To do this, instead of relay 15, the resistor should be connected to the anode circuit of the thyristor 7, and transistor 22 should be replaced by a second thyristor with a relay winding in the anode circuit. Claims 1. An electronic time relay containing a time setting CS circuit, a threshold cascade consisting of a transistor equivalent of a two-base diode and a resistive voltage divider, a key transistor. Connected by the Emitter through a semiconductor diode to the negative pole of the power source, an output thyristor with an executive relay in the anode circuit and a diode in the cathode circuit, which is 7 86. y e with this, in order to obtain two ;. Increasing the time stability and increasing the stability of shaped time intervals of 1 × 1 interval, the output thyristor is connected by the cathode of the threshold cascade through a capacitor and a control electrode to the junction point of two series-connected resistors that make up the lower voltage divider of the power supply, and to the output of the RC circuit is connected an additional similar threshold of the voltage divider of the power supply voltage, and the output of the RC circuit is connected to the additional threshold of the threshold voltage divider of the power supply, and to the output of the RC circuit is connected an additional similar threshold of the threshold voltage divider of the power supply, and the output of the RC circuit is connected to a similar threshold threshold of the voltage divider of the power supply, and the output of the RC circuit is connected to the additional threshold of the voltage divider of the power supply voltage divider, and the output of the RC circuit is connected to the same threshold thresholds of the power supply voltage divider. whose output through the capacitor is connected to the emitter of the key transistor connected by a collector to the anode of the output thyristor. 2, Relay POP.1, characterized in that, in order to obtain a second time delay, a shorter first time delay, the upper arm of the voltage divider of the additional threshold stage is formed by two series-connected resistors, to the point of connection of which the output thyristor is connected through a diode . 3. The relay according to claim .1, characterized in that, in order to increase the reliability of switching on the output thyristor, its control electrode is connected to the cathode of the diode connected by the anode to the positive pole of the power source. Sources of information taken into account in the examination 1. Japanese Patent No. 4041, cl. 98 (5) On, publ. 1969 (prototype).