SU1403277A1 - Triac control device - Google Patents

Abstract

The invention relates to a converter technique and can be used as a trigger pulse driver for switching on a triac. The aim of the invention is to reduce the device and increase its reliability. This is achieved by simplifying the shunt link 19. Triac 1 transmits several half-waves of operating current, the number of which is determined by the capacitance of the capacitor 24, the charge of which is effected when the half-wave of the operating current passes through the load 3. When the voltage of the capacitor 24 is equal to the voltage unlocked by the single junction transistor 25, a current begins to flow through the LED 27, the photo thyristor 29 turns on and shunts the control electrode of the thyristor 31, which turns off and turns off the triac 1. 1 sludge. o (l

Description

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diode 7 positive potential. The positive potential from the cathode of the diode 7 through the closed contacts of the control key 8, the resistor 9 and the resistor 30 is supplied to the control transition of the auxiliary thyristor 31, while it remains closed, as the negative voltage of the secondary section 14 of the control transformer 4 is applied to it. However, the supply of a control signal to the Invention is related to converter equipment and can be used as a driver for trigger pulses to turn on the simulator.

The aim of the invention is to simplify and increase reliability.

The drawing shows a diagram of a device for controlling a triac.

A device for controlling a triac 1 connected to the source 2 of a variable-power thyristor 31 lasts until the onset of the current through the load resistance of the next half-period due to the energy

storage capacitor 10.,. When changing the sign of the half-period of the supply voltage due to the preliminary signal

winding 5 through the p-control switch for auxiliary thyristor 6, diode 7, control key 8 and 31 is fed through it to the control transistor of triac 1. Triac 1 is unlocked and current flows through load resistor 3. Voltage impulse from load resistor 3 via rectifier to bus 12, parallel to cumulative 20 tel 14, parametric stabilizer 10 through resistor 9 and voltage opener 18 is supplied to a blue contact of control key 8 connected ballast resistor 13, the secondary winding 14 of the control transformer 4 through the polarity switch 6 is connected to the control electrode of the triac 1 and the bus 12, parallel to the load resistance 3 through a rectifying bridge 15 a chain of series-connected is connected of the resistor 16 and

3, contains a control transformer 4, the primary winding of which is connected to an alternating current source 2, and the secondary resistor 9 is connected to a storage capacitor 10, the positive side of the storage capacitor 10 connected to a pin 11, and a negative

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Zener diode 17, parametric stabilization30

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the diode 20 of the optocoupler 21, the transistor 22 of the optocoupler 21 opens and due to the energy of the storage capacitor 10, the capacitor 23 is charged as long as the transistor 22 is open, after the passage of the voltage pulse, it closes the accumulation of energy in the capacitor 24 stops. Triac 1, having passed one half-wave of the operating current when the current passes through zero, is locked. The circuit starts working again when a positive potential appears on the anode of the diode 7, and the device repeats its operation. Triac 1, having passed one half-wave of the operating current when the current passes through zero, closes. The process runs until the capacitor 24 accumulates enough energy to break the emitter – base of the two-base transistor 25. A discharge current flows through the LED 27 of the optocoupler 28, the photo thyristor 29 of the optocoupler 28

congestion 18 voltage The output of the parametric stabilizer 18 is connected to the input of the generator 19 of a voltage of: a form containing an LED 20: an optocoupler 21 connected in parallel with the first output of the parametric stabilizer on i voltage 18, a transistor 22 of the optocoupler 21 whose collector is connected to the bus 11,; its base through a resistor 23 is connected to: its emitter, which is connected to the positive plate of the capacitor 24 and

 the emitter of the two-base transistor 25, and 40 opens and bridges the circuit controlled by the negative plate of the capacitor 24 or auxiliary thyristor 31. The device is connected to the busbar 11, and the second base of the device, passing a few half-waves of the working current, and the number depends on the capacitor 24, after returning the control key 8 to its original position is in the initial position. Setting the switch 6 of polarity to another position (lower) ensures the flow of working current through load resistance 3 whose countercurrent is connected to bus 12, jO of the same polarity, and the operation of the anode circuit - with the alternating source 2 current, live switch 6 polarity. The device for controlling the triac polarity of the half-wave of the operating current depends on the polarity of the secondary section sections. When the switch 6 is installed, the fields of the 5 and 14 transformer 4 of the control are in one of the positions (for example, 55 source 2 over the top) by the control key 8 close the alternating current.

