SU1345331A2 - A.c.gate - Google Patents

Abstract

The alternating current key contains a triac 1, transistors 2, 18, 19 pnp conductivity, input terminals 4, 13, minus bus 5 and a positive bus I1 of a constant voltage source 6, capacitors 8, 15, a collector 14, transistors pnp conductivity, diode 12, transistors 16, 17 ppn conductivity, zener diode 20, capacitor 21, load 31, alternating voltage source 32, resistors 3, 7, 9, 14, 22 30. The invention improves the reliability of the AC key by increasing the control current during start-up. 1 il. / -4i5: i XI g5 {77 (L O 0 and co iR SP with co 1H

Description

113

The invention relates to a pulse technique and can be used for switching a load ((electric motor 1 | in an alternating current circuit).

The purpose of the invention is to increase the reliability of operation by increasing the control current during start-up.

The drawing shows a circuit diagram of the device.

The AC switch contains a triac 1, a transistor 2 of pnp conductivity, the collector of which is connected via a resistor 3 to the first input terminal 4 and to the control electrode of a triac 1, the emitter is connected to the negative bus 5 of the constant voltage source 6, and the base through a resistor 7 is connected to the middle point of the series circuit from the first capacitor 8 and resistor 9 connected between bus 5 and the collector of transistor 10 ppn-conductivity, emitter

which is connected to the plus bus 11 25 ka 6. The voltage on the capacitor 8 of source 6 and through diode 12 is connected via a resistor 7 is supplied to the base of the base of the transistor 10 and the second input terminal 13, which is connected to

transistor 2, causing it to turn on. As a result, the control transition of the triac 1 begins to flow

by terminal 4 through the co-transistor 2 in series, causing it to turn on. As a result, the control transistor of the triac 1 starts to flow

the resistor 14 and the second condenser are constant current from source 6 through

Sator 15. Additionally, the device contains transistors 16. and 17 pn-conductivity, transistors 18 and 19 pn-conductivity, zener diode 20, capacitor 21. and resistors 22-30.

the emitter-collector gap of transistor 2 and resistor 3. In this case, the on-state of the triac 1 is memorized. The 10-g transistor operates in the mode of the pulse voltage amplifier, and the transistor 2 is operated in the DC switch mode.

At the same time, the component voltage on the control elec- tBase of transistor 16 is variable through resistor 22 connected to terminal 13, the collector through resistor 23 to bus 5 and through resistor 24 to transistor Q-type of triac 1, amplified by transistor 18, which emitter through hundred - a torus 16, through a resistor 24, arriving at the neutron 20 and a resistor 25 connected to the base of the transistor 18. Since the buses 5 and 11, respectively, the collector variable depends on

A torus through a resistor 26 is connected to a bus 11, an emitter of a transistor 16 and an emitter of a transistor 17, the base of which is connected via a resistor 27 to the collector of transistor 18, and the collector through a series-connected resistor 28 and a capacitor 21 is connected to the bus 5 and the emitter of transistor 19, through the resistor 29 which is connected to the connection point of the resistor 28 and the capacitor 21, and the collector through the resistor 30 is connected to the control electrode of the triac 1, connecting the load (motor) 31 to the alternating voltage source 32.

The device works as follows.

In the initial state, the motor 31 is de-energized. When a starting pulse is applied to terminal 4. triac 1 goes on and connects electric motor 31 to source 32. When current flows through electric motor 31 through triac 1, an alternating voltage is generated between its control electrode and cathode as a result of voltage distribution on the multilayer structure. motor 31 and triac control transition resistance 1.

This alternating voltage is applied through the capacitor 15 and the resistor 14 to the base of the transistor 10 and the diode 12. The transistor 10 opens in the negative half-period of the voltage. In this case, the collector current of the transistor 10 charges the capacitor 8 from the source

6. The voltage on the capacitor 8 through the resistor 7 is fed to the base.

transistor 2, causing it to turn on. As a result, the triac control transition 1 begins to flow

the emitter-collector gap of transistor 2 and resistor 3. In this case, the on state of triac 1 is memorized. Transistor 10 operates in the mode of a pulsating voltage amplifier, and transistor 2 is operated in the mode of a dc current switch.

At the same time, the component voltage on the control electrode of the triac 1, amplified by the transistor 16, is variable, through the resistor 24 goes to the base of the transistor 18. Since this variable component depends

from the current of the electric motor 31, which during the start-up period exceeds the current in a steady state several times, the potential of the base of transistor 18 will exceed the potential of the emitter of the latter, the constant value of which is maintained by the zener diode 20. At the same time, the transistor 18 turns on, which causes the transistor 17 to turn on The collector current of which charges the capacitor 21 from the source 6. The voltage on the capacitor 21 through the resistor 29 is applied to the base of the transistor 19 and causes it to turn on. In this case, the control transition of the triac 1 is connected via

3

the resistor 30 to the source 6. As a result, the control current of the triac 1 is formed by two currents flowing in parallel branches m: the first through the transistor 2 and the resistor 3, and the second through the transistor 19 and the resistor 30.

At the end of the start-up, the variable component on the control electrode of the triac 1 decreases, the base potential of the transistor 18 becomes less than the potential of its emitter, and the transistor 18 closes. In this case, the transistor 17 is turned off, causing the transistor 19 to turn off. As a result, the control current of the triac 1 drops to a value determined by the current value in the steady state of the motor 31. The device is tuned to a specific starting current of the motor 31 the current of the transistor 16. To disconnect the motor 31, it is sufficient to apply a positive-polarity pulse to terminal 13 with a duration of at least one period of source 32.

An increase in the field current with an open transistor 19 leads to a decrease in the level of noise, which increases the reliability of switching on the triac I in the starting mode of the electric motor 31.

Claims (1)

Invention Formula AC Key Auth. St. No. 1012442, characterized in that, in order to increase reliability, operation, an additional two pnp conduction transistors, two npn conduction transistors, M. Nedoluzhenko staor 4931/54 are introduced Compiled by M.Schedrin Tehred M.Didk Cor Pod Circulation 900 VNIIPI USSR State Committee for inventions and discoveries 113035, Poskva, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Design, 4. ten 15 20 45331 a bilitron, a capacitor and nine resistors, the base of the first additional pnp conduction transistor is connected to the second input terminal through the first additional resistor, the collector is connected to the negative voltage source bus through the second additional terminal and body resistor - with the base of the first additional transistor pnp conduction, the emitter of which through the Zener diode and a quarter additional resistor is connected to the negative and positive buses of a constant voltage source and, accordingly, the collector is connected through a five additional resistor to the positive bus of the constant voltage source, the emitter of the first additional pnp conduction transistor and the emitter of the second additional pn conductivity transistor, the base of which is 25 an additional resistor is connected to the collector of the first additional transistor nrp conduction, and the collector, through the series-connected seventh additional resistor and additional capacitor is connected to the minus bus source of constant voltage and emitter of the second additional transistor pnp conduction, the base of which through the eighth additional resistor is connected to the connection point of the seventh additional resistor and additional capacitor, and the collector through the ninth additional resistor is connected to the control electrode of the triac. 0 five 0 Proofreader I.Musk Subscription