CS212161B1 - A circuit for switching a semiconductor switching element when passing a null voltage - Google Patents

Abstract

The invention solves a circuit for switching a semiconductor switching element when the voltage passes through zero, while maintaining minimum consumption and one hundred percent function. The above purpose is achieved by connecting resistive dividers 5 and 6, J, to the bases of transistors 2 and χ. The base of transistor j is connected to divider 6,“7 via diode ,12. Both voltage dividers are connected via diodes 8 and 2 to phase conductor 12· , . . , The circuit is intended for switching on and off electrical appliances when the voltage passes through zero, and then for frequency-pulsed devices for electric heating power depending on temperature. Switch JJ, is then replaced by a contact thermometer or thermistor.

Description

The invention solves the circuit for switching the semiconductor switching element when passing ^napí1 "Acel invention is to simplify the circuitry for switching a semiconductor switching element at a voltage zero crossing while, maintaining minimum power consumption and total function.

This is accomplished by connecting resistors 5 and 6 to the bases of transistors 2 and 4. The base of transistor j is connected to the divider 6, 7 via a diode 12. The two voltage dividers are connected to the phase conductor 12 through the diodes 8 and 2. . ,

The circuit is designed to switch on and off electrical appliances when passing through the ne ^; then to the frequency-impulse device of electric power output in dependence on temperature. The switch 11 is then replaced by a contact thermometer or thermistor.

Giant. 1

2,2161

The present invention relates to a circuit for switching a semiconductor switching element when a voltage is passed through zero.

Known circuitry for switching the semiconductor switching element when the voltage passes through zero contains at least three transistors that do not squeeze the power supply », from the isolation transformer, or do not provide 100% switching of the voltage crossing at zero, or they consume high power. They are therefore drags.

The above drawbacks are overcome by the circuit according to the invention,

The base of the first transistor is coupled to the first resistor voltage divider and the base of the second transistor is coupled via the fourth diode to the second resistor voltage divider, both of which are connected via one end via diodes to a non-phase conductor. , the second resistive divider is connected to the other end by an 8 neutral conductor.

Resistance dividers make it possible to set the optimum width of the switching pulses so that the consumption is minimal and switching occurs practically when the voltage passes through zero.

The attached drawing shows an example of connecting a control circuit pTo for switching the semiconductor switching element when the voltage passes through zero according to the invention.

The control electrode of the load switching triac 11 is connected via a protective resistor 18 to the collector of the second transistor 2, the base of which is connected to the collector of the first transistor 2 and the cathode of the fourth diode 12. and 2, which is connected between the anode of the third diode 2 and the neutral conductor 12. The sistors of the transistors 2 and 2 are connected to the supply, 16, of the negative voltage. The base of the first transistor 2 is connected to the cathode of the first diode 11 and to the first resistive voltage divider 8 and 5, which is connected between the cathode of the second diode 8 and the negative voltage supply 16.

The second diode 8 by the anode and the third diode 2 by the cathode are connected to the phase conductor 10. The anode of the first diode 11 is connected via a resistor 15 to the neutral conductor 17 and via a switch H with a negative voltage supply 16.

The function of the circuit according to the invention is as follows:

Assuming that the instantaneous voltage on the phase conductor 10 is close to zero and when the switch 14 is open, the first transistor 2 is voltage and the first transistor 2 is open. The base of the second transistor 2 is grounded and the second transistor 2 is closed. Current does not flow through protective resistor 18. Trick 1 is closed. Closing switch 14 causes the first transistor 2 to close, opening the second transistor 2, ^8, and triac 1. The excitation current of the second transistor 2 is discharged through each negative half wave by a second resistive voltage divider 6 and 2. The state of the transistors 2 and 2 then does not depend on the position of the switch 14 and the trickle 1 cannot be switched. The diodes 11 and 12 are separating.

The circuit is intended for switching on and off of electrical appliances when voltage passes through zero, as well as for frequency-impulse control of electric heating output in dependence on temperature. The switch 14 is replaced by a contact thermometer or thermistor.

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Claims (1)

SUBJECT OF THE INVENTION The circuit for switching the semiconductor switching element when the voltage passes through zero is characterized in that the first transistor (2) barrier is connected to the first resistance voltage divider (4 and 5) and the base of the second transistor (3) is connected via the fourth diode (12) with a second resistive voltage divider (6 7 7), both of which are connected via one end via diodes (8 and 9) to the feeder conductor (10), the first resistive voltage divider (4 and 5) is connected to the other end with a lead (16) negative voltage, the second resistive voltage divider (6 and 7) and the other end of the joint and the neutral (10).