make contacts. The device's on-use scheme allows starting to operate at the anode to increase reliability, simplify the circuit and cross the LED 27 of the optocoupler 28 is connected to the bus 12, the first base of the two-base transistor 25 through the resistor 26 is connected to the bus 12, the photo thyristor 29 of the optocoupler 28 is connected to the cathode to the bus 12, and the anode to the bus 11, to which the control electrode of the auxiliary thyristor 31 is connected through a resistor 30,

diode 7 positive potential. The positive potential from the cathode of the diode 7 through the closed contacts of the control key 8, the resistor 9 and the resistor 30 is supplied to the control transition of the auxiliary thyristor 31, while it remains closed, as the negative voltage of the secondary section 14 of the control transformer 4 is applied to it. However, the control signal to the auxiliary thyristor 31 lasts until the beginning of the next half period due to the energy

control to the auxiliary thyristor 31 through it is supplied with current to the control transition of the triac 1. Triac 1 is unlocked and current flows through the load resistance 3. The voltage pulse from the load resistance 3 through the rectifier-bridge 14, the parametric voltage regulator 18 is supplied to the light

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the diode 20 of the optocoupler 21, the transistor 22 of the optocoupler 21 opens and due to the energy of the storage capacitor 10, the capacitor 23 is charged as long as the transistor 22 is open, after the passage of the voltage pulse, it closes the accumulation of energy in the capacitor 24 stops. Triac 1, having passed one half-wave of the operating current when the current passes through zero, is locked. The circuit starts working again when a positive potential appears on the anode of the diode 7, and the device repeats its operation. Triac 1, having passed one half-wave of the operating current when the current passes through zero, closes. The process runs until the capacitor 24 accumulates enough energy to break the emitter – base of the two-base transistor 25. A discharge current flows through the LED 27 of the optocoupler 28, the photo thyristor 29 of the optocoupler 28

0 opens and shunts the control circuit of the auxiliary thyristor 31. The device, having passed several half-waves of the operating current, and their number depends on the capacitor 24, after returning the control key 8 to the initial position is in the initial position. Installing the switch 6 polarity in another position (lower) ensures the flow through the load resistance 3 of the working current to prevent the functionality of the device. This device can be used in an automatic control system for outdoor lighting networks.

Claims (1)

Invention Formula A device for controlling a triac containing a transformer, the primary winding of which is intended to be connected to the mains and the secondary at one end through the first contact of a two-pole polarity switch is intended to be connected to the control electrode a torus, another terminal of which is connected to the first terminal of the first capacitor and the anode of the auxiliary controlled key, the cathode of which is connected to the cathode of the thyristor, a rectifying bridge, the input of which is intended to be included in the load circuit, reliability, a transistor optocoupler, a second co-capacitor, a single junction transistor, and an auxiliary control key are made in the form of a photo thyristor, a thyristor optocoupler, the LED of which is connected to the cathode of the thyristor and an ode - through the base circuit of the unijunction transistor to the pessimist, the other end through the second contact of the double pin of the first capacitor, the emitter of the pole polarity switch, the switch of the single junction transistor connected to the first control and the diode connected to the first pin of the first capacitor, the second pin which is connected to the midpoint of the secondary winding of the transformer and to the cathode a thyristor, the anode of which is intended for 20 through a resistor connected to the emitter, the anode connected to one of the power terminals and the cathode of the LED of the transistor opto-triac, and the control electrode is connected to one output of the load-output terminal of the second capacitor and the emitter of the transistor optocoupler transistor which is connected to the first terminal of the first capacitor, and the base the pairs are connected to the outlet of the rectifying bridge. a torus, another terminal of which is connected to the first terminal of the first capacitor and the anode of the auxiliary controlled key, the cathode of which is connected to the cathode of the thyristor, a rectifying bridge, the input of which is intended to be included in the load circuit, reliability, a transistor optocoupler, a second co-capacitor, a single junction transistor, and an auxiliary control key are made in the form of a photo thyristor, a thyristor optocoupler, the LED of which is connected to the cathode of the thyristor and an home - through the base unijunction transistor circuit to lane the first terminal of the capacitor, the emitter of the unijunction transistor is connected to the first terminal of the capacitor, the emitter of the unijunction transistor is connected to through a resistor connected to the emitter, the anode and cathode of the LED transistor opto- pin of the second capacitor and the emitter of the transistor of the transistor optocoupler, the collector of which is connected to the first terminal of the first capacitor, and the base through a resistor connected to the emitter, the anode and cathode of the LED transistor opto- the pairs are connected to the outlet of the rectifying bridge.