CS200643B1 - Relay interrupter with semiconductor - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a semiconductor relay circuit breaker that makes it possible to easily construct a source of control pulses for both stationary and continuously variable frequencies for the needs of industrial relay automation.

Known solution of relay interrupter, tsn. A pulse generator, utilizes a DC relay in combination with its own break contact and a capacitor, the capacitor being connected in parallel to the NC contact.

A disadvantage of the relay pulse generator is the fact that the frequency of the generated pulses can be changed in steps only in a narrow band.

This disadvantage is overcome by the semiconductor relay which consists of a uniform relay, its own break contact, a capacitor, a semiconductor switching element, preferably a transistor, and a first resistor, with a first terminal for connecting one the first power point of the semiconductor switching element is connected and the first common point of the capacitor and the NC contact is connected, the second common point of which is connected via the first resistor to the control electrode of the semiconductor switching element and the second power terminal of the semiconductor switching element is connected to the first terminal of the DC relay while the other outlet

200 643

200 643 of the DC relay is connected to the terminal for connecting the second pole of the DC supply voltage.

The relay may be threaded between a capacitor and a resistor connected to the diode, wherein a first terminal of a second resistor, preferably a variable resistor, the second terminal of which is connected to an epoloidal point of the contact, the first resistor and the diode.

The advantage of the relay interrupter e semiconductor according to the invention is the wide memory in which its frequency can be changed while maintaining the advantages inherent in the known connection of the relay pulse generator, i.e. simple construction and operational reliability. It can be realized using any uniform relay with its own NC contact in combination with a capacitor and a transistor. Reliable casting is given by the principle of connection, which suppresses the influence of

For further clarification, an exemplary embodiment of the invention is shown in the drawing.

Terminal and for connecting one pole of the supply voltage is connected uniformly to pr.vním power terminal of the semiconductor switching element £ e common point of the first condenser 2 and rozpínaoího second contacts at their common point is connected to the first resistor Preem 2 ^{of the} RIDL! The second power terminal of the semiconductor element of the element 2 is connected by a first terminal of a DC relay 6, the second terminal of which is connected by a terminal b for connecting a second pole of a uniform supply voltage.

The voltage applied via the break contact χ to the control electrode of the semiconductor switching element 2 causes the circuit to be closed, causing 1 relay 6 to close. The NC contact opens, the semiconductor switching element 20 remains in the closed state by the charge current of the capacitor 5, as long as the current does not fall below the value at which the semiconductor switching element 2 disconnects the relay 6. The NC contact closes, the capacitor ee discharges and repeats the process again.

Complementing said circuit with a diode 6 and a second resistor 6, preferably variable, as shown in broken lines in the drawing, can be achieved by continuously tuning the generator frequency. The diode 6 is connected between the capacitor 8 and the first resistor 6, the first resistor of the second resistor being connected between the evolution point of the capacitor 2 and the diode 6, whose second terminal is connected to a common break contact point 8, the first resistor 2 and the diode 6.

Claims (2)

A relay interrupter and semiconductor, characterized in that it comprises a DC relay (4), its own NC contact (1), a capacitor (2), a semiconductor epic element (3), preferably a transistor, and a first resistor (5); and the first evolution (a) for the connection of one pole of a uniform supply voltage is at least the first power terminal of the semiconductor epine element (3) and the first common point of the capacitor (2) 200 643 and a contact (1) whose second common throw is connected via a first resistor (5) to the control electrode of the semiconductor switching element (3) and the second power terminal of the semiconductor switching element (3) is connected to the first terminal of the DC relay , while the second DC relay terminal (4) is connected to terminal (b) to connect the second DC power supply pole · 2 »The semiconductor relay is characterized in that a diode (7) is connected between the capacitor (2) and the first resistor (5), carrying a common throw of the capacitors (2) and a diode (7) connected to the first a second resistor (δ), preferably proain, the second terminal of which is connected to a common point of the break contact (1), the first resistor (5) and the diode (7).