SU1555848A1 - Switchboard - Google Patents

Abstract

The invention relates to a pulse technique and can be used to connect a load to an alternating voltage network. The purpose of the invention, the reduction of power consumption in a control circuit, is achieved by generating current control pulses of the minimum duration necessary for the triac unlocking. The switch contains triac 1, load 2, power supply terminals 3 and 4, transistors 5, 11, 15 and 16 of the first conductivity type, rectifier 8, transistors 9, 10 and 14 of the second conductivity type, resistors and capacitors shown in the diagram. The switch provides automatic switching off of the current of the triac's control transition circuit when it is opened. 1 il.

Description

The invention relates to a pulse technique and can be used to connect the load to the AC voltage. 5

The purpose of the invention is to reduce the power consumption in the control circuit by forming control current pulses of the minimum necessary (for unlocking the triac) long duration.

The drawing shows a circuit diagram of a device.

The switch contains a triac 1 connected in series with a load 2 between the first 3 and second 4 terminals of the supply network, a first transistor 5 of the first conductivity type, the collector of which 20 is connected to the control electrode of the triac 1 through the first resistor 6, and the emitter is connected to the first output of the capacitor 7 and the output terminal of rectifier 8, the second transistor ~ 25 transistor type 9 of the second type, included in the base circuit of transistor 5 and connected by the emitter to the second terminal of capacitor 7, cathode of triac 1 and terminal 3, the third transistor 10 of the second conductivity type having a base connected to the base of the fourth transistor 11 of the first conductivity type and is connected to the anode of the triac 1 through 12 serially connected Zener diode ³³ and a second resistive torus 13, the fifth transistor 14 of the second conductivity type collector interval - the emitter of which is parallel to the included between the collector and the emitter of the transistor 9, the sixth transistor 15 of the first type of conductivity, included in the base circuit of the transistor 9 and connected by the base to the collector of the transistor 10, and the emitter with the emitter of the transistor 5 , and the seventh transistor 16 of the first type of conductivity connected in parallel with the base - to the emitter junction of transistor 5 and connected by the base to the output terminal of the relay unit 17. The base of transistor 14 is connected to the collector of transistor 11, the emitter of which is connected to the emitter of transistor 10 and through the third and fourth resistors 18 and 19 is connected respectively to the first and second terminals of the capacitor 7, and the input output of the rectifier 8 through the fifth resistor 20 is connected to terminal 4.

The switch operates as follows.

The relay unit 17 generates information signals O and 1, which may be present at its output separately for a long time. With signal 1, transistor 16 is open, the base-to-jitter transition of transistor 5 is shunted and, as a whole, the switch is open, load 2 is de-energized. When the signal O ^{11, the} transistor 16 is closed and does not affect the operation of the key on the transistors 5 and 9, which in this case is controlled by a synchronization signal coming from the anode of the triac 1 through a circuit from a zener diode 12 and a resistor 13.

With voltage at the anode of the triac

I less than the stabilization voltage of the zener diode 12 transistors 10 and 11 are closed. At the same time, transistors 15 and transistors 5 and 9 are closed. When the voltage is positive half-wave. on the anode of the triac 1 reaches in relation to the midpoint of the divider on ·, resistors 18 and 19, the stabilization voltage of the zener diode 12, transistors

II and 14 and 5 open and a control current flows through the control transition of the triac 1. As soon as the triac opens, the voltage drop at its anode becomes less than the stabilization voltage of the zener diode 12, which closes, and as a result, the transistors 11, 14 and 5 are closed. The control current stops, but the triac 1 remains open until the next voltage transition through the zero value.

In the case of a negative half-wave of the mains voltage, when the voltage at the anode of the triac 1 with respect to the midpoint of the divider on the resistors 18 and 19 reaches the voltage drop on the zener diode 12 in the forward direction, transistors 10, 15, 9 and 5 open, and the process repeats, like in the previous case.

Thus, the current is automatically turned off in the control transition circuit of the triac 1 when it is opened.

Claims (1)

Claim A switch containing a triac connected in series with the load between the first and second terminals of the supply network, the first transistor of the first type of conductivity, the collector of which is connected through the first resistor to the control electrode of the triac, and the emitter is connected to the first output of the capacitor and the output terminal of the rectifier, the second transistor of the second type of conductivity included in the base circuit of the first transistor and connected by the emitter to the second output of the capacitor, the cathode of the triac and the first terminal of the supply network, the third an anistor of the second type of conductivity, the base of which is connected to the triac’s anode through a zener diode and a second resistor, a fourth transistor of the first type of conductivity, a relay block, a third, fourth and fifth resistor, 20 characterized in that, in order to reduce power consumption in the control circuit, introduced the fifth transistor of the second type of conductivity, the sixth and seventh transistors of the first 25 type of conductivity, and the collector-emitter gap of the fifth transistor is connected parallel to the collector gap - the emitter of the second transistor, the base of the fifth transistor is connected to the collector of the fourth transistor, the base of which is connected to the base of the third transistor, and the emitter is connected to the emitter of the third transistor and through the third and fourth resistors is connected respectively to the first and second terminals of the capacitor, the sixth transistor is included in the base circuit the second transistor and connected to the base of the collector of the third transistor, and the emitter to the emitter of the first transistor, the seventh transistor is connected in parallel to the base - the emitter junction of the first about the transistor and is connected by the base to the output terminal of the relay unit, and the input terminal of the rectifier through the fifth resistor is connected to the second terminal of the supply network.