SU711684A1 - Ac switch - Google Patents

Description

(54) AC KEY

This invention relates to the field of automation.

Known alternating current keys containing a triac, a transistor, a diode, a capacitor and resistors It. The disadvantages of the known device are narrow functional possibilities.

The closest technical solution to this is an AC current switch, containing a triac, the anode of which is connected to the first output of the power source through a load, and the cathode through the first resistor is connected to the second output of the power source, and also which through a resistor is connected to the control electrode of the triac and one of the control buses, the base through the third resistor is connected to the second output of the power source, and the emitter is connected through the main capacitor to the cathode of the triac and nother .upravl guide rail, and through the cathode-anode of the diode -. "about the second outlet of the power source, between the simp etsm is yushimi tires included Zs1mykayuschip contact trigger 121. The disadvantages of the known ustreystva relates narrow functionality.

The circuit of the invention is to extend the functionality of the AC key. .

This is achieved by the fact that in the AC switch containing the triac, the anode of which is connected to the first output of the source through the load

0 power, and the cathode through the first resistor is connected to the second output of the power source, as well as a p-p transistor of the wire-type type, the collector of which is connected to the control electrode of the transistor through one second resistor the third resistor is with the second output of the power supply, and the emitter through the main capacitor

0 is connected to the cathode of the triac and the other control bus, and through the cathode of the main diode to the second output of the power supply, while between the control buses it is turned on

5 start closing contact, a pnp conductor type transistor, an additional diode and a capacitor, and a fourth resistor connected between the second output of the power source

Claims (2)

0 and the base of the transistor of the pn-type of conductivity, the collector of which is connected to the collector of the tragganistor -r-n-type of conductivity, and the emitter is connected via an additional capacitor to the cathode of the triac and to the second through the anode-cathode. the output of the power source; FIG. 1 is a schematic diagram of an AC key. The proposed switch semiconductor switch 1, the anode of which through the load 2 is connected to the first output of the power source 3, and the cathode through the first resistor 4 is connected to the second output of the power source Zg of the transistor 5 of the conductivity type, the collector of which is connected through the second resistor 6 the control electrode of the triac 1 and one of the control bus 7, the base through the third resistor 8 with the second output of the power source 3, and the emitter through the main capacitor 9 is connected to the cathode. Simisd ora 1 and another control shi. not 10, but through the cathode-anode of the main diode 11 to the second output of the power supply 3; a switching start contact 12 connected between control buses 7 and 10; a fourth resistor 13 connected between the second output of the power source 3 and the base of the transistor 14 nr — n of conductivity type, the collector of which is connected to the collector 1. the transistor 5 is a type-conductivity, and the emitter is connected via an additional capacitor 15 to the cathode of the triac 1, and through the anode the cathode of the additional diode 16 to the second output of the power source 3.. The operation of the AC switch is as follows. When a triggering triac 1 and a mulca are fed to the control triac and the opening state of the start contact 12 is open, the triac 1 turns to the conducting state and connects the load 2. to the power source 3. When a load current flows on Resistor 4, a voltage drop is in phase, in phase with the load current. depending on the polarity of this voltage, a diode 16 or 11 is opened and a capacitor 15 or 9 is charged to an amplitude value of the voltage. When the capacitor 15 {9) load current decreases, the discharge through resistor 4, resistor 13 (8) and baso-emitter junction of transistor 14 (5) begins. The base current of the transistor 14 (5) is maximum when the value of the current on, load, close to zero; at the same time, the transistor I (5) opens and discharges the capacitor 15 (9) through the resistor 6 and the triac control electrode 1. MsiKCHMyM of the discharge current of the capacitor 15 (9) through the control electrode si / iistor 1 corresponds to. The moment of load current transition through zero value. To transfer the AC key to a de-energized state, at least one supply voltage should be closed for making contact 12. At least one AC key containing a triac whose anode is connected to the first output of the power source through the load and the cathode through. the first resistor is connected to the second output of the power source, as well as the pnp transistor of the conduction type, the collector of which is through the second re-. The resistor is connected to the control electrode of the triac and one of the control buses r base through a third resistor with the second output of the power source, and the emitter through the main capacitor is connected to the triac cathode and the other control bus and through the cathode node of the main diode to the second the output of the power supply, with a start-up closing contact between the control buses, characterized in that, in order to expand its functionality, an rn-type conductor type transistor, an additional diode and a capacitor and .the fourth resistor connected between the second output of the power source and the base of the transistor of the pnp conductivity type, the collector of which is connected to the collector of the pnp transistor of the conductivity type, and the emitter is connected via an additional capacitor to the cathode of the triac, and through the anode-cathode of the additional diode to the second output of the power source. Sources of information taken into account in the examination 1. Thyristors. Technical reference book ed. V. A. Labuntsova M., Energie, 1971, p. 18.3, fig. 8-6. 2. Authors certificate of the USSR 473298, cl. H 03 K 17/02, dated 15L6.73 (prototype). .