RU2046543C1 - Electronic commutator of alternating current supply line - Google Patents

Abstract

FIELD: electric engineering. SUBSTANCE: device has diode- thyristor gate, rectifying gate, thyristor, current-clipping circuits, gate. EFFECT: increased functional capabilities. 2 cl, 3 dwg

Description

 The invention relates to electrical engineering and is intended for use in power supply systems with alternating current of various electronic devices, if necessary, switching AC voltage on them when this voltage crosses the zero level.

A known sensor for passing an AC voltage signal through a zero value, containing a rectifier bridge, resistive dividers, optocoupler, capacitors, diode and resistors [1]
The disadvantage of this sensor is its complexity associated with the presence in the device of a sufficiently large number of elements.

 Closest to the proposed device is an electronic AC network switch [2] containing a diode-thyristor switch, connected through a load to one of the network buses, the control input of which is connected to the output of the diode-thyristor switch enable unit, a memory element, a rectifier, a synchronization pulse shaper integrating element and decoupling diode.

 A disadvantage of the known device is the complexity of the control circuit of the diode-thyristor key.

 The purpose of the invention is to simplify the device and increase its reliability.

 The goal is achieved in that an electronic AC switch containing a thyristor diode key, the first and second terminals of which are connected directly and directly to the first and second through the AC bus, the control input with the cathode of the dinistor, the thyristor, the control electrode of which is connected to the first output of the resistor, the rectifier key, the first current-limiting circuit, consisting of parallel-connected resistors and a diode, a second current-limiting circuit is introduced, moreover, the cathodes of the first and volt diodes A number of current-limiting circuits are connected to the corresponding busbars of the alternating current network, and the anodes with the corresponding terminals of the diagonal of the rectifier AC, the first terminal of the diagonal of which DC is connected to the anode of the dinistor, through a key with the second terminal of the resistor and the anode of the thyristor, the cathode of which is connected to the second terminal of the diagonal of the direct current rectifier current.

 In addition, the present invention is directed to solving the problem of reducing power losses in the proposed device.

 The goal is achieved in that the electronic switch diode-thyristor key contains two counter-parallel connected thyristors connected to the corresponding terminals of the diode-thyristor key, the control electrodes of the thyristors are connected respectively to the cathodes of the first and second diodes, the anodes of which are connected to the control input of the diode-thyristor the key.

 In FIG. 1 shows an electrical diagram of an electronic switch; in FIG. 2 is a circuit diagram of an electronic switch that improves the characteristics of the switch of FIG. 1; figure 3 presents time diagrams explaining the operation of the proposed device.

 The electronic switch (figure 1) contains a diode-thyristor switch 1, a rectifier key 2, a thyristor 5, current-limiting chains 3 and 4, a key 7.

 The first and second terminals of the diode-thyristor switch 1 are connected respectively to the first directly and to the second through the 9 load AC bus, and the control input to the cathode of the dynistor 8. Each current-limiting chain consists of a resistor and a diode connected in parallel (10, 11 and 12, respectively thirteen). The cathodes of the diodes are connected to the corresponding busbars of the alternating current network, and the anodes to the corresponding terminals of the alternating current of the rectifier 2. The first DC output of the rectifier is connected to the anode of the dinistor 8, the anode of the thyristor 5, through a key 7 with the output of the resistor 6, the second terminal of which is connected to the control electrode thyristor 5. The cathode of the thyristor is connected to the second output of the diagonal of the direct current rectifier. The key 7 can be either mechanical or electronic, controlled by a signal from the control device.

 The switch operates as follows.

 The voltage of the network through the load 9 is supplied to the diode-thyristor switch 1 and through current-limiting chains 3 and 4 to the AC terminals of the rectifier 2.

In the initial state, the key 7 is closed (t _o , Fig.3) and the control electrode of the thyristor 5 is connected through a resistor 6 to the anode of the same thyristor. The thyristor is on. When the positive half-wave of the mains voltage acts on the input of the switch, a current flows through the circuit through the resistor 10, rectifier, thyristor 5, diode 13 (with a negative half-wave through resistor 12, rectifier, thyristor 5, diode 11). The turn-on voltage of the dynistor 8 is selected slightly higher compared to the sum of the voltage drop across the open thyristor 5, diode 13 (11) and the open diode of the bridge 2. Therefore, there is no signal to the control input of the diode-thyristor switch 1, the switch is in a non-conductive state and in load circuit no current.

When the key 7 (t ₁ , Fig. 3) is opened, the control circuit of the thyristor 5 is broken and at the moment of the first after t ₁ transition of the mains voltage through the zero value, the thyristor 5 turns off (t ₂ , Fig. 3). From this point of time, with a positive output of the rectifier ripple voltage is removed _{straightening} U (3b) at twice the mains frequency. The dynistor 8 opens, the pulses from the rectifier are fed to the control input of the diode-thyristor bridge 1, which goes into a conducting state.

To turn off the switch, close the key 7 (t ₃ , Fig.3). In this case, the thyristor 5 is turned on, the control signal is removed from the positive output of the rectifier and the thyristor diode key in the "zero" current goes into a non-conductive state (t ₄ , Fig. 3).

 In FIG. 2 thyristor diode key 1 contains two counter-parallel connected thyristors connected to the corresponding terminals of the thyristor diode key, the thyristor control electrodes are connected to the cathodes of the diodes 14 and 15, the anodes of which are connected to the control input of the thyristor diode key 1. Diodes 14 and 15 are necessary in order to exclude the possibility of turning on the diode-thyristor switch 1 in the absence of a control signal.

 In the proposed device, there are no elements of galvanic isolation of the power part of the circuit from the control circuits, which allowed to significantly simplify the circuit of the electronic AC switch and thereby increase its reliability.

Claims (2)

 1. ELECTRONIC AC NETWORK SWITCH, containing a diode-thyristor switch, the first and second terminals of which are connected directly to the first and second through the busbars of the alternating current, the control input to the cathode of the dinistor, the thyristor, the control electrode of which is connected to the first output of the resistor, a key, a rectifier, a first current-limiting circuit, consisting of a resistor and a diode connected in parallel, characterized in that a second current-limiting circuit is introduced into it, and the cathodes of the first and the second current-limiting circuits are connected to the corresponding busbars of the alternating current network, and the anodes with the corresponding terminals of the diagonal of the rectifier AC, the first terminal of the diagonal of which DC is connected to the anode of the dinistor, through a key with the second terminal of the resistor and the anode of the thyristor, the cathode of which is connected to the second terminal of the diagonal of the constant current rectifier current.  2. The switch according to claim 1, characterized in that the diode-thyristor switch contains two counter-parallel connected thyristors connected to the corresponding terminals of the diode-thyristor switch, the control electrodes of the thyristors are connected respectively to the cathodes of the first and second diodes, the anodes of which are connected to the control thyristor diode key input.

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