SU1686596A1 - Device for connection of capacitor bank - Google Patents

Abstract

The invention relates to electrical engineering and can be used in devices for connecting three-phase high-power capacitors to the electrical network. The purpose of the invention is to increase reliability. When the control key 16 is closed, the smoothing filters 29, 30 are supplied with power to the triac control units 35, 36. The transistors 25, 26 of the control units turn on when the voltage on the corresponding diodes 23, 24 is about 0.6 V and shunt the circuits consisting of resistors 27, 28 and the LEDs of the optocouplers 13, 14. At the time of the voltage transition on the triacs 7, 8 through zero, the transistors 25, 26 are closed, the LEDs of the optocouplers 13, 14 light up, their photo thyristors and respectively the power triacs 7 and 8 turn on. 1 Il.

Description

The invention relates to electrical engineering and can be used in devices for connecting three-phase high-capacity capacitors to the electrical network.

The purpose of the invention is to increase reliability.

The drawing shows the electrical circuit of the device, the capacitor battery connection PL.

The device contains terminals 1-3 for connecting capacitors 4-6 of a capacitor battery, the first 1 and third 3 of which are connected to terminals A and C for connecting phase loads through triacs 7 and 8, and the second terminal 2 is connected to terminal B directly. Channel rectifying bridges 9 and 10 are connected by input diagonals between the input and control electrode of the triacs 7 and 8, respectively, and the output diameters are connected to the corresponding circuits from series-connected resistors 11, 12 and photo thyristors

Optocouplers 13, 14. A primary winding voltage transformer 15 is connected between terminals A and B for connecting phase loads through the closing contact of control switch 16, and its third secondary windings to input diagonals of the third and fourth rectifying bridges 17 and 18, respectively. The fifth and sixth rectifying bridges 19 and 20 are connected in parallel to the simulators 7 and 8, respectively, and the output diagonal to the circuits consisting of series-connected resistors 21, 22 and diodes 23, 24, respectively. The base-emitter input of the transistors 25, 26 is connected to the corresponding diodes 23, 24, and the emitter-collector output is connected to the corresponding circuits consisting of series-connected LEDs of the optocouplers 13, 14 and resistors 27, 28. The smoothing filters 29, 30 are connected to the corresponding output diagonal of the third and chats /

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Around the rectifier bridges 17 and 18, and the outputs through the corresponding resistors 31 and 32 - between the collector and the emitter of the corresponding transistors 25 and 26. Parallel to capacitors 4 and 5, discharge circuits from resistors 33 and 34, respectively, are included.

The rectifying bridges 7, 8, 19, 20, resistors 21, 22, 26, 28, 31, 32, optocouplers 13, 14, diodes 23, 24, and transistors 25, 26 form triac control units 7 and 8.

The device works as follows.

Let a three-phase supply voltage be connected to terminals A, B, C. Triacs 7,8 are closed, so alternating voltage is also applied to them. This alternating voltage is rectified by rectifiers 19, 20 and supplied to the appropriate dividers consisting of resistors 21,22 and diodes 23, 24. Diodes 23, 24 limit the amplitude of the voltages applied to the base-to-emitter junction of transistors 25, 26

When the control key 16 is closed, the smoothing filters 29,30 are energized on the triac control units 35, 36. Triacs of triac control units operate in a key mode. They turn on when the voltage on the corresponding diodes 23, 24 is about 0.6 V and shunt the circuits consisting of resistors 27, 28 and the LEDs of the optocouplers 13, 14, which control the operation of the triacs. Therefore, when the voltage on the triacs 7,8, other than zero, the LEDs of the optocouplers 13, 14 are not hot and the triacs are locked. At the moment of voltage switching on the triacs 7, 8 through zero, the transistors 25, 26 of the triac control units are closed, thereby disconnecting the power supply circuits of the LEDs of the optocouplers 13, 14. These optocoupler LEDs turn on, their photothyristors turn on and power triacs 7 and 8 turn on. When the triacs 7, 8 are turned on, the voltage on them becomes close to zero and less than the switching voltage of the transistors 25, 26. Therefore, the LEDs of the optocouplers 14, 13 continue to burn steadily and ensure the normal operation of the triacs. When the key 16 is opened, the power supply circuits of the LEDs of the optocouplers 13, 14 are de-energized, which leads to the locking of the triacs 7, 8.

The use of the proposed invention provides increased reliability, increased service life and reduced overall dimensions of the device due to the simplicity of the circuit, a small number of transformers and optocouplers, and a small heat loss in the resistors of the control units.

(since the turn-on currents of the transistors are tens of microamps, and the turn-on currents of the LEDs of the optocouplers are tens of milliamperes), the shock-free switching of the capacitors regardless of the switching frequency.

Claims (1)

Claims A device for connecting a capacitor bank, comprising clamps for connecting phase capacitors, the first and third of which are connected through triacs, and the second directly to the respective terminals for connecting phase loads, triac control units, each of which contains two rectifier bridges, four resistors, a diode, an optocoupler, with the first rectifying bridges of the output diagonal connected between the input and control electrode of each triac, and the input diagonally connected to a circuit consisting of series-connected resistors and a photoresistor of optocouplers, two series-connected discharge resistors connected by separate leads to a triac, and a common terminal to a second terminal for connecting phase capacitors, a rectifying bridge, voltage transformer, primary winding which is connected to pins for connecting the phase load, and the secondary winding - to the input diagonal of the rectifying bridge, a smoothing filter whose input is connected to the output diagonal of the rectifying bridge, which is different in order to increase reliability, it is equipped with an additional filter, a rectifying bridge, the second secondary winding of a voltage transformer, and the triac control units have additional transistors, the second rectifying bridges are connected in parallel to the corresponding triacs by an input diagonal, and the output diagonal is connected to a circuit consisting of a series-connected resistor and a diode connected between the base and the emitter of the corresponding transistor, between the emitter and collector of which the circuit is turned on, consisting of a series-connected resistor and an optocoupler LED, the additional secondary winding of a voltage transformer is connected to the input of an additional rectifying bridge, the output diagonal of which is connected to the input of an additional the smoothing filter, the outputs of the smoothing filter through resistors are connected between the collector and the emitter of the transistors of the respective triac control units.