SU587521A1 - Timer - Google Patents

Description

(54) TIME RELAY

Claims (2)

Isolation refers to the circuit diagrams of a time relay on semiconductor devices and can be used in automation devices, telemechanics and communication, in particular, in control systems of powerful thyristor converters, in starting devices with copper output HbBvi impulse delayed relative to the input , in delay lines, in pulse formers of variable duration., A dinistor time relay is known, containing a delay node, made on a dynistor, a storage capacitor, of two p Resistors and an output signal shaping unit made on a dynistor, a resistor and a transformer with windings connected in parallel to a storage capacitor ij. A disadvantage of the known time relay is that its main parameter (dwell time) depends on the dynistor on voltage. Time relays are also known that contain two thyristors connected between the power supply buses with resistors in the anode circuits, a time setting T a C circuit whose capacitor is connected to the anode of the first thyristor, and a resistor to a positive power supply bus, a zener diode connected between the time capacitor JS circuit and control electrode of the second thyristor, diode, load 1.2J. This time relay is not sufficiently reliable in operation, since its operation is stable only at a certain value of load resistance, since the relay enters the thyristor switching circuit and the increase deteriorates the switching condition, which leads to an unstable first thyristor response. In order to increase its reliability in operation, the relay containing two thyristors connected between the power supply buses with resistors in the anode circuits, time Defining 1 C circuit, the capacitor of which is connected to the anode of the first thyristor, and the resistor to the positive power supply bus, a zener diode connected between the capacitor, time zadakmtsy T C-circuit and the control electrode of the second thyristor, diode, load, an additional capacitor is introduced, while the load is connected through an additional capacitor in parallel with the second thyristor, a diode connected between the output time of specifying the R-C circuit and the anode of the second thyristor, the drawing shows a schematic diagram of the time relay. The time relay contains thyristors 1 and 2 with resistors 3 and 4 in the anode circuits, the time setting circuit of capacitor 5 and resistor 6, zener diode 7, diode 8, load 9, additional capacitor 10. The relay operates as follows. In the initial state, the thyristor 1 is turned off, and the thyristor 2 is turned on, as the direct current from the power source flows through the resistor 6 and the stable nitron 7, the capacitor 5 is depleted and the capacitor 10 is discharged. When the input pulse arrives at the control electrode of the thyristor 1, it turns on. The voltage on the capacitor 5 through the thyristor 1 and the diode 8 is applied to the thyristor 2 and locks it. The capacitor 10 is charged across the circuit through a resistor 4, a capacitor 10, a load 9, a power source. At this time, capacitor 5 begins to recharge across the circuit through resistor b, capacitor 5, thyristor 1, and power supply. This state of the circuit is maintained until the capacitor 5 is completely discharged and begins to recharge in reverse polarity. As soon as the voltage on the capacitor 5 reaches the value of the zener diode, the thyristor 2 turns on. The voltage on the capacitor 5 through the diode 8 and the thyristor 2 is applied to the thyristor 1 and locks it. At this time, the capacitor 10 begins to discharge in the circuit through thyristic 2, the load 9, and a negative polarity signal appears in the output, delayed in time with respect to the input signal. After charging the capacitor 10, the circuit returns to its initial state, in which thyristor 1 is turned off, thyristor 2 is turned on, capacitor 5 is charged, and capacitor 10 is discharged. Thus, connecting the load through a capacitor parallel to the second thyristor and introducing into the switching circuit a diode connected between the capacitor time of the master circuit and the anode of the second thyristor allowed removing the load. From the switching circuit of the thyristor and thereby increasing the reliability of the time relay, expanding its functional capabilities. The invention of the time relay, containing two thyristors connected between the power supply buses with resistors in the anode circuits, a time setting T C circuit, the capacitor of which is connected to the anode of the first thyristor, and a resistor to the positive power supply bus, a zener diode connected between the time capacitor setting the C-circuit and the control electrode of the second thyristor, diode, load, characterized in that, in order to increase its reliability in operation, an additional capacitor is introduced into the relay, and the load is through an additional A capacitor is connected parallel to the second thyristor, and a diode is connected between the output of the time of the TZ C-circuit master and the anode of the second thyristor. Sources of information taken into account in the examination; 1. Author's certificate W360699, cl. H 01 H 47/18, 07.21.69. 2.Bilik R.V., Krutenko B.C., Mashlykin V.G. and Silaev V.I. Impulse circuits on dinistors and thyristors, Science, 1968, p. 186, fig. 7-2a.